CN104605729A - Steam generation control method, steam generation controller and steam cabinet - Google Patents

Abstract

The invention discloses a steam generation control method. The method includes the steps of receiving steam temperature data, controlling a heater to generate steam at first heating power till the temperature of the steam reaches a preset temperature threshold value when the temperature of the steam is smaller than or equal to 100 DEG C, and controlling the heater to gradually decrease from the first heating power to second heating power when the temperature of the steam reaches the temperature threshold value. According to the steam generation control method, in the step of controlling the power to decrease, a lot of energy can be saved, and meanwhile the high steam generation efficiency can be ensured. Meanwhile, the embodiment of the invention further provides a steam generation controller and a steam cabinet. The power of the steam cabinet can be adjusted, the efficiency of the steam cabinet can be improved, the requirement for energy can be lowered, sufficient steam can be kept in the steam cabinet for work, and the aims of protecting the environment and saving energy can be achieved.

Description

The control method that a kind of steam produces, steam produce controller and steamer

Technical field

The present invention relates to food processing technology field, particularly relate to control method, steam generation controller and steamer that a kind of steam produces.

Background technology

Automatic steamer comprises electric steaming cooking-vessel, combustion gas cabinet, steam cooking food is the cooking method all commonly used between east and west, utilize electric-heating steam or gas heating principle directly steam in clear soup various cuisines kitchen utensils daily life in be found everywhere, in kitchen, dining room, restaurant, various food processing enterprises have a wide range of applications.Due to professional kitchens need steam food materials and operation all according to operated by customer need, any Based Intelligent Control is not all had at the steamer of now all professional kitchens, those steamers only successively manufacture a large amount of steam and go to meet maximum needs, and therefore a large amount of unnecessary energy wastes.

The control program produced the steam of steamer in prior art is that the heating power of control heater remains on the peak power of 100% to meet the demand of quantity of steam always, but does not in fact need to keep the highest heating power in digestion process always.And the control method that the steam that the embodiment of the present invention provides produces, when the temperature of steam is less than or equal to 100 DEG C, control heater produces steam until the temperature of steam reaches default temperature threshold with the first heating power, and namely the heating power of heater remains on the power that steam can be made to produce always; Meanwhile, when the temperature of steam reaches described temperature threshold, control heater is reduced to the second heating power gradually from the first heating power, thus can save a lot of energy at this one-phase controlling power drop, also can ensure that the efficiency producing steam is high simultaneously.

Further, it is described when the temperature of steam reaches described temperature threshold, control described heater and be reduced to the second heating power gradually from described first power, be specially: when the temperature of steam reaches described temperature threshold, control the variation tendency that described heater declines with straight line, curve or broken line from described first power and be reduced to the second heating power gradually; The variation tendency that wherein said broken line declines comprises the variation tendency that staged declines.The beneficial effect that the variation tendency control heating power adopting staged to decline is reduced to the second heating power is gradually: heating power declines by stages, often drop to a stage, keep a period of time, thus the change making the temperature of steam be unlikely to sharply, thermometric precision also can improve.

Further, the control method that described steam produces also comprises the steps:

The heating power of heater described in timing controlled rises to described first heating power, and its beneficial effect is: be equivalent to timing wake-up heater, rise to the highest heating power, ensures that the quantity of steam produced is enough.

Further, described temperature threshold is arbitrary temperature value in 101 DEG C to 107 DEG C.

Simultaneously in order to reach above-mentioned identical object, the embodiment of the present invention also provides a kind of steam to produce controller, comprising:

Temperature reception module, for receiving vapor (steam) temperature data;

First power control module, for when the temperature of steam is less than or equal to 100 DEG C, control heater produces steam until the temperature of described steam reaches default temperature threshold with the first heating power;

Second power control module, for when the temperature of steam reaches described temperature threshold, controls described heater and is reduced to the second heating power gradually from described first heating power.

Further, described second power control module, specifically for when the temperature of steam reaches described temperature threshold, controls the variation tendency that described heater declines with straight line, curve or broken line from described first power and is reduced to the second heating power gradually; The variation tendency that wherein said broken line declines comprises the variation tendency that staged declines.

Further, described steam generation controller also comprises the 3rd power control module; The heating power that described 3rd power control module is used for heater described in timing controlled rises to described first heating power.

Further, described temperature threshold is arbitrary temperature value in 101 DEG C to 107 DEG C.

