CN109870937B

CN109870937B - Heating platform combination system and control method of heating platform combination

Info

Publication number: CN109870937B
Application number: CN201711268845.9A
Authority: CN
Inventors: 孟宪昕
Original assignee: Foshan Shunde Midea Electrical Heating Appliances Manufacturing Co Ltd
Current assignee: Foshan Shunde Midea Electrical Heating Appliances Manufacturing Co Ltd
Priority date: 2017-12-05
Filing date: 2017-12-05
Publication date: 2022-02-11
Anticipated expiration: 2037-12-05
Also published as: CN109870937A

Abstract

The invention provides a heating platform combination system and a heating platform combination control method, which are applied to the field of household appliances. Wherein, heating platform integrated system includes: the heating device comprises a plurality of heating platforms, a plurality of heating platform and a plurality of heating platform control module, wherein the plurality of heating platforms are connected in sequence and at least comprise a first heating platform and a second heating platform; wherein, first heating stage includes: a heating unit for heating an appliance placed on the first heating stage; the detection unit is used for detecting whether a second heating platform connected with the first heating platform exists or not; the calculating unit is used for calculating first power when the detecting unit detects that a second heating platform connected with the first heating platform exists; the distribution unit is used for distributing the first power to the second heating platform, so that the overall control of the plurality of heating platforms is realized, the operation is simple and effective, and the safety of the whole system is improved.

Description

Heating platform combination system and control method of heating platform combination

Technical Field

The invention relates to the technical field of household appliances, in particular to a heating platform combination system and a control method of the heating platform combination.

Background

At present, household electric wires used in life all have a limited maximum current, when two or more heating platforms or other household electrical appliances are used on the same socket at the same time, if the total power of the electric appliance work is greater than the total power capable of being borne by the electric wires or the socket, the electric wires and the socket are easy to age under the condition of long-time use, so that dangerous conditions such as electric leakage, fire and the like are caused.

Therefore, a heating platform combination system and a control method of the heating platform combination are designed to solve the problem of separating the energy distribution function between the electric products, so that the electric products are safer to use and more intelligent.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

To this end, a first aspect of the present invention proposes a heating platform assembly system.

The second aspect of the present invention provides a method for controlling a heating platform assembly.

In view of the above, according to a first aspect of the present invention, there is provided a heating platen assembly system comprising: the heating device comprises a plurality of heating platforms, a plurality of heating platform and a plurality of heating platform control module, wherein the plurality of heating platforms are connected in sequence and at least comprise a first heating platform and a second heating platform; wherein, first heating stage includes: a heating unit for heating an appliance placed on the first heating stage; the detection unit is used for detecting whether a second heating platform connected with the first heating platform exists or not; the calculating unit is used for calculating first power when the detecting unit detects that a second heating platform connected with the first heating platform exists; a distribution unit for distributing the first power to the second heating stage.

The heating platform combination system provided by the invention is formed by sequentially connecting and combining a plurality of heating platforms, such as a first heating platform and a second heating platform, wherein the number of the heating platforms is at least two; the first heating platform heats an appliance placed on the first heating platform through the heating unit, the detection unit detects whether a second heating platform connected with the first heating platform exists, the calculation unit calculates first power, the first power is the difference between preset power and used power of a plurality of heating platforms, the power of the first heating platform needs to be limited due to the limitation of the maximum current of a power line of the heating platforms, the maximum current of an access power grid or the set maximum power, namely the preset power, the preset power is more than or equal to the used power of the plurality of heating platforms, and the distribution unit distributes the first power to the second heating platform; when a plurality of heating platforms are connected, the used power of the plurality of heating platforms is not greater than the preset power no matter how many heating platforms are connected and combined in sequence; therefore, through connecting the combination in proper order with the heating platforms of a plurality of separations, recycle first heating platform and carry out power distribution according to the quantity and the order of the heating platform of connection, realized the control to a plurality of heating platform power distribution, the safety problems such as electric wire ageing, electric leakage or even firing that cause the gross power too big and lead to when having avoided a plurality of heating platforms to use simultaneously among the traditional mode have realized a plurality of heating platforms's overall control, and simple effective, entire system's security has been improved.

In addition, according to the heating platform combination system in the above technical solution provided by the present invention, the following additional technical features may also be provided:

in the above technical solution, preferably, the first heating platform further includes: the first judgment unit is used for judging whether the second heating platform is connected or not; the second judging unit is used for judging whether the first signal is received or not when the second heating platform is not accessed; determining a rank according to the first signal when the first signal is received; when the first signal is not received, the rank of the first heating stage is determined to be 1.

In the technical scheme, a first heating platform needs to judge whether a second heating platform is connected to a heating platform combination system or not through a first judging unit; when the second heating platform is judged not to be accessed, whether a first signal is received or not is judged through a second judging unit, when the first signal is judged to be received, sequencing is determined according to the received first signal, and when the first signal is not received, the sequencing of the first heating platform is determined to be 1; through this kind of mode, can determine the order of first heating platform and the heating platform that connects gradually, make a plurality of heating platforms arrange in proper order and constitute heating platform combined system, realized a plurality of heating platform's overall control to it is simple effective, improved entire system's security.

