CN215915205U - Cooling head band capable of achieving full-automatic refrigeration regulation according to body temperature change - Google Patents

Abstract

The utility model discloses a cooling head band for realizing full-automatic refrigeration regulation according to body temperature change, which comprises: a housing; the fixing component is arranged on the shell and used for fixing the shell on a heating part of a patient; the temperature detection assembly is arranged on the shell; the refrigeration assembly is arranged on the shell; the main board is arranged on the shell, is electrically connected with the temperature detection assembly and the refrigeration assembly, and is used for controlling the refrigeration assembly to refrigerate when the temperature detection assembly detects that the body temperature of the patient is greater than or equal to a preset threshold value; the mainboard can be according to the temperature value that the temperature detection subassembly surveyed, after the temperature value reached preset threshold value, the automatic start refrigeration subassembly refrigerates to can be automatic and in time carry out the physics cooling for the patient.

Description

Cooling head band capable of achieving full-automatic refrigeration regulation according to body temperature change

Technical Field

The utility model relates to the technical field of temperature control equipment, in particular to a cooling head band for realizing full-automatic refrigeration regulation according to body temperature change.

Background

When a patient is febrile, the patient needs to be abated by a physical cooling method in addition to the medicine. At present, cooling products for patients with fever, particularly children, in the market are of two types, one type is a traditional product using low-temperature or gel media, such as an antipyretic patch, a cold compress belt with an ice bag and the like. Another type is an electronic product implemented using semiconductor cooling fins.

There are two products that use electronic products to realize cooling at present: one is a product which can only manually adjust the refrigerating capacity of the refrigerating sheet according to personal judgment without seeing the body temperature of a patient. One is a product with temperature measurement, and whether the refrigerating capacity of the refrigerating sheet needs to be manually adjusted is judged by an individual according to the temperature measurement.

Therefore, no matter whether a traditional product or an electronic product is used, a patient needs to be cared manually, and when the patient generates heat, a caretaker uses the product to physically cool the patient, but the patient may generate heat intermittently, and when the caretaker cannot constantly measure the body temperature of the patient, the patient cannot be physically cooled in time.

Disclosure of Invention

The utility model mainly aims to provide a cooling head band for realizing full-automatic refrigeration regulation according to body temperature change, which can physically cool a patient in time.

In order to achieve the above object, the present invention provides a cooling headband for realizing full-automatic refrigeration regulation according to body temperature change, comprising: a housing; the fixing component is arranged on the shell and used for fixing the shell on a heating part of a patient; the temperature detection assembly is arranged on the shell; the refrigeration assembly is arranged on the shell; the main board is electrically connected with the refrigeration component and used for controlling the refrigeration component to refrigerate when the temperature detection component detects that the body temperature of the patient is greater than or equal to a preset threshold value.

Further, the temperature detection assembly includes: the first temperature measuring probe is arranged on the shell, is electrically connected with the main board and is used for measuring the temperature of one part of the patient; and the second temperature measuring probe is arranged on the shell, is electrically connected with the main board and is used for measuring the temperature of the other part of the patient.

Further, the refrigeration assembly includes: the semiconductor refrigeration piece is arranged on the shell, is electrically connected with the main board and is used for producing different refrigeration quantities under different powers, and the main board is also used for controlling the power of the semiconductor refrigeration piece to refrigerate when the temperature detection assembly detects that the body temperature of the patient is greater than or equal to different preset thresholds; and the cold guide metal sheet is arranged on the semiconductor refrigeration sheet.

Further, the cooling bandeau that realizes full automatic refrigeration regulation according to body temperature change still includes: the heat dissipation assembly is arranged on the shell and used for dissipating heat of the refrigeration assembly; the heat dissipation assembly includes: a heat sink disposed on the housing; and the fan is arranged on the heat radiating sheet and electrically connected with the mainboard and used for accelerating the heat radiation of the heat radiating end of the refrigerating assembly after being started.

Further, the cooling bandeau that realizes full automatic refrigeration regulation according to body temperature change still includes: the main board is also used for controlling the refrigeration component to refrigerate for preset time at the highest power, and when the temperature of a patient detected by the temperature detection component is higher than a preset temperature, the buzzer is controlled to make a sound.

