CN117249920A - Temperature value setting unit, temperature detection device and temperature value setting method - Google Patents

Abstract

The invention relates to a temperature value setting unit, which comprises an action sensor, a control module and a connection module; the action sensor detects the action of the temperature value setting unit and transmits a sensor signal obtained by detection to the control module; the control module obtains a corresponding temperature value as a set temperature value according to the action times; and the control module carries out prompt operation when the current measured temperature obtained by the temperature detection device reaches the set temperature value. The invention also relates to a temperature detection device and a temperature value setting method. The temperature value setting unit, the temperature detection device and the temperature value setting method have the following beneficial effects: the cost is lower and the operation is simple.

Description

Temperature value setting unit, temperature detection device and temperature value setting method

Technical Field

The present invention relates to the field of temperature measurement, and more particularly, to a temperature value setting unit, a temperature detecting device, and a temperature value setting method.

Background

The thermometer or the temperature detection device has a plurality of functions in daily life of people, and can judge whether food is cooked or not by detecting the temperature of the food besides detecting the temperature of a human body. For example, in the process of cooking some large pieces of food (e.g., beef, turkey), a thermometer is inserted into the food to obtain the temperature change of the food during cooking, thereby judging whether the food is cooked or not based on the temperature change. Different consumers have different requirements on the degree of cooking of food, taking steak as an example, some consumers like to eat three ripens, and some consumers like to eat five ripens or seven ripens, so the temperature of the thermometer can be measured and set when the steak is fried, and when the temperature of the steak reaches the set temperature, the thermometer sends a prompt to prompt the consumers that the steak has reached the set degree of cooking. The current temperature value of the temperature detection device needs to enter a setting interface of the temperature detection device, select temperature setting or doneness setting, and select determined temperature or doneness. The setting mode not only needs to increase the setting interface on the temperature detection device, so that the cost is higher, but also has more steps, the degree of ripeness of food needs to be reset each time, the setting mode is very tedious, and the use is not simple and convenient.

Disclosure of Invention

The invention aims to solve the technical problems of higher cost and inconvenient use in the prior art, and provides a temperature value setting unit, a temperature detection device and a temperature value setting method which are lower in cost and convenient to use.

The technical scheme adopted for solving the technical problems is as follows: constructing a temperature value setting unit which comprises an action sensor and a control module; the action sensor detects the overturning, shaking or moving action of the temperature value setting unit and transmits a sensor signal obtained by detection to the control module; the control module obtains the times of turning, shaking or moving according to the sensor signals, and obtains a preset temperature value corresponding to the times of turning, shaking or moving according to the preset.

Still further, the motion sensor may include any one of a ball switch, a gravity sensor, a three-axis gravitational acceleration sensor, a three-axis gyroscope sensor, or a three-axis magnetic sensor.

The invention also relates to a temperature detection device, which comprises the temperature value setting unit, a temperature probe and a charging seat, wherein the temperature probe is used for detecting the current measured temperature in food; the charging seat is used for accommodating the temperature measuring probe and is in communication connection with the temperature measuring probe, and the temperature value setting unit performs data interaction with the temperature measuring probe and/or the charging seat in a wired or wireless mode.

Still further, the temperature value setting unit includes with the suggestion module of control module electricity connection, the temperature value setting unit sets up in the temperature probe, temperature sensor in the temperature probe still with control module connects, control module compares current measurement temperature value with the settlement temperature value to when current measurement temperature value is greater than or equal to settlement temperature value control suggestion module work.

Further, the temperature value setting unit comprises a connection module and a prompt module which are electrically connected with the control module, and the temperature value setting unit is placed in the charging seat; when the temperature probe performs temperature measurement, the temperature value setting unit performs data interaction with the temperature probe through the connecting module.

Further, the action sensor and the control module are arranged in the temperature probe, and the prompting module is arranged in the charging seat; the connection module comprises a transmitting module and a receiving module, the transmitting module is arranged in the temperature measuring probe, and the receiving module is arranged in the charging seat; the control module controls the prompt module to work through the connection module.

