CN114578879B - Temperature control system - Google Patents

Abstract

The invention is suitable for the field of computers, and provides a temperature control system, which comprises: the system comprises a first establishing module, a second establishing module and a control module, wherein the first establishing module is used for establishing a circumferential information transmission channel between at least two to-be-heated members and a central control end, the circumferential information transmission channel is used for issuing a heating instruction to one of the to-be-heated members based on the central control end and reporting heating temperature information of all the to-be-heated members based on the other one of the to-be-heated members, the to-be-heated members and the heating members can be physically separated and jointed, and the to-be-heated members and the heating members are normally jointed and then have a heating condition through the heating members; the detection module is used for detecting the heating temperature information received based on the central control end, and the invention has the advantages that: the application is flexible, and the centralized management and control of multiple targets are convenient to carry out; the heating target can be ensured to be completed within the target duration, so that the heating aging is ensured; and the vacancy and the idle of the equipment can be reduced as much as possible, and the utilization rate is improved.

Description

Temperature control system

Technical Field

The invention belongs to the technical field of computers, and particularly relates to a temperature control system.

Background

The temperature control is, as the name implies, to raise or lower the temperature of a certain controlled object or a controlled area in accordance with a set temperature, or to perform various temperature adjustments.

In a scenario where a controlled object is subjected to direct application related to temperature or is subjected to test and detection related to temperature, based on consideration of an efficiency level, it is often necessary to perform temperature control on a plurality of controlled objects in a corresponding scenario, and in the related art, a commonly used temperature is controlled by using a pid regulator/temperature controller, which mainly includes technologies such as conventional pid control, a neural network, a fuzzy neural network, and generalized prediction.

However, in summary, the conventional techniques have at least the following problems when temperature control is performed on a plurality of objects to be controlled: 1. the application flexibility of the controlled object is poor; 2. when the number of controlled objects is increased, the failure rate is increased, and the control is difficult; 3. once the controlled object fails, the corresponding device matched with the controlled object has a use vacancy, so that the investment cost is wasted.

Disclosure of Invention

An object of an embodiment of the present invention is to provide a temperature control system, which is to solve the problems in the background art.

The embodiment of the present invention is implemented as follows, and a temperature control system includes:

the system comprises a first establishing module, a second establishing module and a control module, wherein the first establishing module is used for establishing a circumferential information transmission channel between at least two to-be-heated parts and a central control end, the circumferential information transmission channel is used for issuing a heating instruction to one of the to-be-heated parts based on the central control end and reporting heating temperature information of all the to-be-heated parts based on the other one of the to-be-heated parts, physical separation and connection can be achieved between the to-be-heated parts and the heating parts, and the condition of heating through the heating parts is met after the to-be-heated parts and the heating parts are normally connected;

the detection module is used for detecting the heating temperature information received based on the central control terminal, acquiring a normal heating element within a first preset range of the heating element to be heated when the heating temperature information of the heating element to be heated is lost, starting a wireless heating mode between the normal heating element and the heating element to be heated, and if the heating temperature information of the heating element to be heated is recovered after the heating mode is started, judging that the corresponding heating element to be heated is normal;

the second establishing module is used for acquiring a heating element corresponding to the loss of the heating temperature information and trying to establish a detection information channel between the second establishing module and the heating element based on the central control end;

the first judging module is used for judging that the heating element corresponding to the loss of the heating temperature information fails no matter whether the wireless heating mode is started or not when the detection information channel is detected to be failed to establish;

and the second judging module is used for judging that the joint state between the to-be-heated element with lost heating temperature information and the heating element is abnormal and the heating element corresponding to the lost heating temperature information is normal if the detection information channel is successfully established.

As a further scheme of the present invention, the first establishing module specifically includes:

the instruction issuing unit is used for issuing channel establishment instructions to all the heating parts based on the central control end, receiving feedback instructions of all the heating parts, detecting the strength of the feedback instructions and establishing a feedback instruction strength ranking, wherein the central control end only issues a heating instruction to one heating part with the strongest feedback instruction strength;

the instruction transmission unit is used for issuing a heating instruction to the heating element at the adjacent position based on the heating element receiving the heating instruction, continuing to issue the heating instruction to the heating element at the next adjacent position based on the heating element at the adjacent position, repeating the steps until all the heating elements receive the heating instruction, and feeding back heating instruction issuing completion information to the central control end based on the heating element finally receiving the heating instruction;

and the reporting unit is used for reporting the heating temperature information of all the to-be-heated parts to the information transmission channel based on the ring issued by the heating instruction.