In addition, the embodiment of the present invention also provides a kind of steamer, and temperature detector, heater and described steam produce controller; Described temperature detector is arranged on described steamer inside and produces controller with described steam and is electrically connected, and for Real-time Obtaining vapor (steam) temperature data, and feeds back to described steam generation controller; Described heater and described steam produce controller and are electrically connected, for heating the water of described steamer inside to produce steam.

Implement the embodiment of the present invention, there is following beneficial effect: the control method that the steam that the embodiment of the present invention provides produces is when the temperature of steam is less than or equal to 100 DEG C, control heater produces steam until the temperature of steam reaches default temperature threshold with the first heating power, and namely the heating power of heater remains on the power that steam can be made to produce always; Simultaneously, when the temperature of steam reaches described temperature threshold, control heater is reduced to described second heating power gradually from described first heating power, thus can save a lot of energy at this one-phase controlling power drop, also can ensure that the efficiency producing steam is high simultaneously.Meanwhile, the embodiment of the present invention also provides a kind of steam to produce controller and a kind of steamer, can regulate the work power of steamer, improves steamer efficiency, reduces energy requirements but steamer Inner also can be kept to have the work of sufficient Enough steam, reaches environmental protection and energy-conservation.

Summary of the invention

The object of the invention is to solve prior art Problems existing, propose a kind of new steam and produce scheme, the heating power of steamer can be regulated, improve steamer efficiency, reduce energy requirements but steamer Inner also can be kept to have the work of sufficient Enough steam, reach environmental protection and energy-conservation.

To achieve the above object, the control method that the embodiment of the present invention provides a kind of steam to produce, comprising:

Receive vapor (steam) temperature data;

When the temperature of steam is less than or equal to 100 DEG C, control heater produces steam until the temperature of described steam reaches default temperature threshold with the first heating power;

When the temperature of steam reaches described temperature threshold, control described heater and be reduced to the second heating power gradually from described first heating power.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of the control method of the steam generation that the embodiment of the present invention provides;

Fig. 2 is the temporal power curve map under the first steam mode;

Fig. 3 is the temporal power curve map under the second steam mode;

Fig. 4 is the temporal power curve map under the 3rd steam mode;

Fig. 5 is the structured flowchart of the steam generation controller that the embodiment of the present invention provides.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

See Fig. 1, be the schematic flow sheet of the control method of the steam generation that the embodiment of the present invention provides, the method comprises the following steps:

S101, receives vapor (steam) temperature data;

S102, when the temperature of steam is less than or equal to 100 DEG C, control heater produces steam until the temperature of described steam reaches default temperature threshold with the first heating power;

S103, when the temperature of steam reaches described temperature threshold, controls described heater and is reduced to the second heating power gradually from described first heating power.

Wherein, described first heating power can be the heating power of 100%, and described second heating power is the preset value lower than described first heating power.When reaching the second heating power, two kinds of situations may be had: a kind of is just to remain on the temperature (as 101 DEG C) that can produce steam, and a kind of is because underheat is with the loss of compensation temperature, makes vapor (steam) temperature lower than 100 DEG C.Now, then perform step S101 again, make heating power once more rise to described first heating power to guarantee to produce steam.

Wherein, in step s 102, further, when the temperature of steam reaches described temperature threshold, control the variation tendency that described heater declines with straight line, curve or broken line from described first power and be reduced to the second heating power gradually; The variation tendency that wherein said broken line declines comprises the variation tendency that staged declines.The beneficial effect that the variation tendency control heating power adopting staged to decline is reduced to the second heating power is gradually: heating power declines by stages, often drop to a stage, keep a period of time, thus the change making the temperature of steam be unlikely to sharply, thermometric precision also can improve.

Further, when the described temperature when steam reaches maximum steam generation temperature, control heater reduces its heating power until the temperature of steam is low to moderate 100 DEG C gradually from the heating power of 100%, be specially: when the temperature of steam reach maximum steam produce temperature time, the variation tendency that the heating power of control heater from 100% declines with staged is reduced to minimum heating power gradually.The beneficial effect that the variation tendency control heating power adopting staged to decline is reduced to minimum heating power is gradually: heating power declines by stages, often drop to a stage, keep a period of time, thus the change making the temperature of steam be unlikely to sharply, thermometric precision also can improve.

