CN117193434B

CN117193434B - Heating method, device, equipment and medium of commercial box-type electric oven

Info

Publication number: CN117193434B
Application number: CN202311474987.6A
Authority: CN
Inventors: 唐宏钊; 李�杰; 魏敏
Original assignee: Guangzhou Southstar Machine Facilities Co ltd
Current assignee: Guangzhou Southstar Machine Facilities Co ltd
Priority date: 2023-11-08
Filing date: 2023-11-08
Publication date: 2024-01-30
Anticipated expiration: 2043-11-08
Also published as: CN117193434A

Abstract

The application relates to a heating method, a device, equipment and a medium of a commercial box-type electric oven, wherein the method comprises the steps of obtaining heating selection information and obtaining integral heating numerical information according to the heating selection information; acquiring a heating distance, and acquiring heating parameters according to the heating distance and the overall heating numerical information; triggering a heating instruction according to the heating parameter and the overall heating numerical information; obtaining partition temperature detection information, comparing the partition temperature detection information with the integral heating numerical information to obtain partition difference values, comparing the partition difference values with preset change threshold values in a range, and triggering a partition temperature change information collection instruction if the partition difference values are out of the preset change threshold value range; collecting instructions according to the partition temperature change information to obtain adjustment information; and triggering an adjustment instruction according to the adjustment information. The electric oven has the advantages that the baking effect of the electric oven is more uniform, and the temperature fluctuation at the oven door is effectively reduced.

Description

Heating method, device, equipment and medium of commercial box-type electric oven

Technical Field

The invention relates to the technical field of electric oven heating, in particular to a heating method, a heating device, computer equipment and a storage medium of a commercial box-type electric oven.

Background

At present, the furnace of commercial box electric oven has six heat preservation (about from top to bottom, the furnace gate is preceding heat preservation, because furnace gate thickness is less than other heat preservation, still open the observation window moreover, therefore the heat preservation effect is much worse than other heat preservation, the heat loss is also many, and commercial box electric oven's volume is bigger generally, open at the furnace rear has the exhaust port, the hot air flow is discharged from the exhaust port when toasting, lead to the temperature difference in different regions around the furnace, consequently, when toasting, light back and forth appears easily, the effect of toasting is uneven around promptly.

In the existing commercial box-type electric oven, a temperature controller is usually locally arranged in the oven and used for controlling the heating pipes to work, however, a temperature probe can only sense the change of local temperature, and the temperature controller controls all the heating pipes to work simultaneously, and the heating pipes close to the oven door are densely distributed, so that when the heating pipes are electrified, the temperature close to the oven door is higher, and when the power is off, the temperature is lower, and the fluctuation of the temperature is larger.

With respect to the related art described above, the inventors consider that there is a disadvantage in that it is difficult to precisely control the temperature of the oven chamber so that the baking effect of the electric oven is uniform.

Disclosure of Invention

In order to make the heating of the electric oven more uniform during baking, the application provides a heating method, a device, equipment and a medium of a commercial box-type electric oven.

The first object of the present invention is achieved by the following technical solutions:

a method of heating a commercial box electric oven, the method of heating a commercial box electric oven comprising:

acquiring heating selection information, and acquiring overall heating numerical information according to the heating selection information, wherein the heating selection information comprises heating time and heating temperature, and the overall heating numerical information comprises preheating temperature, preheating time, constant temperature and constant temperature heating time;

acquiring a heating distance, and acquiring heating parameters according to the heating distance and the overall heating numerical information, wherein heating pipes in the electric oven are distributed in a plurality of areas, and the heating parameters comprise the preheating heat of the partitioned heating pipes and the constant temperature heat of the partitioned heating pipes of the heating pipes in each area;

triggering a heating instruction according to the heating parameter and the overall heating numerical information;

Obtaining partition temperature detection information, comparing the partition temperature detection information with a corresponding temperature value in the integral heating numerical value information to obtain a partition difference value, comparing the partition difference value with a preset change threshold value in a range, and triggering a partition temperature change information collection instruction if the partition difference value is out of the preset change threshold value range;

collecting instructions according to the partition temperature change information to obtain adjustment parameter information;

and triggering an adjustment instruction according to the adjustment parameter information.

By adopting the technical scheme, a user sets heating information according to own use requirements, heating information set by the user is obtained, the heating information comprises heating time and heating temperature, the heating time is divided into a preheating stage and a constant temperature stage according to the heating time, the temperatures of the preheating stage and the constant temperature stage which are needed to be achieved in a hearth and the time needed for heating according to the temperature are obtained, the heating time comprises preheating temperature, preheating time, constant temperature and constant temperature heating time, namely integral heating numerical information, the hearth of the electric oven is divided into a plurality of areas, each area is different from the distance of a heated object, therefore, according to the integral heating numerical information and the heating distance, the heating parameters of the heating pipes on each subarea from the hearth to the rear part of the hearth are obtained, each heating pipe starts to heat according to the heating parameters, in the heating process, temperature detection equipment positioned in different areas of the hearth can intermittently detect the temperature, the detected temperature is compared with the corresponding temperature value in the obtained integral heating numerical information, the subarea difference value is obtained, the subarea difference value is compared with a preset change threshold value, when the subarea difference value is not in the preset change threshold value, the detected temperature value is not triggered in the electric heating area, the current temperature detection equipment is detected, the current temperature detection equipment is adjusted, the subarea is adjusted, the current temperature is adjusted with the current subarea temperature is adjusted according to the current subarea temperature information, the current subarea is adjusted, the current distance between the electric heating pipe is adjusted, and the current heating equipment is adjusted, according to the current subarea temperature is adjusted, and the current heating object is adjusted, according to the current temperature information, each subarea is adjusted, and the current temperature is adjusted, the heat in each heating tube is regulated again according to the current temperature, so that the baking effect of the electric oven is more uniform, and the temperature fluctuation at the oven door is effectively reduced.

