CN106691186A - Hot spring egg boiler and method for preparing hot spring eggs - Google Patents
Hot spring egg boiler and method for preparing hot spring eggs Download PDFInfo
- Publication number
- CN106691186A CN106691186A CN201710010059.2A CN201710010059A CN106691186A CN 106691186 A CN106691186 A CN 106691186A CN 201710010059 A CN201710010059 A CN 201710010059A CN 106691186 A CN106691186 A CN 106691186A
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- Prior art keywords
- temperature
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- time
- control module
- heater
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Classifications
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J29/00—Egg-cookers
- A47J29/02—Egg-cookers for eggs or poached eggs; Time-controlled cookers
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J29/00—Egg-cookers
- A47J29/06—Grasping devices for eggs; Supporting devices for eggs during boiling
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J2201/00—Devices having a modular construction
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47J—KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
- A47J2203/00—Devices having filling level indicating means
Abstract
The invention discloses a hot spring egg boiler and a method for preparing hot spring eggs. The hot spring egg boiler comprises a shell, an inner container is arranged in the shell, an egg boiling frame is arranged in the inner container, a temperature sensor is arranged on the upper inner wall of the inner container, a heater is arranged on the lower outer wall of the inner container, a cover is arranged on the upper portion of the shell, and a control system is arranged on the cover and respectively electrically connected with the temperature sensor and the heater. According to the preparation method, the hot spring eggs are prepared by accurately controlling temperature and time in different heating modes. A user can easily boil the hot spring eggs, the temperature and the time in the hot spring egg boiling process are accurately controlled by a control module, so that the shortcoming of an existing egg boiler incapable of boiling the hot spring eggs is overcome, and use requirements of the user are met.
Description
Technical field
The present invention relates to kitchen appliance, and in particular to warm spring egg poacher and its method for preparing warm spring egg.
Background technology
A kind of way of boiled egg of warm spring egg, gains the name because being cooked into hot spring.When eggshell is knocked open, can have surprisingly found that
Yolk or liquid, can egg white solidified, taste is very unique.But because the control to water temperature and time is extremely strict,
During Household water is boiled, it is virtually impossible to cook.
Meanwhile, poacher is a kind of new fashionable life small household appliances for rising, the New mea-sures of its promotion nutrient breakfast, fashion,
It is convenient.But the poacher overwhelming majority for selling currently on the market is, with electric heating plate continuous heating, egg to be steamed by steam
It is ripe, it is impossible to make warm spring egg.
The content of the invention
Instant invention overcomes poacher of the prior art cannot precise control of temperature and time presence can not make hot spring
A kind of deficiency of egg, there is provided warm spring egg poacher.
To achieve the above object, the present invention uses following technical scheme:
A kind of warm spring egg poacher, it includes shell, inner bag is provided with the shell, and boiled egg is provided with the inner bag
Frame, the inwall top of the inner bag is provided with temperature sensor, and the lower section of the outer wall of the inner bag sets having heaters, described outer
Shell top is provided with lid, is provided with control system on the lid, the control system respectively with temperature sensor and heating
Device is electrically connected.
Electrically connected with temperature sensor and heater respectively by by control system in the technical program, first by control
System controls heating of the heater to inner bag reclaimed water, then by temperature sensor Real-time Collection temperature, and temperature value is fed back
To control system, so that control system accurately controls heating-up temperature and the heat time of heater according to the temperature of collection, from
And the warm spring egg that boils out.
Further technical scheme is that the control system includes control module, time module and human-computer interaction module,
The control module is electrically connected with time module and human-computer interaction module respectively, the control module include slow fire control module,
Small fire control module, moderate heat control module and Control large fire module, the time module include very first time module, the second time
Module, the 3rd time module and the 4th time module, the slow fire control module are used to control heater with slow fire heating mode
Water in inner bag is carried out to be heated to temperature T10;The small fire control module is used to control heater with small fire heating mode pair
Water in inner bag carries out being heated to temperature T20;The moderate heat control module is used to control heater internal with moderate heat heating mode
Water in courage carries out being heated to temperature T30;The Control large fire module is used to control heater with big fire heating mode to inner bag
In water carry out being heated to temperature T40;The very first time module is used to gather the stopping heating of slow fire heating mode lower heater
Whether the time t1 of even water temperature, and detection time t1 afterwards is equal to time t11, when time t1 is equal to time t11, to small fire control
Molding block sends second and instructs;Second time module is used to gather water temperature after small fire heating mode lower heater stops heating
Uniform time t2, and whether detection time t2 is equal to time t22, when time t2 is equal to time t22, to moderate heat control module
Send the 5th instruction;3rd time module is used to gather even water temperature after moderate heat heating mode lower heater stops heating
Time t3, and whether detection time t3 is equal to time t32, when time t3 is equal to time t32, the is sent to Control large fire module
Eight instructions;4th time module is used to gather the time that big fire heating mode lower heater stops even water temperature after heating
T4, and whether detection time t4 is equal to time t42, when time t4 is equal to time t42, the 11st is sent to human-computer interaction module
Instruction.
Further technical scheme is that the time module also includes initial time module, the initial time module
For detecting that slow fire heating mode lower heater carries out being heated to temperature T10 to the water in inner bag according to current indoor temperature
Time t.