Further, the control method that described steam produces also comprises the steps: that the heating power of heater described in timing controlled rises to described first heating power.Its beneficial effect is: be equivalent to timing wake-up heater, rise to the highest heating power, ensures that the quantity of steam produced is enough.

Further, described temperature threshold is arbitrary temperature value in 101 DEG C to 107 DEG C.

Below for three kinds of steam mode, composition graphs 1 and foregoing are described in detail the control method that steam of the present invention produces.It should be noted that this method can comprise various modes, be not limited to following Three models.

As shown in Figure 2, it is the temporal power curve map under the first steam mode.Described first steam mode is adopted to may be used for but be not limited to soup group food.In general, the boiling duration (i.e. maximum steaming time) of soup group food can reach two hours, once the steaming tray of steamer put into by soup, the door of steaming tray can not be opened substantially.Thus, as seen from Figure 2, when the temperature of steam reaches temperature threshold, control heater declines from the heating power (the first heating power) of 100% with staged, in the present embodiment, set the minimum heating power (the second heating power) reached after three times decline under the second steam mode, and the amplitude that first time declines is larger, mainly consider that the door steaming steaming tray in soup process can not be opened, namely the temperature of steam can not often drop to lower than 100 DEG C; And when the temperature of steam is less than or equal to 100 DEG C, control heater produces steam until the temperature of steam reaches temperature threshold with the heating power of 100%.It should be noted that, the number of times of decline is setting, and being not limited to three times, can be the larger range of decrease.

As shown in Figure 3, it is the temporal power curve map under the second steam mode.Described second steam mode is adopted to may be used for but be not limited to meal group food.In general, the boiling duration (i.e. maximum steaming time) of meal group food needs to be long to 30-40 minute, once the steaming tray of steamer put into by a dish rice, the door of steaming tray can not often be opened.Thus, as seen from Figure 3, when the temperature of steam reaches temperature threshold, control heater declines from the heating power of 100% with staged, in the present embodiment, set the minimum heating power reached after four times decline under the second steam mode, the amplitude of each power drop is comparatively even; When the temperature of steam is less than or equal to 100 DEG C, control heater produces steam until the temperature of steam reaches maximum steam produce temperature, until boiling completes with the heating power of 100%.

As shown in Figure 4, it is the temporal power curve map under the 3rd steam mode.Described 3rd steam mode is adopted to may be used for but be not limited to meat food.In general, the boiling duration (i.e. maximum steaming time) of meat food can reach 5 to 20 minutes, and (in full chicken average generation, sends out a 15-20 minute, full fish is close to 8-15 minute, sliced meat, chop etc. want 5-10 minute can), once the steaming tray of steamer put into by meat, steaming tray may often be opened, and after opening, vapor (steam) temperature will drop to less than 100 DEG C at once.Thus, as seen from Figure 4, when the temperature of steam reaches maximum steam generation temperature, control heater declines from the heating power of 100% with staged, in the present embodiment, setting reaches the minimum heating power under the 3rd steam mode after six times decline, and each amplitude declined is less, mainly consider that the door steaming steaming tray in soup process is often opened, namely the temperature of steam often drops to lower than 100 DEG C, and thus each amplitude declined is less can ensure that variations in temperature can not be very violent; And when the temperature of steam is less than or equal to 100 DEG C, control heater produces steam until the temperature of steam reaches maximum steam and produces temperature with the heating power of 100%, until boiling completes.It should be noted that, the number of times of decline is setting, is not limited to six times.

As shown in Figure 5, it is that the embodiment of the present invention provides a kind of steam to produce the structured flowchart of controller, and can realize all method steps of the control method that above-mentioned steam produces, it comprises:

Temperature reception module 101, for receiving vapor (steam) temperature data;

First power control module 102, for when the temperature of steam is less than or equal to 100 DEG C, control heater produces steam until the temperature of described steam reaches default temperature threshold with the first heating power;

Second power control module 103, for when the temperature of steam reaches described temperature threshold, controls described heater and is reduced to the second heating power gradually from described first heating power.

Further, described second power control module 103, specifically for when the temperature of steam reaches described temperature threshold, controls the variation tendency that described heater declines with straight line, curve or broken line from described first power and is reduced to the second heating power gradually; The variation tendency that wherein said broken line declines comprises the variation tendency that staged declines.

Further, described steam generation controller also comprises the 3rd power control module 104; Described 3rd power control module 104 rises to described first heating power for the heating power of heater described in timing controlled.