The present application may be further configured in a preferred example to: the obtaining heating selection information, according to the heating selection information, obtains overall heating numerical value information, specifically includes:

extracting the heating temperature from the heating selection information, and taking the heating temperature as the constant temperature;

according to the heating time and the heating temperature, obtaining preheating time, constant-temperature heating time and preheating temperature;

and correlating the constant temperature, the preheating time, the constant heating time and the preheating temperature to obtain the integral heating numerical information.

By adopting the technical scheme, when the electric oven is used by a user, the heating parameters are set according to the use requirement of the user, the heating parameters comprise the heating time and the heating temperature, and the user selects the desired heating time and the heating temperature, but the heating pipe cannot reach the desired temperature of the user immediately, so that under the condition that the whole heating time is unchanged, the temperature in the preheating time stage needs to be changed to achieve the same effect when the electric oven is heated according to the temperature set by the user, the temperature in the preheating stage of the electric oven, the stable heating temperature after the preheating is obtained according to the heating time and the heating temperature set by the user, and the stable heating time is obtained according to the preheating time and the stable heating maintaining time, wherein the heating temperature set by the user is used as the stable heating maintaining temperature, and therefore, the heating stage is divided into the preheating stage and the constant temperature stage according to the heating temperature set by the user, the steps of user operation are saved, the time of the user for carrying out the preheating before the electric oven is used for heating is saved, and the convenience of the electric oven is enhanced.

The present application may be further configured in a preferred example to: the preheating temperature comprises a preheating lifting temperature and a preheating reducing temperature, the preheating time comprises a preheating lifting time and a preheating reducing time, and the preheating time, the constant-temperature heating time and the preheating temperature are obtained according to the heating time and the heating temperature, and the preheating temperature specifically comprises the following steps:

acquiring the preheating lifting temperature, the preheating reducing temperature, the preheating lifting time and the preheating reducing time according to the heating time and the heating temperature;

and obtaining the constant-temperature heating time according to the preheating lifting time and the preheating reducing time.

By adopting the technical scheme, in order to achieve the same effect when heating the object according to the heating temperature set by the user in the preheating stage, the temperature in the initial stage of the preheating stage is set to be greater than the heating temperature set by the user, the temperature is reduced later, the temperature in the initial stage of the preheating and the heating time according to the temperature are calculated according to the heating time and the heating temperature set by the user, the temperature in the subsequent stage of the preheating and the heating time according to the temperature, namely the preheating lifting temperature, the preheating lifting time, the preheating reducing temperature and the preheating reducing time, and the constant-temperature heating time is calculated according to the heating time, the preheating lifting time and the preheating reducing time, so that the heating effect in the preheating stage can achieve the same effect when heating according to the heating temperature set by the user, the temperature in the preheating stage is firstly lifted and then reduced, the temperature in the hearth is conveniently and rapidly lifted, the lifting stage and the reducing stage have a certain duration, and the temperature in the hearth is not lifted or suddenly reduced, and the temperature fluctuation in the hearth is reduced.

The present application may be further configured in a preferred example to: the partition heating pipe preheating heat comprises partition lifting heating pipe preheating heat and partition reducing heating pipe preheating heat, the heating distance is obtained, and heating parameters are obtained according to the heating distance and the whole heating numerical information, and the method specifically comprises the following steps:

acquiring the preheating heat of the partition lifting heating pipe and the preheating heat of the partition reducing heating pipe according to the preheating temperature and the heating distance;

and obtaining the constant-temperature heat of the partitioned heating pipes according to the constant-temperature and the heating distance.

Through adopting above-mentioned technical scheme, because the heat preservation effect of furnace gate one side of electric oven is relatively poor to and open at furnace rear has reasons such as gas vent, light back is heavy before appearing easily, toast the effect front and back inequality, consequently, need calculate respectively the heat degree of each subregion's heating tube in the electric oven furnace, according to the distance between each subregion and the heated object, and in the promotion stage of preheating stage and reduce the required temperature of electric oven in the stage, acquire the heat degree of each subregion's heating tube in different stages, so that all sides of heated object all obtain even heating effect, improve the heating effect of electric oven.

The present application may be further configured in a preferred example to: the step of acquiring adjustment parameter information according to the partition temperature change information collection instruction specifically includes:

collecting instructions according to the partition temperature change information to obtain partition temperature change information;

acquiring temperature change ending information, and triggering a distance detection instruction according to the temperature change ending information;

acquiring distance detection result information, and acquiring current state information according to the distance detection result information and the partition temperature change information;

and acquiring adjustment parameter information according to the current state information and the overall heating numerical information.

By adopting the technical scheme, in the preheating and constant-temperature heating process of the electric oven, the temperature detection equipment of each partition continuously monitors the temperature in the hearth, the detected temperature value is compared with the preset change threshold, when the fact that heating according to the detected temperature cannot achieve a good baking effect is judged, the temperature detection equipment of the temperature in the hearth and the ranging equipment start to detect and record and collect detection results, the detected temperature value of each temperature detection equipment is obtained, when the amplitude of temperature change starts to decrease, temperature change end information is obtained, the ranging equipment detects the distance between the heated object and each partition at the moment, the distance between the heated object and each partition is obtained, when the amplitude of temperature change starts to decrease from the temperature of the partition outside the preset change threshold, the temperature change information and the distance detection result information are combined, and the whole heating value information obtained according to the heating temperature and the heating time set by a user is used for reacquiring the heating parameters of each heating pipe in the electric oven, so that the electric oven can achieve the uniform baking effect when the temperature change of the electric oven is not guaranteed in the subsequent heating process.

