RU177674U1 - DEVICE FOR HEATING A CONTAINER BY INDUCTION HEATING - Google Patents

Abstract

The utility model relates to induction devices, in particular to devices for heating a container by induction heating. It can be used to carry out complex technological processes, for example, such as distillation and / or as a stove for cooking food by induction heating with precise control of the temperature of the medium in a heated container. A device for heating a container by induction heating comprises a top panel having a heating region for heating the container mounted on it, a heating element located under the upper panel opposite the heating region to generate magnetic fields necessary for induction heating of the container, an inverter for supplying current to the heating element, the first temperature sensor located under the upper panel for measuring the temperature of the upper panel in the heating area, control means for controlling steam meters at the output of the inverter, while the heating element is electrically connected to the inverter, and the inverter and the first temperature sensor are electrically connected to the control means, further comprises a second temperature sensor, for example, a thermistor connected by an electric wire to the control means with the ability to move the second temperature sensor and measure the temperature of the medium in container, and the control tool is equipped with a microprocessor temperature controller to set the temperature of the medium in the container, determine the pace temperature based on the output signal of the second temperature sensor and providing a control signal for changing parameters at the inverter output. The technical result is the ability to set and maintain an accurate temperature value (up to 0.1 ° C) of the medium in a heated container for a predetermined time interval with a minimum temperature hysteresis, which is a necessary condition for the implementation of such technological processes as distillation. 1 s.p. f-ly, 2 ill.

Description

This utility model relates to a device for heating a container by induction heating and is intended to heat a container with a given power, which is controlled based on the temperature of the medium in the container.

In the known device for heating the container by induction heating, described in the Instructions for the induction cooker (prototype): http://tesler-electronics.ru/item/202/bytovaya-texnika/plitki-indukcionnye/plitka-indukcionnaya-tesler-pi-16 /

and intended for heating the container by induction heating, a temperature sensor in contact with the lower surface of the upper panel on which the container is mounted measures the temperature of the container. The heating power of the container is controlled by a signal from this sensor. The top panel in such devices is usually made of glass-ceramic and has a low thermal conductivity.

Therefore, when a heat-sensitive element, such as a thermistor, receives heat due to heat conduction, the delay in the thermal response of the upper plate causes a large temperature difference between the temperature determined by the heat-sensitive element and the actual temperature of the medium in the container, thus preventing accurate and fast temperature detection.

This temperature control works well to turn off the heating in case the temperature of the container exceeds the maximum permissible level.

This happens, for example, at the end of cooking.

As water boils away, the temperature of the container begins to increase and the heat-sensitive element transmits a signal to the control means to turn off the heating.

Technical problem.

The design of the prototype does not allow to maintain the exact temperature of the medium in the container (with fluctuations within 0.1 ° C) for a given time due to the large measurement error due to the delay in transmitting temperature data due to the thermal conductivity of the upper panel and, as a result, the occurrence of significant temperature hysteresis.

The known device makes it possible to set the temperature only at intervals of 20 ° C.

In this case, fluctuations in the temperature of the medium in the container during heating occur within 10-15 ° C from the set value.

This disadvantage is critical for the implementation of certain technological processes, for example, for the implementation of the distillation process.

The objective of the utility model is to create a device for heating the container by induction heating with the ability to set and maintain a given value of the temperature of the medium in the container with high accuracy for a given time interval with minimal temperature hysteresis.

The technical result.

The essence of the utility model is that the determination of the temperature of the medium in the container using a second temperature sensor connected to the control means by an electric wire allows you to create a temperature control system based on the feedback principle with the ability to set the set temperature of the medium in the container with an accuracy of 0.1 ° C and a minimum temperature hysteresis. The microprocessor temperature controller of the control means receives data on the temperature of the medium in the container from the second temperature sensor and, in accordance with the program, makes adjustments to the heating power, including the frequency of its on-off, which allows, unlike the prototype, to set and maintain a given temperature of the medium in the container with accuracy up to 0.1 ° C for a given time interval without critical fluctuations from a given exact value and error, which in the prototype is due to the absence in the control means of the microprocessor temperature controller function and measuring the temperature of the medium in the container indirectly through the container wall and the top panel.