Still further, the temperature measuring probe also comprises a user terminal which is connected with the temperature measuring probe in a wireless mode and interacts data with the temperature measuring probe; the temperature value setting unit is arranged in the user terminal and operates in the mode of an application program; or alternatively

The user terminal is connected with the charging seat in a wireless mode, meanwhile, the charging seat is connected with the temperature measurement probe, and the charging seat is used as a data transmission relay station, so that data interaction between the temperature measurement probe and the charging seat and between the user terminal is realized; the action sensor is arranged in the user terminal; the prompting module comprises a plurality of sub-modules for executing the same or different prompting modes, and the sub-modules are respectively arranged in the user terminal and the charging seat.

The invention also relates to a temperature value setting method, which comprises the following steps:

the movement or overturning action sensor obtains the action times of the movement or the shaking or the overturning and transmits the action times to the controller;

the controller obtains a set corresponding prompt temperature value according to the obtained action times.

Still further, the method further comprises the following steps:

the temperature sensor detects the current temperature value in the current food and transmits the current temperature value to the controller;

the controller compares the internal temperature value of the current food with a preset prompting temperature value, and when the internal temperature value of the current food is greater than or equal to the prompting temperature value, the controller controls the prompting module to work.

Further, the motion sensor starts to detect the number of movements of movement or shaking or turning after the set button or key is triggered in a set manner or after a specific application is run and a specified virtual button is triggered.

The temperature value setting unit, the temperature detection device and the temperature value setting method have the following beneficial effects: the temperature value setting unit is arranged, the sensor signals corresponding to the action times are output by the action sensor through simple overturning or shaking and the like, the control module obtains the action times of shaking, overturning or shaking and the like of the sensor after receiving the sensor signals, accordingly obtains the set temperature value corresponding to the action times, when the temperature detection unit carries out temperature measurement, the control module compares the obtained measured value of the current temperature with the set temperature value, and when the temperature value obtained by the current measurement is greater than or equal to the set temperature value, the control module indicates that the internal temperature value of the processed object reaches the set value, namely the processing is completed, and then the set action, such as acousto-optic prompt, is carried out, and the user is reminded. It can be seen that no special setting interface is required nor is a setting operation performed on this interface. Therefore, the cost is lower and the operation is simple.

Drawings

FIG. 1 is a schematic diagram of a temperature value setting unit, a temperature detecting device and a temperature value setting method according to an embodiment of the present invention;

FIG. 2 is a schematic view of the structure of the temperature detecting device in the embodiment;

FIG. 3 is a schematic diagram of the temperature detecting device when the prompt module and the motion sensor are respectively disposed in the charging stand and the temperature probe in the embodiment;

FIG. 4 is a schematic diagram of the structure of the temperature detecting device when the prompt module and the motion sensor are arranged in the temperature probe in the embodiment;

FIG. 5 is a schematic view of the temperature detecting device when the prompt module and the motion sensor are disposed in the charging stand according to the embodiment;

FIG. 6 is a schematic diagram of the structure of the temperature detecting device when the prompt module and the motion sensor are disposed in the user terminal in the embodiment;

fig. 7 is a schematic structural diagram of the temperature detecting device when the prompt module and the motion sensor are respectively disposed in the charging stand and the user terminal in the embodiment;

fig. 8 is a flowchart of a temperature value setting method in the embodiment.

Detailed Description

Embodiments of the present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1, in the embodiment of the temperature value setting unit 3, the temperature detecting device and the temperature value setting method of the present invention, the temperature value setting unit 3 is configured to set a set temperature value for the temperature detecting device connected to the temperature detecting device in a wired or wireless manner, so that the temperature detecting device gives a prompt when the measured temperature value is greater than or equal to the set temperature value; in this embodiment, taking baked food or fried food as an example, the temperature detecting device measures the temperature value inside the food, and when the internal temperature of the food (such as steak) reaches a certain temperature, the maturity of the food reaches a corresponding degree. For example, when the temperature of the steak reaches a set temperature, it indicates that it has reached a level of triple ripeness, and when it reaches another higher temperature, it indicates that it has reached a level of fifth ripeness, etc. By setting different set temperatures and giving a prompt when the measured temperature exceeds the set temperature, the user can understand the processing degree of the food and control the processing better. Alternatively, the temperature detecting means is a temperature probe 1 for insertion into the interior of the food to detect the temperature inside the food.