The present application may be further configured in a preferred example to: the triggering of the adjustment instruction according to the adjustment parameter information specifically includes:

obtaining partition adjustment parameter information according to the adjustment parameter information, wherein the partition adjustment parameter information comprises the adjusted heat of the partition heating tube;

comparing the adjusted heat of the partition heating tube with a preset heat threshold, and triggering an adjustment instruction according to the partition adjustment parameter information if the adjusted heat of the partition heating tube is smaller than the preset heat threshold;

and if the adjusted heat of the partition heating tube is greater than a preset heat threshold, triggering an adjustment information secondary adjustment instruction, acquiring secondary adjustment parameter information according to the adjustment information secondary adjustment instruction, and triggering an adjustment instruction according to the secondary adjustment parameter information.

Through adopting above-mentioned technical scheme, the adjustment parameter information that each subregion's heating tube corresponds includes the heat degree of subregion's heating tube, and the heating time that the heating tube was generated heat according to this heat degree, carry out the size contrast with the heat degree threshold value that presets the heating tube of this each subregion, if the heat degree of this each subregion's heating tube is all less than the heat degree threshold value that presets, then each heating tube adjusts according to corresponding adjustment parameter information, if this temperature is greater than the heat degree threshold value that presets, then trigger secondary adjustment instruction, secondary adjustment can restrict the heat degree after each heating tube adjustment, when the heat degree reaches the heat degree threshold value that presets, turn to adjust the heating time of heating tube, obtain secondary adjustment parameter information, each heating tube adjusts according to secondary adjustment parameter information again, consequently, through the restriction to the heat degree of heating tube, make the heat degree of each subregion's heating tube can not rise suddenly, and then result in the temperature emergence of whole electric oven to rise, the life of electric oven has been reduced, and electric oven's life has been improved, and electric oven's baking effect has been ensured.

The second object of the present invention is achieved by the following technical solutions:

a heating device for a commercial box electric oven, the heating device for a commercial box electric oven comprising:

the system comprises an integral heating numerical information acquisition module, a heating control module and a control module, wherein the integral heating numerical information acquisition module is used for acquiring heating selection information and acquiring integral heating numerical information according to the heating selection information, the heating selection information comprises heating time and heating temperature, and the integral heating numerical information comprises preheating temperature, preheating time, constant temperature and constant temperature heating time;

the heating parameter acquisition module is used for acquiring a heating distance and heating parameters according to the heating distance and the overall heating numerical information, wherein heating pipes in the electric oven are distributed in a plurality of areas, and the heating parameters comprise the preheating heat of the partitioned heating pipes and the constant temperature heat of the partitioned heating pipes in each area;

the heating module is used for triggering a heating instruction according to the heating parameter and the integral heating numerical value information;

the partition temperature comparison module is used for acquiring partition temperature detection information, comparing the partition temperature detection information with a corresponding temperature value in the integral heating numerical value information to obtain a partition difference value, comparing the partition difference value with a preset change threshold value in a range, and triggering a partition temperature change information collection instruction if the partition difference value is out of the preset change threshold value range;

The adjustment information acquisition module is used for acquiring adjustment information according to the partition temperature change information collection instruction;

and the adjusting module is used for triggering an adjusting instruction according to the adjusting information.

The third object of the present application is achieved by the following technical solutions:

a computer device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, the processor implementing the steps of the method of heating a commercial box electric oven described above when the computer program is executed.

The fourth object of the present application is achieved by the following technical solutions:

a computer readable storage medium storing a computer program which, when executed by a processor, performs the steps of the method of heating a commercial box electric oven described above.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the user sets heating information according to own use requirement, obtains the heating information set by the user, comprises heating time and heating temperature, divides the heating time into a preheating stage and a constant temperature stage according to the heating time and the heating temperature, obtains the temperatures of the preheating stage and the constant temperature stage which need to be achieved in the hearth and the time required by heating according to the temperature, comprises the preheating temperature, the preheating time, the constant temperature and the constant temperature heating time, namely integral heating numerical information, and divides the hearth of the electric oven into a plurality of areas, and the distance between each area and the heated object is different, therefore, according to the integral heating numerical information and the heating distance, obtains the heating parameters of each heating pipe on each partition from the hearth to the rear part in the hearth, each heating pipe starts heating according to the heating parameters in the heating process, the temperature detection devices positioned in different areas of the hearth intermittently detect the temperature, compare the detected temperature with the corresponding temperature value in the acquired integral heating numerical information to obtain a partition difference value, compare the partition difference value with a preset change threshold, trigger the temperature detection devices to detect the current temperature value when the partition difference value is not within the preset change threshold, measure the distance between the current heated object and the partition, obtain the adjustment information needed to be made by the heating pipes corresponding to the current information according to the collected current information, and adjust the heating pipes according to the adjustment information, so that each partition independently controls heating according to the distance between the heating pipes and the heated object in the hearth area of the electric oven, the heat in each heating tube is regulated again according to the current temperature, so that the baking effect of the electric oven is more uniform, and the temperature fluctuation at the oven door is effectively reduced;

2. In order to achieve the same effect when heating according to the heating temperature set by a user during the preheating stage, the temperature of the initial stage of the preheating stage is set to be greater than the heating temperature set by the user, the temperature is reduced later, the temperature of the initial stage of the preheating and the heating time according to the temperature are calculated according to the heating time and the heating temperature set by the user, the temperature of the subsequent stage of the preheating and the heating time according to the temperature, namely, the preheating lifting temperature, the preheating lifting time, the preheating reducing temperature and the preheating reducing time, and the constant-temperature heating time is calculated according to the heating time, the preheating lifting time and the preheating reducing time, so that the heating effect during the preheating stage can achieve the same effect when heating according to the heating temperature set by the user, the temperature during the preheating stage is lifted and then reduced firstly, the temperature in the hearth is conveniently and quickly lifted, the lifting stage and the reducing stage have a certain duration, the temperature in the hearth cannot be suddenly lifted or reduced, and the temperature fluctuation in the hearth is reduced;

3. the adjusting parameter information corresponding to the heating pipes of each partition comprises the heat degree of the heating pipes of the partition and the heating time of the heating pipes for heating according to the heat degree, the heat degree of the heating pipes of each partition is compared with a preset heat degree threshold, if the heat degree of the heating pipes of each partition is smaller than the preset heat degree threshold, each heating pipe is adjusted according to the corresponding adjusting parameter information, if the temperature is larger than the preset heat degree threshold, a secondary adjusting instruction is triggered, the heat degree after adjustment of each heating pipe is limited, when the heat degree reaches the preset heat degree threshold, the heating time of the heating pipes is adjusted, the secondary adjusting parameter information is obtained, and each heating pipe is adjusted according to the secondary adjusting parameter information.

