CN212339374U - Temperature-controllable heating plate system - Google Patents

Abstract

The utility model provides a controllable board system that generates heat of temperature belongs to the warm field of leading to, specifically includes: the graphene heating plate comprises a graphene heating plate, a first control switch, a switch control module, a capacitive component, a lightning arrester component and an alternating current-direct current conversion plug, wherein the alternating current-direct current conversion plug is used for supplying direct current to the graphene heating plate to generate heat; in addition, the system has simple structure and is convenient to maintain and repair.

Description

Temperature-controllable heating plate system

Technical Field

The utility model relates to a warm technical field that leads to, concretely relates to controllable board system that generates heat of temperature.

Background

With the increasing attention of people on environmental protection, in the heating and ventilation field, the use of clean energy is rapidly developed, and the energy conversion efficiency technology is remarkably improved. The electric energy heating plate is used as a new product in the field of indoor heating ventilation and is widely applied to heating pictures for wall heating, floor heating or indoor decoration.

As the demand of people for indoor heating and ventilation changes along with the change of seasons, indoor heating and ventilation facilities need to be opened all the weather in the winter in the north. Along with the temperature rise, the indoor ventilation demand is gradually reduced, and single high-power heating can not guarantee that the indoor temperature is the optimum temperature. Therefore, the problem of power regulation of the heating plate in the heating and ventilation field needs to be solved urgently.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a controllable board system that generates heat of temperature.

The utility model provides a technical scheme is: a temperature-controllable heat generating plate system, the heat generating plate system comprising: the device comprises a graphene heating plate, a first control switch, a switch control module, a capacitive component, a lightning arrester component and an alternating current-direct current conversion plug;

the graphene heating plate is connected with the first control switch in series and then connected to two ends of the alternating current-direct current conversion plug in parallel;

the capacitive component is connected in parallel with two ends of the first control switch;

the lightning arrester assembly is connected to two ends of the capacitive assembly in parallel;

the switch control module is connected with the first control module and the lightning arrester assembly.

Preferably, the heat generating plate system further includes: a warning light;

the prompting lamp is connected with the lightning arrester component in series.

Preferably, the arrester assembly includes: the overvoltage protector and the second control switch;

the overvoltage protector is connected in parallel with two ends of the capacitive component;

the second control switch is connected with the overvoltage protector;

the second control switch is also connected with the switch control module.

Preferably, the voltage withstanding value of the capacitive component is 40V.

Preferably, 220V alternating current is converted into 24-36V direct current through the alternating current-direct current conversion plug.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model provides an among the technical scheme: the graphene heating plate comprises a graphene heating plate, a first control switch, a switch control module, a capacitive component, a lightning arrester component and an alternating current-direct current conversion plug, wherein the alternating current-direct current conversion plug is used for supplying direct current to the graphene heating plate to generate heat; in addition, the system has simple structure and is convenient to maintain and repair.

Drawings

Fig. 1 is a schematic connection diagram of each component in the heating panel system provided by the present invention.

Detailed Description

For a better understanding of the present invention, reference is made to the accompanying drawings and examples, which are set forth in the following description and are incorporated in the following description.

The embodiment provides a temperature-controllable heating panel system, a schematic connection diagram of components in the system is shown in fig. 1, and the heating panel system includes: the device comprises a graphene heating plate, a first control switch, a switch control module, a capacitive component, a lightning arrester component and an alternating current-direct current conversion plug; the graphene heating plate is connected with the first control switch in series and then connected to two ends of the alternating current-direct current conversion plug in parallel; the capacitive component is connected in parallel with two ends of the first control switch; the lightning arrester assembly is connected to two ends of the capacitive assembly in parallel; the switch control module is connected with the first control module and the lightning arrester assembly. The first control switch is a point switch and can be controlled and responded by the switch control module quickly. The switch control module can receive instruction signals in a wireless communication mode, and then control the first control switch and the second control switch in the lightning arrester assembly.