As shown in fig. 1, in the present embodiment, the temperature value setting unit 3 includes a motion sensor 34, a control module 31, a prompt module 33, and a connection module 32; the motion sensor 34 detects the overturning, shaking or moving motion of the temperature value setting unit 3, and transmits a detected sensor signal to the control module 31; the control module 31 obtains the number of times of turning, shaking or moving of the temperature value setting unit 3 according to the sensor signal, and obtains a temperature value corresponding to the number of times of turning, shaking or moving according to a preset setting, as a set temperature value of a temperature detection device connected with the temperature value setting unit 3 in a wired or wireless manner through the connection module 32; and prompting when the current measured temperature measured by the temperature detection device reaches the set temperature value. In this embodiment, the control module 31 outputs a control signal to enable the prompting module 33 to act to prompt the user that the temperature of the food has reached the set temperature, i.e. the food has been processed to the set state. Therefore, the temperature value setting unit 3 can complete setting of the set temperature value through simple overturning, shaking or moving actions, complicated steps such as opening an interface of a setting program, selecting parameters, confirming and the like are not needed, the step of setting the set temperature value is simplified, time is saved, and convenience of use of a user is improved.

In some cases of this embodiment, the foregoing prompting module 33 may be a part of the foregoing temperature value setting unit 3, where the prompting module 33 prompts the user by vibration, sound or light flashing under the control of the control module 31, that is, the prompting module 33 is independent, and may include a plurality of sub-modules, for example, a light emitting sub-module, a buzzer, and a vibrator, and the control module 31 may be the sub-modules working separately or simultaneously, so as to realize prompting to the user; in other cases in this embodiment, the prompting module 33 may be an acousto-optic component or a vibrator already provided in the existing temperature detecting device, for example, an existing indicator light, a buzzer, etc. in the temperature detecting device, in which case the control module 31 needs to implement control of the existing indicator light, the buzzer, etc. by another controller in the temperature detecting device, so as to implement prompting.

In the present embodiment, the motion sensor 34 includes any one of a ball switch, a gravity sensor, a three-axis gravitational acceleration sensor, a three-axis gyro sensor, or a three-axis magnetic sensor.

The invention also relates to a temperature detection device, as shown in figure 2, which comprises a temperature probe 1, a charging seat 2, a temperature value setting unit 3 and a user terminal 4, wherein the temperature probe 1 is used for detecting the temperature inside an article; the charging seat 2 is used for placing the temperature probe 1 and charging the temperature probe 1 when the temperature probe 1 does not measure the temperature; the temperature value setting unit 3 is used for setting a prompt temperature value and performing data interaction with the charging seat 2 in a wired or wireless mode; the user terminal 4 is connected with the charging seat 2 and exchanges data, so that the user can conveniently carry the temperature detection device with himself, and observe and set parameters of the temperature detection device at any time. At this time, the temperature value setting unit 3 exists as a separate component and performs data interaction with the other three components (the temperature probe 1, the cradle 2 and the user terminal 4) existing in the prior art. As can be seen in fig. 2, there is a signal or data path between the above-mentioned temperature value setting unit 3, the cradle 2 and the user terminal 4. This is to enable the temperature value setting unit 3 to obtain the current measured temperature value of the temperature probe 1 through the charging stand 2, and the control module 31 compares the temperature value with the set temperature value and controls the prompt module 33 to work to prompt the user when the condition is met. In this case, the temperature value setting unit 3 exists as a separate component, and any modification to the existing temperature detecting device is not required, so long as the temperature value setting unit 3 and the cradle 2 are connected by a wired or wireless means. The structure is particularly suitable for improving and upgrading the existing temperature detection device, and the workload is small.

