KR101003093B1 - Charging table with heating function and wireless heating apparatus having the same - Google Patents

Abstract

The present invention relates to a wireless electric heating device having a charging cradle, and more particularly, even when the wireless electric heating device is mounted on a charging cradle, a working heat carrier at the tip of the wireless electric heating device can be always maintained at a constant temperature. It relates to a charging cradle having a heating function and a wireless electric heating device having the same.

The present invention is a cradle main body; A heat carrier installed inside the holder body; A heating element that wraps the heat transfer body and generates heat by receiving power from the outside; And it provides a charging cradle having a heat generating function characterized in that it comprises a charging terminal that is electrically connected to the charged object mounted on the cradle main body to supply power to the charged side.

In addition, the present invention is a main body having a built-in rechargeable battery, a work heat transfer member which is fixed to the front end of the main body when the main body is mounted on a cradle and is introduced into the cradle heating element, and generates heat by the rechargeable battery to transfer work heat. Charging cradle having a heat generating function characterized in that it comprises a heating element for heating the sieve, and the cradle terminal in contact with the charging terminal to receive the charging power of the cradle while the main body is mounted on the cradle It provides a wireless electric heating device having a.

 Wireless electric heating device, cradle, temperature sensor, working heat carrier, heating element,

Description

Charging table having a heating function and a wireless electric heating device having the same {Charging table with heating function and wireless heating apparatus having the same}

The present invention relates to a wireless electric heating device having a charging cradle, and more particularly, even when the wireless electric heating device is mounted on a charging cradle, a working heat carrier at the tip of the wireless electric heating device can be always maintained at a constant temperature. It relates to a charging cradle having a heating function and a wireless electric heating device having the same.

In general, the electric heating device that generates electricity by being supplied with electricity, such as an electric iron or an antique device, is a main body provided with a handle, a heating element that generates heat by itself, and a working heat carrier that generates heat by heat conducted from the heating element. It is composed.

1 shows an electric iron as an example of an electric heating device. As shown in the drawing, a conventional electric iron has a main body 1 having a handle portion 1a and a power source built in the handle portion 1a and supplied from the outside through a power line 1b to supply the power. A heating element 2 for converting into heat of resistance to generate high temperature heat, a protective tube 3 fixed to the front end of the main body 1 to prevent heat generated from the heating element 2 from being released to the outside; A holder 4 inserted into the protection tube 3 to surround the heating element 2 at the tip of the heating element 2 to maintain contact with the heating element 2, and the holder 4 of the holder 4. It is composed of a working heat transfer member 5 formed at an end portion to conduct heat from the heat generating element 2 to generate heat.

The electric iron as described above changes the supplied power to resistance heat to heat the converted resistance heat to high temperature heat through the heating element (2), the heat generated heat is inserted into the holder in contact with the tip of the heating element (2) The heat transfer to the holder (4) generates heat, and the heat conducted to the holder (4) is transferred to the work heat carrier (5) fixed to the tip of the holder (4) while the work heat carrier (5) It will cause fever. Thereafter, the electronic component and the printed circuit board are fixed to each other while soldering at a desired position by using the heated working heat transfer member 5.

On the other hand, the protective tube (3) is fixed to the main body (1) of the iron by the fixing member in a state wrapped around the holder (4) to prevent the heat generated from the heating element (2) to be discharged to the outside.

However, since the electric heating device as described above requires a power cord and a plug to supply electricity to the heating element, there is an inconvenience in that the working radius is limited within the length of the power cord.

Also, unlike the above electric heating device, a wireless electric heating device that uses a rechargeable battery as a power source is also known. Such a wireless electric heating device can be operated in a relatively wide range without being tied to a place as the power cord becomes unnecessary. The demand is increasing because of possible advantages.

In such a wireless electric heating device, a charging cradle for charging a rechargeable battery is essential. When the wireless electric heating device is not used, the charging cradle is mounted on the charging cradle with the switch turned off. Charging is done automatically while on the cradle.

On the other hand, when placing the switch on the wireless electric heating device when the wireless electric heating device is turned on in the off state because not only the charging time is longer but also the life of the rechargeable battery is shortened due to the continuous consumption of the rechargeable battery. Therefore, while the wireless electric heating device is mounted on the cradle, the switch is turned off as described above, so that the temperature of the work heat transfer device drops. Accordingly, when the wireless electric heating device is taken out of the cradle and reworked, the heat is transferred. The low temperature of the sieve makes it impossible to work immediately.

