CN110403477A - A constant temperature control method for water vapor of a coffee machine - Google Patents

Abstract

The invention discloses a constant temperature control method for water vapor of a coffee machine, comprising the following steps: A. preset the water vapor temperature of the coffee machine; B. use a temperature sensor to detect the temperature of the water in the boiler; C. start the first The first heating mode heats the water in the boiler; D. The temperature of the water in the boiler reaches the preset value, and the first heating mode is stopped; E. The constant temperature mode is used, and it is detected that the water vapor is in use. If the water temperature of the boiler is lower than Preset value, turn on the second heating mode to heat the water in the boiler, so that the water temperature of the boiler remains within the preset range; the heating power of the second heating mode is related to the unit time of the coffee machine in the state of using water vapor The amount of heat loss is the same, the above method keeps the water temperature in the boiler in a state of dynamic balance, and the water temperature can be well maintained at the set value, thus ensuring the stable output of water vapor at the preset temperature.

Description

A constant temperature control method for water vapor of a coffee machine

technical field

The invention relates to the field of coffee preparation, in particular to a constant temperature control method for water vapor of a coffee machine.

Background technique

Coffee enthusiasts have very strict requirements on every aspect of coffee, and also have very high requirements on the temperature stability of the water vapor used to froth milk. However, the current coffee machine has a large deviation in the temperature control of the water vapor, and the temperature of the water vapor fluctuates greatly, which cannot meet the needs of coffee enthusiasts. Control Method.

Contents of the invention

Purpose of the present invention is exactly in order to solve the above problems, a kind of constant temperature control method for the water vapor of coffee machine, comprises the following steps:

A. Preset the steam temperature of the coffee machine;

B. Use a temperature sensor to detect the temperature of the water in the boiler;

C. Start the first heating mode to heat the water in the boiler;

D. The temperature of the water in the boiler reaches the preset value, and the first heating mode is stopped;

E. Carry out the constant temperature mode and detect that the water vapor is in use. If the water temperature of the boiler is lower than the preset value, turn on the second

The heating mode heats the water in the boiler so that the temperature of the water in the boiler remains within the preset range;

The heating power of the second heating mode is the same as the heat loss per unit time when the coffee machine is using water vapor.

Preset the water vapor temperature of the coffee machine, detect the temperature of the water in the boiler used to provide steam through the temperature sensor, start the first heating mode to heat the water in the boiler, and quickly increase the temperature of the water in the boiler to make it When the temperature of the water reaches the preset value, stop the first heating mode and switch to the constant temperature mode. In the constant temperature mode, it is detected that the state of using water vapor is If the water temperature of the boiler is lower than the preset value, the second heating mode is turned on to heat the water in the boiler so that the water temperature of the boiler remains within the preset range, thereby ensuring the temperature of the steam sprayed constant. The heating power of the second heating mode is the same as the heat loss per unit time when the coffee machine is in the steam state. After the constant temperature mode, it is detected that in the state of using steam, as long as the water temperature of the boiler is lower than the preset value, the second heating mode will always be used to heat the water in the boiler, and the heating power of the second heating mode The heat loss per unit time is the same as that of the coffee machine in the state of using water vapor, so the water temperature in the boiler can always be in a state of dynamic balance, and the water temperature can be well maintained at the set value, so that the water vapor can be guaranteed. Stable output at preset temperature value.

Further, the amount of heat loss per unit time of the coffee machine in the state of using water vapor includes the heat taken away by the water vapor sprayed out of the boiler and the heat lost by the heat transfer between the boiler water and the external heat. When the coffee machine is in the state of steam, the main reason for the water temperature drop in the boiler is the heat taken away by the steam and the heat lost by the heat transfer between the water and the outside world. Therefore, the second heating power can be equal to the sum of the above two heat losses. Ensure that the water temperature in the boiler can maintain a dynamic balance, so that the sprayed water vapor can be maintained at the preset value.

Further, the step C. starting the first heating mode to heat the water in the boiler includes steps: C1. The water temperature of the boiler is not greater than 100 degrees Celsius, and the full power heating is performed until the water temperature reaches 100 degrees Celsius; C2. The water temperature of the boiler If it is greater than 100 degrees Celsius and less than the preset value, it will be heated at half power until the water temperature reaches the preset value. Step C1. When the water temperature is not greater than 100 degrees Celsius, heating the water in the boiler at full power can make the water temperature in the water boiler rise faster. Step C2. When the water temperature in the furnace is greater than 100 degrees Celsius and less than the preset value, perform half-power heating. Ensure that the water temperature in the boiler will not be overheated due to excessive heating power.