Drawings

FIG. 1 is a flow chart of a method of heating a commercial box electric oven in an embodiment of the present application;

FIG. 2 is a flowchart of an implementation of S10 of the heating method of the commercial box electric oven in the embodiment of the present application;

FIG. 3 is a flowchart of an implementation of S12 of the heating method of the commercial box electric oven in the embodiment of the present application;

fig. 4 is a flowchart of implementation of S20 of the heating method of the commercial box electric oven in the embodiment of the present application;

FIG. 5 is a flowchart of an implementation of S50 of the heating method of the commercial box electric oven in the embodiment of the present application;

FIG. 6 is a flowchart of an implementation of S60 of the heating method of the commercial box electric oven in the embodiment of the present application;

FIG. 7 is a schematic block diagram of a heating apparatus of a commercial box electric oven according to an embodiment of the present application;

fig. 8 is an internal structural view of a heated computer device of a commercial box electric oven in an embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

In one embodiment, as shown in fig. 1, the application discloses a heating method of a commercial box-type electric oven, which specifically includes the following steps:

s10: and acquiring heating selection information, and acquiring overall heating numerical information according to the heating selection information, wherein the heating selection information comprises heating time and heating temperature, and the overall heating numerical information comprises preheating temperature, preheating time, constant temperature and constant temperature heating time.

In this embodiment, the heating selection information refers to heating numerical information set by the user on the electric oven. The overall heating numerical value information refers to heating working state information of the electric oven. The heating time refers to the heating time of the electric oven set by the user. The heating temperature refers to the heating temperature of the electric oven set by a user. The preheating time refers to the duration of the preheating stage in the heating process of the electric oven. The constant temperature heating time refers to the duration of a constant temperature heating stage in the heating process of the electric oven. The preheating temperature refers to the temperature of the electric oven in the hearth of the preheating stage during the heating process. The constant temperature refers to the temperature of the electric oven in the hearth of the constant temperature heating stage during the heating process.

Specifically, the user sets heating information, that is, heating selection information, including heating time and heating temperature according to his own use requirement, and the heating time set by the general user does not include the time of the preheating stage, for example, the heating time and the heating temperature set by the user are 200 degrees celsius and 60 minutes, respectively, that is, the time indicating that the user needs the electric oven to maintain the heating of the object at 200 degrees celsius for 60 minutes and does not include the preheating stage of the electric oven from 0 to 200 degrees celsius, so the heating time set by the user is divided into the preheating stage and the constant temperature heating stage according to the heating information set by the user, and the temperature in the preheating stage is adjusted to obtain the overall heating numerical information including the preheating temperature, the preheating time, the constant temperature and the constant temperature heating time, so that the electric oven can achieve the effect of performing constant temperature heating according to the heating temperature set by the user when the electric oven is heated in the preheating stage.

S20: and acquiring a heating distance, and acquiring heating parameters according to the heating distance and the overall heating numerical information, wherein the heating pipes in the electric oven are distributed in a plurality of areas, and the heating parameters comprise the preheating heat of the partitioned heating pipes and the constant-temperature heat of the partitioned heating pipes in each area.

In the present embodiment, the heating distance refers to a distance between the object to be heated and the division. The heating parameter refers to an operating parameter within a heating tube in an electric oven. The preheating heat of the heating pipes in the subareas refers to the heat parameter of the heating pipes in the preheating stage. The constant temperature heat of the partitioned heating pipes refers to the heat parameters of the heating pipes on the partitions in the constant temperature heating stage.

Specifically, the heating tube in the furnace chamber of the commercial box-type electric oven according to the heating method of the commercial box-type electric oven provided by the embodiment is divided into a plurality of heating subareas, including a front subarea, a middle subarea and a rear subarea which are close to the oven door, each subarea is provided with a separate temperature detection device and a temperature controller, each temperature controller controls the heating tube in the corresponding subarea, the electric oven is internally provided with a temperature detection device for detecting the temperature of the furnace chamber of the electric oven, and a distance measurement device capable of detecting the distance between the subarea and the heated object, after the heated object is placed by a user and heating information is set, the distance measurement device starts to detect the distance between the heated object and the subarea to obtain the heating distance, and according to the heating distance, the heating parameters, namely the heating tube on each subarea heats the object at the distance, so that the temperature in the furnace chamber of the electric oven reaches the working parameters of the temperature in the whole heating numerical information, wherein the subarea corresponding to the preheating temperature in the whole heating numerical information and the constant temperature of the heating tube in the heating parameter preheat the subarea.

S30: and triggering a heating instruction according to the heating parameter and the overall heating numerical information.

In the present embodiment, the heating instruction refers to instruction information for starting heating of the electric oven.

Specifically, after the heating parameters in the heating pipes are obtained, the heating instruction is triggered, and the heating pipes in the electric oven are controlled to start heating according to the corresponding heating parameters.