Eventually, in order to take out the wireless electric heating device mounted on the cradle from the cradle and work, the work heat carrier is reheated with the switch of the wireless electric heating device switched on and the work is not resumed until the temperature of the working heat carrier reaches a certain temperature. This can lead to a loss of working time.

In addition, in order to alleviate the inconvenience of having to reheat the working heat carrier as described above, when the wireless electric heating device is mounted on the cradle while the switch of the wireless electric heating device is turned on, the battery is continuously consumed and the battery has to be recharged during the operation. In addition, the life of the rechargeable battery will be shortened.

The present invention allows the working heat carrier to be maintained at a predetermined temperature without dropping the temperature of the working heat carrier even when mounted on the cradle with the switch of the wireless electric heating device turned off. It is to provide a charging cradle having a heating function that can be used immediately without reheating and a wireless electric heating device having the same.

Cradle body according to the object of the present invention as described above; A heat carrier installed inside the holder body; A heating element that wraps the heat transfer body and generates heat by receiving power from the outside; A charging cradle having a heat generating function is provided, comprising a charging terminal electrically connected to the charged object mounted on the cradle main body to supply power to the charged side.

In addition, according to the object of the present invention as described above, the main body having a built-in rechargeable battery, the working heat transfer member is fixed to the front end of the main body is introduced into the cradle heating element when the main body is mounted on the cradle, and the charging It is characterized in that it comprises a heating element that generates heat by the battery to heat the work heat transfer body, and the terminal in contact with the charging terminal to receive the charging power of the cradle while the main body is mounted on the cradle A wireless electric heating device having a charging cradle having a heat generating function is provided.

In this case, it is preferable that the working heat transfer body and the heating element are made of metals of different materials so that they can function as a temperature sensor.

The cradle includes a controller that receives a thermal current signal generated by a thermoelectric power between the work heat carrier and the heating element from a wireless electric heating device when the temperature of the work heat carrier decreases, and the controller generates a cradle heating element according to the electric signal. It is possible to ensure that the temperature of the working heat carrier is kept constant at all times by supplying power to the heat generator to generate heat to reach the set temperature.

On the other hand, the working heat carrier may be provided with a separate temperature sensor to measure the temperature without using a temperature sensor of a dissimilar metal configuration. In this case, the cradle includes a control unit for receiving the output signal of the temperature sensor from the wireless electric heating device when the temperature of the work heat carrier decreases, and the control unit supplies power to the cradle heating element in accordance with the electrical signal to the work heat carrier. The temperature of the working heat carrier can be kept constant at all times by generating heat to reach the set temperature.

According to the present invention, the wireless electric heating device is provided with a main control unit for detecting the temperature of the working heat transfer unit through the heat current signal or the output signal of the temperature sensor and transferring it to the controller of the cradle, the main control unit is the temperature of the work heat transfer unit In order to maintain the set temperature, it is possible to transmit the heating signal to the controller of the cradle through the cradle terminal and the charging terminal.

According to the present invention, when the temperature of the work heat carrier decreases as it is mounted on the cradle with the switch of the electric iron turned off, the temperature sensor detects this and at the same time, the cradle heating element installed in the cradle generates heat to heat the work heat carrier. When the wireless electric heating device is withdrawn from the cradle and used again, the working heat carrier can be immediately worked without reheating.

Therefore, the working time is shortened and the efficiency is improved. When the wireless electric heating device is mounted on the cradle, the switch of the wireless electric heating device does not need to be turned on continuously, thereby eliminating the inconvenience of recharging during operation due to the consumption of the rechargeable battery and It can extend the life.

In addition, since the working heat carrier and the heating element are made of different metals and bonded to each other, they function as a temperature sensor, so that a separate temperature sensor is not required and the temperature measurement is very accurate.

In the present embodiment, but is shown and described as an example of a representative wireless soldering iron of the wireless heating device, various modifications and changes of the present invention without departing from the spirit or field of the invention provided by the claims below It should also be included in the scope of the present invention.

The present invention is largely divided into a wireless electric heating device 10 and the cradle 20 to which the wireless electric heating device is mounted.

The wireless electric heating device 10 has a main body 11 forming an appearance, a rechargeable battery (not shown) mounted in the main body, a holder 12 fixed to the main body, and fixed to the tip of the holder. And a heat generator 14 integrally fixed to the work heat carrier 13, and a conductor 15 connected between the rechargeable battery and the heat generator.

