CN111928301A

CN111928301A - Operation method of electric heating furnace

Info

Publication number: CN111928301A
Application number: CN202010584350.2A
Authority: CN
Inventors: 黎伟文
Original assignee: Foshan City Shunde District Pufate Electric Appliance Industrial Co ltd
Current assignee: Foshan City Shunde District Pufate Electric Appliance Industrial Co ltd
Priority date: 2020-06-24
Filing date: 2020-06-24
Publication date: 2020-11-13

Abstract

The invention relates to an operation method of an electric heating furnace, which comprises the following steps: step one, electrifying an electric heating furnace and enabling the electric heating furnace to enter a standby state; and secondly, applying external force to the weighing component for a short time to ensure that the weighing data of the weighing component suddenly changes when the external force is applied for the short time and resets after the external force is applied for the short time, and feeding back the weighing data to the control component, after the control component obtains the sudden change and reset state change of the weighing data in the short time, controlling the electric heating furnace to enter a heating state, and feeding back the current working state of the electric heating furnace to a user through the working state feedback component. The electric heating furnace is provided with the weighing component, and is matched with an innovative and convenient user gesture control method to apply external force to the weighing component in a short time, so that the electric heating furnace is controlled to enter a heating state, switch a heating mode of the heating state, enter a standby state, reset for standby again and the like, and the electric heating furnace is controlled without the traditional operation modes such as an entity key or a knob or a touch switch.

Description

Operation method of electric heating furnace

Technical Field

The invention relates to an operation method of an electric heating furnace.

Background

The electric heating furnaces are various, such as electric ceramic furnaces, induction cookers and the like, and are devices capable of heating containers (such as kettles, cookers and the like).

In the prior art, the operation of the electric heating furnace is controlled by operating keys or knobs and the like, and the operation method is more traditional.

Disclosure of Invention

The invention aims to provide an operation method of an electric heating furnace, which can operate the operation of the electric heating furnace by a method of applying external force to a weighing component for a short time through gestures of a user and the like.

The purpose of the invention is realized as follows:

an operation method of an electric heating furnace comprises a host machine and a weighing component, wherein the host machine can be used for placing a container and heating the container, the weighing component can be used for weighing the container, the host machine is provided with a heating component for heating the container, the host machine is also internally provided with a control component and a working state feedback component, the weighing component, the heating component and the working state feedback component are respectively and electrically connected with the control component, and the operation method of the electric heating furnace comprises the following steps:

step one, electrifying an electric heating furnace, enabling the electric heating furnace to enter a standby state, and feeding back the current working state of the electric heating furnace to a user through a working state feedback assembly;

and step two, applying an external force to the weighing component for a short time by using gestures, so that the weighing data of the weighing component is suddenly changed when the external force is applied for a short time, the weighing data is reset after the external force is applied for a short time, and the weighing data is fed back to the control component, after the control component obtains the sudden change and reset state change of the weighing data in a short time, the electric heating furnace is controlled to enter a heating state, and the current working state of the electric heating furnace is fed back to a user through the working state feedback component.

The operation method of the electric heating furnace further comprises the following steps:

step three, repeating a method of applying external force to the weighing component for a short time by using gestures, so that the weighing data of the weighing component is repeatedly subjected to sudden change when the external force is applied for a short time and repeatedly reset after the external force is applied for a short time, and is repeatedly fed back to the control component, after the control component repeatedly obtains the state change of sudden change and reset of the weighing data in a short time, the control component controls the electric heating furnace to switch the working mode of the heating state or controls the electric heating furnace to enter the standby state again, and feeds back the current working state to the user through the working state feedback component;

and step four, when the electric heating furnace enters the heating state, the weighing component feeds back data of continuously weighing the container to the control component, when the weighing component detects that the weight of the container is reduced to a specified threshold value, the control component controls the electric heating furnace to switch the heating mode of the heating state or controls the electric heating furnace to enter the standby state again, and feeds back the current working state to the user through the working state feedback component.

In the first step, after the electric heating furnace is powered on, the weighing component feeds back the weight pressure of the container to the control component to obtain stable weighing data, so that the control component controls the electric heating furnace to enter a standby state, and feeds back the current working state to a user through the working state feedback component.