Further, the cooling bandeau that realizes full automatic refrigeration regulation according to body temperature change still includes: the heart rate and blood pressure sensor is arranged on the surface of the shell and is used for being attached to the skin of a patient; the shell is provided with a heart rate blood pressure sensor, the shell is provided with a flexible circuit board electrically connected with the heart rate blood pressure sensor, and the flexible circuit board is used for measuring the heart rate and the blood pressure of a patient through the heart rate blood pressure sensor.

Further, the cooling bandeau that realizes full automatic refrigeration regulation according to body temperature change still includes: set up in the casing, and with the bluetooth chip that the mainboard electricity is connected, the mainboard still is used for passing through the bluetooth chip will the patient temperature value that the temperature detection subassembly surveyed, and the present refrigeration power of refrigeration subassembly sends to predetermined receiving terminal.

Further, the cooling bandeau that realizes full automatic refrigeration regulation according to body temperature change still includes: the display screen is arranged on the surface of the shell and electrically connected with the main board and is used for displaying the temperature value of the patient detected by the temperature detection component; and the lens is arranged on the surface of the display screen.

Further, the cooling bandeau that realizes full automatic refrigeration regulation according to body temperature change still includes: the cold conducting silica gel pad is arranged on one side, which is jointed with the skin of the patient, of the shell and is jointed with the refrigerating assembly; and the silica gel sleeve is arranged on the periphery of the cold guide silica gel pad.

Further, the cooling bandeau that realizes full automatic refrigeration regulation according to body temperature change still includes: and the fastening metal block is arranged on the cold-conducting silica gel pad.

Further, the cooling bandeau that realizes full automatic refrigeration regulation according to body temperature change still includes:

the data transmission unit is used for sending the temperature value to a server when the temperature value of the patient detected by the temperature detection component is larger than a heating threshold value, and the server is used for receiving all the temperature values transmitted by the data transmission unit within a preset range; the data transmission unit is further used for transmitting the refrigeration data and the temperature value data to a preset receiving end when the refrigeration assembly is refrigerated and the patient temperature value detected by the temperature detection assembly is reduced, the preset receiving end is used for transmitting the refrigeration data and the temperature value data to a server, and the server is used for receiving the refrigeration data and the temperature value data transmitted by all the preset receiving ends in a preset range and counting the refrigeration data and the temperature value data.

The utility model provides a cooling head band for realizing full-automatic refrigeration regulation according to body temperature change, which has the beneficial effects that: the mainboard can be according to the temperature value that the temperature detection subassembly surveyed, after the temperature value reached preset threshold value, the automatic start refrigeration subassembly refrigerates to can be automatic and in time carry out the physics cooling for the patient.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a block diagram illustrating a cooling headband for performing fully automatic cooling adjustment according to body temperature changes according to an embodiment of the present disclosure;

FIG. 2 is a schematic structural diagram of a cooling headband for achieving full-automatic refrigeration adjustment according to body temperature change according to an embodiment of the present application;

fig. 3 is an exploded view of fig. 2.

Detailed Description

In order to make the objects, features and advantages of the present invention more obvious and understandable, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Referring to fig. 1, a cooling headband for realizing fully automatic cooling adjustment according to body temperature change includes: the temperature control device comprises a shell 1, a fixing component 2, a temperature detection component 3, a refrigeration component 4 and a mainboard 5; the fixing component 2 is arranged on the shell 1 and used for fixing the shell 1 on a heating part of a patient; the temperature detection component 3 is arranged on the shell 1; the refrigeration component 4 is arranged on the shell 1; mainboard 5 sets up in casing 1, and is connected with temperature detection subassembly 3, refrigeration subassembly 4 electricity for control refrigeration subassembly 4 refrigeration when temperature detection subassembly 3 detects patient's body temperature and is greater than or equal to and predetermine the threshold value.

When using the cooling bandeau of realizing full-automatic refrigeration regulation according to the body temperature change, will realize the cooling bandeau of full-automatic refrigeration regulation according to the body temperature change through fixed subassembly 2 and fix the position that generates heat at the patient, temperature detection subassembly 3 can be surveyed the body temperature of patient automatically, reachs patient's body temperature value, when the body temperature value is greater than or equal to and predetermines the threshold value, mainboard control refrigeration subassembly 4 refrigerates to automatically and in time carry out the physics cooling for the patient.