In any of the above technical solutions, preferably, the first heating platform further includes: and the communication unit is used for sending the first signal to the second heating platform so that the second heating platform determines the sequencing of the second heating platform according to the first signal.

In the technical scheme, a first heating platform sends a first signal to a second heating platform through a communication unit, and then the second heating platform determines the sequencing of the first signal according to the received first signal; by utilizing the wireless communication mode, the communication relation is established among the plurality of heating platforms, the sequencing efficiency of the plurality of heating platforms is effectively improved, the whole heating platform combination system is more convenient and efficient to construct, and the use experience of a user is improved.

In any of the above technical solutions, preferably, each of the plurality of heating stages includes: the current detection unit is used for detecting the current value passing through the heating platform where the current detection unit is located; the statistical unit is used for counting the magnitude relation of the current values of the plurality of heating platforms; the first determining unit is used for determining the heating platform with the largest current value in the plurality of heating platforms as the first heating platform.

In the technical scheme, each heating platform in the heating platform combination system is used for detecting the current value of the heating platform where the heating platform is located through a current detection unit, then the magnitude relation of the current value of each heating platform in the heating platform combination system is counted through a statistical unit, and the heating platform with the largest current value in a plurality of heating platforms is determined through a first determination unit, so that the heating platforms are sorted according to the magnitude of the current values; by means of the current counting mode, all the heating platforms in the whole heating platform combination system can be sequenced through current values, the efficiency of sequencing the heating platforms is effectively improved, the whole heating platform combination system is more convenient and efficient to construct, and the use experience of a user is improved.

In any of the above technical solutions, preferably, each of the plurality of heating stages includes: an input unit for receiving a setting instruction from a user; and the second determining unit is used for determining the sequencing of the heating platforms according to the setting instruction.

In the technical scheme, each heating platform in the heating platform combined system is provided with an input unit, a user can directly set each heating platform through the input unit, the heating platform is determined by the second determination unit according to the setting instruction of the user, the user can sort the heating platforms according to the own idea, the efficiency of sorting the heating platforms is effectively improved, the whole heating platform combined system is more convenient and efficient to construct, and the use experience of the user is improved.

In any of the above technical solutions, preferably, the second heating stage includes: and the control unit is used for controlling the heating part heating appliance of the second heating platform according to the first power.

In the technical scheme, in the heating platform combined system, a second heating platform receives a first power instruction and controls the second heating platform to heat according to the first power through a control unit; because the heating power of the second platform is generated according to the received first power, namely the power of the whole heating platform combined system is controlled by the first power, the safety problems of wire aging, electric leakage, even fire and the like caused by overlarge total power when a plurality of heating platforms are used simultaneously in a traditional mode can be avoided, the integral control of the plurality of heating platforms is realized, and the safety of the whole system is improved.

In any of the above technical solutions, preferably, the first power is a difference between a preset power and powers used by the plurality of heating platforms, and the preset power is greater than or equal to the powers used by the plurality of heating platforms.

According to a second aspect of the present invention, there is provided a method of controlling a heating stage assembly, comprising: detecting whether a second heating platform connected with the first heating platform exists or not; calculating a first power when a second heating platform connected with the first heating platform is detected to exist; the first power is distributed to the second heating stage.

In the control method of the heating platform combination provided by the invention, a plurality of heating platforms are sequentially connected and combined in the heating platform combination, for example, the number of the first heating platform, the second heating platform and the third heating platform … is at least two; firstly, whether a second heating platform connected with a first heating platform exists or not is detected, when the second heating platform connected with the first heating platform exists, the first power is calculated, the first power is the difference between the preset power and the used power of the plurality of heating platforms, the power of the first heating platform needs to be limited due to the limitation of the maximum current of a power line of the heating platforms, the maximum current of an access power grid or the set maximum power, namely the preset power, and the preset power is more than or equal to the used power of the plurality of heating platforms; the first power is then distributed to the second heating stage. When a plurality of heating platforms are connected, the used power of the plurality of heating platforms is not greater than the preset power no matter how many heating platforms are connected and combined in sequence; therefore, through connecting the combination in proper order with the heating platforms of a plurality of separations, recycle first heating platform and carry out power distribution according to the quantity and the order of the heating platform of connection, realized the control to a plurality of heating platform power distribution, the safety problems such as electric wire ageing, electric leakage or even firing that cause the gross power too big and lead to when having avoided a plurality of heating platforms to use simultaneously among the traditional mode have realized a plurality of heating platforms's overall control, and simple effective, entire system's security has been improved.

In the above technical solution, preferably, before detecting whether there is a second heating platform connected to the first heating platform, the method for controlling the heating platform combination further includes: judging whether a second heating platform is connected or not; when the second heating platform is not connected, judging whether a first signal is received or not; determining a rank according to the first signal when the first signal is received; when the first signal is not received, the rank of the first heating stage is determined to be 1.

In the technical scheme, a first heating platform needs to judge whether a second heating platform is connected to a heating platform combination system; when the second heating platform is judged not to be accessed, judging whether a first signal is received or not, when the first signal is judged to be received, determining the sequence according to the received first signal, and when the first signal is not received, determining the sequence of the first heating platform to be 1; through this kind of mode, can determine the order of first heating platform and the heating platform that connects gradually, make a plurality of heating platforms arrange in proper order and constitute heating platform combined system, realized a plurality of heating platform's overall control to it is simple effective, improved entire system's security.