In the first step, after the electric heating furnace is powered on, the external force is applied to the weighing component for a short time through gestures, so that the weighing data of the weighing component is suddenly changed when the external force is applied for a short time, the weighing data is reset after the external force is applied for a short time, the weighing data is fed back to the control component, the electric heating furnace is controlled to enter a standby state after the control component obtains the sudden change and reset state change of the weighing data in a short time, and the current working state of the electric heating furnace is fed back to a user through the working state feedback component.

And in the first step, after the electric heating furnace is electrified, the main switch is turned on, so that the control component controls the electric heating furnace to enter a standby state, and the current working state of the electric heating furnace is fed back to a user through the working state feedback component.

The method for applying external force to the weighing component for a short time by using gestures comprises one or more of the following steps of beating the container/host/weighing component for a short time by using gestures, pressing the container/host/weighing component for a short time by using gestures, lifting the container/host for a short time by using gestures, and shaking the container/host/weighing component for a short time by using gestures.

The working state feedback component is one or a combination of more than one of a vibration component, a voice playing component, a light component and a display screen component.

The container and the host machine are of an integrated structure, and the heating assembly is arranged below or around the container.

The container and the host are of a split structure, the host is provided with a panel which can be used for bearing the container, the heating assembly is arranged below the panel, or the heating assembly is arranged at the bottom of the container, an electric coupler is arranged between the host and the container, the heating assembly is electrically connected with the control assembly through the electric coupler, or the heating assembly is arranged in the host, and the upper surface of the heating assembly is exposed out of the host and forms a heating surface which is used for bearing the container.

The electric heating furnace is provided with the weighing component, and is matched with an innovative and convenient user gesture control method to apply external force to the weighing component in a short time, so that real-time weighing data of the weighing component is changed and reset in a short time, the weighing component feeds back the real-time weighing data to the control component, and after the control component learns the change, the electric heating furnace can be controlled to switch the working state, such as controlling the electric heating furnace to enter a heating state, switching a heating mode of the heating state, entering a standby state, resetting the standby state and the like.

The operation method of the electric heating furnace is novel and unique, and can be widely applied to various electric heating furnaces, such as electric ceramic furnaces, induction cookers, health preserving furnaces, electric heating kettles, electric heating cups, electric chafing dishes, medicine recognition furnaces, stewing furnaces, other novel cooking devices and the like.

The container of the invention is not limited by material and structure, and can be a kettle body, a cup body, a pot body, a container in other forms and the like with certain volume, and can also be other objects capable of acquiring and storing heat energy, such as hand warmers and the like.

The heating component can be a common electric heating element (such as a metal heating tube, a PTC heater and the like), an IH electromagnetic heating component, a semiconductor heater, other novel heating components (such as a resistance wire heating element, a carbon fiber heating element, a carbon-based ink heating element and a graphene heating element) and the like. In addition, the semiconductor heater can have a refrigerating effect after the polar phase is reversed, so the control method can be directly applied to products in the field of electric refrigeration furnaces, such as cold cup mats and the like.

Additional aspects and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a schematic structural view of an electric heating furnace according to a first embodiment of the present invention.

Fig. 2 is a schematic circuit diagram of an electric heating furnace according to a first embodiment of the present invention.

Detailed Description

The invention is further described with reference to the following figures and examples.

First embodiment

Referring to fig. 1-2, the electric heating furnace includes a main machine 1 capable of placing a container 2, heating the container 2, and a weighing assembly 13 capable of weighing the container 2, wherein a heating assembly 12 for heating the container 2 is disposed on the main machine 1, a control assembly 14 and a working state feedback assembly are further disposed in the main machine 1, in this embodiment, the container 2 and the main machine 1 are of a split structure, the main machine 1 is provided with a panel 11 capable of bearing the container 2, the heating assembly 12 is disposed below the panel 11, and the weighing assembly 13, the heating assembly 12 and the working state feedback assembly (not shown in the figures) are respectively electrically connected with the control assembly 14.