Further, described temperature threshold is arbitrary temperature value in 101 DEG C to 107 DEG C.

In addition, the embodiment of the present invention also provides a kind of steamer, and temperature detector, heater and described steam produce controller; Described temperature detector is arranged on described steamer inside and produces controller with described steam and is electrically connected, and for Real-time Obtaining vapor (steam) temperature data, and feeds back to described steam generation controller; Described heater and described steam produce controller and are electrically connected, for heating the water of described steamer inside to produce steam.

The control method that the steam that the embodiment of the present invention provides produces is when the temperature of steam is less than or equal to 100 DEG C, control heater produces steam until the temperature of steam reaches temperature threshold with the first heating power, and namely the heating power of heater remains on the power that steam can be made to produce always; Meanwhile, when the temperature of steam reaches temperature threshold, control heater is reduced to the second heating power gradually from the first heating power, thus can save a lot of energy at this one-phase controlling power drop, also can ensure that the efficiency producing steam is high simultaneously.Meanwhile, the embodiment of the present invention also provides a kind of steam to produce controller and a kind of steamer, can regulate the work power of steamer, improves steamer efficiency, reduces energy requirements but steamer Inner also can be kept to have the work of sufficient Enough steam, reaches environmental protection and energy-conservation.

One of ordinary skill in the art will appreciate that all or part of flow process realized in above-described embodiment method, that the hardware that can carry out instruction relevant by computer program has come, described program can be stored in a computer read/write memory medium, this program, when performing, can comprise the flow process of the embodiment as above-mentioned each side method.Wherein, described storage medium can be magnetic disc, CD, read-only store-memory body (Read-Only Memory, ROM) or random store-memory body (Random Access Memory, RAM) etc.

The above is the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications are also considered as protection scope of the present invention.

Claims (9)

1. a control method for steam generation, is characterized in that, comprising:

Receive vapor (steam) temperature data;

When the temperature of steam is less than or equal to 100 DEG C, control heater produces steam until the temperature of described steam reaches default temperature threshold with the first heating power;

When the temperature of steam reaches described temperature threshold, control described heater and be reduced to the second heating power gradually from described first heating power.

2. the control method of steam generation as claimed in claim 1, is characterized in that, described when the temperature of steam reaches described temperature threshold, controls described heater and is reduced to the second heating power gradually from described first power, be specially:

When the temperature of steam reaches described temperature threshold, control the variation tendency that described heater declines with straight line, curve or broken line from described first power and be reduced to the second heating power gradually; The variation tendency that wherein said broken line declines comprises the variation tendency that staged declines.

3. the control method of steam generation as claimed in claim 1 or 2, is characterized in that, also comprise the steps:

The heating power of heater described in timing controlled rises to described first heating power.

4. the control method of steam generation as claimed in claim 1, it is characterized in that, described temperature threshold is arbitrary temperature value in 101 DEG C to 107 DEG C.

5. steam produces a controller, it is characterized in that, comprising:

Temperature reception module, for receiving vapor (steam) temperature data;

First power control module, for when the temperature of steam is less than or equal to 100 DEG C, control heater produces steam until the temperature of described steam reaches default temperature threshold with the first heating power;

Second power control module, for when the temperature of steam reaches described temperature threshold, controls described heater and is reduced to the second heating power gradually from described first heating power.

6. steam as claimed in claim 5 produces controller, it is characterized in that, described second power control module, specifically for when the temperature of steam reaches described temperature threshold, controls the variation tendency that described heater declines with straight line, curve or broken line from described first power and is reduced to the second heating power gradually; The variation tendency that wherein said broken line declines comprises the variation tendency that staged declines.

7. the steam as described in claim 5 or 6 produces controller, it is characterized in that, described steam produces controller and also comprises the 3rd power control module; The heating power that described 3rd power control module is used for heater described in timing controlled rises to described first heating power.

8. steam as claimed in claim 5 produces controller, and it is characterized in that, described temperature threshold is arbitrary temperature value in 101 DEG C to 107 DEG C.

9. a steamer, is characterized in that, comprises temperature detector, heater and the steam as described in claim as arbitrary in claim 5 to 8 and produces controller; Described temperature detector is arranged on described steamer inside and produces controller with described steam and is electrically connected, and for Real-time Obtaining vapor (steam) temperature data, and feeds back to described steam generation controller; Described heater and described steam produce controller and are electrically connected, for heating the water of described steamer inside to produce steam.