Strainer with temperature measurement and timing functions
Technical Field
The utility model relates to the technical field of kitchen utensils, in particular to a strainer with temperature measurement and timing functions.
Background
The conventional colander with the temperature measuring function mainly aims at the treatment mode of frying, and is designed in a strip-edge staggered manner, so that thin or thin food materials cannot be fished, and the colander is not suitable for being used in a scene common in the life of instant-boiling. The common hot pot strainer for containing and fishing the food materials is designed with meshes with holes and is hemispherical with a small surface area, and the distribution of corresponding temperature sensors and internal circuits needs to be redesigned under the condition.
The boiling process of the food is not only influenced by the temperature, but also the denaturation degree of components such as protein and the like is influenced by the immersion time in hot soup with different temperatures, so that the final mouthfeel of the food materials is also different. Therefore, the timing function is added on the colander, which is very important for controlling the boiling process, when the food material is contacted with the hot soup, the timing is started by utilizing the button or the temperature response control, and the user can read the cooking time length through the display screen to avoid excessive time.
In the prior art, most temperature sensors are thermocouples or mercury thermometers, are easy to damage and cause inaccuracy due to impact, high temperature, water inflow and the like in the using process, in addition, the existing various kitchenware with the state monitoring function does not consider the time control,
disclosure of Invention
In order to solve the problems of the functions of temperature measurement and timing of the colander, the utility model monitors the surface temperature of the food material in the boiling process by using an infrared temperature measurement technology, and comprises a data analysis system connected with the food material, so that the accuracy of a measurement result is improved; the timing function is added, manual timing and resetting are performed by controlling the press switch, the automatic timing function of the timer can be controlled by judging the boiling start by utilizing the signal micro-processing unit, the temperature and the time are displayed on the LED display screen at the same time, a user can control the boiling degree of the food materials conveniently, and the precision is high.
The utility model provides a strainer with temperature measurement and timing functions, which comprises a head, a strainer handle, a temperature measurement part, an LED display screen, a timer, a power supply and an analysis system, wherein the strainer handle is connected with one side of the head and extends upwards;
the head part is an arc-shaped opening container provided with a plurality of through holes;
the power supply is connected with the temperature measurement component, the LED display screen, the timer and the analysis system:
the analysis system comprises a chip, wherein the chip is electrically connected with the temperature measurement component, the LED display screen and the power supply;
the temperature measurement component is used for measuring the temperature of food placed in the head and converting the temperature into a temperature signal to be transmitted to the analysis system, the analysis system is used for sorting the temperature signal from large to small, averaging the peak value and the signal near the peak value and converting the average value into a temperature measurement value to be transmitted to the LED display screen, the LED display screen is used for displaying the temperature measurement value, the timer is provided with a press switch and used for starting timing or resetting or stopping timing after pressing the press switch and transmitting the timing result to the LED display screen, the LED display screen is used for displaying the timing result, and the power supply is used for supplying power to the temperature measurement component, the LED display screen, the timer and the analysis system.
As a preferred mode, the temperature measuring component is an infrared temperature measuring component.
The utility model relates to a strainer with temperature measurement and timing functions.
As a preferred mode, the head of the colander with the temperature measuring and timing functions is hemispherical.
As a preferred mode, the upper half part of the head part of the colander with the temperature measuring and timing functions is in a hollow cylindrical shape, and the lower half part of the head part of the colander is in a hemispherical shape.
The colander with the temperature measurement and timing functions, as a preferred mode, further comprises a microprocessor unit and an automatic timer which are arranged on a colander handle, wherein the microprocessor unit is electrically connected with an analysis system and the automatic timer, the automatic timer is electrically connected with an LED display screen, and a power supply is used for supplying power to the microprocessor unit and the automatic timer;
the microprocessing unit comprises a chip;
the analysis system is used for outputting the temperature measured value to the micro-processing unit, the micro-processing unit is used for receiving the temperature measured value and judging whether to start heating food materials or stop heating and then controlling the automatic timer to start timing or reset or stop timing, and the automatic timer is used for sending the timing result to the LED display screen for displaying.
As a preferred mode, the colander with the temperature measurement and timing functions can be provided with the analysis system and the micro-processing unit in an integrated mode.
As an optimal mode, the temperature measurement value and the timing result can be respectively displayed on the LED display screen.
As an optimal mode, the strainer with the temperature measuring and timing functions is powered by a battery in a power supply mode.
According to the colander with the temperature measurement and timing functions, as an optimal mode, a power supply comprises a charging port, the charging port is waterproof, and the power supply is connected with an external power supply through the charging port.