S40: the method comprises the steps of obtaining partition temperature detection information, comparing the partition temperature detection information with a temperature value corresponding to the integral heating numerical value information to obtain a partition difference value, comparing the partition difference value with a preset change threshold value in a range, and triggering a partition temperature change information collection instruction if the partition difference value is out of the preset change threshold value range.

In the present embodiment, the partition temperature detection information refers to temperature value information detected by the temperature detection devices of the respective partitions. The partition difference value refers to a difference between a temperature value detected by the temperature detecting device on the partition and a corresponding temperature in the overall heating value information. The partition temperature change information collection instruction refers to instruction information for controlling the temperature detection device and the ranging device in the electric oven to start detecting and collecting detection results.

Specifically, in the heating process of the electric oven, temperature detection equipment on the subarea continuously detects the temperature of the subarea to obtain subarea temperature detection information, the detected result is compared with the corresponding temperature in the whole heating numerical value information to obtain a subarea difference value, the difference value is compared with a preset change threshold value in a range, according to the compared result, if the subarea difference value is in the preset change threshold value range, the heating pipe continuously heats according to the parameters in the heating parameters, and when the subarea difference value is out of the preset change threshold value range, a subarea temperature change information collection instruction is triggered, namely the subarea temperature detection equipment is controlled, and the ranging equipment starts to detect and record and collect detection results.

S50: and collecting instructions according to the partition temperature change information to obtain adjustment parameter information.

In this embodiment, the adjustment parameter information refers to the adjusted operating parameter information of the heat pipe.

Specifically, when the temperature change amplitude detected by the temperature detection devices in each partition begins to decrease, the collection of temperature information detected by each temperature detection device is stopped, the distance measurement device begins to detect the distance between the heated object and the partition, and according to the obtained temperature value detected by each temperature detection device last time, the distance detected by the distance measurement device and the time of temperature change, parameters of each heating tube, namely, adjustment parameter information, are obtained when the electric oven needs to achieve the same baking effect in the rest time after the temperature exceeds the change threshold value.

S60: and triggering an adjustment instruction according to the adjustment parameter information.

Specifically, after the adjustment parameter information is obtained, an adjustment instruction is triggered, the heat of the heating tube on the partition is adjusted to be corresponding heat according to the heat information of the heating tube on the partition in the adjustment parameter information, and the heating time is adjusted to be corresponding time according to the heating time information of the heating tube on the partition in the adjustment parameter information.

In one embodiment, as shown in fig. 2, in step S10, heating selection information is acquired, and overall heating value information is acquired according to the heating selection information, which specifically includes:

s11: and extracting the heating temperature from the heating selection information, and taking the heating temperature as the constant temperature.

Specifically, the user aims to perform heating at the heating temperature set by the user, and therefore, the heating temperature is extracted from the heating selection information set by the user, and is taken as the constant temperature of the electric oven in the constant temperature heating stage.

S12: and obtaining the preheating time, the constant-temperature heating time and the preheating temperature according to the heating time and the heating temperature.

Specifically, the purpose of the user is that the electric oven heats the object to be heated with the heating temperature set by the user and the heating time length is the heating time set by the user, so, after the heating time set by the user is divided into the preheating stage and the constant temperature heating stage, the purpose of the user can be met with the heating temperature set by the user as the constant temperature heating temperature in the constant temperature heating stage, and in the preheating stage, in order to achieve the heating effect consistent when heating according to the heating time set by the user and the heating temperature in the preheating stage, the corresponding preheating temperature and the corresponding preheating time are obtained according to the heating time set by the user and the heating temperature, and then the constant temperature heating time is obtained according to the preheating time.

S13: and correlating the constant temperature, the preheating time, the constant heating time and the preheating temperature to obtain the whole heating numerical information.

Specifically, the constant temperature, the preheating time, the constant temperature heating time and the preheating temperature are associated to obtain integral heating numerical information, namely temperature and time information of the electric oven in the integral baking and heating process, and in the baking and heating process, the temperature detection equipment in the electric oven judges whether the working state of the electric oven is normal or not according to the integral heating numerical information, for example, according to the preheating time and the preheating temperature, in a period of the preheating time, the temperature detected by the temperature detection equipment and the preheating temperature are compared to judge whether the working state of the electric oven is normal or not.

In one embodiment, the preheating temperature includes a preheating increasing temperature and a preheating decreasing temperature, the preheating time includes a preheating increasing time and a preheating decreasing time, and as shown in fig. 3, in step S12, the preheating time, the constant temperature heating time and the preheating temperature are obtained according to the heating time and the heating temperature, which specifically includes:

s121: and obtaining the preheating lifting temperature, the preheating reducing temperature, the preheating lifting time and the preheating reducing time according to the heating time and the heating temperature.

In this embodiment, the preheating elevated temperature refers to a temperature in the firebox of the electric oven that is greater than the heating temperature set by the user. The preheating reducing temperature refers to a temperature in the hearth of the electric oven that is less than the preheating increasing temperature. The preheating lifting time refers to the time for the electric oven to heat according to the preheating lifting temperature. The preheating reduction time refers to the time during which the electric oven is heated according to the preheating reduction temperature.

Specifically, according to the heating time and the heating temperature, the preheating raising temperature is obtained, in the process that the temperature of the electric oven starts to rise from 0 degrees celsius, the baking effect on the heated object is inferior to the effect of heating according to the heating temperature set by the user, so in the initial raising stage of the preheating stage, the temperature of the electric oven needs to rise to a temperature exceeding the heating temperature set by the user, that is, the preheating raising temperature, for a period of time, that is, the preheating raising temperature and the preheating raising time, after the raising stage is finished, the temperature needs to be reduced to heat and for a period of time again, that is, the preheating reducing temperature is required to heat according to the preheating reducing temperature, and the degree of temperature reduction in the reducing stage is determined according to the effect required to be achieved by the heating temperature set by the user and the effect achieved according to the preheating raising temperature in the initial stage, so that the heating effect in the preheating stage can achieve the same effect as that when heating according to the heating temperature set by the user can be achieved by splitting the preheating stage.