The claimed technical result according to the first embodiment of the utility model is achieved in that the device for heating the container by induction heating comprises a top panel having a heating region for heating the container mounted on it, a heating element located under the upper panel opposite the heating region to generate magnetic fields necessary for induction heating the container, an inverter for supplying current to the heating element, the first temperature sensor located under the top panel for measuring the temperature of the upper panel in the heating region, control means for controlling the parameters at the inverter output, the heating element being electrically connected to the inverter and the inverter and the first temperature sensor electrically connected to the control means, according to a utility model, further comprises a second thermal sensor connected by an electric wire to the control means with the ability to move the second temperature sensor and measure the temperature of the medium from the container, and the control means is equipped with microprocessors m temperature controller to set the temperature of the medium in the container, determine the temperature based on the output signal of the second temperature sensor and provide a control signal for changing parameters at the inverter output.

The claimed technical result according to the second embodiment of the utility model is achieved by the fact that the microprocessor thermostat is made on a separate board.

In the future, the utility model is illustrated by the description of the preferred embodiments with reference to the drawings, in which:

FIG. 1 is a block diagram of an apparatus for heating a container by induction heating according to a first embodiment of a utility model;

FIG. 2 is a block diagram of an apparatus for heating a container by induction heating according to a second embodiment of the utility model.

A device for heating the container by induction heating (Fig. 1) consists of a container 1 containing a liquid mixture 2, which is located freely on the top panel 3 in the heating area.

The container 1 may be part of a distillation apparatus (distiller).

The top panel 3 is the cover of the housing 4 and is made of glass ceramics.

The heating element 5 is located under the upper panel 3 and performs induction heating of the container 1.

The heating element 5 is one ring heating induction coil having a hole in the center and ferrite rods 6. The heating element 5 is connected to an inverter 7, which supplies a high frequency current to it.

The first temperature sensor 8, for example, a thermistor, is in contact with the lower surface of the upper panel 3 in the heating region, while receiving heat from the upper panel 3 due to thermal conductivity and thereby measures the temperature of the lower surface of the container 1.

The second temperature sensor 9 (remote) is taken out of the housing 4 by an electric wire 10 with the possibility of its movement and measuring the temperature of the medium inside the container 1.

Thus, the second temperature sensor 9 measures the temperature of the medium (liquid or gas, depending on the task) in the container 1.

The first 8 and second 9 temperature sensors are connected to the control means 11. The control means 11 is a printed circuit board with radioelements electrically interconnected on the board, a heating controller and a microprocessor temperature controller that controls the parameters of the device based on the program, and, in particular, the output power inverter 7, as well as its on-off based on temperature data coming from the first 8 and second 9 temperature sensors.

The control tool 11 also provides other functions: a timer, automatic shutdown, etc.

The control means 11 is electrically connected to the operation unit 12.

The operation unit 12 contains a board with buttons, indicators and a digital information display.

The current from the network 13 is fed through a rectifier (not shown) to the inverter 7 (inverter circuit), control means 11, heating element 5, while the heating element 5, inverter 7, first temperature sensor 8, control means 11, operation unit 12, second temperature sensor 9 are electrically connected.

The housing 4 has openings for air inlet and outlet (not shown). A fan (not shown) is provided for cooling.

According to the second embodiment, in the device for heating the container by induction heating (Fig. 2), the microprocessor temperature controller 14 is made in the form of a programmable temperature controller on a separate board. The second temperature sensor 9 is connected by an electric wire to the control means 11 through the board of a programmable microprocessor temperature controller 14.

In this case, the programmable microprocessor thermostat is equipped with a three-digit digital LED-display and a second operating unit 15.

