阅读说明：本技术 一种体温调节系统 (Body temperature adjusting system ) 是由 樊晓东 樊晓莉 张宜霞 卫明轩 樊佳慧 杨淳伊 于 2020-06-12 设计创作，主要内容包括：一种体温调节系统,涉及医疗器械领域,包括多个温度调节装置和测温模块。每个温度调节装置包括半导体制冷片、电源、控制器和第二无线通信模块,半导体制冷片配置为与人体接触,设其中一个温度调节装置作主温度调节装置,其余为副温度调节装置,这些副温度调节装置分别通过其各自的第二无线通讯模块与主温度调节装置的第二无线通讯模块的通信交互以将各自的工作状态信息传输给主温度调节装置,测温模块配置为检测人体的体温值并将人体的体温值,主温度调节装置的控制器根据人体体温值控制这些温度调节装置的电源传输给各对应的半导体制冷片的电流状态进而以控制各对应的半导体制冷片的工作状态。(A body temperature adjusting system relates to the field of medical instruments and comprises a plurality of temperature adjusting devices and a temperature measuring module. Each temperature adjusting device comprises a semiconductor refrigerating piece, a power supply, a controller and a second wireless communication module, the semiconductor refrigerating pieces are configured to be in contact with a human body, one temperature adjusting device is arranged to serve as a main temperature adjusting device, the rest temperature adjusting devices are auxiliary temperature adjusting devices, the auxiliary temperature adjusting devices are respectively communicated and interacted with the second wireless communication module of the main temperature adjusting device through the respective second wireless communication modules to transmit respective working state information to the main temperature adjusting device, the temperature measuring module is configured to detect the body temperature value of the human body and transmit the body temperature value of the human body, and the controller of the main temperature adjusting device controls the current state of the power supply of the temperature adjusting devices to be transmitted to the corresponding semiconductor refrigerating pieces according to the body temperature value of the human body so as to control the working state of the corresponding semiconductor refrigerating pieces.)

1. A system for regulating body temperature, comprising:

a plurality of temperature adjustment devices, each of the temperature adjustment devices comprising:

the working end of the semiconductor refrigerating sheet is used for contacting with a human body;

the power supply is used for supplying power to the semiconductor refrigerating sheet;

the controller is used for controlling the state of the current transmitted to the semiconductor chilling plate by the power supply; and

the second wireless communication module is connected with the controller; setting one temperature adjusting device in the plurality of temperature adjusting devices as a main temperature adjusting device, and setting the other temperature adjusting devices as auxiliary temperature adjusting devices, wherein the auxiliary temperature adjusting devices respectively transmit respective working state information to the main temperature adjusting device through communication interaction of respective second wireless communication modules of the auxiliary temperature adjusting devices and the second wireless communication module of the main temperature adjusting device; and

the temperature measurement module is an electronic temperature measurement instrument with a first wireless communication module, the temperature measurement module is configured to detect the body temperature value of the human body and send the body temperature value of the human body to the main temperature adjusting device through the first wireless communication module, and a controller of the main temperature adjusting device controls the power supply of each temperature adjusting device to transmit the current state of the corresponding semiconductor chilling plate according to the body temperature value of the human body so as to control the working state of the corresponding semiconductor chilling plate.

2. The system for regulating body temperature according to claim 1, wherein the second wireless communication module is further configured to send operating state information of at least one of the temperature regulating devices and/or the body temperature value of the human body detected by the temperature measuring module to an intelligent terminal.

3. The system for regulating body temperature according to claim 2, further comprising a server, wherein the intelligent terminal is further configured to access the server to obtain medical information pre-stored in the server.

4. The system of claim 1, wherein each of the temperature control devices further comprises a temperature monitoring module electrically connected to the controller for monitoring the temperature value of the semiconductor chilling plate in real time, and when the temperature monitoring module monitors that the temperature value of the semiconductor chilling plate exceeds a safe temperature threshold interval, the controller of the main temperature control device controls the body temperature control system to perform corresponding emergency operation.

5. The system of claim 4, wherein the emergency operation comprises controlling a disconnection between the power source of the temperature regulating device and the semiconductor chilling plate or controlling a reduction in the current.