In the above technical solution, preferably, the first signal is sent to the second heating platform, so that the second heating platform determines the order of the second heating platform according to the first signal.

In the technical scheme, a first heating platform sends a first signal to a second heating platform, and then the second heating platform determines the sequence of the first signal according to the received first signal; by utilizing the wireless communication mode, the communication relation is established among the plurality of heating platforms, the sequencing efficiency of the plurality of heating platforms is effectively improved, the whole heating platform combination system is more convenient and efficient to construct, and the use experience of a user is improved.

In the above technical solution, preferably, before detecting whether there is a second heating platform connected to the first heating platform, the method for controlling the heating platform combination further includes: detecting a current value passing through each heating platform; counting the magnitude relation of the current values of the plurality of heating platforms; and determining the heating platform with the largest current value in the plurality of heating platforms as a first heating platform.

In the technical scheme, each heating platform in the heating platform combination system can check the current value of the heating platform where the heating platform is located, then the magnitude relation of the current value of each heating platform in the heating platform combination system is counted, the heating platform with the largest current value in the plurality of heating platforms is determined, and sequencing is performed according to the magnitude of the current values; by means of the current counting mode, all the heating platforms in the whole heating platform combination system can be sequenced through current values, the efficiency of sequencing the heating platforms is effectively improved, the whole heating platform combination system is more convenient and efficient to construct, and the use experience of a user is improved.

In the above technical solution, preferably, before detecting whether there is a second heating platform connected to the first heating platform, the method for controlling the heating platform combination further includes: receiving a setting instruction from a user; and determining the sequencing of the heating platforms according to the setting instruction.

In the technical scheme, for each heating platform in the heating platform combination system, a user can directly set each heating platform, the heating platforms determine the sequence of the heating platforms according to the setting instructions of the user, the user can sort the heating platforms according to the own idea, the efficiency of sorting the heating platforms is effectively improved, the whole heating platform combination system is more convenient and efficient to construct, and the use experience of the user is improved.

In the above technical solution, preferably, after the first power is distributed to the second heating stage, the method for controlling the combination of the heating stages further includes: and controlling the heating part heating appliance of the second heating platform according to the first power.

In the technical scheme, in the heating platform combined system, the second heating platform receives a first power instruction and controls the second heating platform to heat according to the first power; because the heating power of the second platform is generated according to the received first power, namely the power of the whole heating platform combined system is controlled by the first power, the safety problems of wire aging, electric leakage, even fire and the like caused by overlarge total power when a plurality of heating platforms are used simultaneously in a traditional mode can be avoided, the integral control of the plurality of heating platforms is realized, and the safety of the whole system is improved.

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

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 illustrates an exemplary view of a heating platform provided in accordance with an embodiment of the present invention;

FIG. 2 illustrates an exemplary heating platform assembly system provided in accordance with one embodiment of the present invention;

FIG. 3 shows a schematic block diagram of a heating platform assembly system provided in accordance with a first embodiment of the present invention;

FIG. 4 is a schematic block diagram of a heating platform assembly system provided in accordance with a second embodiment of the present invention;

FIG. 5 shows a schematic block diagram of a heating platform assembly system provided in accordance with a third embodiment of the present invention;

FIG. 6 shows a schematic block diagram of a heating platform assembly system provided in accordance with a fourth embodiment of the present invention;

FIG. 7 shows a schematic block diagram of a heating platform assembly system provided in accordance with a fifth embodiment of the present invention;

FIG. 8 shows a schematic block diagram of a heating platform assembly system provided in accordance with a sixth embodiment of the present invention;

FIG. 9 is a schematic flow chart diagram illustrating a heating platform combination control method according to a first embodiment of the present invention;

FIG. 10 is a schematic flow chart diagram illustrating a heating stage combination control method according to a second embodiment of the present invention;

FIG. 11 is a schematic flow chart diagram illustrating a heating platform combination control method according to a third embodiment of the present invention;

FIG. 12 is a schematic flow chart diagram illustrating a heating platform combination control method according to a fourth embodiment of the present invention;

fig. 13 is a schematic flow chart illustrating a heating stage combination control method according to a fifth embodiment of the present invention;

FIG. 14 is a schematic flow chart diagram illustrating a heating platform combination control method according to a sixth embodiment of the present invention;

wherein, the correspondence between the reference numbers and the component names in fig. 1 and fig. 2 is:

1 power line socket; 2, a detection module; 3 a wireless communication module; 4, a main control chip module; 5, a power line plug; 6 a first heating stage; 7 second heating stage.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A heating stage assembly system and a heating stage assembly control method according to some embodiments of the present invention are described below with reference to fig. 1 to 14.

FIG. 1 illustrates an exemplary view of a heating platform provided in accordance with an embodiment of the present invention; as shown in fig. 1, the heating platform has a power socket 1, through which a plurality of heating platforms can be connected and combined in sequence to form a heating platform combination system; the detection module 2 can detect whether a second heating platform connected with the first heating platform exists or not; the wireless communication module 3 is used for sending related signals to enable each heating platform of the whole system to keep a communication state; the main control chip module 4 is used for processing work such as related calculation, distribution, control and the like; and a power line plug 5 is used for connecting the heating platform into a circuit.