Therefore, when the switch (not shown) is turned on, a current flows from the rechargeable battery to the heat generator 14 through the conductor 15, thereby generating heat to the heat generator 14, and thus the working heat carrier 13 is heated to a high temperature. It is possible to perform a predetermined operation.

The working heat carrier 13 in the form of wrapping the heating element 14 is made of metal such as copper having good conductivity, and the heating element 14 wrapped by the working heat carrier 13 has a specific resistance such as stainless steel or iron chromium. The opposite end of the heat generating element 14, which is made of a high metal and whose one end is connected to the conductor 15, is joined to the working heat transfer element 13.

On the other hand, the wireless electric heating device may be further provided with a temperature sensor for measuring the temperature of the working heat carrier. That is, when a temperature difference occurs between the junction point of the heating element 14 and the working heat transfer member 13 made of metal of different materials and the opposite junction point of the working heat transfer element 13 (that is, the terminal on the temperature detector side), the Seebeck ( The thermoelectric power is generated between the junction points by the Seebek) effect, so that a current (thermal current) flows, so that the working heat carrier 13 and the heat generator 14 may be combined with each other to serve as a temperature sensor.

If the working heat carrier has a conventional heat generation and heat transfer structure not composed of dissimilar metals, a conventional temperature sensor may be separately installed.

The holder 20 is formed with a support wall 21 having a shape in which the holder 12 of the wireless electric heating device 10 can be inserted and supported, and a heat transfer member is formed at the tip of the support wall 21. 22 is coupled by screwing or the like, and the heat transfer body 22 is positioned at the position surrounding the work heat transfer unit 13 when the wireless electric heating device 10 is mounted.

A cradle heating element 23 is installed at an outer circumference of the heat transfer body 22, and the cradle heating element 23 is mounted on the cradle 20 in a state where the wireless electric heating device 10 is switched off, as will be described later. As it is mounted, it generates heat when the temperature of the work heat carrier 13 drops to heat the work heat carrier 13.

In addition, in the cradle 20, a control board 24 and a charging terminal 25 connected from the control board are installed, and the charging terminal 25 is mounted on the cradle 20 by the wireless electric heating device 10. When it is connected to the stationary terminal 16 of the wireless electric heating device 10 is electrically connected to supply power to the rechargeable battery.

Figure 4 is a block diagram for explaining the operation of the present invention, the thermal current signal generated by the main control unit, the thermal power of the working heat carrier and the heating element on the wireless electric heating device side or the output signal of the temperature sensor (hereinafter, Whether the temperature detection signal amplification unit amplifies the " temperature signal of the temperature sensor " and transfers the thermal current signal to the main controller, and whether the charging terminal 25 of the rechargeable battery is connected to the charging terminal 25 of the holder. It is equipped with a deferred detection unit for detecting and sending a signal to the main control unit.

The cradle side includes a control unit, an AC / DC power supply unit for supplying power to the control unit, and a charge voltage current detection unit that detects the charging voltage and current of the charging terminal 25 connected to the cradle terminal and sends a signal to the control unit. The cradle heating element 23 is controlled by the controller.

In addition, the temperature signal introduced into the main controller through the temperature detection signal amplification unit is sent to the controller of the cradle through the cradle terminal 16 and the charging terminal 25 of the cradle.

That is, the temperature signal detected from the temperature sensor is transmitted and received through the charging terminal 25 installed in the cradle terminal 16 and the cradle installed in the wireless electric heating device.

When the wireless electric heating device 10 of the present invention as described above is mounted on the cradle 20, it is recognized that the wireless electric heating device 10 is mounted on the cradle 20 by the cradle detecting unit. Power is supplied to the rechargeable battery through the charging terminal 25 and the mounting terminal 16 by signals of the main controller and the cradle controller of the charging unit.

At this time, if the switch is on, it can be turned off according to the user's intention.

In addition, when the temperature of the work heat transfer device 13 decreases as time passes in the state in which the wireless electric heating device is switched off, the main control unit detects this and generates the heating element 23 installed in the holder 20. By supplying power to prevent the temperature drop of the working heat carrier 13, it will be described in detail below.

When the wireless electric heating device 10 is mounted and mounted on the holder 20 while the switch is turned off, the wireless electric heating device 10 is supported and fixed by the support wall 21 of the holder 20 as shown in FIG. 2. At this time, the work heat transfer member 13 installed at the front end of the holder 12 is positioned in the heat transfer body 22 installed in the holder 20, and the wireless electric heating device through the charging terminal 25 and the mounting terminal 16. Charging is performed on the rechargeable battery built into the main body 11.