6. The system of claim 1, further comprising: the storage device is used for storing and placing the temperature measuring module and/or the temperature adjusting device, and a sterilization assembly for sterilizing and disinfecting the temperature measuring module and/or the temperature adjusting device is arranged in the storage device; the storage device is further provided with at least one charging interface and a power supply assembly, and the power supply assembly is connected with the charging interface.

7. The system of claim 1, wherein each of the temperature adjustment devices further comprises a display module electrically connected to the controller thereof, each display module being configured to display the operating status information of the corresponding temperature adjustment device.

8. The system of claim 1, wherein each of the temperature adjustment devices further comprises a voice interaction module electrically connected to the controller thereof, and each of the voice interaction modules is configured to modify or set the operating status information of the corresponding temperature adjustment device by voice recording.

9. The system of claim 1, wherein each thermostat further comprises an alarm module electrically connected to the controller thereof, and when the controller of the master thermostat determines that the body temperature of the human body is less than the minimum limit value of the body temperature of the human body or determines that the body temperature of the human body is greater than the maximum limit value of the body temperature of the human body, the controller of the master thermostat controls at least one of the alarm modules to send an alarm signal.

10. The system of claim 1, wherein the current state comprises a direction of the current and/or a magnitude of the current.

11. The system of claim 1, wherein the contact comprises an indirect contact.

Technical Field

The invention relates to the field of medical instruments, in particular to a body temperature adjusting system.

Background

Aiming at the problem of human body fever, the traditional mode generally adopts cooling means such as ice compress forehead and the like, in addition, a head-wearing electronic cooling instrument appears on the market, but the existing head-wearing electronic cooling instrument can only perform monotonous refrigeration, when the human body needs to be heated up due to cooling, hot water is generally adopted for bathing and wrapping thick clothes and the like, and when the human body is cooled, the head-wearing electronic cooling instrument provided on the market is free from the strategy.

In addition, the existing head-wearing electronic cooling instrument can not obtain the body temperature of a human body, only the temperature value needing to be cooled can be preset when the human body is cooled, when a user feels that the cooling capacity is insufficient, the temperature needs to be manually reduced, the temperature step value is set to be harsh, the user often feels that the head-wearing electronic cooling instrument is not cold enough during cooling, and the head-wearing electronic cooling instrument feels too cold after being adjusted, so that the moderate degree of use of the user is insufficient, the cooling capacity value is manually adjusted, and the operation is not convenient enough.

Disclosure of Invention

The present invention aims to provide a body temperature regulating system to solve the above problems.

The embodiment of the invention is realized by the following steps:

in one aspect of the embodiments of the present invention, there is provided a body temperature adjustment system, including:

a plurality of temperature adjustment devices, each of the temperature adjustment devices comprising:

the working end of the semiconductor refrigerating sheet is used for contacting with a human body;

the power supply is used for supplying power to the semiconductor refrigerating sheet;

the controller is used for controlling the state of the current transmitted to the semiconductor chilling plate by the power supply; and

the second wireless communication module is connected with the controller; setting one temperature adjusting device in the plurality of temperature adjusting devices as a main temperature adjusting device, and setting the other temperature adjusting devices as auxiliary temperature adjusting devices, wherein the auxiliary temperature adjusting devices respectively transmit respective working state information to the main temperature adjusting device through communication interaction of respective second wireless communication modules of the auxiliary temperature adjusting devices and the second wireless communication module of the main temperature adjusting device; and

the temperature measurement module is an electronic temperature measurement instrument with a first wireless communication module, the temperature measurement module is configured to detect the body temperature value of the human body and send the body temperature value of the human body to the main temperature adjusting device through the first wireless communication module, and a controller of the main temperature adjusting device controls the power supply of each temperature adjusting device to transmit the current state of the corresponding semiconductor chilling plate according to the body temperature value of the human body so as to control the working state of the corresponding semiconductor chilling plate.

Optionally, the second wireless communication module is further configured to send working state information of at least one temperature adjustment device and/or the body temperature value of the human body detected by the temperature measurement module to the intelligent terminal.

Optionally, the system further comprises a server, and the intelligent terminal is further configured to access the server to obtain medical information pre-stored in the server.