In this embodiment, the communication among the multiple platforms can also be realized by using a wired communication mode, a modem module is arranged on the heating platform, and the multiple heating platforms are connected through a power line to realize the transmission or reception of signals, so that each heating platform of the whole system keeps a communication state.

FIG. 2 illustrates an exemplary heating platform assembly system provided in accordance with one embodiment of the present invention; as shown in fig. 2, a plurality of heating platforms form a heating platform combination system in the manner shown in fig. 2, wherein the second heating platform 7 is inserted into the first heating platform 6, and the other heating platforms are connected in sequence.

FIG. 3 shows a schematic block diagram of a heating platform assembly system provided in accordance with a first embodiment of the present invention; as shown in fig. 3, the heating platen assembly system 100 includes:

a first heated platen 102 and a second heated platen 112;

wherein the first heating stage 102 comprises:

a heating unit 104 for heating an appliance placed on the first heating stage;

a detection unit 106, configured to detect whether there is a second heating platform connected to the first heating platform;

a calculating unit 108 for calculating a first power when the detecting unit detects the existence of a second heating platform connected to the first heating platform;

a distribution unit 110 for distributing the first power to the second heating stage.

The heating platform assembly system 100 provided by the present invention is formed by sequentially connecting and combining a plurality of heating platforms, for example, the number of the first heating platform 102 and the second heating platform 112 … is at least two; the first heating platform 102 heats the appliance placed on the first heating platform 102 through the heating unit 104, and then detects whether there is a second heating platform 112 connected to the first heating platform 102 through the detection unit 106, and then the calculation unit 108 calculates a first power, where the first power is a difference between a preset power and powers used by a plurality of heating platforms, and since a maximum current of a power line of the heating platforms, a maximum current of an access grid, or a set maximum power is limited, the power of the first heating platform 102 needs to be limited, that is, the preset power, and the preset power is greater than or equal to the powers used by the plurality of heating platforms, the distribution unit 110 distributes the first power to the second heating platform; when a plurality of heating platforms are connected, the used power of the plurality of heating platforms is not greater than the preset power no matter how many heating platforms are connected and combined in sequence; therefore, the plurality of separated heating platforms are sequentially connected and combined, and the first heating platform 102 is utilized to distribute power according to the number and the sequence of the connected heating platforms, so that the control of the power distribution of the plurality of heating platforms is realized, the safety problems of electric wire aging, electric leakage, even fire and the like caused by overlarge total power when the plurality of heating platforms are simultaneously used in the traditional mode are avoided, the integral control of the plurality of heating platforms is realized, and the safety system is simple and effective, and the safety of the whole system is improved. The first power is the difference between a preset power and the used power of the plurality of heating platforms, and the preset power is larger than or equal to the used power of the plurality of heating platforms. The first heating platform and the second heating platform are not limited to two heating platforms with the sequence of 1 and 2, the first heating platform and the second heating platform are adjacent heating platforms in the sequence, the serial number of the first heating platform is smaller than that of the second heating platform, and then power is distributed to the second heating platform through the first heating platform; when the sequence of the first heating platform is n, the sequence of the second heating platform is n + 1.

FIG. 4 shows a schematic block diagram of a heating platform assembly system provided in accordance with a first embodiment of the present invention; as shown in fig. 4, the thermal platform assembly system 200 includes:

a first heating stage 202 and a second heating stage 216;

wherein the first heating stage 202 comprises:

a heating unit 204 for heating an appliance placed on the first heating stage;

a detecting unit 206, configured to detect whether there is a second heating platform connected to the first heating platform;

a calculating unit 208, configured to calculate a first power when the detecting unit detects that a second heating platform connected to the first heating platform exists, where the first power is a difference between a preset power and powers used by the plurality of heating platforms, and the preset power is greater than or equal to the powers used by the plurality of heating platforms;

a distribution unit 210 for distributing the first power to the second heating stage;

a first determining unit 212, configured to determine whether the second heating platform has been connected;

a second determining unit 214, configured to determine whether the first signal is received when the second heating platform is not accessed; determining a rank according to the first signal when the first signal is received; when the first signal is not received, the rank of the first heating stage is determined to be 1.

In this embodiment, the first heating platform 202 needs to determine whether the second heating platform 216 has been connected to the heating platform assembly system by the first determining unit 212; when the second heating platform 216 is not accessed, whether the first signal is received or not is judged 214 through the second judging unit, when the first signal is judged to be received, the sequence is determined according to the received first signal, and when the first signal is not received, the sequence of the first heating platform 212 is determined to be 1; through the mode, the sequence of the first heating platform 212 and the heating platforms connected in sequence can be determined, the plurality of heating platforms are sequentially arranged to form the heating platform combined system, the overall control of the plurality of heating platforms is realized, the method is simple and effective, and the safety of the whole system is improved.