The heating panel system further includes: a warning light; the prompting lamp is connected with the lightning arrester component in series.

The surge arrester assembly comprising: the overvoltage protector and the second control switch; the overvoltage protector is connected in parallel with two ends of the capacitive component; the second control switch is connected with the overvoltage protector; the second control switch is also connected with the switch control module. The second control switch is a point switch and has the characteristic of quick response. The switch control module includes: the single chip microcomputer unit controls the relay unit to control the starting and stopping of the first control switch and the second control switch. The second control switch is used for controlling the starting and stopping of the overvoltage protector, and when the second control switch is switched on, the overvoltage protector can monitor the charge quantity of the capacitive component in real time when in work. When the charge quantity reaches a first set value, the overvoltage protector and the capacitor assembly form a loop, the capacitor assembly discharges electricity and reduces the voltage, and the prompting lamp works at the moment; when the charge quantity is reduced to a second set value, the overvoltage protector is disconnected, a loop formed by the overvoltage protector and the capacitor assembly is cut off, and the capacitor assembly is charged and boosted. In sum, the capacitor assembly is continuously located within a certain electric charge amount range, voltage division work is carried out, and the power of the graphene heating plate is reduced. In addition, the second control switch controls whether the working state of the overvoltage protector is started or stopped, and the control of the overvoltage protector on the charge quantity of the capacitor component is realized through a switching device in the overvoltage protector.

The voltage withstanding value of the capacitive component is 40V.

The alternating current of 220V is converted into the direct current of 24-36V through the alternating current-direct current conversion plug, and because the capacitive component is characterized by alternating current conduction and direct current resistance, after the alternating current of 220V is converted into the direct current of 24-36V through the alternating current-direct current conversion plug, the capacitor component can be charged, and further the voltage division effect of the capacitor component is realized.

When the graphene heating plate is used, the alternating current-direct current conversion plug is connected with a power supply, the first control switch is controlled to be connected through the switch control module, and the graphene heating plate works to release heat. When the graphene heating plate needs to generate heat at low power, the lightning arrester assembly is controlled to work through the switch control module, and the electric charge amount of the capacitive assembly is monitored in real time. When the charge quantity reaches a first set value, the overvoltage protector and the capacitor assembly form a loop, the capacitor assembly discharges electricity and reduces the voltage, and the prompting lamp works at the moment; when the charge quantity is reduced to a second set value, the overvoltage protector is disconnected, a loop formed by the overvoltage protector and the capacitor assembly is cut off, and the capacitor assembly is charged and boosted. The capacitance assembly is continuously located in a certain electric charge amount range, voltage division work is carried out, and the power of the graphene heating plate is reduced.

It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Claims (5)

1. A temperature-controllable heat generating plate system, characterized in that the heat generating plate system comprises: the device comprises a graphene heating plate, a first control switch, a switch control module, a capacitive component, a lightning arrester component and an alternating current-direct current conversion plug;

the graphene heating plate is connected with the first control switch in series and then connected to two ends of the alternating current-direct current conversion plug in parallel;

the capacitive component is connected in parallel with two ends of the first control switch;

the lightning arrester assembly is connected to two ends of the capacitive assembly in parallel;

the switch control module is connected with the first control switch and the lightning arrester assembly.

2. A temperature-controllable heat generating plate system according to claim 1, further comprising: a warning light;

the prompting lamp is connected with the lightning arrester component in series.

3. A temperature-controllable heat generating plate system according to claim 1, wherein the surge arrester assembly comprises: the overvoltage protector and the second control switch;

the overvoltage protector is connected in parallel with two ends of the capacitive component;

the second control switch is connected with the overvoltage protector;

the second control switch is also connected with the switch control module.

4. A temperature-controllable heat generating plate system according to claim 1, wherein the voltage resistance value of said capacitive component is 40V.

5. A temperature controllable heat generating plate system according to claim 1, wherein 220V ac is converted to 24-36V dc via said ac/dc conversion plug.

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