Optionally, each temperature adjusting device further comprises a temperature monitoring module, the controller is electrically connected with the temperature monitoring module and used for monitoring the temperature value of the semiconductor refrigeration piece in real time, and when the temperature monitoring module monitors that the temperature value of the semiconductor refrigeration piece exceeds a safe temperature threshold interval, the controller of the main temperature adjusting device controls the body temperature adjusting system to perform corresponding emergency operation.

Optionally, the emergency operation includes controlling a disconnection between the power supply of the temperature adjustment device and the semiconductor chilling plate or controlling to reduce the current.

Optionally, the method further comprises: the storage device is used for storing and placing the temperature measuring module and/or the temperature adjusting device, and a sterilization assembly used for sterilizing and disinfecting the temperature measuring module and/or the temperature adjusting device is arranged in the storage device.

Optionally, the storage device is further provided with at least one charging interface and a power supply assembly, and the power supply assembly is connected with the charging interface.

Optionally, each of the temperature adjusting devices further includes a display module electrically connected to the controller thereof, and each display module is configured to display the corresponding operating state information of the temperature adjusting device.

Optionally, each thermostat further includes a voice interaction module electrically connected to the controller thereof, and each voice interaction module is configured to modify or set the corresponding operating state information of the thermostat in a voice entry manner.

Optionally, each temperature adjustment device further includes an alarm module electrically connected to the controller of the temperature adjustment device, and when the controller of the main temperature adjustment device determines that the body temperature value of the human body is smaller than the lowest limit value of the body temperature of the human body or determines that the body temperature value of the human body is greater than the highest limit value of the body temperature of the human body, the controller of the main temperature adjustment device controls at least one alarm module to send an alarm signal.

Optionally, each of the temperature adjusting devices further includes a storage module electrically connected to the controller thereof, and each of the storage modules is configured to record and store various kinds of operating parameter information of the corresponding temperature adjusting device.

Optionally, the current state includes a direction of the current.

Optionally, the current state includes a magnitude of the current.

Optionally, the contacting comprises indirect contacting.

Optionally, the device further comprises a heat conduction layer, and the working end is indirectly contacted with the human body through the heat conduction layer.

Optionally, the power source comprises a battery.

Optionally, the controller comprises a chip with a mos tube h-bridge circuit.

Among the body temperature governing system, acquire sending for main temperature regulation apparatus behind the human body temperature value through the temperature measurement module to through each temperature regulation apparatus of controller selective control of main temperature regulation apparatus the operating condition of semiconductor refrigeration piece (for example refrigeration/heat or refrigerating capacity reduce/heating capacity reduce or refrigerating capacity increase/heating capacity increase etc.), not only optionally refrigerate or heat in order to human cooling or heat up, can be according to the accurate temperature regulation of human temperature condition moreover, experience with the better comfort level of bringing for the user, and temperature regulation's operation is also comparatively convenient. In addition, the controller of the main temperature adjusting device plays a role of a decision center, can complete the regulation and control of the refrigerating or heating state of each temperature adjusting device without auxiliary equipment such as an external server and the like, and has higher intelligent degree.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic structural diagram of a body temperature regulating system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a body temperature regulating system according to another embodiment of the present invention.

Icon: 1A-a primary temperature regulating device; 1B-a secondary temperature regulating device; 11-semiconductor refrigerating sheet; 12-a power supply; 13-a controller; 14-a temperature monitoring module; 15-a display module; 16-a voice interaction module; 17-an alarm module; 18-a storage module; 19-a second wireless communication module; 2-a temperature measuring module; 21-a first wireless communication module; 3-a storage device; 31-a sterilization component; 32-a charging interface; 33-a power supply component; 4-human body; 6-a server; and 7-intelligent terminal.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or the orientations or positional relationships that the products of the present invention are conventionally placed in use, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical" and the like do not imply that the components are required to be absolutely horizontal or pendant, but rather may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1, the present embodiment provides a body temperature adjusting system, which includes a plurality of temperature adjusting devices and a temperature measuring module 2.

Each temperature adjusting device comprises a semiconductor refrigerating piece 11, a power supply 12, a controller 13 and a second wireless communication module 19, the semiconductor refrigerating piece 11 is configured to be in contact with the human body 4, the power supply 12 is connected with the semiconductor refrigerating piece 11, and the controller 13 is respectively connected with the power supply 12 and the second wireless communication module 19; one of the plurality of temperature adjusting devices is set as a main temperature adjusting device 1A, the other temperature adjusting devices are set as auxiliary temperature adjusting devices 1B, and the auxiliary temperature adjusting devices 1B communicate with the second wireless communication module of the main temperature adjusting device 1A through the respective second wireless communication modules to transmit respective operating state information to the main temperature adjusting device 1A.