As a still further aspect of the present invention, the heating instruction is used to instruct different members to be heated to the same preset heating temperature, or different preset heating temperatures to be heated within respective target time periods to automatically disconnect the members to be heated from each other.

As a still further aspect of the present invention, the heating temperature information includes real-time heating temperatures bound to unified identification codes between the heating member and the member to be heated, wherein the unified identification codes are different between different first heating units, and the first heating units represent the heating member and the member to be heated, which can be physically separated and joined.

As a further aspect of the present invention, when it is detected that there is a loss of heating temperature information of a to-be-heated member, acquiring a normal heating member within a first preset range of the to-be-heated member, and opening a wireless heating mode between the normal heating member and the to-be-heated member specifically includes:

when the heating temperature information is lost, analyzing the finally received heating temperature information of the to-be-heated element in the first heating unit according to the first heating unit corresponding to the uniform identification code mark in the lost heating temperature information, and acquiring the real-time heating temperature T in the heating temperature information_{Fruit of Chinese wolfberry}And heating time period Deltat_{Fruit of Chinese wolfberry}Presetting a heating temperature T_{Is provided with}According to the target duration Deltat_StatorAnd heating time period Deltat_{Fruit of Chinese wolfberry}Calculating the residual heating time DeltaT_SurplusWherein the residual heating time period DeltaT_Surplus=△t_Stator－△t_{Fruit of Chinese wolfberry}；

Acquiring specific heat capacity c and mass m of a substance to be heated contained in a member to be heated in the first heating unit;

a preset heating temperature T of the first heating unit to be marked_{Is provided with}The real-time heating temperature T_{Fruit of Chinese wolfberry}Substituting specific heat capacity c and mass m of a substance to be heated in the member to be heated into a specific heat capacity calculation formula to calculate required heat quantity Q, wherein Q = cm (T)_{Is provided with}－T_{Fruit of Chinese wolfberry})；

According to the received power P of the wireless heating of the part to be heated in the marked first heating unit_{Fruit of Chinese wolfberry}Calculating the wireless heating time length delta T according to the required heat quantity Q_WirelessAnd judging whether it is not more than the remaining heating time period DeltaT_SurplusWherein Δ T_Wireless=Q/P_{Fruit of Chinese wolfberry}If not, sending a prompt for requiring the addition of the replaceable first heating unit to the central control end, and if so, starting the wireless heating mode between the normal heating element and the element to be heated in a first preset range.

As a further aspect of the invention, the system further comprises a supplemental heating module comprising:

the acquiring unit is used for acquiring a unified identification code of a to-be-heated piece which can be wirelessly heated with the heating piece within a second preset range of the heating piece and adding a target duration shortening mark to the to-be-heated piece when the abnormal joint state and the heating temperature information loss corresponding to the heating piece are judged to be normal;

the display and to-be-selected unit is used for receiving the selection of the marked unified identification code by the user based on the central control terminal after the marked unified identification code is displayed at the central control terminal;

and the wireless heating starting unit is used for identifying the to-be-heated element in the selected unified identification code and starting a wireless heating mode between the to-be-heated element and the heating element so as to enable the to-be-heated element to be wirelessly heated or realize wireless heating and heating through the corresponding heating element in parallel.

As a further aspect of the present invention, when the heating member to be heated is plural, the plural heating members to be heated are arranged in a staggered manner at intervals.

The temperature control system provided by the embodiment of the invention has the following beneficial effects:

1) the heating piece to be heated can be conveniently and independently used after moving, so that the application flexibility is improved;

2) through the setting of first building module etc. treating heating member and joining the back, can realize treating heating member and even a plurality of management and control between the configuration of treating heating member and heating member to two at least through well accuse end, and when the heating temperature information of treating the heating member is lost, can comparatively comprehensive distinguish the fault type place, the fault type includes: the fault of the heating element to be heated, the fault of the heating element and the abnormal joint state of the heating element and the heating element are detected;

3) through detection module's setting, whether it is normal not only conveniently to judge and treat the heating member, still can acquire this and treat the heating member that the heating member is normal in the first predetermined within range, open this heating member and this and treat the wireless heating mode between the heating member, guarantee to accomplish the heating target in the target time length to guarantee to heat the ageing, also can the vacancy of minimize equipment with idle, improve the rate of utilization.