Further technical scheme is that second instruction begins to warm up for small fire control module control heater, institute
The 5th instruction is stated for moderate heat control module control heater begins to warm up, the 8th instruction controls heating for Control large fire module
Device begins to warm up, and the 11st instruction shows end of boiling for human-computer interaction module.
Further technical scheme is, the temperature sensor include the first temperature sensor, second temperature sensor,
Three-temperature sensor and the 4th temperature sensor, first temperature sensor are used for collecting temperature T10, and detection temperature
Whether T10 is equal to temperature T1, when temperature T10 is equal to temperature T1, sends first to slow fire control module and instructs;Second temperature
Degree sensor is used for collecting temperature T20, and whether detection temperature T20 is equal to temperature T2, when temperature T20 is equal to temperature T2, to
Small fire control module sends the 3rd and instructs, and when temperature T20 is less than temperature T2, sends the 4th to small fire control module and instructs;Institute
Three-temperature sensor is stated for collecting temperature T30, and whether detection temperature T30 is equal to temperature T3, when temperature T30 is equal to temperature
During T3, send the 6th to moderate heat control module and instruct;When temperature T30 is less than temperature T3, the 7th is sent to moderate heat control module
Instruction;4th temperature sensor is used for collecting temperature T40, and whether detection temperature T40 is equal to temperature T4, as temperature T40
During equal to temperature T4, send the 9th to Control large fire module and instruct;When temperature T40 is less than temperature T4, to Control large fire module
Send the tenth instruction.
Further technical scheme is that first instruction stops heating, institute for slow fire control module control heater
The 3rd instruction is stated for small fire control module control heater stops heating, the 4th instruction controls heating for small fire control module
Think highly of to open carries out being heated to temperature T2 and stops heating to the water in inner bag, and the 6th instruction adds for the control of moderate heat control module
Hot device stops heating, and the 7th instruction is restarted for moderate heat control module control heater to be carried out being heated to temperature to the water in inner bag
Degree T3 simultaneously stops heating, and the 9th instruction stops heating for Control large fire module control heater, and the tenth instruction is big
Fiery control module control heater is restarted to carry out being heated to temperature T4 and stops heating to the water in inner bag.
In the technical program by set the cooperating of control module, time module, temperature sensor and heater from
And realize heater the slow fire heating period, the small fire heating period, the moderate heat heating period and in the big fire heating period temperature and
The accurate control of heat time, it is specific as follows:
First;Slow fire control module control heater selection slow fire heating mode carries out being heated to temperature to the water in inner bag
T10, the first temperature sensor collects temperature T10, and judges whether temperature T10 is equal to 52 DEG C, if T10=52 DEG C, first
Temperature sensor sends to slow fire control module and instructs, and slow fire control module controls heater to stop heating after receiving instruction, by
In inner bag heating process, in inner bag lower end to its surrounding annular-heating, the water temperature for making surrounding bottom in inner bag is higher than heater
Center water temperature, and hot water can up gush in heating process, cold water can sink, and exist between the difference in height of the temperature of water in inner bag
The temperature difference, so need to carry out even water temperature, so that ensure that egg is heated evenly in inner bag reclaimed water, the stand-by period of even water temperature
It is 120 seconds, the time of even water temperature after slow fire heating mode lower heater stops heating being gathered by very first time detection module
T1, when time t1=120 seconds, sends to small fire control module and instructs, and small fire control module control heater begins to warm up;
Secondly;Small fire control module control heater selects the small fire heating mode to carry out being heated to temperature to the water in inner bag
T20, second temperature sensor collecting temperature T20, and judge whether temperature T20 is equal to 60 DEG C, if temperature T20 is equal to 60 DEG C,
Second temperature sensor sends instruction to small fire control module, and small fire control module controls heater to stop adding after receiving instruction
Heat, after stopping heating, the water temperature in inner bag can decline, second temperature sensor collecting temperature T20, when temperature T20 is less than
At 60 DEG C, sent to small fire control module and instructed, small fire control module control heater is restarted the water in inner bag is heated
To temperature 60 C and stop heating, circulate said process, the duration be 300 seconds, by small fire control module in the duration
The control heater of interior interruption is opened and closed, and the water in inner bag is heated, and can so ensure that the water temperature in inner bag is permanent
It is scheduled on 60 DEG C, and passes through the interruption of heater and open and close, so as to always on heater in relative to 300 seconds, saves
Electric energy;Due in inner bag heating process, heater to its surrounding annular-heating, makes surrounding bottom in inner bag in inner bag lower end
Water temperature is higher than center water temperature, and hot water can up gush in heating process, and cold water can sink, the height of the temperature of water in inner bag