The temperature measuring module 2 is an electronic thermometer with a first wireless communication module 21, the temperature measuring module 2 is configured to detect the body temperature value of the human body 4 and send the body temperature value of the human body 4 to the main temperature adjusting device 1A through the first wireless communication module 21, and the controller 13 of the main temperature adjusting device 1A regulates and controls the working state of each auxiliary temperature adjusting device 1B according to the working state information of each auxiliary temperature adjusting device 1B and the body temperature value of the human body 4.

Specifically, the semiconductor cooling plate 11 is also called a thermoelectric cooling plate, and is a heat pump. By utilizing the Peltier effect of semiconductor materials, when direct current passes through a galvanic couple formed by connecting two different semiconductor materials in series, heat can be absorbed and released at the refrigerating end and the heating end of the galvanic couple respectively, and the semiconductor refrigerating sheet 11 is a refrigerating technology generating negative thermal resistance and is characterized by no moving parts and higher reliability.

The semiconductor refrigeration piece 11 is provided with two working ends which are arranged oppositely, if one working end is refrigerated, the corresponding other working end is heated, otherwise, if one working end is heated, the corresponding other working end is refrigerated, when the working end is refrigerated, the working end is called as a refrigeration end or a cold end of the semiconductor refrigeration piece 11, when the working end is heated, the working end is called as a heating end or a hot end of the semiconductor refrigeration piece 11, and the so-called heating end and the heating end are determined by the working state (refrigeration or heating) of the working end.

The semiconductor refrigeration piece 11 is configured to be in contact with the human body 4, and particularly, one working end of the semiconductor refrigeration piece 11 can be in contact with the human body 4, for example, the forehead of the human body 4.

The power source 12 is electrically connected to the semiconductor cooling plate 11 to supply power to the semiconductor cooling plate 11, the power source 12 may be a storage battery, such as a rechargeable lithium battery, or a dry battery may be used for easy detachment and replacement, of course, in other embodiments, a power source 12 plug with a power source 12 adapter may be used, the power source 12 adapter may convert alternating current (such as mains power) into direct current, the form of the power source 12 is not limited in this embodiment, the power source 12 is configured by inserting the power source 12 adapter into an alternating current socket, and the power source 12 may be any component capable of providing direct current.

The controller 13 is connected to the power source 12 to control the direction of the current transmitted from the power source 12 to the semiconductor cooling plate 11, for example, the current provided by the power source 12 can be transmitted to the semiconductor cooling plate 11 after flowing through the controller 13, the current direction has only two directions, i.e., the forward direction and the reverse direction of the current, and the forward direction of the current can be defined as a first direction, and the reverse direction of the current is a second direction, for example, in an initial state, when the current direction is the first direction, one working end of the semiconductor cooling plate 11 is caused to be in a cooling state, and when the current direction is controlled to be the second direction, the working end can be switched to a heating state; or, in the initial state, when the current direction is the first direction, the one working end of the semiconductor cooling plate 11 is caused to be in the heating state, and when the current direction is controlled to be the second direction, the working end can be switched to the cooling state, in other words, the position of the heating end and the cooling end can be switched by controlling the current direction to be reversely biased.

In this embodiment, the controller 13 may adopt, for example, a chip having a mos transistor h-bridge circuit, and the current of the power supply 12 is transmitted to both ends of the semiconductor cooling chip 11 through the chip having the mos transistor h-bridge circuit, so that the current is reversely biased through the mos transistor h-bridge circuit.