In this embodiment, in the case of allowing or remanufacturing the components of the existing temperature detection device, the temperature value setting unit 3 may be entirely disposed in the temperature probe 1, at this time, the temperature sensor in the temperature probe 1 is further connected to the control module 31, and the control module 31 compares the current measured temperature value with the set temperature value, and triggers the prompt module 33 to operate when the current set temperature value is greater than or equal to the set temperature value. That is, in this case, the control module 31 replaces the controller of the original temperature probe 1, the connection module 32 replaces the original wireless connection module of the temperature probe 1, and the connection relationship between other components of the temperature probe 1 is not changed, that is, the temperature probe 1 and the temperature value setting unit 3 are integrated into one component, and both original functions are reserved, so that the temperature value setting and prompting can be quickly realized by simply operating (for example, pressing the start button according to a specified length) and shaking, turning or swinging the integrated temperature probe 1.

In other cases, the temperature value setting unit 3 may be placed entirely in the cradle 2; this is similar to the above case, except that the cradle 2 and the temperature value setting unit 3 are integrated into one component. When the temperature probe 1 performs temperature measurement, the temperature value setting unit 3 performs data interaction with the temperature probe 1 through the connection module 32. At this time, the function of the wireless connection module in the original charging stand 2 is realized by the connection module 32, and the original wireless connection module is canceled; or the original wireless connection module replaces the connection module 32 to realize the functions thereof; or the original wireless connection module is reserved to realize the connection of the charging seat 2 to other devices (such as a user terminal), and the connection module 32 is added to realize the connection of the temperature probe 1. In addition, the user terminal 4 may also be connected to the charging stand 2 in a wireless manner, and meanwhile, the charging stand 2 is further connected to the temperature measurement probe 1, and the charging stand 2 is used as a data transmission relay station, so that data interaction between the temperature measurement probe 1 and the charging stand 2, and between the user terminal 4; at this time, the motion sensor 34 may be provided in the user terminal; the prompting module 33 may include a plurality of sub-modules for executing the same or different prompting modes, and the sub-modules are respectively disposed in the user terminal 4 and the charging stand 2. These settings are all selectable as long as the function of the original cradle 2 and the function of the temperature value setting unit 3 are ensured.

Fig. 3 shows a further case in which the above-mentioned temperature value setting unit 3 is split into different components and placed in the components of different temperature detecting means, which are also data-interacted with each other through the existing connection. In fig. 3, the motion sensor 34 and the control module 31 in the temperature value setting unit 3 are arranged in the temperature probe 1, and the prompt module 33 is arranged in the charging stand 2; in one case, the control module 31 may transmit a signal to the controller of the charging stand 2 through the wireless connection module of the original temperature probe 1, by which the control of the prompt module 33 is implemented, which is shown in fig. 3. In another case, the connection module 32 can be further divided into a transmitting module and a receiving module, wherein the transmitting module is arranged in the temperature probe 1, and the receiving module is arranged in the charging seat 2; in this way, the control signal of the prompt module 33 can be transmitted to the charging stand 2 through the connection module 32, so as to control the prompt module 33, that is, the control module 31 controls the prompt module 33 to work through the connection module 32.

In this embodiment, in some cases, the temperature detecting device may not include the user terminal 4, and in this case, the entire temperature detecting device includes only the temperature probe 1, the charging stand 2, and the temperature value setting unit 3. The various configurations described above are equally applicable to such a case where the user terminal 4 is not included, since none of the temperature value setting units 3 described above is in direct contact with the user terminal 4. In some cases, however, the temperature detection means comprise a user terminal 4, as described above, said user terminal 4 being connected to said temperature probe 1 in a wireless manner, interacting data with said temperature probe 1. The temperature value setting unit 3 may also be arranged in the user terminal and operate in the form of an application program, in which case the motion sensor 34 in the temperature value setting unit 3 may be replaced by an already existing motion sensor in the user terminal 4, the connection module 32 may be replaced by a wireless module in the user terminal 4, the prompting module 33 may be replaced by a horn, a buzzer and a vibrator in the user terminal 4, and these components are combined together by means of the application program to form the temperature value setting unit 3.