Drawings

FIG. 1 is a diagram of an embodiment of a temperature control system.

Fig. 2 is a main structural view of a temperature control system.

FIG. 3 is a schematic diagram of the internal components of a first building block in a temperature control system.

Fig. 4 is a flowchart of acquiring a normal heating element within a first preset range of a heating element to be heated and turning on a wireless heating mode between the normal heating element and the heating element to be heated when it is detected that heating temperature information of the heating element to be heated is lost.

FIG. 5 is a main structural view of a temperature control system in another embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

The temperature control system provided by the invention solves the technical problems in the background technology.

As shown in fig. 1 and 2, an implementation environment diagram and a main structure diagram of a temperature control system according to an embodiment of the present invention are provided, the temperature control system including:

the system comprises a first establishing module 10, a first module and a second establishing module, wherein the first establishing module is used for establishing a circumferential information transmission channel between at least two to-be-heated parts and a central control end, the circumferential information transmission channel is used for issuing a heating instruction to one of the to-be-heated parts based on the central control end and reporting heating temperature information of all the to-be-heated parts based on the other one of the to-be-heated parts, physical separation and connection can be realized between the to-be-heated parts and the heating parts, a heating condition of the to-be-heated parts is realized after the to-be-heated parts and the heating parts are normally connected, and the heating mode between the to-be-heated parts and the heating parts can be heating through resistors after the to-be-heated parts and the heating parts are contacted;

the detection module 20 is configured to detect the heating temperature information received based on the central control terminal, acquire a normal heating element within a first preset range of the heating element to be heated when it is detected that the heating temperature information of the heating element to be heated is lost, start a wireless heating mode between the normal heating element and the heating element to be heated, determine that the corresponding heating element to be heated is normal if the heating temperature information of the heating element to be heated is recovered after the start, and determine that the heating element to be heated may have a fault if the heating temperature information of the heating element to be heated is not recovered after the start, and determine that a certain fault occurs in the heating element to be heated when a wireless heating failure caused by a distance is eliminated, where there is a correlation between a wireless heating (receiving end) inside the heating element to be heated and a (structure) heated by the heating element, where the correlation may be expressed as a logical relationship that a wireless heating related hardware circuit and a heating element (structure) are bound to each other, that is to say, the two devices need to be in a non-failure state to ensure normal operation;

the second establishing module 30 is used for acquiring a heating element corresponding to the loss of the heating temperature information, and trying to establish a detection information channel between the heating element and the central control terminal;

a first determination module 40, configured to determine that a heating element corresponding to a loss of heating temperature information has a fault regardless of whether the wireless heating mode is turned on when it is detected that the establishment of the detection information channel has failed;

and the second determination module 50 is used for determining that the joint state between the to-be-heated member with the lost heating temperature information and the heating member is abnormal and the heating member with the lost heating temperature information is normal if the detection information channel is successfully established.

When the heating device is applied, the to-be-heated element and the heating element can be embodied according to actual needs without limitation, and the to-be-heated element can be physically separated from and connected with the heating element, so that the to-be-heated element can be conveniently and independently used after being moved, and the application flexibility is improved; through the setting of first building module 10, will treat that heating member and heating member joint the back, can realize treating the heating member to at least two and even a plurality of management and control between the configuration of treating heating member and heating member through well accuse end, and when the heating temperature information of treating the heating member loses, can be comparatively comprehensive distinguish the fault type place, the fault type includes: treat that heating member trouble, heating member trouble and the joint state of the two are unusual, through detection module 20's setting, not only conveniently judge whether treating the heating member normal, still can acquire this treat the heating member that the first preset within range is normal, open this heating member and should treat the wireless heating mode between the heating member, guarantee to accomplish the heating target in the target duration to guarantee to heat the ageing, also can minimize the vacancy and the idle of equipment, improve the rate of utilization.