The human body 4 firstly wears the temperature measuring module 2 (the temperature measuring module 2 can be worn under the armpit of the human body 4 or placed in the mouth cavity of the human body 4 and other temperature measuring parts), the temperature measuring module 2 is in communication connection with the second wireless communication module 19 of the main temperature adjusting device 1A through the first wireless communication module 21, the detected body temperature value of the human body 4 is sent to the controller 13A of the main temperature adjusting device 1A through the first wireless communication module 21, the controller 13A of the main temperature adjusting device 1A judges that the temperature of the human body 4 is high and judges that the human body 4 is in a fever state, when the fever of the human body 4 needs to cool the human body 4, the controller 13A of the main temperature adjusting device 1A judges that the temperature of the human body 4 is high and judges that the human body 4 is in the fever state, and when the fever of the human body 4 needs to cool the human body 4, the controller 13A of the main temperature adjusting device 1A generates, the current state transmitted to the semiconductor refrigeration sheet 11 by the power supply 12A connected with the controller 13A is controlled to drive the end of the semiconductor refrigeration sheet 11 directly or indirectly contacted with the human body 4, namely the refrigeration end a shown in fig. 1, to refrigerate and exchange heat with the human body 4 to realize the cooling of the human body 4, the main temperature adjusting device 1A also sends out a refrigeration control command through the second wireless communication module 19 thereof, after the second wireless communication module 19 of each auxiliary temperature adjusting device 1B receives the refrigeration control command, the controller 13B of each secondary temperature adjustment device 1B controls the current state transmitted by the power source 12B to the semiconductor chilling plate 11 to drive the end of the semiconductor chilling plate 11 directly or indirectly contacting with the human body 4, i.e. the chilling end B shown in fig. 1, to chill and exchange heat with the human body 4B to cool the human body 4.

When the human body 4 needs to be heated up due to cooling, the controller 13A of the main temperature adjusting device 1A generates a corresponding heating control command, the main temperature adjusting device 1A sends the heating control command through the second wireless communication module 19, the controller 13A controls the current direction provided by the power supply 12A to the semiconductor chilling plate 11 to be reversely biased, and controls the current direction provided by the power supply 12B to the semiconductor chilling plate 11 to be reversely biased, so that the original positions of the chilling end and the heating end in fig. 1 can be exchanged, the refrigerating end of the semiconductor chilling plate 11 and the end of the semiconductor chilling plate 11, which are in direct contact or indirect contact with the human body 4, are switched to the heating end from the chilling end, thus the heating operation of the human body 4 can be realized again, and the switching of the chilling and heating functions is realized without substantially turning over the two ends of the semiconductor chilling plate 11 and the semiconductor chilling plate 11, the controller 13A of the main temperature adjusting device 1A is only required to generate a corresponding refrigerating command or heating command according to the body temperature value of the human body 4 detected by the first wireless communication module 21 of the temperature measuring module 2, then the second wireless communication module 19 of each auxiliary temperature adjusting device 1B receives the refrigerating command or heating command, and then the controller 13B controls the current direction of the power supply 12B transmitted to the semiconductor refrigerating sheet 11 to realize the temperature adjustment of the human body 4, and the operation is intelligent and convenient.

It should be noted that, the above mentioned form of "indirect contact" between the semiconductor refrigeration sheet 11 and the human body 4 may be, for example, a water bag is arranged between the semiconductor refrigeration sheet 11 and the human body 4, the water bag has a heat conduction function, the water bag substantially functions as a heat conduction layer, and in addition, the water bag can also improve the comfort when the user wears the water bag; for example, a heat conducting plate made of metal material may be fixed on an operating end of the semiconductor chilling plate 11 to form the heat conducting layer; for example, the heat conductive layer may be constituted by the water bladder and the heat conductive plate made of a metal material.

Among them, the controller 13A of the main temperature adjustment device 1A of the present embodiment functions as a decision center. The regulation and control of the refrigeration or heating state of each temperature regulation device can be completed without the help of external auxiliary equipment such as a server 6 and the like, and the intelligent degree is higher.

Further, in this embodiment, the second wireless communication module 19 is further configured to send the operating state information of the at least one temperature adjustment device and/or the body temperature value of the human body 4 detected by the temperature measurement module 2 to the intelligent terminal 7.

The user can display the working state information of each temperature adjusting device through the display interface of the intelligent terminal 7, for example, the electric quantity information of the power supply 12 is displayed, whether each temperature adjusting device is in a cooling state or a heating state (that is, whether the end of the semiconductor chilling plate 11 in direct contact or indirect contact with the human body 4 is in the cooling state or the heating state), the current temperature value information of the semiconductor chilling plate 11, the working duration of the temperature adjusting device and other related information, and the body temperature information of the human body 4 can also be displayed, so that the user can visually know the working state of the body temperature adjusting system.