In addition, the user terminal 4 may also be connected to the temperature probe 1 and the charging stand 2 in a wireless manner, and interact data with the temperature probe 1 and the charging stand 2, respectively; in this case, the action sensor 34 in the above-mentioned temperature value setting unit 3 may also be provided in the user terminal 4, likewise taking control right and operation by way of an application program using existing components instead. In this case, the presentation module 33 comprises a plurality of sub-modules, which are arranged in the user terminal 4 and in the charging stand 2, respectively, and which perform the same or different presentation modes, in contrast to the case described above. Likewise, the sub-module of the prompt module 33 on the user terminal 4 is replaced by the existing component and operates in the mode of application program; while the sub-modules provided in the cradle 2 use separately provided physical devices to avoid substantial modification of the hardware of the cradle 2. The arrangement ensures that the user terminal 4 and the charging seat 2 can send out prompt signals, so that the user is prevented from neglecting the prompt signals due to negligence, and the prompt effect is ensured.

As is clear from the above description, in the present embodiment, the temperature value setting unit 3 may exist as a single physical component or may be divided into a plurality of parts to be respectively provided in the respective components of the different temperature detecting devices. For example, different parts may be provided in the temperature probe 1, the cradle 2 and the user terminal 4, respectively. In this embodiment, more than one of these disassembled components may be provided, and for example, the prompt module 33 may be provided as a plurality of sub-modules with the same function and distributed on the user terminal 4 and the cradle 2, respectively.

Fig. 4 to 8 show schematic structural views of the above-described presentation module 33 and the motion sensor 34, respectively, when they are provided on different components or parts, based on fig. 3. Wherein fig. 3 shows the structure of the temperature detection device when the prompt module 33 and the motion sensor 34 are respectively arranged in the charging stand 2 and the temperature probe 1; fig. 4 shows the structure of the temperature detecting device when both the prompt module 33 and the motion sensor 34 are provided in the temperature probe 1; fig. 5 shows the structure of the temperature detection device when both the reminder module 33 and the motion sensor 34 are provided in the cradle 2; fig. 6 shows the structure of the temperature detection device when both the prompt module 33 and the motion sensor 34 are provided in the user terminal 4; fig. 7 shows the structure of the temperature detection device when the reminder module 33 is provided in the cradle 2 and the motion sensors 34 are both provided in the user terminal 4.

The invention also relates to a temperature value setting method, please refer to fig. 1 to 8, which comprises the following steps:

step S11 performs a specific operation, and starts to perform temperature setting: in the present embodiment, a specific operation is required for setting the temperature value, indicating that the setting program is entered. This is because whether the temperature setting unit is independent or in the form of an application program, a clear indication needs to be given before the temperature setting step is entered, otherwise an unintentional movement or collision may cause the motion sensor to output a sensor signal, resulting in erroneous setting or erroneous change of the set temperature value. A clear and error-free action or operation is therefore required to indicate entry into the temperature setting program. In this step, the motion sensor 34 starts to detect the number of movements of movement or shaking or turning after a set operation. The setting operation may be performed in a manner that the set button or key is activated in a set manner, or may be performed by running a specific application program and activating a specific virtual button, in a different usage scenario. For example, the start button on the temperature value setting unit 3 may be pressed for a long time, or the setting button on the operation interface may be double-clicked or clicked after the application icon is double-clicked to be operated.

Step S12 shakes, moves or overturns the motion sensor 34: in this step, the motion sensor 34 or the component where the motion sensor 34 is located may be, for example, the temperature value setting unit 3, the temperature probe 1, the charging stand 2 or the user terminal 4, depending on the location where the motion sensor 34 is located.

Step S13 obtains the number of operations of the operation sensor 34: in the present embodiment, a control module 31, alone or in common with other components, receives the sensor signal output from the motion sensor 34 and calculates the number of times the motion sensor 34 is actuated.

Step S14 obtains a set temperature value corresponding to the operation number: in this step, the control module 31 obtains a set corresponding indication temperature value according to the obtained operation times. It should be noted that, in this step, when the above mentioned prompt temperature value is obtained, a certain step may be adopted to notify the user, for example, a setting acousto-optic prompt or vibration may be sent. One common action is that the buzzer sounds a specified number of times.