As shown in fig. 3, as a preferred embodiment of the present invention, the first establishing module 10 specifically includes:

the instruction issuing unit 101 is configured to issue channel establishment instructions to all the heating components based on the central control terminal, receive feedback instructions of all the heating components, detect the strength of the feedback instructions, and establish a feedback instruction strength ranking, where the central control terminal only issues a heating instruction to one heating component with the strongest feedback instruction strength, that is, when the heating component fails, switching is performed again to find a new heating component with the strongest feedback instruction strength, so as to ensure that the circumferential information transmission channel is not interrupted;

the instruction transmission unit 102 is configured to issue a heating instruction to a heating element in an adjacent position based on the heating element receiving the heating instruction, and continue to issue a heating instruction to a heating element in a next adjacent position based on the heating element in the adjacent position, and repeat the above steps until all the heating elements receive the heating instruction, and the heating element receiving the heating instruction finally feeds back heating instruction issue completion information to the central control terminal;

and the reporting unit 103 is configured to report heating temperature information of all the to-be-heated components to the information transmission channel based on the ring issued by the heating instruction.

Set up through the hoop information transmission passageway and only need keep the stable communication between well accuse end and two heating members all the time, and need not and communicate between all heating members, guarantee to realize the transmission of stabilizing the instruction when practicing thrift the cost.

As another preferred embodiment of the present invention, the heating instruction is used to instruct different members to be heated to the same preset heating temperature, or different preset heating temperatures to be heated within respective target time periods to automatically disconnect the members to be heated.

As another preferred embodiment of the present invention, the heating temperature information includes real-time heating temperatures bound to unified identification codes between the heating element and the heating element to be heated, wherein the unified identification codes are different between different first heating units, the first heating units represent the heating element and the heating element to be heated, which can achieve physical separation and joining, for example, two unified identification codes of the first heating units are respectively: A5-B5 and A8-B8, wherein Ax represents the identification number x of the heating member, Bx represents the identification number x of the member to be heated, and x is not less than 1 and not more than the number of the first heating units, it is noted that wireless heating is not performed between the paired first heating units, only contact heating is performed, generally, the efficiency of contact heating is higher than that of wireless heating.

As shown in fig. 4, as another preferred embodiment of the present invention, when it is detected that there is a loss of heating temperature information of a member to be heated, acquiring a normal heating member within a first preset range of the member to be heated, and turning on a wireless heating mode between the normal heating member and the member to be heated specifically includes:

step S10: when the heating temperature information is lost, analyzing the finally received heating temperature information of the to-be-heated element in the first heating unit according to the first heating unit corresponding to the uniform identification code mark in the lost heating temperature information, and acquiring the real-time heating temperature T in the heating temperature information_{Fruit of Chinese wolfberry}And heating time period Deltat_{Fruit of Chinese wolfberry}Presetting a heating temperature T_{Is provided with}According to the target duration Deltat_StatorAnd heating time period Deltat_{Fruit of Chinese wolfberry}Calculating the residual heating time DeltaT_SurplusWherein the residual heating time period DeltaT_Surplus=△t_Stator－△t_{Fruit of Chinese wolfberry}；

Step S11: acquiring specific heat capacity c and mass m of a substance to be heated contained in a member to be heated in the first heating unit;

step S12: a preset heating temperature T of the first heating unit to be marked_{Is provided with}The real-time heating temperature T_{Fruit of Chinese wolfberry}Substituting specific heat capacity c and mass m of a substance to be heated in the member to be heated into a specific heat capacity calculation formula to calculate required heat Q, wherein Q = cm (T)_{Is provided with}－T_{Fruit of Chinese wolfberry}) In practice, heat loss due to a time difference between heating modes is ignored, and in practical use, Q is defined in consideration of self-loss of heat_{Supplement device}(= cm) (T is T real) (. zeta.) in case of a power failure_{The compensation is carried out by the computer system,}wherein the compensation coefficient ζ_CompensationGreater than 1, in applications where it is not usedZeta under environment_CompensationThe values of (a) are different and can be determined according to actual experience;