S122: and obtaining constant-temperature heating time according to the preheating lifting time and the preheating reducing time.

Specifically, according to the preheating lifting time and the preheating reducing time, combining the heating time set by the user, and subtracting the preheating lifting time and the preheating reducing time according to the heating time set by the user to obtain the constant-temperature heating time.

In an embodiment, the partition heating tube preheating heat includes partition heating tube preheating heat raising and partition heating tube preheating heat lowering, as shown in fig. 4, in step S20, a heating distance is obtained, and heating parameters are obtained according to the heating distance and the overall heating numerical information, which specifically includes:

s21: and according to the preheating temperature and the heating distance, acquiring the preheating heat of the heating pipe in the partition lifting mode and the preheating heat of the heating pipe in the partition reducing mode.

In this embodiment, the heat parameters of the heat pipes on the heat pipe preheating heat section in the lifting phase in the preheating phase are lifted in sections. The divisionally decreasing heat pipe preheating heat refers to heat parameters of the heat pipe on the divisional portion in a decreasing stage of the preheating stage.

Specifically, after the distance between the heated object detected by the distance measuring equipment and each subarea is obtained, according to the corresponding temperature in the distance and the preheating temperature, the heat parameters of the heating pipes on the subarea, namely the preheating heat of the subarea lifting heating pipes and the preheating heat of the subarea reducing heating pipes, are respectively obtained so that the temperature in the hearth can reach the preheating lifting temperature and the preheating reducing temperature.

S22: and obtaining the constant-temperature heat of the partitioned heating pipe according to the constant-temperature and the heating distance.

In this embodiment, the constant temperature heat of the partitioned heating tube refers to a heat parameter of the heating tube on the partition in the constant temperature heating stage.

Specifically, according to the constant temperature and the distance between the heated object and the subarea detected by the distance measuring equipment, the heat parameter of the heating pipe on the subarea which can enable the temperature in the hearth to reach the constant temperature, namely the constant temperature heat of the subarea heating pipe is obtained.

In one embodiment, as shown in fig. 5, in step S50, according to the partition temperature change information collection instruction, adjustment parameter information is obtained, which specifically includes:

s51: and collecting instructions according to the partition temperature change information to obtain the partition temperature change information.

In the present embodiment, the partition temperature change information refers to information of a temperature value and a detection time detected by the temperature detection device in the partition.

Specifically, after the temperature in the electric oven is judged to have a larger change according to the temperature value detected by the temperature detection equipment on the partition, the temperature detection equipment in the partition detects the temperature, and the detected time length is recorded, so that partition temperature change information comprising the detected temperature value and the detected time length is obtained.

Further, after the temperature in the electric oven is judged to have a larger change according to the temperature value detected by the temperature detection equipment on the partition, the frequency detected by the temperature detection equipment in the partition is increased so as to judge the amplitude of the temperature change.

S52: and acquiring temperature change ending information, and triggering a distance detection instruction according to the temperature change ending information.

In the present embodiment, the temperature change end information refers to information that the magnitude of the temperature change is reduced. The distance detection instruction refers to instruction information for controlling the distance measuring device to detect the distance between the heated object and the division.

Specifically, when information that the magnitude of the temperature change decreases, that is, temperature change end information, is acquired based on the temperature value detected by the temperature detection device in the partition, the distance measurement device detects the distance between the heated object and each partition when the temperature change end information is acquired.

S53: and acquiring distance detection result information, and acquiring current state information according to the distance detection result information and the partition temperature change information.

In the present embodiment, the distance detection result information refers to distance information between the heated object detected by the distance measuring device and each zone. The current state information refers to the whole state information of the electric oven after the temperature change amplitude is reduced.

Specifically, the distance between the heated object detected by the distance measuring device and each partition, namely distance detection result information, is obtained, and the temperature of the whole electric oven and the current state information of the distance between the heated object and each partition in the electric oven are obtained according to the distance detection result information and partition temperature change information.

S54: and acquiring adjustment parameter information according to the current state information and the overall heating numerical information.

In this embodiment, the adjustment parameter information refers to parameter information obtained by adjusting the working parameters of each heating tube according to the changed information after the temperature of the electric oven is changed.

Specifically, according to the comparison between the current state information and the overall heating numerical value information, for example, when the current state information is acquired in a preheating stage, the temperature in the current state information is compared with the preheating temperature, and according to the comparison result, the information such as the subsequent preheating temperature, preheating time, constant-temperature heating time and the like is acquired again, and according to the information such as the subsequent preheating temperature, preheating time, constant-temperature heating time and the like, the distance detection result information in the current state information is combined, and the adjustment of the working parameters of the heating tube in the electric oven corresponding to the information such as the subsequent preheating temperature, preheating time, constant-temperature heating time and the like, namely the adjustment parameter information is acquired.

In one embodiment, as shown in fig. 6, in step S60, according to the adjustment parameter information, an adjustment instruction is triggered, which specifically includes:

s61: and obtaining partition adjustment parameter information according to the adjustment parameter information, wherein the partition adjustment parameter information comprises the adjusted heat of the partition heating pipe.

In this embodiment, the partition adjustment parameter information refers to adjustment parameter information of the heating tube on the partition in the adjustment parameter information. The heat degree after the heating tube is adjusted by the subarea is the heat degree parameter information after the heating tube is adjusted by the subarea in the subarea adjustment parameter information.

Specifically, the heat degree of each heating tube after adjustment, namely the heat degree of each heating tube after adjustment is obtained from the adjustment parameter information.

Further, the adjusting parameter information further comprises heating time after the heating tube on the subarea is adjusted.