FIG. 5 shows a schematic block diagram of a heating platform assembly system provided in accordance with a first embodiment of the present invention; as shown in fig. 5, the heating platen assembly system 300 includes:

a first heating stage 302 and a second heating stage 318;

wherein the first heating stage 302 comprises:

a heating unit 304 for heating an appliance placed on the first heating stage;

a detecting unit 306, configured to detect whether there is a second heating platform connected to the first heating platform;

the calculating unit 308 is configured to calculate a first power when the detecting unit detects that a second heating platform connected to the first heating platform exists, where the first power is a difference between a preset power and powers used by the plurality of heating platforms, and the preset power is greater than or equal to the powers used by the plurality of heating platforms;

a distribution unit 310 for distributing the first power to the second heating stage;

a first determining unit 312, configured to determine whether the second heating platform is connected;

a second determining unit 314, configured to determine whether the first signal is received when the second heating platform is not accessed; determining a rank according to the first signal when the first signal is received; when the first signal is not received, determining the sequence of the first heating platform to be 1;

a communication unit 316, configured to send a first signal to the second heating stage, so that the second heating stage determines the order of the second heating stage according to the first signal.

In this embodiment, the first heating stage 302 sends a first signal to the second heating stage 318 via the communication unit 316, so that the second heating stage 318 determines its rank according to the received first signal; by utilizing the wireless communication mode, the communication relation is established among the plurality of heating platforms, the sequencing efficiency of the plurality of heating platforms is effectively improved, the whole heating platform combination system is more convenient and efficient to construct, and the use experience of a user is improved.

FIG. 6 shows a schematic block diagram of a heating platform assembly system provided in accordance with a first embodiment of the present invention; as shown in fig. 6, the heating platen assembly system 400 includes:

a first heating stage 402 and a second heating stage 424;

wherein the first heating stage 402 comprises:

a heating unit 404 for heating an appliance placed on the first heating stage;

a detecting unit 406, configured to detect whether there is a second heating platform connected to the first heating platform;

a calculating unit 408, configured to calculate a first power when the detecting unit detects that a second heating platform connected to the first heating platform exists, where the first power is a difference between a preset power and powers already used by the plurality of heating platforms, and the preset power is greater than or equal to powers already used by the plurality of heating platforms;

a distribution unit 410 for distributing a first power to the second heating stage;

a first determining unit 412, configured to determine whether the second heating platform is connected;

a second determining unit 414, configured to determine whether the first signal is received when the second heating platform is not accessed; determining a rank according to the first signal when the first signal is received; when the first signal is not received, determining the sequence of the first heating platform to be 1;

a communication unit 416, configured to send a first signal to the second heating platform, so that the second heating platform determines the order of the second heating platform according to the first signal;

a current detection unit 418 for detecting a current value passing through the heating platform where the current detection unit is located;

a counting unit 420, configured to count magnitude relationships between current values of the multiple heating platforms;

the first determining unit 422 is configured to determine a heating platform with the largest current value among the plurality of heating platforms as the first heating platform.

The second heating stage 424 also includes: a current detection unit 426, a statistics unit 428, and a first determination unit 430.

In this embodiment, each heating platform in the heating platform combination system is tested for the current value of the heating platform in which it is located by the current testing unit 418, then the statistical unit 420 is used to count the magnitude relationship of the current value of each heating platform in the heating platform combination system, and the first determining unit 422 is used to determine the heating platform with the largest current value among the plurality of heating platforms, so as to perform sorting according to the magnitude of the current values; by means of the current counting mode, all the heating platforms in the whole heating platform combination system can be sequenced through current values, the efficiency of sequencing the heating platforms is effectively improved, the whole heating platform combination system is more convenient and efficient to construct, and the use experience of a user is improved.

FIG. 7 shows a schematic block diagram of a heating platform assembly system provided in accordance with a first embodiment of the present invention; as shown in fig. 7, the heating platform assembly system 500 includes:

first and second heating stages 502, 528;

wherein the first heating stage 502 comprises:

a heating unit 504 for heating an appliance placed on the first heating stage;

a detecting unit 506, configured to detect whether there is a second heating platform connected to the first heating platform;

a calculating unit 508, configured to calculate a first power when the detecting unit detects that a second heating platform connected to the first heating platform exists, where the first power is a difference between a preset power and powers used by the plurality of heating platforms, and the preset power is greater than or equal to the powers used by the plurality of heating platforms;

a distribution unit 510 for distributing the first power to the second heating stage;

a first determining unit 512, configured to determine whether the second heating platform is connected;

a second determining unit 514, configured to determine whether the first signal is received when the second heating platform is not accessed; determining a rank according to the first signal when the first signal is received; when the first signal is not received, determining the sequence of the first heating platform to be 1;

a communication unit 516, configured to send a first signal to the second heating platform, so that the second heating platform determines the order of the second heating platform according to the first signal;

a current detection unit 518 for detecting a current value passing through the heating platform where the current detection unit is located;

a counting unit 520, configured to count magnitude relationships between current values of the plurality of heating platforms;

a first determining unit 522, configured to determine a heating platform with a largest current value among the plurality of heating platforms as a first heating platform;

an input unit 524 for receiving a setting instruction from a user;

a second determining unit 526, configured to determine the ordering of the heating platforms according to the setting instruction.

Second heating stage 528 also includes: a current detection unit 530, a statistic unit 532, a first determination unit 534, an input unit 536, and a second determination unit 538.