Microprocessor temperature controller 14 is an electronic device with a printed circuit board, radio components, a microcircuit for temperature control in a certain range. The microprocessor temperature controller 14 provides in this utility model preliminary processing of data coming from the second temperature sensor 9, precise settings and setting the temperature to 0.1 ° C, gives the command to the control tool to change the parameters at the inverter output in accordance with the results of determining the temperature of the medium in the container. The second operating unit 15 with three buttons is used to set the exact value of the temperature of the medium in the container and for programming the thermostat 14. The microprocessor-based thermostat 14 and the additional operating unit 15 are electrically connected to each other and to the control means board 11.

We consider the operation of the device using the example of the second variant of the utility model.

The device is installed on a flat and solid horizontal surface, for example, a wooden table with a weight of at least 20 kg.

Provide a minimum of 25 cm distance from the device to the nearest wall for proper ventilation.

Connect the device to the AC network 13 and turn on the button of the first operating unit 12.

On the upper panel 3, a heating container 1 is placed in the heating region.

Liquid mixture 2 is poured into the container (2/3 of the total volume of the container), which must be separated by distillation.

The second temperature sensor 9 is placed in a liquid mixture 2 located in an open container 1 or inside a closed container 1 without contacting it with a liquid mixture 2 through an opening in the container 1.

Using the first operating unit 12, the heating power control mode and - / + buttons set the heating power of the heating element 5 according to the correlation table between the heating power and the required temperature of the medium in the container 1 to ensure minimum temperature hysteresis.

Installed power in watts (W) is reflected in the digital information display of the first operating unit 12.

From the moment of setting the heating power of the heating element 5, the current is supplied to the heating element 5 and the process of induction heating of the container 1 begins.

Using the second operating unit 15, the buttons set the temperature of the medium in the container, which is displayed on a 3-digit LED display, which is equipped with a programmable microprocessor thermostat 14.

After setting the temperature of the medium in the container 1, the device heats the container to a predetermined temperature of the medium, for example, at 78.5 ° C and subsequently constantly automatically maintains it, including by stopping / resuming the current supply to the heating element 5. Next, use the timer button first operation unit 12 set the time interval during which the device will automatically maintain a given temperature in the container 1. For example, set the timer for 3 hours.

Moreover, during the heating of the container 1, deviations from the set temperature of 78.5 ° C during heating will be no more than 0.1 ° C.

The implementation of the device according to the second embodiment of the utility model makes it possible to use it for another purpose, namely as a tile for cooking with induction heating.

The execution of the microprocessor thermostat on a separate board allows you to reprogram the microprocessor thermostat in isolation from the general program of the control tool to achieve the minimum temperature hysteresis during the heating of the container.

Thus, this useful model allows you to set and maintain the exact value of the temperature of the medium in the container up to 0.1 ° C for a given time interval with minimal deviations from the set value (up to 0.1 ° C) during heating, which allows you to use the device for complex technological processes, such as, for example, distillation.

Claims (2)

1. Device for heating the container by induction heating, comprising a top panel having a heating region for heating the container mounted on it, a heating element located under the top panel to generate magnetic fields necessary for induction heating of the container, an inverter for supplying current to the heating element, first a temperature sensor located under the upper panel for measuring the temperature of the upper panel in the heating region, control means, while the heating element is electric eski is connected to the inverter, and the inverter and the first temperature sensor are electrically connected to the control means, characterized in that it further comprises a second temperature sensor, for example, a thermistor connected by an electric wire to the control means to move the second temperature sensor and measure the temperature of the medium in the container, and the control means equipped with a microprocessor temperature controller for setting the temperature of the medium in the container, determining the temperature based on the output signal of the second a temperature sensor and providing a control signal for changing the current parameter at the inverter output. 2. A device for heating a container by induction heating according to claim 1, characterized in that the microprocessor temperature controller is made on a separate board.

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