S62: and comparing the adjusted heat of the partition heating tube with a preset heat threshold, and triggering an adjustment instruction according to partition adjustment parameter information if the adjusted heat of the partition heating tube is smaller than the preset heat threshold.

Specifically, the adjusted heat of the partitioned heating tube is compared with a preset heat threshold, if the adjusted heat of the partitioned heating tube is smaller than the preset heat threshold, it is judged that the heating tube cannot cause great temperature fluctuation when adjusted according to the adjustment parameter information, and therefore the heating tube on the partition is adjusted according to the corresponding partition adjustment parameter information.

S63: and if the adjusted heat of the partition heating tube is greater than a preset heat threshold, triggering a secondary adjustment instruction of the adjustment information, acquiring secondary adjustment parameter information according to the secondary adjustment instruction of the adjustment information, and triggering the adjustment instruction according to the secondary adjustment parameter information.

In this embodiment, the adjustment information secondary adjustment instruction refers to instruction information for adjusting adjustment parameter information. The secondary adjustment parameter information refers to parameter information after adjustment of the adjustment parameter information.

Specifically, if the adjusted heat of the partitioned heating tube is greater than a preset heat threshold, it is determined that the heating tube will cause a large temperature fluctuation when adjusted according to the adjustment parameter information, and the baking effect of the electric oven is affected, so that the adjustment parameter information is subjected to secondary adjustment, the heat parameter is limited according to the preset heat threshold in the secondary adjustment, if the heat parameter has reached the preset heat threshold, the heating time is adjusted, the secondary adjustment parameter information is obtained after adjustment, the heat of the heating tube on the partition in the secondary adjustment parameter information is not greater than the preset heat threshold, and the heating tube on the partition is adjusted according to the corresponding secondary adjustment parameter information.

It should be understood that the sequence number of each step in the foregoing embodiment does not mean that the execution sequence of each process should be determined by the function and the internal logic of each process, and should not limit the implementation process of the embodiment of the present application in any way.

In one embodiment, a heating device of a commercial box-type electric oven is provided, and the heating device of the commercial box-type electric oven corresponds to the heating method of the commercial box-type electric oven in the embodiment. As shown in fig. 7, the heating device of the commercial box-type electric oven comprises an overall heating numerical value information acquisition module, a heating parameter acquisition module, a heating module and a partition temperature comparison module. And the adjustment information acquisition module and the adjustment module. The functional modules are described in detail as follows:

the system comprises an integral heating numerical value information acquisition module, a heating control module and a control module, wherein the integral heating numerical value information acquisition module is used for acquiring heating selection information and acquiring integral heating numerical value information according to the heating selection information, the heating selection information comprises heating time and heating temperature, and the integral heating numerical value information comprises preheating temperature, preheating time, constant temperature and constant temperature heating time;

the heating parameter acquisition module is used for acquiring heating distance and heating parameters according to the heating distance and the overall heating numerical information, wherein heating pipes in the electric oven are distributed in a plurality of areas, and the heating parameters comprise the preheating heat of the partitioned heating pipes and the constant temperature heat of the partitioned heating pipes of the heating pipes in each area;

The heating module is used for triggering a heating instruction according to the heating parameters and the overall heating numerical information;

the partition temperature comparison module is used for acquiring partition temperature detection information, comparing the range of the partition temperature detection information with a preset change threshold value, and triggering a partition temperature change information collection instruction if the partition temperature detection information is out of the preset change threshold value range;

Optionally, the overall heating numerical information obtaining module includes:

the heating temperature extraction sub-module is used for extracting heating temperature from the heating selection information, and taking the heating temperature as constant temperature;

the partial heating numerical value information acquisition sub-module is used for acquiring preheating time, constant-temperature heating time and preheating temperature according to the heating time and the heating temperature;

and the integral heating numerical information correlation sub-module is used for correlating the constant temperature, the preheating time, the constant heating time and the preheating temperature to obtain integral heating numerical information.

Optionally, the preheating temperature includes preheating raising temperature and preheating lowering temperature, and the preheating time includes preheating raising time and preheating lowering time, and the partial heating numerical value information acquisition submodule includes:

The preheating stage dividing unit is used for acquiring a preheating lifting temperature, a preheating lowering temperature, a preheating lifting time and a preheating lowering time according to the heating time and the heating temperature;

and the constant-temperature heating time acquisition unit is used for acquiring constant-temperature heating time according to the preheating lifting time and the preheating reducing time.

Optionally, the heating parameter obtaining module includes:

the heating tube preheating heat acquiring submodule is used for acquiring the heating tube preheating heat of the subarea lifting heating tube and the heating tube preheating heat of the subarea reducing heating tube according to the preheating temperature and the heating distance;

and the heating pipe constant temperature heat acquisition submodule is used for acquiring the partitioned heating pipe constant temperature heat according to the constant temperature and the heating distance.

Optionally, the adjustment information obtaining module includes:

the temperature change information acquisition sub-module is used for acquiring the partition temperature change information according to the partition temperature change information collection instruction;

the distance measurement instruction submodule is used for acquiring temperature change ending information and triggering a distance detection instruction according to the temperature change ending information;

the current state information acquisition sub-module is used for acquiring distance detection result information and acquiring current state information according to the distance detection result information and the partition temperature change information;

And the adjustment parameter information acquisition sub-module is used for acquiring adjustment parameter information according to the current state information and the overall heating numerical value information.

Optionally, the adjusting module includes:

the partition parameter information acquisition sub-module is used for acquiring partition adjustment parameter information according to the adjustment parameter information, wherein the partition adjustment parameter information comprises the adjusted heat of the partition heating tube;

the adjusting parameter information comparison sub-module is used for comparing the adjusted heat of the partition heating tube with a preset heat threshold, and triggering an adjusting instruction according to the partition adjusting parameter information if the adjusted heat of the partition heating tube is smaller than the preset heat threshold;

and the secondary adjustment sub-module is used for triggering an adjustment information secondary adjustment instruction if the adjusted heat of the partitioned heating tube is larger than a preset heat threshold value, acquiring secondary adjustment parameter information according to the adjustment information secondary adjustment instruction, and triggering the adjustment instruction according to the secondary adjustment parameter information.