In addition, the intelligent terminal 7 can be used for the user to modify or set the working state information of the body temperature adjusting system, such as the timing of the duration of the working equipment, the selection of the cooling/heating mode, the selection of the cooling/heating temperature, and the like. The intelligent terminal 7 can be a smart phone, a tablet personal computer and the like, plays a role of a decision center, and then accurately controls the temperature adjusting devices worn on different parts of the human body 4.

Further, in this embodiment, each temperature adjustment device (including the main temperature adjustment device 1A and the auxiliary temperature adjustment device 1B) further includes a temperature monitoring module 14, and the electric connection controller 13 is used for monitoring the temperature value of the semiconductor chilling plate 11 in real time, and when the temperature monitoring module 14 monitors that the temperature value of the semiconductor chilling plate 11 exceeds the safe temperature threshold interval, the controller 13 of the main temperature adjustment device 1A controls the body temperature adjustment system to perform corresponding emergency operation. The emergency operation includes controlling an open circuit between the power source 12 and the semiconductor chilling plate 11 or controlling to reduce the current.

The temperature monitoring module 14 may be a temperature sensor, and the temperature monitoring module 14 is configured to monitor a temperature value of the semiconductor chilling plate 11 in real time, and feed back the temperature value of the semiconductor chilling plate 11 to the controller 13 of the main temperature adjustment device 1A. The temperature monitoring module 14 sends the real-time heating temperature value or the real-time refrigerating temperature value of the semiconductor chilling plate 11 to the controller 13 of the main temperature adjusting device 1A in real time, when the controller 13 of the main temperature adjusting device 1A judges that the heating or refrigerating temperature value of the semiconductor chilling plate 11 exceeds the upper limit or the lower limit of the temperature which can be borne by the skin of the human body 4, the emergency operation command can be sent to the second wireless communication module 19 by the controller 13, the controller 13 is driven to control the open circuit between the power supply 12 and the semiconductor chilling plate 11 or reduce the current value which is transmitted to the semiconductor chilling plate 11 by the power supply 12, and the local scald or frostbite of the human body 4 is avoided.

Further, in this embodiment, the body temperature adjustment system may further include: storage device 3 for accomodate and place temperature measurement module 2 and/or temperature regulation apparatus, storage device 3 is inside to be provided with and is used for disinfecting the subassembly 31 that disinfects for temperature measurement module 2 and/or temperature regulation apparatus disinfect. In addition, storage device 3 still is equipped with at least one interface 32 and the power supply module 33 that charges, and power supply module 33 connects the interface 32 that charges.

The housing device 3 may be a box or a box structure, considering that the temperature adjustment device needs to contact with the human body 4, and considering health considerations, it needs to perform sterilization and disinfection treatment on the temperature adjustment device, and the sterilization component 31 is disposed in the housing device 3, considering that the temperature adjustment device has electronic devices such as the semiconductor refrigeration sheet 11, and the present embodiment employs an optical sterilization method instead of using chemical agents for sterilization, and specifically, for example, an ultraviolet light emitting diode is mounted in the housing device 3 of the box or box structure, and sterilization is performed by irradiating ultraviolet rays to the temperature adjustment device. In other embodiments, the temperature adjusting device can be sterilized and disinfected in a high-temperature mode. Of course, in other embodiments, an ozone sprayer may be used for sterilization.

Considering that temperature measurement module 2 and temperature regulation device are electrical components, therefore temperature measurement module 2 and temperature regulation device may need to be charged, therefore, in this embodiment, storage device 3 may also set up a plurality of interfaces 32 and power supply component 33 that charge, and power supply component 33 connects interface 32 that charges, and interface 32 that charges is used for supplying temperature measurement module 2 and temperature regulation device to connect and charge. The power supply assembly 33 may be a battery, so that the battery, the temperature measuring module 2, the temperature adjusting device, and the like can be accommodated in the accommodating device 3 for carrying. The power supply assembly 33 may also be a power plug with a power adapter, and the power plug with the power adapter is inserted into an ac socket to charge the temperature measuring module 2, the temperature adjusting device, and the like, so as to provide a plurality of charging options for a user. The containing device 3 combines the temperature measuring module 2 and the temperature adjusting device to form a complete equipment to be carried by a user.