Specifically, the operation method of the electric heating furnace comprises the following steps:

and step two, applying an external force to the weighing component 13 for a short time (the time is generally maintained within 0.1-3 seconds and the duration is short) by using gestures and the like, so that the weighing data of the weighing component 13 is suddenly changed when the external force is applied for the short time, the weighing data is reset after the external force is applied for the short time, and the weighing data is fed back to the control component 14, after the control component 14 obtains the state change of sudden change and reset of the weighing data in the short time, at the moment, the control component 14 judges that the working state of the electric heating furnace needs to be switched by a user, then the electric heating furnace is controlled to enter a heating state, and the current working state of the electric heating.

The electric heating furnace is provided with the weighing component 13, real-time weighing data of the weighing component 13 is changed and reset in a short time by applying external force to the weighing component 13 in a short time, the weighing component 13 feeds back to the control component 14 in real time, and after the control component 14 learns the change, the electric heating furnace can be controlled to switch working states, such as controlling the electric heating furnace to enter a heating state, switching a heating mode of the heating state, entering a standby state, resetting the standby state and the like.

The method for applying external force to the symmetrical recombinant part 13 in a short time is various, for example, the external force directly acts on the weighing component 13, or the external force indirectly acts on the weighing component 13 (the external force acts on the container 2, the host 1, the panel 11, the heating component 12 and the like, and acts on the weighing component 13 through the external force, so that the weighing component 13 can generate the situation that weighing data changes and resets in a short time, the situation can be used as a trigger condition for controlling the electric heating furnace to enter a heating state, switch a heating mode of the heating state, enter a standby state and the like by the control component 14, the weighing component 13 is matched with the external force to act as a control switch of the electric heating furnace, the traditional entity key or knob or touch switch of the electric heating furnace can be eliminated, and the appearance design of the electric heating furnace has a larger space.

More specifically, the method of applying external force for a short time by the recombination member 13 can be implemented in particular by means of a combination of innovative and convenient user gesture control, as described below.

Further, the operation method of the electric heating furnace further comprises the following steps:

step three, repeating the method of applying external force to the weighing component 13 for a short time by using gestures (likewise, the time is generally maintained within 0.1-3 seconds, the duration is short), so that the weighing data of the weighing component 13 is repeatedly suddenly changed when external force is applied for a short time, the weighing data is repeatedly reset after the external force is applied for a short time, and the weighing data is repeatedly fed back to the control component 14, after the control component 14 repeatedly obtains the sudden change and reset state change of the weighing data in a short time, at this time, the control component 14 judges that the user needs to continuously switch the working state of the electric heating furnace (including the working mode of switching the heating state and the switching standby state belong to the switching working state), and then controls the electric heating furnace to switch the working mode of the heating state (such as switching the heating modes of high power heating, medium power heating, low power heating and the, the current working state of the user is fed back to the user through the working state feedback assembly;

step four, when the electric heating furnace enters a heating state, the weighing component 13 continuously obtains weighing data, and in the heating process, the liquid is evaporated and the weight is reduced, and when the weight is reduced to a certain threshold (such as 3-20 g reduction by design), it can be judged that the liquid is boiling, at this time, the electric heating furnace can be controlled to switch the heating mode of the heating state or the electric heating furnace can be controlled to enter the standby state again, specifically, the weighing component 13 feeds back the data of continuously weighing the container 2 to the control component 14, when the weighing component 13 detects that the weight of the container 2 is reduced to a designated threshold value, the control component 14 controls the electric heating furnace to switch a heating mode of a heating state (such as a heating mode of heat preservation, low-power heating and the like) or controls the electric heating furnace to enter a standby state again, and feeds back the current working state to a user through the working state feedback component.

The working state of the electric heating furnace can be continuously switched by the third step, namely, the method of applying the external force to the weighing component 13 for a short time by using the gestures is repeated.

And step four, the working condition of the electric heating furnace can be controlled by the electric heating furnace according to the setting of different heating modes, and automatic heating control is realized.

Further, in the first step, after the electric heating furnace is powered on, the weighing component 13 feeds back the weight of the container 2 to the control component 14 to obtain stable weighing data (the container 2 is symmetrically arranged on the main machine 1 to apply the weight, or the container 2 is arranged on the main machine 1 to apply the weight, or a certain amount of liquid to be heated or other objects to be heated are added to the container 2 to apply the weight after the container 2 is arranged on the main machine 1), so that the control component 14 controls the electric heating furnace to enter a standby state, and feeds back the current working state to the user through the working state feedback component. The method is suitable for the implementation of the electric heating furnace with the container 2 and the main machine 1 in a split structure or an integrated structure.