In this embodiment, the fixing component 2 may be a bandage, and the cooling head band is bound to the heating part of the patient through the bandage; in other embodiments, the fixing assembly 2 may also be a telescopic collar.

Referring to fig. 2 and 3, in the present embodiment, a switch 15 is disposed on the cooling head band for implementing the full-automatic cooling adjustment according to the body temperature change, and a key board 18 is disposed in the casing 1 to implement the function of the switch 15 for starting or closing the cooling head band for implementing the full-automatic cooling adjustment according to the body temperature change.

Referring to fig. 2 and 3, in one embodiment, the temperature detecting assembly 3 includes: a first temperature measuring probe 31, a second temperature measuring probe 32 and a first temperature measuring probe 31 are arranged on the shell 1, are electrically connected with the main board 5 and are used for measuring the temperature of one part of a patient; the second temperature probe 32 is disposed on the housing 1 and electrically connected to the main board 5 for measuring the temperature of another part of the patient.

In this embodiment, the first temperature measuring probe 31 and the second temperature measuring probe 32 are thermistors, and in order to better protect the thermistors, the temperature detecting assembly 3 further includes: a first temperature measuring metal piece 33 and a second temperature measuring metal piece 34; the first temperature measurement metal sheet 33 is arranged on the first temperature measurement probe 31 and is used for being attached to the temperature measurement part of the patient; the second temperature measuring metal sheet 34 is disposed on the second temperature measuring probe 32 and is used for being attached to another temperature measuring part of the patient.

Have better heat conductivility through the temperature measurement sheetmetal, use the temperature measurement sheetmetal, can protect first temperature probe 31 and second temperature probe 32 can not damage owing to the skin contact with the patient well, and can protect patient's skin not stabbed by first temperature probe 31 and second temperature probe 32.

In other embodiments, the first temperature probe 31 and the second temperature probe 32 may also be infrared temperature sensors.

The temperature measurement parts of different parts of the patient are measured by using the first temperature measurement probe 31 and the second temperature measurement probe 32, so that the body temperature of the patient can be better detected, and when the first temperature measurement probe 31 and the second temperature measurement probe 32 measure the temperature, the temperature of the patient is indirectly measured by measuring the temperature of the first temperature measurement metal sheet 33 and the temperature of the second temperature measurement metal sheet 34.

In other embodiments, the thermometric detection assembly can also be an electronic thermometer or an infrared thermometer.

Referring to fig. 2 and 3, in one embodiment, the refrigeration assembly 4 includes: a semiconductor refrigerating sheet 41 and a cold conducting metal sheet 42; the semiconductor refrigeration piece 41 is arranged in the shell 1, is electrically connected with the main board 5 and is used for producing different refrigeration quantities under different powers, and the main board 5 is also used for controlling the power of the semiconductor refrigeration piece 41 to refrigerate when the temperature detection assembly 3 detects that the body temperature of the patient is greater than or equal to different preset threshold values; the cold conducting metal sheet 42 is arranged on the semiconductor refrigeration sheet 41.

Semiconductor refrigeration piece 41 can refrigerate well, and mainboard 5 then can be greater than the predetermined threshold value at the body temperature value that temperature detection subassembly 3 detected the patient after, control semiconductor refrigeration piece 41 refrigerates to realize automatic cryogenic effect.

In this embodiment, the semiconductor chilling plate 41 may be a P-type semiconductor, and in other embodiments, the semiconductor chilling plate 41 may also be an N-type semiconductor.

In this embodiment, the semiconductor chilling plates 41 have different refrigeration capacities under different powers, and the motherboard 5 can control the power of the semiconductor chilling plates 41, so that the semiconductor chilling plates 41 can produce different refrigeration capacities, and when the temperature detection assembly 3 detects that the body temperature of the patient is greater than or equal to different preset thresholds, the motherboard 5 adjusts the power of the semiconductor chilling plates 41 when the body temperature of the patient reaches one threshold, so as to adjust the refrigeration capacity output by the semiconductor chilling plates 41.