The specific limitation regarding the heating device of the commercial box-type electric oven can be found in the above limitation of the heating method of the commercial box-type electric oven, and the detailed description thereof will be omitted. The above-described individual modules in the heating device of the commercial box-type electric oven may be implemented in whole or in part by software, hardware, and a combination thereof. The above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.

In one embodiment, a computer device is provided, which may be a server, and the internal structure of which may be as shown in fig. 8. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, computer programs, and a database. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The database of the computer equipment is used for storing the whole heating numerical information, heating parameters, adjustment parameter information and the like. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program, when executed by the processor, implements a method of heating a commercial box electric oven.

In one embodiment, a computer device is provided comprising a memory, a processor, and a computer program stored on the memory and executable on the processor, the processor implementing the steps of when executing the computer program:

And acquiring heating selection information, and acquiring overall heating numerical information according to the heating selection information, wherein the heating selection information comprises heating time and heating temperature, and the overall heating numerical information comprises preheating temperature, preheating time, constant temperature and constant temperature heating time.

And acquiring a heating distance, and acquiring heating parameters according to the heating distance and the overall heating numerical information, wherein the heating pipes in the electric oven are distributed in a plurality of areas, and the heating parameters comprise the preheating heat of the partitioned heating pipes and the constant-temperature heat of the partitioned heating pipes in each area.

And triggering a heating instruction according to the heating parameter and the overall heating numerical information.

The method comprises the steps of obtaining partition temperature detection information, comparing the partition temperature detection information with a temperature value corresponding to the integral heating numerical value information to obtain a partition difference value, comparing the partition difference value with a preset change threshold value in a range, and triggering a partition temperature change information collection instruction if the partition difference value is out of the preset change threshold value range.

And collecting instructions according to the partition temperature change information to obtain adjustment parameter information.

In one embodiment, a computer readable storage medium is provided having a computer program stored thereon, which when executed by a processor, performs the steps of:

And acquiring a heating distance, and acquiring heating parameters according to the heating distance and the overall heating numerical information, wherein heating pipes in the electric oven are distributed in a plurality of areas, and the heating parameters comprise the preheating heat of the partitioned heating pipes and the constant temperature heat of the partitioned heating pipes in each area.

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the various embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-described division of the functional units and modules is illustrated, and in practical application, the above-described functional distribution may be performed by different functional units and modules according to needs, i.e. the internal structure of the apparatus is divided into different functional units or modules to perform all or part of the above-described functions.

The above embodiments are only for illustrating the technical solution of the present application, and are not limiting; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application, and are intended to be included in the scope of the present application.

Claims

1. A method of heating a commercial box electric oven, the method comprising:

Acquiring a heating distance, and acquiring heating parameters according to the heating distance and the overall heating numerical information, wherein heating pipes in an electric oven are distributed in a plurality of areas, the heating parameters comprise the preheating heat of the partitioned heating pipes and the constant temperature heat of the partitioned heating pipes of the heating pipes in each area, and the heating distance refers to the distance between an object to be heated and the partition;

2. The method for heating a commercial box-type electric oven according to claim 1, wherein the obtaining heating selection information, according to which the overall heating value information is obtained, specifically comprises:

3. The heating method of a commercial box-type electric oven according to claim 2, wherein the preheating temperature includes a preheating increasing temperature and a preheating decreasing temperature, the preheating time includes a preheating increasing time and a preheating decreasing time, and the obtaining the preheating time, the constant-temperature heating time and the preheating temperature according to the heating time and the heating temperature specifically includes:

4. The heating method of a commercial box-type electric oven according to claim 1, wherein the partition heating pipe preheating heat comprises partition lifting heating pipe preheating heat and partition reducing heating pipe preheating heat, the heating distance is obtained, and heating parameters are obtained according to the heating distance and the overall heating numerical information, specifically comprising:

5. The method for heating a commercial box-type electric oven according to claim 1, wherein the acquiring adjustment parameter information according to the partition temperature change information collection instruction specifically includes:

acquiring distance detection result information, and acquiring current state information according to the distance detection result information and the partition temperature change information, wherein the distance detection result information refers to a heating distance;

6. The method for heating a commercial box-type electric oven according to claim 1, wherein the triggering an adjustment command according to the adjustment parameter information specifically comprises:

7. A heating device for a commercial box-type electric oven, characterized in that the heating device for a commercial box-type electric oven comprises:

The heating parameter acquisition module is used for acquiring heating distance and heating parameters according to the heating distance and the overall heating numerical information, wherein heating pipes in the electric oven are distributed in a plurality of areas, the heating parameters comprise the preheating heat of the partitioned heating pipes and the constant temperature heat of the partitioned heating pipes of the heating pipes in each area, and the heating distance refers to the distance between an object to be heated and the partition;

8. The heating apparatus of a commercial box-type electric oven according to claim 7, wherein the overall heating value information acquisition module includes:

A heating temperature extraction sub-module for extracting the heating temperature from the heating selection information, and taking the heating temperature as the constant temperature;

and the integral heating numerical information correlation sub-module is used for correlating the constant temperature, the preheating time, the constant heating time and the preheating temperature to obtain the integral heating numerical information.

9. A computer device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, characterized in that the processor, when executing the computer program, carries out the steps of the heating method of a commercial box-type electric oven according to any one of claims 1 to 6.

10. A computer-readable storage medium storing a computer program, characterized in that the computer program when executed by a processor implements the steps of the heating method of a commercial box-type electric oven according to any one of claims 1 to 6.