step S13: according to the received power P of the wireless heating of the part to be heated in the marked first heating unit_{Fruit of Chinese wolfberry}Calculating the wireless heating time length delta T according to the required heat quantity Q_WirelessAnd judging whether it is not more than the remaining heating time period DeltaT_SurplusWherein Δ T_Wireless=Q/P_{Fruit of Chinese wolfberry}If not, sending a prompt for requiring the addition of the replaceable first heating unit to the central control end, and if so, starting a wireless heating mode between the normal heating element and the element to be heated in a first preset range, wherein the received power P is_{Fruit of Chinese wolfberry}The step of starting the wireless heating mode includes applying an alternating voltage to the transmitting coil of the transmitting end, and heating is started through the receiving coil of the receiving end, and the receiving coil can generate heat itself, and certainly, a heating element can be additionally arranged, which is not described herein again.

It can be understood that, through the opening of the wireless heating mode, not only can the auxiliary fault judgment of the heating element be realized, but also the heating mode can be timely changed under the condition that the first heating unit has a fault, and the target time length delta t is ensured_StatorThe heating task is completed internally to ensure the heating aging, for example, for a certain substance to be heated in the heating element, the m =0.1kg, and the c =2.1 x 10³J/(kg. DEG C.), wherein the target duration Deltat_Stator1000s, heating duration Deltat_{Fruit of Chinese wolfberry}=500s，T_{Is provided with}=100℃，T_{Fruit of Chinese wolfberry}=50 ℃, the required heat Q is calculated and Q = cm (T) is obtained_{Is provided with}－T_{Fruit of Chinese wolfberry})=1.05*10⁴J, and P_{Fruit of Chinese wolfberry}=30w，△T_Wireless=Q/P_{Fruit of Chinese wolfberry}=350s＜△T_Surplus=500s, can satisfy the target time length Δ t_StatorThe heating task is accomplished internally, of course in practice P_{Fruit of Chinese wolfberry}Can adjust P to be small_{Fruit of Chinese wolfberry}So that both are equal, i.e. Δ T_Wireless=△T_Surplus。

As shown in FIG. 5, as another preferred embodiment of the present invention, the system further includes a supplemental heating module 60, the supplemental heating module 60 including:

an obtaining unit 601, configured to, when it is determined that the heating element corresponding to the abnormal joining state and the loss of the heating temperature information is normal, obtain a uniform identification code of a to-be-heated element, which may be wirelessly heated by the heating element, in a second preset range of the heating element, and add a target duration shortening flag thereto, where the second preset range may be equal to the first preset range, and indicates that the transmitting capabilities of the wireless heating transmitting terminals of different heating elements may be the same, and of course, parameters of transmitting coils of different heating elements and parameters of alternating-current voltages applied by the transmitting coils may also be different;

the display and to-be-selected unit 602 is configured to receive a selection of the marked unified identification code from the central control terminal by a user based on the central control terminal after the marked unified identification code is displayed at the central control terminal, where the marked unified identification code may be presented on a display screen of the central control terminal in a parallel button selection manner;

a wireless heating starting unit 603, configured to identify a to-be-heated element in the selected unified identification code, and start a wireless heating mode between the to-be-heated element and the heating element, so that the to-be-heated element is wirelessly heated or wireless heating is implemented in parallel with heating by a corresponding heating element, where the heating element is a normal heating element that determines that the joint state is abnormal and heating temperature information is lost.

The embodiment is to carry out functional expansion to the aforesaid embodiment, through the setting of supplementary heating module 60, be convenient for to the joining state unusual and heating temperature information lose the further utilization of the normal heating member that corresponds, and can select other heating members of waiting that can carry out wireless heating with this heating member in the effective range according to user's demand, effectively realize in multiunit heating under the condition that first heating unit can not normal heating, utilize the heating member, also can realize heating efficiency's promotion.

As shown in fig. 1, as another preferred embodiment of the present invention, when a plurality of to-be-heated members are provided, the plurality of to-be-heated members are preferably arranged in a staggered manner at intervals, the communication among the plurality of to-be-heated members can be ensured as much as possible by the staggered arrangement manner, and when a fault occurs in the to-be-heated member, it can also be ensured as much as possible that a normal to-be-heated member can timely jump over the faulty to-be-heated member to communicate, accordingly, the heating member can also maintain the arrangement manner, and the arrangement manner can enable the middle to-be-heated member to at least have a wireless heating condition with the heating members at front and rear positions, so that both front and rear of the heating member can have a wireless heating emission function.