In one embodiment, the preset threshold includes a full power threshold, a no power threshold and a cooling threshold, the full power threshold is 38.8, the no power threshold is 36.8, the number of the cooling thresholds is 7, n is 38.8-0.3m, and m is an integer from 1 to 7.

When the body temperature of a patient is greater than or equal to a full-power threshold value, the mainboard 5 controls the semiconductor refrigerating sheet 41 to operate at full power, when the body temperature of the patient is less than the full-power threshold value, every time the body temperature is reduced by 0.3, when the body temperature reaches one refrigerating threshold value, the mainboard controls the semiconductor refrigerating sheet 41 to reduce the power by one eighth of the full power, when the body temperature of the patient is less than or equal to a no-power threshold value, the patient does not heat any more, and the mainboard controls the semiconductor refrigerating sheet to stop operating.

In this embodiment, the temperature detection assembly 3 operates all the time to detect whether the body temperature of the patient reaches a preset threshold value all the time, and when the preset threshold value is a no-power threshold value, the main board 5 controls the semiconductor chilling plate 41 to stop operating, and at this time, the temperature detection assembly 3 still operates to monitor the body temperature of the patient, and when the body temperature of the patient reaches a start threshold value, the main board 5 is further configured to control the semiconductor chilling plate 41 to restart, and adjust the power of the semiconductor chilling plate according to the preset threshold value reached by the body temperature of the patient, and in this embodiment, the start threshold value may be 37.2.

In other embodiments, the no-power threshold is an adaptively obtained normal body temperature value of the patient, for example, the normal body temperature value of the patient is 36.5 degrees, and then the no-power threshold is set to 36.5.

The normal body temperature value is obtained by averaging the body temperature values obtained in the case where the patient is not hot for a predetermined period of time.

In one embodiment, the predetermined period of time may be 3 consecutive days, the predetermined period of time may be 0, 6, 12, 18, the value of body temperature in the non-exothermic state is less than 37 degrees, and if the value is greater than 37 degrees, the value of body temperature in the period of time is not collected.

The semiconductor refrigeration piece 41 of different power can have two, in other embodiments, the semiconductor refrigeration piece 41 of different power can be more than two, and mainboard 5 can control the refrigeration of the semiconductor refrigeration piece 41 of different power when temperature detection subassembly 3 detects that patient's body temperature is greater than or equal to different threshold values of predetermineeing to can control the semiconductor refrigeration piece 41 of different power to refrigerate according to the body temperature value that the patient is different.

Referring to fig. 2 and 3, in an embodiment, the cooling headband for implementing fully automatic cooling adjustment according to body temperature change further includes: and the heat dissipation assembly 6 is arranged on the shell 1 and used for dissipating heat of the refrigeration assembly 4.

Refrigeration subassembly 4 is when the refrigeration, and one end can heat, needs in time distribute away these heats this moment, prevents that the heat from piling up and leading to the high temperature and make refrigeration effect variation.

Referring to fig. 2 and 3, in one embodiment, the heat dissipation assembly 6 includes: a heat sink 61 and a fan 62; the heat sink 61 is disposed on the housing 1; the fan 62 is disposed on the heat sink 61, and electrically connected to the motherboard 5, and is used to accelerate heat dissipation at the heat dissipation end of the refrigeration component 4 after being started.

The heat that produces when cooling module 4 refrigerates can be absorbed well to fin 61, and fan 62 then can drive the circulation of air for the heat in fin 61 distributes away in time, thereby prevents that the heat from piling up, guarantees cooling module 4's refrigeration effect.

Referring to fig. 2 and 3, in an embodiment, the cooling headband for implementing fully automatic cooling adjustment according to body temperature change further includes: the buzzer 7 is arranged on the shell 1 and electrically connected with the main board, and the main board is also used for controlling the refrigerating component 4 to refrigerate for a preset time at the highest power 41 and controlling the buzzer 7 to make a sound when the temperature of the patient detected by the temperature detection component 3 is higher than a preset temperature.

When the semiconductor refrigerating sheet 41 is used for refrigerating for the preset time at the maximum power, if the body temperature of the patient is still higher than the preset temperature, the preset temperature can be 38.8 ℃, the temperature-reducing headband may be in failure, or the patient may be seriously heated, but the consequences all indicate that the body temperature of the patient is not reduced by the temperature-reducing headband, at the moment, human intervention is needed to reduce the temperature of the patient, and a buzzer is used, so that a caregiver or a doctor can be well reminded to reduce the temperature of the patient.