Further, the step E also includes the step of: detecting that the water vapor is not in use, turning on the heat preservation mode to heat the water in the boiler, and keeping the water temperature of the boiler within a preset range. After performing the heat preservation mode, if it is detected that the water vapor is not in use, the heat preservation mode is turned on to heat and maintain the water in the boiler, so that the water temperature in the boiler remains at the preset value, and it is kept in the state to be used at any time. When water vapor is needed, it can be used directly without waiting.

Further, the second heating mode is turned on after the water temperature of the boiler in the step E is lower than the preset value of 2 degrees Celsius, and the water temperature of the boiler is lower than the preset value of 2 degrees Celsius, which can meet the steam temperature requirements of coffee frothing milk At the same time, it can reduce the hardware requirements for temperature control equipment, meet the demand and reduce the cost.

Further, the boiler has a capacity of 2L, and the heating power of the second heating mode is 500W. For a boiler with a capacity of 2L, in general, the heating power of the second heating mode is 500W, which can maintain the water temperature in the boiler at the preset value under the condition of using steam.

Further, the full power is 1200W, and the half power is 500W.

Further, the heat preservation power of the heat preservation mode is 100-150W, and the heat preservation power of the heat preservation mode is 100-150W.

Further, the boiler is equipped with pressure protection and temperature protection, when the pressure inside the boiler is higher than the preset value, the pressure is released, and when the temperature of the water inside the boiler is higher than the preset alarm value, the heating power supply is cut off and an alarm is issued, Pressure protection and temperature protection complement each other to ensure the safety of the boiler to the greatest extent.

Description of drawings

Fig. 1 is the flowchart of the constant temperature control method for the steam of the coffee machine of the present invention;

Fig. 2 is a flow chart of step C of the method for constant temperature control of water vapor used in a coffee machine according to the present invention.

Detailed ways

In order to make the purpose, technical solutions and advantages of the present invention clearer, the specific embodiments of the present invention will be further described in detail below in conjunction with the accompanying drawings. It should be understood that the specific embodiments described here are only used to explain the present invention, rather than to limit the present invention.

As shown in accompanying drawing 1 and accompanying drawing 2, a kind of constant temperature control method for the steam of coffee machine comprises the following steps:

A. Preset the steam temperature of the coffee machine;

B. Use a temperature sensor to detect the temperature of the water in the boiler;

C. Start the first heating mode to heat the water in the boiler;

D. The temperature of the water in the boiler reaches the preset value, and the first heating mode is stopped;

E. Carry out the constant temperature mode and detect that the water vapor is in use. If the water temperature of the boiler is lower than the preset value, turn on the second

The heating mode heats the water in the boiler so that the temperature of the water in the boiler remains within the preset range;

The heating power of the second heating mode is the same as the heat loss per unit time when the coffee machine is using water vapor.

Preset the water vapor temperature of the coffee machine, detect the temperature of the water in the boiler used to provide steam through the temperature sensor, start the first heating mode to heat the water in the boiler, and quickly increase the temperature of the water in the boiler to make it When the temperature of the water reaches the preset value, stop the first heating mode and switch to the constant temperature mode. In the constant temperature mode, it is detected that the water vapor is being used, that is, the water cup in the boiler If the water temperature of the boiler is lower than the preset value, the second heating mode is turned on to heat the water in the boiler so that the water temperature of the boiler remains within the preset range, thereby ensuring the temperature of the steam being sprayed. The heating power of the second heating mode is the same as the heat loss per unit time when the coffee machine is in the steam state. After the constant temperature mode, it is detected that in the state of using steam, as long as the water temperature of the boiler is lower than the preset value, the second heating mode will always be used to heat the water in the boiler, and the heating power of the second heating mode The heat loss per unit time is the same as that of the coffee machine in the state of using water vapor, so the water temperature in the boiler can always be in a state of dynamic balance, and the water temperature can be well maintained at the set value, thus ensuring the energy of the water vapor. Stable output at preset temperature.

Further, the amount of heat loss per unit time of the coffee machine in the state of using water vapor includes the heat taken away by the water vapor sprayed out of the boiler and the heat lost by the heat transfer between the boiler water and the external heat. When the coffee machine is in the state of steam, the main reason for the water temperature drop in the boiler is the heat taken away by the steam and the heat lost by the heat transfer between the water and the outside world. Therefore, the second heating power can be equal to the sum of the above two heat losses. Ensure that the water temperature in the boiler can maintain a dynamic balance, so that the sprayed water vapor can be maintained at the preset value.