Further, in the present embodiment, each of the temperature adjustment devices (including the main temperature adjustment device 1A, the sub temperature adjustment device 1B) further includes: and the display module 15 is electrically connected with the controller 13 and is used for displaying the working state information of the body temperature regulating system.

The display module 15 may be a display screen, and the display screen can visually display the information of the electric quantity of the power supply 12, the information of the cooling state or the heating state of the temperature adjustment device (i.e. the end of the semiconductor cooling plate 11 directly or indirectly contacting with the human body 4 is the cooling state or the heating state), the information of the current temperature value of the semiconductor cooling plate 11, the working duration of the temperature adjustment device, and other related information. Of course, in other embodiments, the display module 15 may also be a component having an indication or display function, such as an instrument panel, an indicator light, etc., and the display module 15 can visually present various pieces of operating status information of the thermostat to the user for reference.

Further, in this embodiment, each thermostat (including the primary thermostat 1A and the secondary thermostat 1B) further includes a voice interaction module 16, and the voice interaction module 16 is electrically connected to the controller 13, and is configured to modify or set the operating status information of the body temperature adjusting system in a voice recording manner. The voice interaction module 16 can be a microphone assembly, and a user can modify or set the working state information of the body temperature adjusting system in a voice recording mode, such as the timing of the duration of working equipment, the selection of a cooling/heating mode, the selection of a cooling/heating temperature and the like, so that the man-machine interaction and the intelligence can be effectively improved by configuring the voice interaction module 16, and the operation and the use of the user are more convenient.

Further, in the present embodiment, each thermostat (including the main thermostat 1A and the sub thermostat 1B) further includes an alarm module 17. The alarm module 17 is electrically connected with the controller 13, and when the controller 13 judges that the body temperature value of the human body 4 is smaller than the lowest limit value of the body temperature of the human body 4 or judges that the body temperature value of the human body 4 is larger than the highest limit value of the body temperature of the human body 4, the controller 13 of the main temperature adjusting device 1A controls the alarm module 17 to send out an alarm signal.

The alarm module 17 may be, for example, a speaker or an indicator light, and when the controller 13 determines that the body temperature value of the human body 4 is less than the minimum limit value of the body temperature of the human body 4 or determines that the body temperature value of the human body 4 is greater than the maximum limit value of the body temperature of the human body 4, the alarm module 17 is controlled to send an alarm signal, such as a howling sound or a light flashing alarm signal.

The lowest limit value of the body temperature of the human body 4 is the lowest temperature value of the human body 4 with vital signs, and can be set to 30 ℃ for example, and the highest limit value of the body temperature of the human body 4 is the lowest temperature value of the human body 4 with vital signs, and can be set to 46.5 ℃ for example, and the lowest limit value of the body temperature of the human body 4 and the highest limit value of the body temperature of the human body 4 can be selected automatically according to factors such as the age of the race and the like.

Further, in the present embodiment, each thermostat (including the main thermostat 1A and the sub thermostat 1B) further includes a storage module 18. The memory module 18 is electrically coupled to the controller 13, the memory module 18 may be a memory medium such as a memory card, and the memory module 18 is used for recording and storing various operating parameter information of the temperature adjustment system. For example, logs and settings information, configuration files, and the like may be stored.

Referring to fig. 2, the main difference between the body temperature adjusting system of this embodiment and the body temperature adjusting system shown in fig. 1 is that in this embodiment, the body temperature adjusting system may further be equipped with a server 6. Various medical information can be pre-stored in the server 6 in advance, and the intelligent terminal 7 can access the server 6 to obtain the medical information pre-stored in the server 6. The server 6 may be a configured relay server, or may be a cloud server, which is not limited herein. The server 6 can push corresponding medical information to the intelligent terminal 7 according to the temperature value of the human body 4 detected by the temperature measuring module 2, and if the intelligent terminal 7 informs a user of what medicine should be eaten, how to take the medicine, information such as a hospital is recommended, and the user can conveniently take the medicine.

In addition, the information stored in the storage module 18 can be called by the intelligent terminal 7 to be displayed on the display interface of the intelligent terminal 7 for the user to inquire and browse, and the information stored in the storage module 18 can also be uploaded to the server 6 to be backed up.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.