Referring to fig. 2 and 3, in an embodiment, the cooling headband for implementing fully automatic cooling adjustment according to body temperature change further includes: heart rate and blood pressure sensor 18 and flexible circuit board 9; the heart rate and blood pressure sensor 18 is arranged on the surface of the shell 1 and is used for being attached to the skin of a patient; the flexible circuit board 9 is arranged on the shell 1 and electrically connected with the heart rate and blood pressure sensor 18, and is used for measuring the heart rate of the patient through the heart rate and blood pressure sensor 18.

The heart rate and blood pressure sensor 18 can vibrate along with the blood flow of the patient and the strength of the vibration can be collected by the flexible circuit board 9, so that the heart rate of the patient can be measured by analyzing the vibration, and the blood pressure of the patient can be measured by the strength of the vibration.

The heart rate and the blood pressure are used as physiological characteristics of the human body reflecting the health condition, and the health condition of a patient can be well monitored by monitoring the heart rate and the blood pressure.

In one embodiment, the cooling headband for realizing full-automatic refrigeration regulation according to body temperature change further comprises: set up in casing 1, and the bluetooth chip of being connected with the mainboard electricity, mainboard 5 still is used for the patient temperature value of detecting temperature detection subassembly 3 through the bluetooth chip to and the present refrigeration power of refrigeration subassembly sends to predetermined receiving terminal.

In this embodiment, the predetermined receiving end can be a mobile phone end of a caregiver of a patient, and the temperature value of the patient is sent to the mobile phone end of the caregiver, so that the caregiver can know the body temperature of the patient at any time, and the patient can be cared in time when the body temperature of the patient is abnormal. In addition, in this embodiment, the main board 5 sends the temperature value and the cooling power to the predetermined receiving terminal through the bluetooth chip, before sending, the main board 5 also makes the temperature value and the cooling power into a curve state diagram, and sends the curve state diagram to the predetermined receiving terminal, and the curve state diagram can better represent the change of the body temperature of the patient and the change of the cooling power, so that the caregiver can know the use condition of the cooling headband of the patient more clearly.

In other embodiments, the predetermined receiving end may also be a mobile phone end, a computer end, or the like of the doctor, and the temperature value of the patient is sent to the doctor, so that the doctor can know the body temperature of the patient at any time, and the patient can be rescued in time when the body temperature of the patient is abnormal.

Referring to fig. 2 and 3, in an embodiment, the cooling headband for implementing fully automatic cooling adjustment according to body temperature change further includes: a display screen 10 and a lens 11; the display screen 10 is arranged on the surface of the shell 1, is electrically connected with the main board 5 and is used for displaying the temperature value of the patient detected by the temperature detection component 3; the lens 11 is disposed on the surface of the display screen 10.

The display screen 10 can show the patient temperature value for nurse or doctor can know patient's body temperature situation at any time according to the cooling bandeau, thereby when patient's body temperature is unusual, in time rescues the patient.

The lens 11 can protect the display screen 10, and reduce the possibility of damage to the display screen 10 due to extrusion and other reasons.

Referring to fig. 2 and 3, in an embodiment, the cooling headband for implementing fully automatic cooling adjustment according to body temperature change further includes: a cold conducting silica gel pad 12 and a silica gel sleeve 13; the cold-conducting silica gel pad 12 is arranged on one side of the shell 1, which is jointed with the skin of the patient, and is jointed with the refrigerating assembly 4; the silica gel cover 13 is arranged in the circumferential direction of the cold-conducting silica gel pad.

The use of cold silica gel pad 12 leads, can make the position that cooling bandeau and patient's skin laminated mutually comparatively soft to promote patient's use and experience.

Referring to fig. 2 and 3, in an embodiment, the cooling headband for implementing fully automatic cooling adjustment according to body temperature change further includes: and a fastening metal block 14 arranged on the cold-conducting silica gel pad 12.

The fastening metal block 14 can make the cold silica gel pad 12 and the cooling assembly be attached more closely, so that the cooling effect of the cooling assembly is more remarkable.