An infrared temperature measuring component is added in the middle of a strainer handle of the strainer, a probe of the infrared temperature measuring component is aligned to the center of the strainer at the bottom end, and a plurality of infrared radiation signals of the surface of the boiled food are measured. The temperature measurement component conducts the recorded radiation signals to an analysis system, the analysis system sorts the signals from large to small, and the signals at the peak and nearby are averaged and converted into corresponding temperature measurement values. This averaging process helps to improve the accuracy of the measurement results and enhance the utility. The temperature measuring component and the analysis system thereof are connected with the LED display screen, and the measuring signal is input into the display screen in real time to reflect the boiling temperature.
A timer is parallel to the infrared temperature measurement component, and the control mode of the timer has two types: a push switch is added at the upper end of the spoon handle to control the start, stop and reset of a timer; or a signal micro-processing unit can be directly added behind an analysis system connected with the temperature measurement component, the processing unit judges whether boiling starts or not according to the temperature change reflected by the infrared signal, and controls the switch of the timer to automatically time the time of boiling. The timer is connected with the LED display screen and displays the boiling time after the temperature.
The temperature measuring component, the timer and the analysis processing system are all powered by a rechargeable power supply and comprise a charging port.
The working process is that the detection signal of the infrared temperature measurement component is connected with an analysis system to process the radiation signal and convert the radiation signal into a corresponding temperature value, a timer switch is manually pressed or a signal micro-processing unit is utilized to judge that boiling starts to automatically time, the analysis system and the timer are connected to an LED display screen, and a charging port supplies power for the whole system.
The utility model has the following advantages:
(1) the monitoring device based on infrared radiation is adopted as the temperature sensor, the temperature can be measured according to the intensity of radiation under the condition of not contacting food materials, the reliability is high, and the control is convenient.
(2) On the basis of improving the temperature monitoring system, a timing function is added, and a manual or design judgment system starts timing according to the change of the surface temperature of the food material. The user can know the boiling experience time through the display screen, and then the culinary art degree of eating the material is mastered better, avoids not rinsing the condition of boiling totally or excessively.
(3) And a charging power supply is used for supplying power to the temperature and time monitoring system, and the charging port is subjected to waterproof treatment.
Drawings
FIG. 1 is a schematic structural view of an embodiment 1 of a strainer with temperature measurement and timing functions;
FIG. 2 is a schematic structural view of an embodiment 2 of a strainer with temperature measurement and timing functions;
fig. 3 is a schematic structural view of an embodiment 3 of the strainer with temperature measurement and timing functions.
Reference numerals:
1. a head portion; 2. a spoon handle; 3. a temperature measuring part; 4. an LED display screen; 5. a timer; 6. a power source; 7. an analysis system; 8. a micro-processing unit; 9. an automatic timer.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.
Example 1
As shown in fig. 1, the strainer with temperature measurement and timing functions comprises a head 1, a strainer handle 2 connected with one side of the head 1 and extending upwards, a temperature measurement component 3 arranged above the center of the bottom of the head 1 and connected with the strainer handle 2, an LED display screen 4 arranged on the strainer handle 2 and electrically connected with the temperature measurement component 3, a timer 5 arranged on the strainer handle 2, a power supply 6 arranged on the strainer handle 2 and an analysis system 7 electrically connected with the temperature measurement component 3 and the LED display screen 4;
the head part 1 is an arc-shaped open container provided with a plurality of through holes;
the power supply 6 is connected with the temperature measuring component 3, the LED display screen 4, the timer 5 and the analysis system 7:
the analysis system 7 comprises a chip which is electrically connected with the temperature measurement component 3, the LED display screen 4 and the power supply 6;
the temperature measuring component 3 is used for measuring the temperature of food materials placed in the head 1 and converting the temperature into a temperature signal to be transmitted to the analysis system 7, the analysis system 7 is used for sorting the temperature signal from large to small, then averaging the peak value and the signal near the peak value and converting the average value into a temperature measurement value to be transmitted to the LED display screen 4, the LED display screen 4 is used for displaying the temperature measurement value, the timer 5 is provided with a press switch, the timer 5 is used for starting timing or resetting or stopping timing after pressing the press switch and transmitting the timing result to the LED display screen 4, the LED display screen 4 is used for displaying the timing result, and the power supply 6 is used for supplying power to the temperature measuring component 3, the LED display screen 4, the timer 5 and the analysis system 7.