The temperature control system provided by the invention is convenient for moving and then independently using the to-be-heated member, so that the application flexibility is improved; through the setting of first building module 10, will treat that heating member and heating member joint the back, can realize treating the heating member to at least two and even a plurality of management and control between the configuration of treating heating member and heating member through well accuse end, and when the heating temperature information of treating the heating member loses, can be comparatively comprehensive distinguish the fault type place, the fault type includes: treat that heating member trouble, heating member trouble and the joint state of the two are unusual, through detection module 20's setting, not only conveniently judge whether treating the heating member normal, still can acquire this treat the heating member that the first preset within range is normal, open this heating member and should treat the wireless heating mode between the heating member, guarantee to accomplish the heating target in the target duration to guarantee to heat the ageing, also can minimize the vacancy and the idle of equipment, improve the rate of utilization.

In order to load the above method and system to operate smoothly, the system may include more or less components than those described above, or combine some components, or different components, besides the various modules described above, for example, input/output devices, network access devices, buses, processors, memories, and the like.

The Processor may be a Central Processing Unit (CPU), other general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic, discrete hardware components, etc. The general purpose processor may be a microprocessor or the processor may be any conventional processor or the like which is the control center of the system and which is connected to the various parts using various interfaces and lines.

The memory may be used to store computer and system programs and/or modules, and the processor may perform the various functions described above by operating or executing the computer programs and/or modules stored in the memory and invoking data stored in the memory. The memory may mainly include a program storage area and a data storage area, where the program storage area may store an operating system, an application program required by at least one function (such as an information collection template presentation function, a product information distribution function, and the like), and the like. The storage data area may store data created according to the use of the berth status display system (such as product information acquisition templates corresponding to different product categories, product information that needs to be issued by different product providers, and the like). In addition, the memory may include high speed random access memory, and may also include non-volatile memory, such as a hard disk, a memory, a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), at least one magnetic disk storage device, a Flash memory device, or other volatile solid state storage device.

It should be understood that, although the steps in the flowcharts of the embodiments of the present invention are shown in sequence as indicated by the arrows, the steps are not necessarily performed in sequence as indicated by the arrows. The steps are not limited to being performed in the exact order illustrated and, unless explicitly stated herein, may be performed in other orders. Moreover, at least a portion of the steps in various embodiments may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is specific and detailed, but not to be understood as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

The above description is intended to be illustrative of the preferred embodiment of the present invention and should not be taken as limiting the invention, but rather, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Claims (7)

1. A temperature control system, comprising:

the system comprises a first establishing module, a second establishing module and a control module, wherein the first establishing module is used for establishing a circumferential information transmission channel between at least two to-be-heated members and a central control end, the circumferential information transmission channel is used for issuing a heating instruction to one of the to-be-heated members based on the central control end and reporting heating temperature information of all the to-be-heated members based on the other one of the to-be-heated members, the to-be-heated members and the heating members can be physically separated and jointed, and the to-be-heated members and the heating members are normally jointed and then have a heating condition through the heating members;

the detection module is used for detecting the heating temperature information received based on the central control terminal, acquiring a normal heating element in a first preset range of the heating element to be heated when the heating temperature information of the heating element to be heated is lost, starting a wireless heating mode between the normal heating element and the heating element to be heated, and judging that the corresponding heating element to be heated is normal if the heating temperature information of the heating element to be heated is recovered after starting;

the second establishing module is used for acquiring a heating element corresponding to the loss of the heating temperature information and trying to establish a detection information channel between the second establishing module and the heating element based on the central control end;

the first judging module is used for judging that the heating element corresponding to the heating temperature information loss is in fault no matter whether the wireless heating mode is started or not when the detection information channel is detected to be failed to be established;

and the second judging module is used for judging that the joint state between the to-be-heated part with lost heating temperature information and the heating part is abnormal and the heating part with lost heating temperature information corresponding to the loss is normal if the detection information channel is successfully established.