In the present embodiment, the housing 1 includes a front shell 16 and a rear shell 17, the rear shell 17 is attached to the skin of the patient, and the display screen 10 is disposed on the front shell 16.

Referring to fig. 2 and 3, in an embodiment, the cooling headband for implementing fully automatic cooling adjustment according to body temperature change further includes: and a fixing bracket 19 provided in the housing 1 for fixing components in the housing 1.

To sum up, the cooling bandeau that realizes full-automatic refrigeration regulation according to body temperature change that this application provided, it cools down and temperature measurement automatically regulated in an organic whole to hold the thing reason, from patient use angle, the cooling bandeau that realizes full-automatic refrigeration regulation according to body temperature change that this application provided more accords with patient's state of an illness and changes and clinical medicine requirement, can carry out physics cooling defervescence treatment to the patient that generates heat promptly, can alleviate attendant's working strength again, from the comfort angle, the cooling bandeau that realizes full-automatic refrigeration regulation according to body temperature change that this application provided also can let the patient that generates heat use and have more the comfort, fall to normal when the body temperature, will not continuously refrigerate like present product and cause the subcooling to arouse consequence or uncomfortable.

In one embodiment, the cooling headband further comprises: the data transmission unit is used for sending the temperature value to the server when the temperature value of the patient detected by the temperature detection component 3 is larger than the heating threshold value, and the server is used for receiving the temperature values transmitted by all the data transmission units 3 in a preset range; the data transmission unit 3 is further configured to transmit the refrigeration data and the temperature value data to a predetermined receiving end when the refrigeration assembly 4 is refrigerated and the temperature value of the patient detected by the temperature detection assembly 3 is reduced, the predetermined receiving end is configured to transmit the refrigeration data and the temperature value data to the server, and the server is configured to receive the refrigeration data and the temperature value data transmitted by all the predetermined receiving ends within a predetermined range and perform statistics.

In this embodiment, the threshold value of generating heat is the temperature value that the patient generates heat, and predetermined receiving terminal can be the APP end of cell-phone, and cell-phone APP end is through data transmission to the server with refrigeration data and temperature value data transmission, can carry out the early warning when regional proruption event of generating heat appears, for regional generate heat the central big data analysis that provides.

The cooling bandeau that realizes full-automatic refrigeration regulation according to body temperature change that this application provided can see the intervention effect to the body temperature after the refrigerating output increases in real time through predetermined receiving terminal, for example on the cell-phone interface, and this innovation has satisfied whether effectual worry of patient and attendant to the refrigeration product, has had more accurate judgement to whether need medicine to intervene. The risk of unnecessary use of the drug is reduced to some extent.

The application provides a change according to body temperature realizes full-automatic cooling bandeau of refrigeration regulation, has realized the complete automation of cooling defervescence process, and is intelligent, has reduced patient and attendant's worry and working strength, and whole defervescence process needn't carry out artificial intervention completely.

The utility model realizes the comprehensive monitoring of physiological conditions including body temperature, heart rate and blood pressure. The current physiological condition of the patient can be judged more intuitively by the accompanying personnel and the medical personnel, and the response can be made in time.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

The above description is provided for the cooling headband for achieving fully automatic cooling adjustment according to body temperature change, and for those skilled in the art, the idea according to the embodiment of the present invention may be changed in the specific implementation manner and application scope, and in summary, the content of the present description should not be construed as limiting the present invention.

Claims (10)

1. The utility model provides a change according to body temperature realizes full-automatic cooling bandeau of refrigeration regulation which characterized in that includes:

a housing;

the fixing component is arranged on the shell and used for fixing the shell on a heating part of a patient;

the temperature detection assembly is arranged on the shell;

the refrigeration assembly is arranged on the shell;

the main board is electrically connected with the refrigeration component and used for controlling the refrigeration component to refrigerate when the temperature detection component detects that the body temperature of the patient is greater than or equal to a preset threshold value.

2. The cooling head band for realizing full-automatic refrigeration regulation according to the change of the body temperature of claim 1,

the temperature detection assembly includes:

the first temperature measuring probe is arranged on the shell, is electrically connected with the main board and is used for measuring the temperature of one part of the patient;

and the second temperature measuring probe is arranged on the shell, is electrically connected with the main board and is used for measuring the temperature of the other part of the patient.