There is the temperature difference between difference, so need to carry out even water temperature, so that ensure that egg is heated evenly in inner bag reclaimed water, even water temperature
Stand-by period is 60 seconds, and even water temperature after small fire heating mode lower heater stops heating being gathered by the second time detecting module
Time t2, when time t2=60 seconds, to moderate heat control module send instruct, moderate heat control module control heater start plus
Heat;
Again;Moderate heat control module control heater selects the moderate heat heating mode to carry out being heated to temperature to the water in inner bag
T30, three-temperature sensor collecting temperature T30, and judge whether temperature T30 is equal to 67 DEG C, if temperature T30 is equal to 67 DEG C,
Three-temperature sensor sends instruction to moderate heat control module, and moderate heat control module controls heater to stop adding after receiving instruction
Heat, after stopping heating, the water temperature in inner bag can decline, three-temperature sensor collecting temperature T30, when temperature T30 is less than
At 67 DEG C, sent to moderate heat control module and instructed, moderate heat control module control heater is restarted the water in inner bag is heated
To 67 DEG C of temperature and stop heating, circulate said process, the duration be 360 seconds, by moderate heat control module in the duration
The control heater of interior interruption is opened and closed, and the water in inner bag is heated, and can so ensure that the water temperature in inner bag is permanent
It is scheduled on 67 DEG C, and passes through the interruption of heater and open and close, so as to always on heater in relative to 360 seconds, saves
Electric energy;Due in inner bag heating process, heater to its surrounding annular-heating, makes surrounding bottom in inner bag in inner bag lower end
Water temperature is higher than center water temperature, and hot water can up gush in heating process, and cold water can sink, the height of the temperature of water in inner bag
There is the temperature difference between difference, so need to carry out even water temperature, so that ensure that egg is heated evenly in inner bag reclaimed water, even water temperature
Stand-by period is 90 seconds, and even water temperature after moderate heat heating mode lower heater stops heating being gathered by the 3rd time detecting module
Time t3, when time t3=90 seconds, to Control large fire module send instruct, Control large fire module control heater start plus
Heat;
Finally;Control large fire module control heater selects the big fire heating mode to carry out being heated to temperature to the water in inner bag
T40, the 4th temperature sensor collecting temperature T40, and judge whether temperature T40 is equal to 70 DEG C, if temperature T40 is equal to 70 DEG C,
4th temperature sensor sends instruction to Control large fire module, and Control large fire module controls heater to stop adding after receiving instruction
Heat, after stopping heating, the water temperature in inner bag can decline, the 4th temperature sensor collecting temperature T40, when temperature T40 is less than
At 70 DEG C, sent to Control large fire module and instructed, Control large fire module control heater is restarted the water in inner bag is heated
To temperature 70 C and stop heating, circulate said process, the duration be 180 seconds, by Control large fire module in the duration
The control heater of interior interruption is opened and closed, and the water in inner bag is heated, and can so ensure that the water temperature in inner bag is permanent
It is scheduled on 70 DEG C, and passes through the interruption of heater and open and close, so as to always on heater in relative to 180 seconds, saves
Electric energy;Due in inner bag heating process, heater to its surrounding annular-heating, makes surrounding bottom in inner bag in inner bag lower end
Water temperature is higher than center water temperature, and hot water can up gush in heating process, and cold water can sink, the height of the temperature of water in inner bag
There is the temperature difference between difference, so need to carry out even water temperature, so that ensure that egg is heated evenly in inner bag reclaimed water, even water temperature
Stand-by period is 30 seconds, and even water temperature after moderate heat heating mode lower heater stops heating being gathered by the 4th time detecting module
Time t4, when time t4=30 seconds, sent to display module and instructed, display module reality boils end.
Further technical scheme is that the shell is made of food-grade PC materials, and the inner bag uses food-grade
304 stainless steels are made, and the thickness of inner bag is 1mm, and the power of the heater is 400W.
Because stainless steel thermal conductivity factor only has 14W/ (mK) in the technical program, heat transfer is slow, and accumulation of heat is more longlasting, and
It is corrosion-resistant, so inner bag uses the stainless steel of food-grade 304, and select heating and the optimal thickness 1mm of accumulation of heat.
Further technical scheme is that the boiled egg frame includes column, and the column upper end is provided with waterline, described
Column lower end is provided with least six Egg trays, and the Egg tray surface offers several through holes.
By opening up several through holes in Egg tray in the technical program, so that Egg tray forms a hollow out
Structure, so that prevent the egg in Egg tray from fully being contacted with water, so that egg has more preferable heating effect.
Further technical scheme is, the human-computer interaction module include display module on outer shell outer wall and
Button, the display module and button are electrically connected with control module respectively.
By setting display module and button in the technical program, can in real time show that poacher boils by display module
Progress, by button, the opening and closing of poacher can be controlled.