In this embodiment, each heating platform in the heating platform combination system is provided with the input unit 524, the user can directly set each heating platform through the input unit 524, the heating platform rethread second determining unit 526 determines the order of the heating platforms according to the setting instruction of the user, so that the user can sort the heating platforms according to the own idea, the efficiency of sorting a plurality of heating platforms is effectively improved, the construction of the whole heating platform combination system is more convenient and efficient, and the use experience of the user is improved.

FIG. 8 shows a schematic block diagram of a heating platform assembly system provided in accordance with a first embodiment of the present invention; as shown in fig. 8, the thermal platform assembly system 600 includes:

first and second heated platens 602, 628;

wherein the first heating stage 602 comprises:

a heating unit 604 for heating an appliance placed on the first heating stage;

a detecting unit 606, configured to detect whether there is a second heating platform connected to the first heating platform;

a calculating unit 608, configured to calculate a first power when the detecting unit detects that a second heating platform connected to the first heating platform exists, where the first power is a difference between a preset power and powers used by the plurality of heating platforms, and the preset power is greater than or equal to the powers used by the plurality of heating platforms;

a distribution unit 610 for distributing the first power to the second heating stage;

a first judging unit 612, configured to judge whether the second heating platform is connected;

a second determining unit 614, configured to determine whether the first signal is received when the second heating platform is not accessed; determining a rank according to the first signal when the first signal is received; when the first signal is not received, determining the sequence of the first heating platform to be 1;

a communication unit 616, configured to send a first signal to the second heating platform, so that the second heating platform determines the order of the second heating platform according to the first signal;

a current detection unit 618 for detecting a current value passing through the heating platform where the current detection unit is located;

a counting unit 620, configured to count magnitude relationships between current values of the multiple heating platforms;

a first determining unit 622, configured to determine a heating platform with the largest current value among the plurality of heating platforms as a first heating platform;

an input unit 624 for receiving a setting instruction from a user;

a second determining unit 626, configured to determine, according to the setting instruction, a ranking of the heating platforms;

second heated platen 628 also includes: a current detection unit 630, a statistic unit 632, a first determination unit 634, an input unit 636, and a second determination unit 638;

a control unit 640 for controlling the heating member of the second heating platform 628 to heat the appliance according to the first power.

In this embodiment, in the heating platform assembly system, the second heating platform 628 receives the first power command, and controls the second heating platform 628 to heat according to the first power command through the control unit 630; because the heating power of the second platform is generated according to the received first power, namely the power of the whole heating platform combined system is controlled by the first power, the safety problems of wire aging, electric leakage, even fire and the like caused by overlarge total power when a plurality of heating platforms are used simultaneously in a traditional mode can be avoided, the integral control of the plurality of heating platforms is realized, and the safety of the whole system is improved.

FIG. 9 is a schematic flow chart diagram illustrating a heating platform combination control method according to a first embodiment of the present invention; as shown in fig. 9, the heating platform combination control method includes:

step S702, detecting whether a second heating platform connected with the first heating platform exists;

step S704, when a second heating platform connected with the first heating platform is detected, calculating a first power;

step S706, a first power is distributed to the second heating stage.

In this embodiment, the heating platforms are combined, and a plurality of heating platforms are sequentially connected and combined, for example, the number of the first heating platform, the second heating platform, and the third heating platform … is at least two; firstly, whether a second heating platform connected with a first heating platform exists or not is detected, when the second heating platform connected with the first heating platform exists, the first power is calculated, the first power is the difference between the preset power and the used power of the plurality of heating platforms, the power of the first heating platform needs to be limited due to the limitation of the maximum current of a power line of the heating platforms, the maximum current of an access power grid or the set maximum power, namely the preset power, and the preset power is more than or equal to the used power of the plurality of heating platforms; the first power is then distributed to the second heating stage. When a plurality of heating platforms are connected, the used power of the plurality of heating platforms is not greater than the preset power no matter how many heating platforms are connected and combined in sequence; therefore, through connecting the combination in proper order with the heating platforms of a plurality of separations, recycle first heating platform and carry out power distribution according to the quantity and the order of the heating platform of connection, realized the control to a plurality of heating platform power distribution, the safety problems such as electric wire ageing, electric leakage or even firing that cause the gross power too big and lead to when having avoided a plurality of heating platforms to use simultaneously among the traditional mode have realized a plurality of heating platforms's overall control, and simple effective, entire system's security has been improved. The first power is the difference between a preset power and the used power of the plurality of heating platforms, and the preset power is larger than or equal to the used power of the plurality of heating platforms.

FIG. 10 is a schematic flow chart diagram illustrating a heating platform combination control method according to a first embodiment of the present invention; as shown in fig. 10, the heating platform combination control method includes:

step S802, judging whether a second heating platform is accessed, and turning to step S816 when the second heating platform is judged to be accessed; when the second heating platform is judged not to be accessed, turning to step S804;

step S804, when the second heating platform is not accessed, whether the first signal is received or not is judged; when the first signal is received, go to step S808, and when the first signal is not received, go to step S806;

step S804, distributing the first power to a second heating platform;

step S806, determining the sequence of the first heating platform to be 1;

step S808, determining a sequence according to the first signal;

step S810, detecting whether a second heating platform connected with the first heating platform exists;

step S812, when detecting that a second heating platform connected to the first heating platform exists, calculating a first power, where the first power is a difference between a preset power and powers used by the plurality of heating platforms, and the preset power is greater than or equal to the powers used by the plurality of heating platforms;

step S814, distributing the first power to a second heating platform;

and step S816, sending alarm information to prompt a user of an operation error.