Step S15, if the temperature measured currently is greater than or equal to the set temperature value, executing the next step; if not, repeating the step. It is worth mentioning that in this step, the temperature detecting device starts to measure the temperature of the object, for example, the temperature probe 1 is inserted into the food, and starts to measure the temperature of the processed food, that is, the temperature sensor of the temperature detecting device starts to continuously detect the temperature value of the current food and continuously transmit the temperature value to the control module 31, so that the control module 31 can continuously compare the measured temperature value obtained currently with the prompt temperature value.

Step S16 causes the presentation module 33 to operate, and gives an audible and visual and vibration presentation: in this step, since the temperature value inside the current food is greater than or equal to the prompt temperature value, which indicates that the processing of the food has reached the desired effect, the control module 31 causes the prompt implementation module to act, thereby implementing the acousto-optic prompt.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. A temperature value setting unit, which is characterized by comprising a motion sensor and a control module; the action sensor detects the overturning, shaking or moving action of the temperature value setting unit and transmits a sensor signal obtained by detection to the control module; the control module obtains the times of turning, shaking or moving according to the sensor signals, and obtains a preset temperature value corresponding to the times of turning, shaking or moving according to the preset.

2. The temperature value setting unit according to claim 1, wherein the motion sensor includes any one of a ball switch, a gravity sensor, a three-axis gravitational acceleration sensor, a three-axis gyro sensor, or a three-axis magnetic sensor.

3. A temperature detection device, characterized by comprising a temperature value setting unit according to any one of claims 1-2, a temperature probe and a charging stand, the temperature probe being used for detecting a current measured temperature inside a food; the charging seat is used for accommodating the temperature measuring probe and is in communication connection with the temperature measuring probe, and the temperature value setting unit performs data interaction with the temperature measuring probe and/or the charging seat in a wired or wireless mode.

4. A temperature detection device according to claim 3, wherein the temperature value setting unit comprises a prompt module electrically connected with the control module, the temperature value setting unit is arranged in the temperature probe, the temperature sensor in the temperature probe is also connected with the control module, and the control module compares the current measured temperature value with a set temperature value and controls the prompt module to work when the current measured temperature value is greater than or equal to the set temperature value.

5. A temperature detection device according to claim 3, wherein the temperature value setting unit includes a connection module and a prompt module electrically connected with the control module, the temperature value setting unit being placed in the charging stand; when the temperature probe performs temperature measurement, the temperature value setting unit performs data interaction with the temperature probe through the connecting module.

6. The temperature detection device of claim 5, wherein the motion sensor and the control module are disposed in the temperature probe and the reminder module is disposed in the charging dock; the connection module comprises a transmitting module and a receiving module, the transmitting module is arranged in the temperature measuring probe, and the receiving module is arranged in the charging seat; the control module controls the prompt module to work through the connection module.

7. The temperature sensing device of claim 5, further comprising a user terminal wirelessly coupled to the temperature probe for interacting data with the temperature probe; the temperature value setting unit is arranged in the user terminal and operates in the mode of an application program; or alternatively

The user terminal is connected with the charging seat in a wireless mode, meanwhile, the charging seat is connected with the temperature measurement probe, and the charging seat is used as a data transmission relay station, so that data interaction between the temperature measurement probe and the charging seat and between the user terminal is realized; the action sensor is arranged in the user terminal; the prompting module comprises a plurality of sub-modules for executing the same or different prompting modes, and the sub-modules are respectively arranged in the user terminal and the charging seat.

8. A temperature value setting method, comprising the steps of:

the movement or overturning action sensor obtains the action times of the movement or the shaking or the overturning and transmits the action times to the controller;

the controller obtains a set corresponding prompt temperature value according to the obtained action times.

9. The temperature value setting method according to claim 8, characterized by further comprising the step of:

the temperature sensor detects the current temperature value in the current food and transmits the current temperature value to the controller;

the controller compares the internal temperature value of the current food with a preset prompting temperature value, and when the internal temperature value of the current food is greater than or equal to the prompting temperature value, the controller controls the prompting module to work.

10. The method according to claim 9, wherein the motion sensor starts to detect the number of movements of movement or shaking or turning after the set button or key is triggered in a set manner or after a specific application is run and a specified virtual button is triggered.