The present invention also provides a kind of method that warm spring egg poacher prepares warm spring egg, and it is comprised the following steps:
Step 1, slow fire control module control heater carries out being heated to temperature with slow fire heating mode to the water in inner bag
Whether T10, the first temperature sensor collecting temperature T10, and detection temperature T10 are equal to temperature T1, when temperature T10 is equal to temperature T1
When, sending first to slow fire control module and instruct, the first instruction stops heating for slow fire control module control heater;
Step 2, very first time detection module collection slow fire heating mode lower heater stop even water temperature after heating when
Between t1, and detection time t1 whether be equal to time t11, when time t1 be equal to time t11 when, to small fire control module send second
Instruction, the second instruction begins to warm up for small fire control module control heater;
Step 3.1, small fire control module control heater carries out being heated to temperature with small fire heating mode to the water in inner bag
Degree T20;
Whether step 3.2, second temperature sensor collecting temperature T20, and detection temperature T20 are equal to temperature T2, work as temperature
When T20 is equal to temperature T2, sends the 3rd to small fire control module and instruct, the 3rd instruction stops for small fire control module control heater
Only heat;When temperature T20 is less than temperature T2, sends the 4th to small fire control module and instruct, the 4th instruction controls mould for small fire
Block control heater is restarted to carry out being heated to temperature T2 and stops heating to the water in inner bag;
Step 3.3, small fire control module is in duration t21 interior circulation above-mentioned steps 3.2;
Step 4, the second time detecting module collection small fire heating mode lower heater stop even water temperature after heating when
Between t2, and detection time t2 whether be equal to time t22, when time t2 be equal to time t22 when, to moderate heat control module send the 5th
Instruction, the 5th instruction begins to warm up for moderate heat control module control heater;
Step 5.1, moderate heat control module control heater carries out being heated to temperature with moderate heat heating mode to the water in inner bag
Degree T30;
Whether step 5.2, three-temperature sensor collecting temperature T30, and detection temperature T30 are equal to temperature T3, work as temperature
When T30 is equal to temperature T3, sends the 6th to moderate heat control module and instruct, the 6th instruction stops for moderate heat control module control heater
Only heat;When temperature T30 is less than temperature T3, sends the 7th to moderate heat control module and instruct, the 7th instruction controls mould for moderate heat
Block control heater is restarted to carry out being heated to temperature T3 and stops heating to the water in inner bag;
Step 5.3, moderate heat control module is in duration t31 interior circulation above-mentioned steps 5.2;
Step 6, the 3rd time detecting module collection moderate heat heating mode lower heater stop even water temperature after heating when
Between t3, and detection time t3 whether be equal to time t32, when time t3 be equal to time t32 when, to Control large fire module send the 8th
Instruction, the 8th instruction begins to warm up for Control large fire module control heater;
Step 7.1, Control large fire module control heater carries out being heated to temperature with big fire heating mode to the water in inner bag
Degree T40;
Whether step 7.2, the 4th temperature sensor collecting temperature T40, and detection temperature T40 are equal to temperature T4, work as temperature
When T40 is equal to temperature T4, sends the 9th to Control large fire module and instruct, the 9th instruction stops for Control large fire module control heater
Only heat;When temperature T40 is less than temperature T4, sends the tenth to Control large fire module and instruct, the tenth instruction is Control large fire mould
Block control heater is restarted to carry out being heated to temperature T4 and stops heating to the water in inner bag;
Step 7.3, Control large fire module is in duration t41 interior circulation above-mentioned steps 7.2;
Step 8, the 4th time detecting module collection big fire heating mode lower heater stop even water temperature after heating when
Between t4, and detection time t4 whether be equal to time t42, when time t4 be equal to time t42 when, to human-computer interaction module send the tenth
One instruction, the 11st instruction shows end of boiling for human-computer interaction module.
Compared with prior art, the beneficial effects of the invention are as follows:
The present invention can make user's easy manipulation carry out boiling for warm spring egg, be cooked by control module precise control warm spring egg
Temperature and time during boiling, so as to overcome the shortcomings of that existing poacher can not boil warm spring egg, meets the use need of user
Ask.
Brief description of the drawings
Fig. 1 is the structural representation of the warm spring egg poacher of an embodiment of the present invention.
Fig. 2 is the structural representation of boiled egg frame in Fig. 1.
Fig. 3 is the circuit structure block diagram of control system in Fig. 1.
As shown in figure 1, wherein corresponding reference is entitled:
1 shell, 2 inner bags, 3 heaters, 4 boiled egg framves, 41 columns, 42 waterlines, 43 Egg trays, 5 control systems, 6 controls
Molding block, 61 slow fire control modules, 62 small fire control modules, 63 moderate heat control modules, 64 Control large fire modules, 7 time modules,
71 very first time modules, 72 second time modules, 73 the 3rd time modules, 74 the 4th time modules, 75 initial time modules, 8
Human-computer interaction module.
Specific embodiment
The present invention is further elaborated below in conjunction with the accompanying drawings.