In this embodiment, the first heating platform needs to determine whether the second heating platform has been connected to the heating platform combination system; when the second heating platform is judged not to be accessed, judging whether a first signal is received or not, when the first signal is judged to be received, determining the sequence according to the received first signal, and when the first signal is not received, determining the sequence of the first heating platform to be 1; through this kind of mode, can determine the order of first heating platform and the heating platform that connects gradually, make a plurality of heating platforms arrange in proper order and constitute heating platform combined system, realized a plurality of heating platform's overall control to it is simple effective, improved entire system's security.

FIG. 11 is a schematic flow chart diagram illustrating a heating platform combination control method according to a first embodiment of the present invention; as shown in fig. 11, the heating platform combination control method includes:

step S902, judging whether a second heating platform is accessed, and turning to step S918 when the second heating platform is judged to be accessed; when the second heating platform is judged not to be accessed, turning to step S904;

step S904, when the second heating platform is not accessed, judging whether a first signal is received; when the first signal is received, go to step S908, and when the first signal is not received, go to step S906;

step S904, distributing the first power to a second heating platform;

step S906, determining the sequence of the first heating platform to be 1;

step S808, determining a sequence according to the first signal;

step S910, sending a first signal to a second heating platform, so that the second heating platform determines the sequence of the second heating platform according to the first signal;

step S912, detecting whether there is a second heating platform connected to the first heating platform;

step S914, when detecting that there is a second heating platform connected to the first heating platform, calculating a first power, wherein the first power is a difference between a preset power and powers used by the plurality of heating platforms, and the preset power is greater than or equal to the powers used by the plurality of heating platforms;

step S916, distributing the first power to the second heating stage;

step S918, sending alarm information to prompt the user of operation error.

In this embodiment, the first heating platform sends a first signal to the second heating platform, and the second heating platform determines the order thereof according to the received first signal; by utilizing the wireless communication mode, the communication relation is established among the plurality of heating platforms, the sequencing efficiency of the plurality of heating platforms is effectively improved, the whole heating platform combination system is more convenient and efficient to construct, and the use experience of a user is improved.

FIG. 12 is a schematic flow chart diagram illustrating a heating platform combination control method according to a first embodiment of the present invention; as shown in fig. 12, the heating platform combination control method includes:

step S1002, detecting the current value passing through each heating platform;

step S1004, counting the magnitude relation of the current values of a plurality of heating platforms;

step S1006, determining the heating platform with the largest current value in the plurality of heating platforms as a first heating platform;

step S1008, detecting whether a second heating platform connected with the first heating platform exists;

step S1010, when a second heating platform connected with the first heating platform is detected to exist, calculating a first power, wherein the first power is the difference between a preset power and the used powers of the plurality of heating platforms, and the preset power is more than or equal to the used powers of the plurality of heating platforms;

step S1012, a first power is distributed to the second heating stage.

In the embodiment, each heating platform in the heating platform combination system can check the current value of the heating platform where the heating platform is located, then the magnitude relation of the current value of each heating platform in the heating platform combination system is counted, and the heating platform with the largest current value in the plurality of heating platforms is determined, so that the heating platforms are sorted according to the magnitude of the current values; by means of the current counting mode, all the heating platforms in the whole heating platform combination system can be sequenced through current values, the efficiency of sequencing the heating platforms is effectively improved, the whole heating platform combination system is more convenient and efficient to construct, and the use experience of a user is improved.

FIG. 13 is a schematic flow chart diagram illustrating a heating platform combination control method according to a first embodiment of the present invention; as shown in fig. 13, the heating platform combination control method includes:

step S1102, receiving a setting instruction from a user;

step S1104, determining the ordering of the heating platforms according to the setting instruction;

step S1006, detecting whether a second heating platform connected with the first heating platform exists;

step S1008, when a second heating platform connected with the first heating platform is detected to exist, calculating first power, wherein the first power is the difference between preset power and used power of the plurality of heating platforms, and the preset power is larger than or equal to the used power of the plurality of heating platforms;

step S1010, a first power is distributed to a second heating stage.

In this embodiment, to every heating platform in the heating platform integrated system, the user can all directly set up each heating platform, and the order of heating platform is confirmed according to user's setting instruction again to the heating platform, makes the user can sort the heating platform according to own idea, and the effectual efficiency that has promoted a plurality of heating platforms and carry out the sequencing makes the construction of whole heating platform integrated system more convenient high-efficient, has promoted user's use experience.

FIG. 14 is a schematic flow chart diagram illustrating a heating platform combination control method according to a first embodiment of the present invention; as shown in fig. 14, the heating stage combination control method includes:

step S1202, detecting whether a second heating platform connected with the first heating platform exists;

step S1204, when detecting that there is a second heating platform connected to the first heating platform, calculating a first power, wherein the first power is a difference between a preset power and used powers of a plurality of heating platforms, and the preset power is greater than or equal to the used powers of the plurality of heating platforms;

step S1206, distributing the first power to a second heating platform;

and step S1208, controlling a heating part heating appliance of the second heating platform according to the first power.