Further, the step C. starting the first heating mode to heat the water in the boiler includes steps: C1. The water temperature of the boiler is not greater than 100 degrees Celsius, and the full power heating is performed until the water temperature reaches 100 degrees Celsius; C2. The water temperature of the boiler If it is greater than 100 degrees Celsius and less than the preset value, it will be heated at half power until the water temperature reaches the preset value. Step C1. When the water temperature is not greater than 100 degrees Celsius, heating the water in the boiler at full power can make the water temperature in the water boiler rise faster. Step C2. When the water temperature in the furnace is greater than 100 degrees Celsius and less than the preset value, perform half-power heating. Ensure that the water temperature in the boiler will not be overheated due to excessive heating power.

Further, the step E also includes the step of: detecting that the water vapor is not in use, turning on the heat preservation mode to heat the water in the boiler, and keeping the water temperature of the boiler within a preset range. After performing the heat preservation mode, if it is detected that the water vapor is not in use, the heat preservation mode is turned on to heat and maintain the water in the boiler, so that the water temperature in the boiler remains at the preset value, and it is kept in the state to be used at any time. When water vapor is needed, it can be used directly without waiting.

Further, the second heating mode is turned on after the water temperature of the boiler in the step E is lower than the preset value of 2 degrees Celsius, and the water temperature of the boiler is lower than the preset value of 2 degrees Celsius, which can meet the steam temperature requirements of coffee frothing milk At the same time, it can reduce the hardware requirements for temperature control equipment, meet the demand and reduce the cost.

Further, the boiler has a capacity of 2L, and the heating power of the second heating mode is 500W. For a boiler with a capacity of 2L, in general, the heating power of the second heating mode is 500W, which can maintain the water temperature in the boiler at the preset value under the condition of using steam.

Further, the full power is 1200W, and the half power is 500W.

Further, the heat preservation power of the heat preservation mode is 100-150W, and the heat preservation power of the heat preservation mode is 100-150W.

Further, the boiler is equipped with pressure protection and temperature protection, when the pressure inside the boiler is higher than the preset value, the pressure is released, and when the temperature of the water inside the boiler is higher than the preset alarm value, the heating power supply is cut off and an alarm is issued, Pressure protection and temperature protection complement each other to ensure the safety of the boiler to the greatest extent.

Although the embodiments of the present invention have been described in conjunction with the accompanying drawings, those skilled in the art can make various modifications and variations without departing from the spirit and scope of the present invention. within the bounds of the requirements.

Claims (9)

1. a constant temperature control method for the water vapor of coffee machine, it is characterized in that: comprise the following steps: A. Preset the steam temperature of the coffee machine; B. Use a temperature sensor to detect the temperature of the water in the boiler; C. Start the first heating mode to heat the water in the boiler; D. The temperature of the water in the boiler reaches the preset value, and the first heating mode is stopped; E. Carry out the constant temperature mode, detect that the water vapor is in use, if the water temperature of the boiler is lower than the preset value, turn on the second heating mode to heat the water in the boiler, so that the water temperature of the boiler remains within the preset range; The heating power of the second heating mode is the same as the heat loss per unit time when the coffee machine is using water vapor. 2. The constant temperature control method for water vapor of a coffee machine according to claim 1, characterized in that: the amount of heat loss per unit time of the coffee machine in the state of using water vapor includes the amount taken away by the water vapor sprayed out of the boiler The heat and heat lost by the heat transfer between the boiler water and the outside heat. 3. The constant temperature control method for water vapor of a coffee machine according to claim 1, characterized in that: said step C. starting the first heating mode to heat the water in the boiler comprises the steps of: C1. boiler If the water temperature is not greater than 100 degrees Celsius, perform full-power heating until the water temperature reaches 100 degrees Celsius; C2. When the water temperature of the boiler is greater than 100 degrees Celsius and less than the preset value, perform half-power heating until the water temperature reaches the preset value. 4. The constant temperature control method for water vapor of a coffee machine according to claim 1, characterized in that: said step E also includes the step of: detecting that the water vapor is not in use, and turning on the heat preservation mode to control the water in the boiler To heat, keep the water temperature of the boiler within the preset range. 5. The constant temperature control method for water vapor of a coffee machine according to claim 1, characterized in that: the second heating mode is turned on after the water temperature of the boiler in the step E is lower than the preset value of 2 degrees Celsius. 6. The constant temperature control method for water vapor of a coffee machine according to claim 5, characterized in that: the boiler has a capacity of 2L, and the heating power of the second heating mode is 500W. 7. The constant temperature control method for water vapor of a coffee machine according to claim 3, characterized in that: the full power is 1200W, and the half power is 500W. 8. The constant temperature control method for water vapor of a coffee machine according to claim 4, characterized in that: the heat preservation power of the heat preservation mode is 100-150W. 9. The constant temperature control method of the water vapor of the coffee machine according to any one of claims 1-8, characterized in that: the boiler is provided with pressure protection and temperature protection.