2. The temperature control system of claim 1, wherein the first establishing module specifically comprises:

the instruction issuing unit is used for issuing channel establishment instructions to all the heating elements based on the central control end, receiving feedback instructions of all the heating elements, detecting the strength of the feedback instructions and establishing a feedback instruction strength ranking, wherein the central control end only issues a heating instruction to one heating element with the strongest feedback instruction strength;

the instruction transmission unit is used for issuing a heating instruction to the heating element at the adjacent position based on the heating element receiving the heating instruction, continuing to issue the heating instruction to the heating element at the next adjacent position based on the heating element at the adjacent position, repeating the steps until all the heating elements receive the heating instruction, and feeding back heating instruction issuing completion information to the central control end based on the heating element finally receiving the heating instruction;

and the reporting unit is used for reporting the heating temperature information of all the to-be-heated parts to the information transmission channel based on the ring issued by the heating instruction.

3. The temperature control system according to claim 1, wherein the heating instruction is used to instruct different members to be heated to the same preset heating temperature, or to automatically disconnect the members from the heating member after the different preset heating temperatures are heated within respective target time periods.

4. The temperature control system according to claim 3, wherein the heating temperature information includes real-time heating temperatures bound to uniform identification codes between the heating member and the member to be heated, wherein the uniform identification codes are different between different first heating units representing the heating member and the member to be heated which can be physically separated and joined.

5. The temperature control system according to claim 4, wherein the step of acquiring a normal heating element within a first preset range of the element to be heated when detecting that the heating temperature information of the element to be heated is lost, and the step of turning on the wireless heating mode between the normal heating element and the element to be heated comprises the steps of:

when the heating temperature information is lost, analyzing the finally received heating temperature information of the to-be-heated element in the first heating unit according to the first heating unit corresponding to the uniform identification code mark in the lost heating temperature information, and acquiring the real-time heating temperature T in the heating temperature information_{Fruit of Chinese wolfberry}And heating time period Deltat_{Fruit of Chinese wolfberry}Presetting a heating temperature T_{Is provided with}According to the target duration Deltat_StatorAnd duration of heating Δ t_{Fruit of Chinese wolfberry}Calculating the residual heating time DeltaT_SurplusWherein the residual heating time period DeltaT_Surplus=△t_Stator－△t_{Fruit of Chinese wolfberry}；

Acquiring specific heat capacity c and mass m of a substance to be heated contained in a member to be heated in the first heating unit;

a preset heating temperature T of the first heating unit to be marked_{Is provided with}The real-time heating temperature T_{Fruit of Chinese wolfberry}Substituting specific heat capacity c and mass m of a substance to be heated in the member to be heated into a specific heat capacity calculation formula to calculate required heat Q, wherein Q = cm (T)_{Is provided with}－T_{Fruit of Chinese wolfberry})；

According to the received power P of the wireless heating of the part to be heated in the marked first heating unit_{Fruit of Chinese wolfberry}Calculating the wireless heating time delta T according to the required heat Q_WirelessAnd judging whether it is not more than the remaining heating time period DeltaT_SurplusWherein Δ T_Wireless=Q/P_{Fruit of Chinese wolfberry}If not, sending a prompt for requiring the addition of the replaceable first heating unit to the central control end, and if so, starting the wireless heating mode between the normal heating element and the element to be heated in a first preset range.

6. The temperature control system of claim 4 or 5, further comprising a supplemental heating module comprising:

the acquiring unit is used for acquiring a unified identification code of a to-be-heated piece which can be wirelessly heated with the heating piece within a second preset range of the heating piece and adding a target duration shortening mark to the to-be-heated piece when the abnormal joint state and the heating temperature information loss corresponding to the heating piece are judged to be normal;

the display and to-be-selected unit is used for receiving the selection of the marked uniform identification code by the user based on the central control terminal after the marked uniform identification code is displayed at the central control terminal;

and the wireless heating starting unit is used for identifying the to-be-heated element in the selected unified identification code and starting a wireless heating mode between the to-be-heated element and the heating element so as to enable the to-be-heated element to be wirelessly heated or realize wireless heating and heating through the corresponding heating element in parallel.

7. The temperature control system according to any one of claims 1 to 3, wherein when the member to be heated is plural, the plural members to be heated are arranged in a staggered arrangement at intervals.

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