3. The cooling head band for realizing full-automatic refrigeration regulation according to the change of the body temperature of claim 1,

the refrigeration assembly includes:

the semiconductor refrigeration piece is arranged on the shell, is electrically connected with the main board and is used for producing different refrigeration quantities under different powers, and the main board is also used for controlling the power of the semiconductor refrigeration piece to refrigerate when the temperature detection assembly detects that the body temperature of the patient is greater than or equal to different preset thresholds;

and the cold guide metal sheet is arranged on the semiconductor refrigeration sheet.

4. The cooling head band for realizing full-automatic refrigeration regulation according to the change of the body temperature of claim 1,

the cooling bandeau that realizes full-automatic refrigeration regulation according to body temperature change still includes:

the heat dissipation assembly is arranged on the shell and used for dissipating heat of the refrigeration assembly;

the heat dissipation assembly includes:

a heat sink disposed on the housing;

and the fan is arranged on the heat radiating sheet and electrically connected with the mainboard and used for accelerating the heat radiation of the heat radiating end of the refrigerating assembly after being started.

5. The cooling head band for realizing full-automatic refrigeration regulation according to the change of the body temperature of claim 3, which is characterized in that,

the cooling bandeau that realizes full-automatic refrigeration regulation according to body temperature change still includes:

the main board is also used for controlling the refrigeration component to refrigerate for preset time with the highest power and controlling the buzzer to make sound when the temperature of the patient detected by the temperature detection component is higher than a preset temperature.

6. The cooling head band for realizing full-automatic refrigeration regulation according to the change of the body temperature of claim 1,

the cooling bandeau that realizes full-automatic refrigeration regulation according to body temperature change still includes:

the heart rate and blood pressure sensor is arranged on the surface of the shell and is used for being attached to the skin of a patient;

the shell is provided with a heart rate blood pressure sensor, the shell is provided with a flexible circuit board electrically connected with the heart rate blood pressure sensor, and the flexible circuit board is used for measuring the heart rate and the blood pressure of a patient through the heart rate blood pressure sensor.

7. The cooling head band for realizing full-automatic refrigeration regulation according to the change of the body temperature of claim 1,

the cooling bandeau that realizes full-automatic refrigeration regulation according to body temperature change still includes:

set up in the casing, and with the bluetooth chip that the mainboard electricity is connected, the mainboard still is used for passing through the bluetooth chip will the patient temperature value that the temperature detection subassembly surveyed, and the present refrigeration power of refrigeration subassembly sends to predetermined receiving terminal.

8. The cooling head band for realizing full-automatic refrigeration regulation according to the change of the body temperature of claim 1,

the cooling bandeau that realizes full-automatic refrigeration regulation according to body temperature change still includes:

the display screen is arranged on the surface of the shell and electrically connected with the main board and is used for displaying the temperature value of the patient detected by the temperature detection component;

and the lens is arranged on the surface of the display screen.

9. The cooling head band for realizing full-automatic refrigeration regulation according to the change of the body temperature of claim 1,

the cooling bandeau that realizes full-automatic refrigeration regulation according to body temperature change still includes:

the cold conducting silica gel pad is arranged on one side, which is jointed with the skin of the patient, of the shell and is jointed with the refrigerating assembly;

and the silica gel sleeve is arranged on the periphery of the cold guide silica gel pad.

10. The cooling head band for realizing full-automatic refrigeration regulation according to the change of the body temperature of claim 1,

the cooling bandeau that realizes full-automatic refrigeration regulation according to body temperature change still includes:

the data transmission unit is used for sending the temperature value to a server when the temperature value of the patient detected by the temperature detection component is larger than a heating threshold value, and the server is used for receiving all the temperature values transmitted by the data transmission unit within a preset range; the data transmission unit is further used for transmitting the data of the refrigeration assembly and the temperature value data to a preset receiving end when the refrigeration assembly is refrigerated and the temperature value of the patient detected by the temperature detection assembly is reduced, the preset receiving end is used for transmitting the refrigeration data and the temperature value data to a server, and the server is used for receiving the refrigeration data and the temperature value data transmitted by all the preset receiving ends in a preset range and counting the refrigeration data and the temperature value data.

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