In this embodiment, in the heating platform combination system, the second heating platform receives the first power command and controls the second heating platform to heat according to the first power; because the heating power of the second platform is generated according to the received first power, namely the power of the whole heating platform combined system is controlled by the first power, the safety problems of wire aging, electric leakage, even fire and the like caused by overlarge total power when a plurality of heating platforms are used simultaneously in a traditional mode can be avoided, the integral control of the plurality of heating platforms is realized, and the safety of the whole system is improved.

The technical scheme of the invention is described in detail in the above with reference to the accompanying drawings, and the invention provides a heating platform combination system, wherein a plurality of separated heating platforms are sequentially connected and combined, and then the first heating platform is used for performing power distribution according to the number and the sequence of the connected heating platforms, so that the control of the power distribution of the plurality of heating platforms is realized, the safety problems of wire aging, electric leakage, even fire and the like caused by the overlarge total power when the plurality of heating platforms are simultaneously used in the traditional mode are avoided, the integral control of the plurality of heating platforms is realized, the operation is simple and effective, and the safety of the whole system is improved.

In the description of the present invention, the terms "plurality" or "a plurality" refer to two or more, and unless otherwise specifically limited, the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention; the terms "connected," "mounted," "secured," and the like are to be construed broadly and include, for example, fixed connections, removable connections, or integral connections; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description of the present invention, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In the present invention, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A heated platen assembly system, comprising:

the heating device comprises a plurality of heating platforms, a first heating platform and a second heating platform, wherein the plurality of heating platforms are sequentially connected and at least comprise the first heating platform and the second heating platform;

the plurality of heating platforms comprise power line sockets, and the power line sockets enable the plurality of heating platforms to be connected in sequence;

wherein the first heating stage comprises:

a heating unit for heating an appliance placed on the first heating stage;

the detection unit is used for detecting whether the second heating platform connected with the first heating platform exists or not;

the calculating unit is used for calculating first power when the detecting unit detects that the second heating platform connected with the first heating platform exists;

limiting the power of the first heating platform, namely presetting the power, wherein the presetting power is more than or equal to the power used by the plurality of heating platforms;

a distribution unit for distributing the first power to the second heating stage;

the first power is the difference between a preset power and the used powers of the plurality of heating platforms, and the preset power is larger than or equal to the used powers of the plurality of heating platforms.

2. The heated platen combination system of claim 1, wherein the first heated platen further comprises:

the first judgment unit is used for judging whether the second heating platform is connected or not;

the second judging unit is used for judging whether a first signal is received or not when the second heating platform is not accessed;

determining a rank from the first signal when the first signal is received;

determining that the first heating stage has a rank of 1 when the first signal is not received.

3. The heated platen combination system of claim 2, wherein the first heated platen further comprises:

and the communication unit is used for sending a first signal to the second heating platform so that the second heating platform determines the sequencing of the second heating platform according to the first signal.

4. The heated platen assembly system of claim 1, wherein each of the plurality of heated platens comprises:

the current detection unit is used for detecting the current value passing through the heating platform where the current detection unit is located;

the statistical unit is used for counting the magnitude relation of the current values of the plurality of heating platforms;

the first determining unit is used for determining the heating platform with the largest current value in the plurality of heating platforms as the first heating platform.

5. The heated platen assembly system of claim 1, wherein each of the plurality of heated platens comprises:

an input unit for receiving a setting instruction from a user;

and the second determining unit is used for determining the sequencing of the heating platforms according to the setting instruction.

6. The heated platen combination of any one of claims 1-5, wherein the second heated platen comprises:

and the control unit is used for controlling the heating part of the second heating platform to heat the appliance according to the first power.

7. A method of controlling a heating platen assembly, comprising:

the heating device comprises a plurality of heating platforms, a first heating platform and a second heating platform, wherein the plurality of heating platforms are connected in sequence;

detecting the presence of the second heating stage in connection with the first heating stage;

calculating a first power when the presence of the second heating stage connected to the first heating stage is detected;

distributing the first power to the second heating stage;

8. The method of claim 7, wherein prior to said detecting the presence of the second thermal platform coupled to the first thermal platform, the method further comprises:

judging whether the second heating platform is connected or not;

when the second heating platform is not accessed, judging whether a first signal is received or not;

determining a rank from the first signal when the first signal is received;

9. The method of controlling a heated platen assembly of claim 8, further comprising:

sending a first signal to the second heating stage to cause the second heating stage to determine the ordering of the second heating stage according to the first signal.

10. The method of claim 7, wherein prior to said detecting the presence of the second thermal platform coupled to the first thermal platform, the method further comprises:

detecting a value of current through each of the heating platforms;

counting the magnitude relation of the current values of the plurality of heating platforms;

and determining the heating platform with the largest current value in the plurality of heating platforms as a first heating platform.

11. The method of claim 7, wherein prior to said detecting the presence of the second thermal platform coupled to the first thermal platform, the method further comprises:

receiving a setting instruction from a user;

and determining the sequencing of the heating platforms according to the setting instruction.

12. The method of controlling a heating stage assembly of any of claims 7-11, wherein after said distributing the first power to the second heating stage, the method of controlling a heating stage assembly further comprises:

and controlling a heating part heating appliance of the second heating platform according to the first power.