Or, further, in the first step, after the electric heating furnace is powered on, by applying an external force to the weighing component 13 for a short time through gestures, the weighing data of the weighing component 13 is suddenly changed when the external force is applied for a short time, the weighing data is reset after the external force is applied for a short time, and is fed back to the control component 14, after the control component 14 obtains the state change of sudden change and reset of the weighing data in a short time, the electric heating furnace is controlled to enter a standby state, and the current working state of the electric heating furnace is fed back to the user through the working state feedback component. The method is suitable for the implementation of the electric heating furnace with the container 2 and the main machine 1 in a split structure or an integrated structure.

Or, further, the control component 14 is provided with a main switch, and in the first step, after the electric heating furnace is powered on, the main switch is turned on, so that the control component 14 controls the electric heating furnace to enter a standby state, and feeds back the current working state to the user through the working state feedback component. The method is suitable for the implementation of the electric heating furnace with the container 2 and the main machine 1 in a split structure or an integrated structure.

Further, the method of applying an external force to the weighing component 13 by a gesture for a short time includes one or more of short-time tapping of the container 2 by a gesture, short-time pressing of the container 2 by a gesture, short-time lifting of the container 2 by a gesture, short-time tapping of the host 1 by a gesture, short-time pressing of the host 1 by a gesture, short-time lifting of the host 1 by a gesture, short-time tapping of the weighing component 13 by a gesture, short-time shaking of the container 2 by a gesture, short-time shaking of the host 1 by a gesture, and short-time shaking of the weighing component 13 by a gesture (short-time shaking of a gesture may be equally substituted for short-time shaking of a gesture). Wherein, pat the process and can increase the weighing data and reset in the short time, press the process and can increase the weighing data and reset in the short time, mention the process and can reduce the weighing data and reset in the short time, shake the process and can increase in the short time, reduce the weighing data (the floating change of weighing data) and reset.

Furthermore, the working state feedback component is one or a combination of more than one of a vibration component, a voice playing component, a light component and a display screen component. The mode feedback electric heater's operating condition of vibrations subassembly accessible vibrations, the operating condition of electric heater is fed back to the mode feedback of pronunciation broadcast subassembly accessible pronunciation broadcast, and the operating condition of electric heater is fed back in the light subassembly accessible different light combination, and the display screen subassembly can directly feed back the operating condition of electric heater through characters etc. technical personnel in the field all can understand.

As an equivalent alternative solution, the container 2 and the main machine 1 can be an integral structure, and the heating assembly 12 is arranged below or around the container 2.

As an equivalent alternative technical solution, the container 2 and the main machine 1 may be a separate structure, the heating assembly 12 is disposed at the bottom of the container 2, an electric coupler is disposed between the main machine 1 and the container 2, and the heating assembly 12 is electrically connected to the control assembly 14 through the electric coupler.

As an equivalent alternative solution, the container 2 and the main machine 1 may be a separate structure, the heating assembly 12 is disposed in the main machine 1, and an upper surface of the heating assembly 12 is exposed to the main machine 1 and forms a heating surface for carrying the container 2.

As an equivalent technical solution, the heating assembly 12 may be replaced by a refrigeration assembly, so that the main machine has a refrigeration function and becomes an electric refrigeration device, and the technical solution, technical means and solution to the technical problem adopted by the operation method of the electric refrigeration device are the same as those of the embodiment, and can be understood by those skilled in the art.