Embodiment 1
Warm spring egg poacher as Figure 1-3, it includes being provided with inner bag 2, the inner bag in shell 1, the shell 1
Boiled egg frame 4 is provided with 2, the inwall top of the inner bag 2 is provided with temperature sensor, is set below the outer wall of the inner bag 2
Heater 3 is equipped with, the top of the shell 1 is provided with lid, control system 5,5 points of the control system are provided with the lid
Do not electrically connected with temperature sensor and heater 3, the control system includes control module 6, time module 7 and man-machine interaction mould
Block 8, the control module 6 is electrically connected with time module 7 and human-computer interaction module 8 respectively, and the control module 6 includes slow fire control
Molding block 61, small fire control module 62, moderate heat control module 63 and Control large fire module 64, the time module 7 include first
Time module 71, the second time module 72, the 3rd time module 73 and the 4th time module 74, the slow fire control module 61 are used
The water in inner bag 2 is carried out with slow fire heating mode be heated to temperature T10 in control heater 3;The small fire control module 62
For controlling heater 3 to carry out being heated to temperature T20 to the water in inner bag 2 with small fire heating mode;The moderate heat control module
63 carry out being heated to temperature T30 with moderate heat heating mode for controlling heater 3 to the water in inner bag 2;The Control large fire mould
Block 64 carries out being heated to temperature T40 with big fire heating mode for controlling heater 3 to the water in inner bag 2;The very first time
Module 71 is used to gather the time t1 that slow fire heating mode lower heater 3 stops even water temperature after heating, and detection time t1 is
It is no equal to time t11, when time t1 is equal to time t11, sends second to small fire control module 62 and instruct;Second time
Module 72 is used to gather the time t2 that small fire heating mode lower heater 3 stops even water temperature after heating, and detection time t2 is
It is no equal to time t22, when time t2 is equal to time t22, sends the 5th to moderate heat control module 63 and instruct;3rd time
Module 73 is used to gather the time t3 that moderate heat heating mode lower heater 3 stops even water temperature after heating, and detection time t3 is
It is no equal to time t32, when time t3 is equal to time t32, sends the 8th to Control large fire module 64 and instruct;4th time
Module 74 is used to gather the time t4 that big fire heating mode lower heater 3 stops even water temperature after heating, and detection time t4 is
It is no, when time t4 is equal to time t42, to send the 11st to human-computer interaction module 8 and instruct equal to time t42, the time mould
Block 7 also includes initial time module 75, and the initial time module 75 is used to detect that slow fire adds according to current indoor temperature
Heat pattern lower heater 3 to the water in inner bag 2 be heated to the time t of temperature T10, and second instruction controls mould for small fire
The control heater 3 of block 62 begins to warm up, and the 5th instruction begins to warm up for the control heater 3 of moderate heat control module 63, described
8th instruction begins to warm up for the control heater 3 of Control large fire module 64, and the 11st instruction shows for human-computer interaction module 8
Boil end, the temperature sensor includes the first temperature sensor, second temperature sensor, three-temperature sensor and the 4th
Temperature sensor, first temperature sensor is used for collecting temperature T10, and whether detection temperature T10 is equal to temperature T1, works as temperature
When degree T10 is equal to temperature T1, the first instruction is sent to slow fire control module hair 61;The second temperature sensor is used for collecting temperature
T20, and whether detection temperature T20 is equal to temperature T2, when temperature T20 is equal to temperature T2, the is sent to small fire control module 62
Three instructions, when temperature T20 is less than temperature T2, sends the 4th and instruct to small fire control module 62;The three-temperature sensor
For collecting temperature T30, and whether detection temperature T30 is equal to temperature T3, when temperature T30 is equal to temperature T3, to moderate heat control
Module 63 sends the 6th and instructs;When temperature T30 is less than temperature T3, sends the 7th to moderate heat control module 63 and instruct;Described
Four temperature sensors are used for collecting temperature T40, and whether detection temperature T40 is equal to temperature T4, when temperature T40 is equal to temperature T4
When, send the 9th to Control large fire module 64 and instruct;When temperature T40 is less than temperature T4, the is sent to Control large fire module 64
Ten instructions, first instruction stops heating for the control heater 3 of slow fire control module 61, and the 3rd instruction is small fire control
The control heater 3 of module 62 stops heating, and the 4th instruction is restarted to inner bag 2 for the control heater 3 of small fire control module 62
In water be heated to temperature T2 and stop heating, the 6th instruction stops for the control heater 3 of moderate heat control module 63
Heating, the 7th instruction is restarted for the control heater 3 of moderate heat control module 63 to be carried out being heated to temperature T3 to the water in inner bag 2
And stopping heating, the 9th instruction stops heating for the control heater 3 of Control large fire module 64, and the tenth instruction is big fire
The control heater 3 of control module 64 is restarted to carry out being heated to temperature T4 and stops heating to the water in inner bag 2.
Preferably, the shell 1 is made of food-grade PC materials, and the inner bag 2 uses the stainless steel of food-grade 304
It is made, and the thickness of inner bag 2 is 1mm, and the power of the heater 3 is 400W.
Preferably, the boiled egg frame 4 includes column 41, and the upper end of the column 41 is provided with waterline 42, the column 41
Lower end is provided with least six Egg trays 43, and the surface of the Egg tray 43 offers several through holes.
Preferably, the human-computer interaction module 8 includes the display module and button on the outer wall of shell 1, described aobvious
Show that module and button are electrically connected with control module 6 respectively.