Example 2
As shown in fig. 2, the strainer with temperature measurement and timing functions comprises a head 1, a strainer handle 2 connected with one side of the head 1 and extending upwards, a temperature measurement component 3 arranged above the center of the bottom of the head 1 and connected with the strainer handle 2, an LED display screen 4 arranged on the strainer handle 2 and electrically connected with the temperature measurement component 3, a timer 5 arranged on the strainer handle 2, a power supply 6 arranged on the strainer handle 2, an analysis system 7 electrically connected with the temperature measurement component 3 and the LED display screen 4, a microprocessing unit 8 arranged on the strainer handle 2 and an automatic timer 9;
the head part 1 is a small semi-spherical open container provided with a plurality of through holes;
the power supply 6 is connected with the temperature measuring component 3, the LED display screen 4, the timer 5 and the analysis system 7:
the analysis system 7 comprises a chip which is electrically connected with the temperature measurement component 3, the LED display screen 4 and the power supply 6;
the temperature measuring component 3 is used for measuring the temperature of food materials placed in the head 1 and converting the temperature into a temperature signal to be transmitted to the analysis system 7, the analysis system 7 is used for sorting the temperature signal from large to small, then averaging the peak value and the signals nearby the peak value and converting the average value into a temperature measurement value to be transmitted to the LED display screen 4, the LED display screen 4 is used for displaying the temperature measurement value, the timer 5 is provided with a press switch, the timer 5 is used for starting timing or resetting or stopping timing after pressing the press switch and transmitting the timing result to the LED display screen 4, the LED display screen 4 is used for displaying the timing result, the power supply 6 is used for supplying power to the temperature measuring component 3, the LED display screen 4, the timer 5 and the analysis system 7, the microprocessing unit 8 is electrically connected with the analysis system 7 and the automatic timer 9, the automatic timer 9 is electrically connected with the LED display screen 4, and the power supply 6 is used for supplying power to the microprocessing unit 8 and the automatic timer 9, the analysis system 7 is used for outputting a temperature measurement value to the micro-processing unit 8, the micro-processing unit 8 is used for receiving the temperature measurement value, judging whether to start heating food materials or stop heating and then controlling the automatic timer 9 to start timing or reset or stop timing, and the automatic timer 9 is used for sending a timing result to the LED display screen 4 for displaying;
the temperature measurement value and the timing result can be respectively displayed on the LED display screen 4, the power supply 6 comprises a charging port, the charging port is waterproof, and the power supply 6 is connected with an external power supply through the charging port.
Example 3
As shown in fig. 3, the strainer with temperature measurement and timing functions comprises a head 1, a strainer handle 2 connected with one side of the head 1 and extending upwards, a temperature measurement component 3 arranged above the center of the bottom of the head 1 and connected with the strainer handle 2, an LED display screen 4 arranged on the strainer handle 2 and electrically connected with the temperature measurement component 3, a timer 5 arranged on the strainer handle 2, a power supply 6 arranged on the strainer handle 2, an analysis system 7 electrically connected with the temperature measurement component 3 and the LED display screen 4, a micro-processing unit 8 arranged on the strainer handle 2 and an automatic timer 9;
the head part 1 is an open container which is provided with a plurality of through holes, the upper half part of the open container is hollow cylinder-shaped, and the lower half part of the open container is small semi-sphere-shaped;
the power supply 6 is connected with the temperature measuring component 3, the LED display screen 4, the timer 5 and the analysis system 7:
the analysis system 7 comprises a chip which is electrically connected with the temperature measurement component 3, the LED display screen 4 and the power supply 6;
the microprocessing unit 8 includes a chip;
the temperature measuring component 3 is used for measuring the temperature of food materials placed in the head 1 and converting the temperature into a temperature signal to be transmitted to the analysis system 7, the analysis system 7 is used for sorting the temperature signal from large to small, then averaging the peak value and the signals nearby the peak value and converting the average value into a temperature measurement value to be transmitted to the LED display screen 4, the LED display screen 4 is used for displaying the temperature measurement value, the timer 5 is provided with a press switch, the timer 5 is used for starting timing or resetting or stopping timing after pressing the press switch and transmitting the timing result to the LED display screen 4, the LED display screen 4 is used for displaying the timing result, the power supply 6 is used for supplying power to the temperature measuring component 3, the LED display screen 4, the timer 5 and the analysis system 7, the microprocessing unit 8 is electrically connected with the analysis system 7 and the automatic timer 9, the automatic timer 9 is electrically connected with the LED display screen 4, and the power supply 6 is used for supplying power to the microprocessing unit 8 and the automatic timer 9, the analysis system 7 is used for outputting a temperature measurement value to the micro-processing unit 8, the micro-processing unit 8 is used for receiving the temperature measurement value, judging whether to start heating food materials or stop heating and then controlling the automatic timer 9 to start timing or reset or stop timing, and the automatic timer 9 is used for sending a timing result to the LED display screen 4 for displaying;
the temperature measuring component 3 is a thermocouple, temperature measuring values and timing results can be respectively displayed on the LED display screen 4, the power supply mode of the power supply 6 is battery power supply, and the analysis system 7 and the micro-processing unit 8 can be integrally arranged.
The working flow of the embodiment 1-3 is that the temperature measuring part 3 detects a signal and connects the analysis system 7 to process a radiation signal and convert the radiation signal into a corresponding temperature value, the switch of the timer 5 is manually pressed or the signal micro-processing unit 8 is utilized to judge that boiling starts to automatically time, the analysis system 7 and the timer 5 are connected to the LED display screen 4, and the charging port supplies power to the whole system.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.