The foregoing is a preferred embodiment of the present invention, and the basic principles, principal features and advantages of the invention are shown and described. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the present invention, but various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims

1. An operation method of an electric heating furnace comprises a container (2) capable of being placed, a main machine (1) for heating the container and a weighing component (13) capable of weighing the container (2), wherein a heating component (12) for heating the container (2) is arranged on the main machine (1), a control component (14) and a working state feedback component are further arranged in the main machine (1), and the weighing component (13), the heating component (12) and the working state feedback component are respectively and electrically connected with the control component (14), and the operation method of the electric heating furnace is characterized by comprising the following steps:

and secondly, applying external force to the weighing component (13) for a short time to ensure that the weighing data of the weighing component (13) suddenly changes when the external force is applied for the short time and resets after the external force is applied for the short time, and feeding back the weighing data to the control component (14), after the control component (14) obtains the sudden change and reset state change of the weighing data in the short time, controlling the electric heating furnace to enter a heating state, and feeding back the current working state of the electric heating furnace to a user through the working state feedback component.

2. The method of operating an electric heating furnace of claim 1, further comprising the steps of:

thirdly, repeatedly applying external force to the weighing component (13) for a short time to enable weighing data of the weighing component (13) to change suddenly when the external force is applied for the short time and reset repeatedly after the external force is applied for the short time, and repeatedly feeding back the weighing data to the control component (14), after the control component (14) repeatedly obtains the state change of sudden change and reset of the weighing data in the short time, controlling the electric heating furnace to switch a working mode of a heating state or controlling the electric heating furnace to enter a standby state again, and feeding back the current working state of the electric heating furnace to a user through the working state feedback component;

and step four, when the electric heating furnace enters the heating state, the weighing component (13) feeds back data of continuously weighing the container (2) to the control component (14), when the weighing component (13) detects that the weight of the container (2) is reduced to a specified threshold value, the control component (14) controls the electric heating furnace to switch the heating mode of the heating state or controls the electric heating furnace to enter the standby state again, and the current working state of the electric heating furnace is fed back to a user through the working state feedback component.

3. The operation method of the electric heating furnace according to the claim 1, characterized in that in the first step, after the electric heating furnace is powered on, the weighing component (13) feeds back the weight of the container (2) to the control component (14) to obtain stable weighing data, so that the control component (14) controls the electric heating furnace to enter a standby state, and feeds back the current working state to the user through the working state feedback component.

4. The operation method of the electric heating furnace according to claim 1, wherein in the first step, after the electric heating furnace is powered on, external force is applied to the weighing component (13) for a short time, so that the weighing data of the weighing component (13) is suddenly changed when the external force is applied for a short time, the weighing data is reset after the external force is applied for a short time, and the external force is fed back to the control component (14), and after the control component (14) obtains the state change of sudden change and reset of the weighing data in a short time, the electric heating furnace is controlled to enter a standby state, and the current working state of the electric heating furnace is fed back to a user through the working state feedback component.

5. The operation method of the electric heating furnace according to claim 1, wherein the control component (14) is provided with a main switch, and in the first step, after the electric heating furnace is powered on, the main switch is turned on, so that the control component (14) controls the electric heating furnace to enter a standby state, and the current working state of the electric heating furnace is fed back to a user through the working state feedback component.

6. The method of operating an electric heating furnace in accordance with any one of claims 1 to 4, wherein the method of applying external force to the weighing unit (13) for a short time comprises one or a combination of more than one of short time tapping of the container (2)/the main body (1)/the weighing unit (13), short time pressing of the container (2)/the main body (1)/the weighing unit (13), short time lifting of the container (2)/the main body (1), short time shaking of the container (2)/the main body (1)/the weighing unit (13).

7. The method of claim 1, wherein the operation feedback component is one or more of a vibration component, a voice playing component, a light component, and a display screen component.

8. Method for operating an electric heating furnace according to claim 1, characterized in that the vessel (2) is integrated with the main unit (1) and the heating element (12) is arranged below or around the vessel (2).

9. The operation method of the electric heating furnace according to claim 1, wherein the container (2) and the main machine (1) are of a split structure; the main machine (1) is provided with a panel (11) capable of being used for bearing the container (2), the heating assembly (12) is arranged below the panel (11), or the heating assembly (12) is arranged at the bottom of the container (2), an electric coupler is arranged between the main machine (1) and the container (2), the heating assembly (12) is electrically connected with the control assembly (14) through the electric coupler, or the heating assembly (12) is arranged in the main machine (1), and the upper surface of the heating assembly (12) is exposed out of the main machine (1) and forms a heating surface for bearing the container (2).