Embodiment 2
A kind of method that warm spring egg poacher prepares warm spring egg, it is comprised the following steps:
Step 1, the control heater 3 of slow fire control module 61 is heated to slow fire heating mode to the water in inner bag 2
Whether temperature T10, the first temperature sensor collecting temperature T10, and detection temperature T10 are equal to 52 DEG C, when temperature T10 is equal to 52 DEG C
When, sending first to slow fire control module 61 and instruct, the first instruction stops heating for the control heater 3 of slow fire control module 31;
Step 2, even water temperature after the stopping heating of the collection slow fire heating mode of very first time detection module 71 lower heater 3
Time t1, and detection time t1 whether etc. 120 seconds, when time t1 be equal to 120 seconds when, to small fire control module 62 send second refer to
Order, the second instruction begins to warm up for the control heater 3 of small fire control module 62;
Step 3.1, the control heater 3 of small fire control module 62 is heated with small fire heating mode to the water in inner bag 2
To temperature T20;
Whether step 3.2, second temperature sensor collecting temperature T20, and detection temperature T20 are equal to 60 DEG C, as temperature T20
During equal to 60 DEG C, send the 3rd to small fire control module 62 and instruct, the 3rd instruction stops for the control heater 3 of small fire control module 62
Only heat;When temperature T20 is less than 60 DEG C, sends the 4th to small fire control module 62 and instruct, the 4th instruction controls mould for small fire
The control heater 3 of block 62 is restarted to carry out being heated to temperature 60 C and stops heating to the water in inner bag 2;
Step 3.3, small fire control module 62 is in 300 seconds duration interior circulation above-mentioned steps 3.2;
Step 4, even water temperature after the stopping heating of the collection small fire heating mode of the second time detecting module 72 lower heater 3
Time t2, and whether detection time t2 is equal to 60 seconds time, when time t2 is equal to 60 seconds, the is sent to moderate heat control module 63
Five instructions, the 5th instruction begins to warm up for the control heater 3 of moderate heat control module 63;
Step 5.1, the control heater 3 of moderate heat control module 63 is heated with moderate heat heating mode to the water in inner bag 2
To temperature T30;
Whether step 5.2, three-temperature sensor collecting temperature T30, and detection temperature T30 are equal to 67 DEG C, as temperature T30
Equal to 67 DEG C of temperature, send the 6th to moderate heat control module 63 and instruct, the 6th instruction controls heater 3 for moderate heat control module 63
Stop heating;When temperature T30 is less than 67 DEG C, sends the 7th to moderate heat control module 63 and instruct, the 7th instruction is moderate heat control
The control heater 3 of module 63 is restarted to carry out being heated to 67 DEG C of temperature and stops heating to the water in inner bag 2;
Step 5.3, moderate heat control module 63 is in 360 seconds duration interior circulation above-mentioned steps 5.2;
Step 6, even water temperature after the stopping heating of the collection moderate heat heating mode of the 3rd time detecting module 73 lower heater 3
Time t3, and whether detection time t3 is equal to 90 seconds, when time t3 is equal to 90 seconds, sends the 8th to Control large fire module 64 and refers to
Order, the 8th instruction begins to warm up for the control heater 3 of Control large fire module 64;
Step 7.1, the control heater 3 of Control large fire module 64 is heated with big fire heating mode to the water in inner bag 2
To temperature T40;
Whether step 7.2, the 4th temperature sensor collecting temperature T40, and detection temperature T40 are equal to 70 DEG C, as temperature T40
During equal to 70 DEG C, send the 9th to Control large fire module 64 and instruct, the 9th instruction stops for the control heater 3 of Control large fire module 64
Only heat;When temperature T40 is less than 70 DEG C, sends the tenth to Control large fire module 64 and instruct, the tenth instruction is Control large fire mould
The control heater 3 of block 64 is restarted to carry out being heated to temperature 70 C and stops heating to the water in inner bag 2;
Step 7.3, Control large fire module 64 is in 180 seconds duration interior circulation above-mentioned steps 7.2;
Step 8, even water temperature after the stopping heating of the collection big fire heating mode of the 4th time detecting module 74 lower heater 3
Time t4, and whether detection time t4 is equal to 30 seconds, when time t4 is equal to 30 seconds, the 11st is sent to human-computer interaction module 8
Instruction, the 11st instruction shows end of boiling for human-computer interaction module 8.
The present invention has provided the user the most easily man-machine interaction of functional mode, by temperature by warm spring egg poacher
The heating means of spring egg accurate temperature controlling firepower, solve conventional user and wish to have warm spring egg, but can not hold the duration and degree of heating and time
Problem, boiled egg frame unifies waterline and also solves the problems, such as that conventional measuring cup accurate measurement adds water, the sound prompting after the completion of boiling
The worries waited for are also solved, interactivity, experience sense and practicality that user uses is improved.
Above specific embodiment is described in detail to essence of the invention, but can not be to protection scope of the present invention
Limited, it should be apparent that, under enlightenment of the invention, the art those of ordinary skill can also carry out many improvement
And modification, it should be noted that these are improved and modification all falls within claims of the invention.
Claims (10)
1. a kind of warm spring egg poacher, it is characterised in that it includes being provided with inner bag (2), institute in shell (1), the shell (1)
State and boiled egg frame (4) is provided with inner bag (2), the inwall top of the inner bag (2) is provided with temperature sensor, the inner bag (2)
The lower section of outer wall having heaters (3) is set, the shell (1) top is provided with lid, and control system is provided with the lid
System (5), the control system (5) electrically connects with temperature sensor and heater (3) respectively.