As the temperature of the work heat transfer body 13 exposed to the outside during the charging process for the rechargeable battery is lowered When the temperature signal of the temperature sensor decreases, the temperature detection signal amplifying unit amplifies the temperature signal and transmits the temperature signal to the main control unit, and the main control unit converts the amplified temperature signal into temperature to detect the current temperature. The main control unit sends a heating signal to the controller of the cradle 20 through the cradle terminal 16 and the charging terminal 25 when it is determined that the current temperature is low compared with the set temperature. When a heating signal is input to the control unit of the cradle 20, the AC / DC power supply unit supplies power to the cradle heating element 23 by the heating signal, and thus the cradle heating element 23 is heated and the work heat transfer located in the heat transfer body 22. The sieve 13 is raised in temperature with the heat generated by the cradle heating element 23.

In the above, an example in which the signal of the temperature detection signal amplification unit of the wireless electric heating device is transmitted to the controller of the cradle through the cradle terminal 16 and the charging terminal 25 has been described. It can also be configured by optical coupling to transmit and receive signals.

On the other hand, when the temperature signal of the temperature sensor increases as the temperature of the working heat carrier 13 increases, the temperature detection signal amplifying unit amplifies the temperature signal at this time and transmits it to the main controller, and the main controller converts the amplified thermal current signal into temperature. The current temperature is detected. The main control section blocks the heating signal if it is determined that the present temperature is not low compared to the set temperature. Accordingly, the power supply to the cradle heating element 23 is cut off while the power supply to the cradle heating element 23 is cut off, thereby lowering the temperature of the working heat transfer element 13. When the temperature of the work heat carrier 13 falls above a predetermined temperature, the temperature sensor detects this and heats the cradle heating element 23 again as described above, so that the work heat carrier 23 always maintains a constant temperature. .

On the other hand, for more precise temperature control, since the temperature signal of the temperature sensor is a continuous value, the heating value of the heating element may be continuously changed by transmitting the continuous value without turning on / off the heating signal.

Therefore, even if you want to use the wireless heating device after a certain amount of time in the state that is mounted on the cradle with the switch of the wireless heating device off, immediately use the heat transfer device 13 without reheating. It will be possible.

1 is a cross-sectional view showing an example of a conventional wireless electric heating device.

Figure 2 is a schematic cross-sectional view showing a state in which the wireless electric heating device mounted on the cradle in accordance with an embodiment of the present invention

3 is a cross-sectional view of the working heat transfer device of the wireless electric heating device according to the present invention.

4 is a block diagram illustrating the operation of the present invention.

[Description of Reference Numerals]

  1: wireless electric heating device 2: holder

 13 working heat transfer body 14 heating element

 16: mounting terminal 21: support wall

 22: heat transfer member 23: cradle heating element

 25: charging terminal

Claims (7)

delete A cradle main body, a heat carrier installed inside the cradle main body, a heating element that surrounds the heat transfer body and receives power from the outside, and generates heat by itself, and is electrically connected to a to-be-filled object mounted to the cradle main body to supply power to the to-be-filled side. In the wireless electric heating device having a charging cradle having a heating function having a charging terminal for supplying, A main body having a built-in rechargeable battery, a work heat carrier fixed to the front end of the main body and introduced into the cradle heating element when the main body is mounted on the cradle, and heated by the rechargeable battery to heat the work heat carrier. It includes a heating element, and the terminal in contact with the charging terminal to receive the charging power of the cradle while the main body is mounted on the cradle, The working heat carrier and the heating element are made of metal of different materials so as to serve as a temperature sensor by itself, The cradle includes a control unit that receives and receives a thermal current signal generated by the heat power generated by the temperature sensor function of the working heat carrier and the heating element when the temperature of the working heat carrier decreases. The control unit is a wireless electric heating device having a charging cradle having a heating function, characterized in that for supplying power to the cradle heating element in accordance with the thermal current signal to maintain the temperature of the working heat carrier. delete delete delete delete 3. The method of claim 2, The wireless electric heating device is provided with a main control unit for sensing the temperature of the working heat transfer unit through the heat current signal and delivers to the controller of the cradle, The main control unit is a wireless electric heating device having a charging cradle having a heating function, characterized in that for transmitting the heating signal to the control unit of the cradle through the cradle terminal and the charging terminal in order to maintain the temperature of the work heat carrier to a set temperature. .

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