2. warm spring egg poacher according to claim 1, it is characterised in that the control system include control module (6),
Time module (7) and human-computer interaction module (8), the control module (6) respectively with time module (7) and human-computer interaction module
(8) electrically connect, the control module (6) includes slow fire control module (61), small fire control module (62), moderate heat control module
(63) and Control large fire module (64), the time module (7) including very first time module (71), the second time module (72),
3rd time module (73) and the 4th time module (74), the slow fire control module (61) is for controlling heater (3) with text
Fiery heating mode carries out being heated to temperature T10 to the water in inner bag (2);The small fire control module (62) is for controlling heater
(3) water in inner bag (2) is carried out being heated to temperature T20 with small fire heating mode;The moderate heat control module (63) is for controlling
Heater (3) processed carries out being heated to temperature T30 with moderate heat heating mode to the water in inner bag (2);The Control large fire module
(64) for controlling the heater (3) to carry out being heated to temperature T40 to the water in inner bag (2) with big fire heating mode;Described first
Time module (71) stops the time t1 of even water temperature after heating for gathering slow fire heating mode lower heater (3), and detects
Whether time t1 is equal to time t11, when time t1 is equal to time t11, sends second to small fire control module (62) and instructs;Institute
The time t2 that the second time module (72) stops even water temperature after heating for gathering small fire heating mode lower heater (3) is stated,
And whether detection time t2 is equal to time t22, when time t2 is equal to time t22, the 5th is sent to moderate heat control module (63)
Instruction;3rd time module (73) is for gathering even water temperature after moderate heat heating mode lower heater (3) stops heating
Time t3, and whether detection time t3 is equal to time t32, when time t3 is equal to time t32, is sent out to Control large fire module (64)
Send the 8th instruction;4th time module (74) is for gathering water temperature after big fire heating mode lower heater (3) stops heating
Uniform time t4, and whether detection time t4 is equal to time t42, when time t4 is equal to time t42, to human-computer interaction module
(8) the 11st is sent to instruct.
3. warm spring egg poacher according to claim 2, it is characterised in that when the time module (7) also includes initial
Between module (75), the initial time module (75) heat under slow fire heating mode for detecting according to current indoor temperature
Device (3) to the water in inner bag (2) be heated to the time t of temperature T10.
4. warm spring egg poacher according to claim 2, it is characterised in that second instruction is small fire control module
(62) control heater (3) begins to warm up, and the 5th instruction controls heater (3) to start to add for moderate heat control module (63)
Heat, the 8th instruction controls heater (3) to begin to warm up for Control large fire module (64), and the 11st instruction is man-machine friendship
Mutual module (8) shows end of boiling.
5. warm spring egg poacher according to claim 2, it is characterised in that the temperature sensor includes that the first temperature is passed
Sensor, second temperature sensor, three-temperature sensor and the 4th temperature sensor, first temperature sensor are used to gather
Temperature T10, and whether detection temperature T10 is equal to temperature T1, when temperature T10 is equal to temperature T1, is sent out to slow fire control module
(61) the first instruction is sent;The second temperature sensor is used for collecting temperature T20, and whether detection temperature T20 is equal to temperature T2,
When temperature T20 is equal to temperature T2, sends the 3rd to small fire control module (62) and instruct, when temperature T20 is less than temperature T2, to
Small fire control module (62) sends the 4th and instructs;The three-temperature sensor is used for collecting temperature T30, and detection temperature T30
Whether temperature T3 is equal to, when temperature T30 is equal to temperature T3, sends the 6th to moderate heat control module (63) and instruct;As temperature T30
During less than temperature T3, send the 7th to moderate heat control module (63) and instruct;4th temperature sensor is used for collecting temperature
T40, and whether detection temperature T40 is equal to temperature T4, when temperature T40 is equal to temperature T4, is sent to Control large fire module (64)
9th instruction;When temperature T40 is less than temperature T4, sends the tenth to Control large fire module (64) and instruct.
6. warm spring egg poacher according to claim 4, it is characterised in that first instruction is slow fire control module
(61) control heater (3) stops heating, and the 3rd instruction controls heater (3) to stop adding for small fire control module (62)
Heat, the 4th instruction carries out being heated to temperature for small fire control module (62) controls heater (3) to restart to the water in inner bag (2)
Degree T2 simultaneously stops heating, and the 6th instruction controls heater (3) to stop heating for moderate heat control module (63), and the described 7th refers to
Make carries out being heated to temperature T3 and stops adding for moderate heat control module (63) controls heater (3) to restart to the water in inner bag (2)
Heat, the 9th instruction controls heater (3) to stop heating for Control large fire module (64), and the tenth instruction is Control large fire
Module (64) controls heater (3) to restart to be carried out being heated to temperature T4 and stops heating to the water in inner bag (2).
7. warm spring egg poacher according to claim 1, it is characterised in that the shell (1) uses food-grade PC materials
It is made, the inner bag (2) is made of the stainless steel of food-grade 304, and the thickness of inner bag (2) is 1mm, the heater
(3) power is 400W.
8. warm spring egg poacher according to claim 1, it is characterised in that the boiled egg frame (4) includes column (41), institute
State column (41) upper end and be provided with waterline (42), column (41) lower end is provided with least six Egg trays (43), institute
State Egg tray (43) surface and offer several through holes.
9. warm spring egg poacher according to claim 1, it is characterised in that the human-computer interaction module (8) includes installing
Display module and button on shell (1) outer wall, the display module and button are electrically connected with control module (6) respectively.
10. a kind of method that warm spring egg poacher prepares warm spring egg, it is characterised in that it is comprised the following steps:
Step 1, slow fire control module (61) controls heater (3) to be heated to the water in inner bag (2) with slow fire heating mode
Whether temperature T1 is equal to temperature T10, the first temperature sensor collecting temperature T10, and detection temperature T10, when temperature T10 is equal to
During temperature T1, send first to slow fire control module (61) and instruct, the first instruction controls heater for slow fire control module (31)
(3) heating is stopped;
Step 2, very first time detection module (71) gathers even water temperature after slow fire heating mode lower heater (3) stops heating
Time t1, and whether detection time t1 is equal to time t11, when time t1 is equal to time t11, is sent out to small fire control module (62)
The second instruction, the second instruction is sent to control heater (3) to begin to warm up for small fire control module (62);
Step 3.1, small fire control module (62) controls heater (3) to be added to the water in inner bag (2) with small fire heating mode
Heat is to temperature T20;
Whether step 3.2, second temperature sensor collecting temperature T20, and detection temperature T20 are equal to temperature T2, as temperature T20 etc.
When temperature T2, send the 3rd to small fire control module (62) and instruct, the 3rd instruction controls heating for small fire control module (62)
Device (3) stops heating;When temperature T20 is less than temperature T2, sends the 4th to small fire control module (62) and instruct, the 4th instruction is
Small fire control module (62) controls heater (3) to restart to be carried out being heated to temperature T2 and stops heating to the water in inner bag (2);
Step 3.3, small fire control module (62) is in duration t21 interior circulation above-mentioned steps 3.2;
Step 4, the second time detecting module (72) gathers even water temperature after small fire heating mode lower heater (3) stops heating
Time t2, and whether detection time t2 is equal to time t22, when time t2 is equal to time t22, is sent out to moderate heat control module (63)
The 5th instruction, the 5th instruction is sent to control heater (3) to begin to warm up for moderate heat control module (63);
Step 5.1, moderate heat control module (63) controls heater (3) to be added to the water in inner bag (2) with moderate heat heating mode
Heat is to temperature T30;
Whether step 5.2, three-temperature sensor collecting temperature T30, and detection temperature T30 are equal to temperature T3, as temperature T30 etc.
When temperature T3, send the 6th to moderate heat control module (63) and instruct, the 6th instruction controls heating for moderate heat control module (63)
Device (3) stops heating;When temperature T30 is less than temperature T3, sends the 7th to moderate heat control module (63) and instruct, the 7th instruction is
Moderate heat control module (63) controls heater (3) to restart to be carried out being heated to temperature T3 and stops heating to the water in inner bag (2);
Step 5.3, moderate heat control module (63) is in duration t31 interior circulation above-mentioned steps 5.2;
Step 6, the 3rd time detecting module (73) gathers even water temperature after moderate heat heating mode lower heater (3) stops heating
Time t3, and whether detection time t3 is equal to time t32, when time t3 is equal to time t32, is sent out to Control large fire module (64)
The 8th instruction, the 8th instruction is sent to control heater (3) to begin to warm up for Control large fire module (64);
Step 7.1, Control large fire module (64) controls heater (3) to be added to the water in inner bag (2) with big fire heating mode
Heat is to temperature T40;
Whether step 7.2, the 4th temperature sensor collecting temperature T40, and detection temperature T40 are equal to temperature T4, as temperature T40 etc.
When temperature T4, send the 9th to Control large fire module (64) and instruct, the 9th instruction controls heating for Control large fire module (64)
Device (3) stops heating;When temperature T40 is less than temperature T4, sends the tenth to Control large fire module (64) and instruct, the tenth instruction is
Control large fire module (64) controls heater (3) to restart to be carried out being heated to temperature T4 and stops heating to the water in inner bag (2);
Step 7.3, Control large fire module (64) is in duration t41 interior circulation above-mentioned steps 7.2;
Step 8, the 4th time detecting module (74) gathers even water temperature after big fire heating mode lower heater (3) stops heating
Time t4, and whether detection time t4 is equal to time t42, when time t4 is equal to time t42, is sent out to human-computer interaction module (8)
The 11st instruction, the 11st instruction is sent to show end of boiling for human-computer interaction module (8).
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107007146A (en) * | 2017-06-07 | 2017-08-04 | 四川长虹电器股份有限公司 | Five-part form method for heating and controlling |
AT520298A4 (en) * | 2018-04-20 | 2019-03-15 | Palaschke Bernhard | Method and device for cooking eggs |
CN107822504B (en) * | 2017-11-06 | 2020-01-31 | 四川长虹电器股份有限公司 | Working method of artificial intelligent egg steaming and boiling machine |
CN111281142A (en) * | 2018-12-07 | 2020-06-16 | 深圳市瑞源祥橡塑制品有限公司 | Intelligent egg boiling method |
CN111281141A (en) * | 2018-12-07 | 2020-06-16 | 深圳市瑞源祥橡塑制品有限公司 | Food material curing method |
CN112137404A (en) * | 2020-09-25 | 2020-12-29 | 湖南芭颉生态农牧股份有限公司 | Heating temperature regulation and control mechanism to hot spring egg preparation |
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CN112137404A (en) * | 2020-09-25 | 2020-12-29 | 湖南芭颉生态农牧股份有限公司 | Heating temperature regulation and control mechanism to hot spring egg preparation |
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Application publication date: 20170524 |