CN212141183U - Breathing mask with disinfection function - Google Patents

Abstract

The utility model relates to a breathing mask with disinfection function, which comprises a sealing cover, a disinfection device, a first pipeline and a second pipeline; the sealing cover can seal the mouth and the nose of a user, the sealing cover is provided with an air inlet and an air outlet, the air inlet is provided with an air inlet valve, the air outlet is provided with an air outlet valve, and the air inlet valve and the air outlet valve are both one-way valves; the sterilizing device comprises a sterilizing piece capable of killing viruses to sterilize the passing gas, and is communicated with the sealing cover through a first pipeline and communicated with the external environment through a second pipeline; at least one of the air inlet and the air outlet is communicated with the first pipeline. Can eliminate viruses while blocking the virus propagation so as to avoid the risk of infection to uninfected persons such as medical staff and the like and improve the safety.

Description

Breathing mask with disinfection function

Technical Field

The utility model relates to a medical treatment protective articles technical field, concretely relates to respirator with disinfection function.

Background

Droplet transmission is the main transmission route of many infectious diseases, and because viruses are transmitted by droplets at a high speed, the incidence rate is high, and the harmfulness is extremely high. To control the spread of the disease, both infected and uninfected individuals wear masks to avoid blocking the spread of the virus. However, the mask in the prior art can only block the propagation path of the virus, and cannot kill the virus, and after long-term wearing, the risk that the virus is discharged into the external environment and infects uninfected persons such as medical staff may occur.

Therefore, it is a technical problem to be solved by those skilled in the art to block the spread of viruses and to destroy the viruses, thereby avoiding the risk of infection to uninfected persons such as medical staff and improving safety.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a respirator with disinfection function can eliminate the virus when blockking that the virus propagates to avoid causing the risk of infecting to uninfected people such as medical staff, improve the security.

In order to achieve the purpose, the utility model provides a breathing mask with disinfection function, which comprises a sealing cover, a disinfection device, a first pipeline and a second pipeline; the sealing cover can seal the mouth and the nose of a user, the sealing cover is provided with an air inlet and an air outlet, the air inlet is provided with an air inlet valve, the air outlet is provided with an air outlet valve, and the air inlet valve and the air outlet valve are both one-way valves; the sterilizing device comprises a sterilizing piece capable of killing viruses so as to sterilize the passing gas, and is communicated with the sealing cover through the first pipeline and communicated with the external environment through the second pipeline; at least one of the air inlet and the air outlet is in communication with the first conduit.

When the air inlet is communicated with the first pipeline, a user applicable to the breathing mask is an uninfected person (not carrying viruses) such as medical staff, external air enters the sterilizing device along the second pipeline, a sterilizing part of the sterilizing device can sterilize the entering air to eliminate viruses mixed in the air so as to purify the air, and then the purified air enters the sealing cover along the first pipeline through the air inlet to be breathed by the uninfected person. The gas exhaled by the uninfected person can be directly exhausted to the external environment along the gas outlet because the virus does not exist.

When the gas outlet communicates with the first pipeline, this respirator is applicable to the infector who has infected with the virus (carries the virus) and uses, the gas that infector exhaled will be discharged along the gas outlet and along first pipeline entering degassing unit in, the virus in the gas can be eliminated and make it purify to disinfection piece in the degassing unit, gas after the purification will be discharged to the external environment along the second pipeline, that is to say, probably carry the virus in the gas that infects the person and exhales, after this respirator is worn to the infector, can disinfect the gas of its exhalation and purify, in order to guarantee that it no longer contains the virus when discharging the external environment, and then realize eliminating the virus from the root cause, thereby the propagation of control virus. External air can enter the sealing cover along the air inlet for the infected person to breathe.

The breathing mask can eliminate viruses from the virus infection source, can also provide protection from the uninfected person, and cuts off the way of spreading diseases by droplets from the root, so that epidemic spread can be effectively controlled, and the safety is improved.

Optionally, the disinfection device further comprises a sealed disinfection container, the disinfection member is arranged in the disinfection container, the disinfection end of the first pipeline and the disinfection end of the second pipeline are both located in the disinfection container, one of the disinfection ends of the first pipeline and the disinfection end of the second pipeline, which is located at the upstream side of the air flow, is located below the liquid level of the disinfection liquid, and the other of the disinfection ends of the first pipeline and the second pipeline is located above the liquid level of the disinfection liquid.

Optionally, a monitoring element is further disposed in the disinfection container for monitoring at least one of the liquid level, concentration and quality of the disinfection liquid.

Optionally, the disinfection device further comprises a filter component arranged at the downstream side of the air flow of the disinfection container and used for filtering the disinfection liquid mixed in the air; the second pipeline comprises an intermediate pipeline and an external pipeline, the intermediate pipeline is communicated between the disinfection container and the filtering component, and the external pipeline is communicated with the external environment.

Optionally, at least one of a first wind-inducing device and a second wind-inducing device is further included; the first air inducing device is arranged on one side of the air inlet, and the second air inducing device is arranged on one side of the air outlet.

Optionally, the disinfection device further comprises a disinfection pipeline communicated between the first pipeline and the second pipeline, and the disinfection pipeline comprises a heating part arranged on the upstream side of the airflow and a cooling part arranged on the downstream side of the airflow.

Optionally, the sterilization device further comprises a temperature monitoring element for monitoring the temperature of the side of the sterilization line facing the heating member.

Optionally, the disinfecting device further comprises a portable power source for supplying power to the heating component, and/or the cooling component is a cooling water path sleeved outside the disinfecting pipeline.

Optionally, a mounting means is included, said mounting means being capable of securing said sterile device to the body of said user.

Optionally, the temperature measuring device further comprises a display and a controller, a thermometer for detecting the body temperature of a user is further arranged in the sealing cover, and the controller is respectively connected with the thermometer and the display and can display the thermometer through the display.

Drawings

Fig. 1-2 are schematic structural views of a breathing mask with a disinfecting function according to an embodiment of the present invention;

fig. 3-4 are schematic structural views of another breathing mask with a disinfecting function according to an embodiment of the present invention.

In the accompanying fig. 1-4, the reference numerals are illustrated as follows:

1-sealing cover, 11-air inlet, 12-air outlet, 13-air inlet valve, 14-air outlet valve, 15-thermometer and 16-oximeter;

2-disinfection device, 21-disinfection container, 22-disinfection liquid, 23-monitoring element, 24-filtering part, 241-filtering container, 242-filtering solution, 25-disinfection pipeline, 26-heating part, 27-cooling part and 28-mobile power supply;

3-a first pipeline;

4-second line, 41-intermediate line, 42-external line;

51-first air inducing device, 52-second air inducing device.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1-4, fig. 1-2 are schematic structural views of a respiratory mask with disinfection function according to an embodiment of the present invention; fig. 3-4 are schematic structural views of another breathing mask with a disinfecting function according to an embodiment of the present invention.

The embodiment of the utility model provides a respirator with disinfection function, this respirator includes sealed cowling 1, degassing unit 2, first pipeline 3 and second pipeline 4, wherein, sealed cowling 1 can seal user's mouth and nose, this sealed cowling 1 is equipped with air inlet 11 and gas outlet 12, air inlet 11 is equipped with admission valve 13, gas outlet 12 is equipped with air outlet valve 14, admission valve 13 and air outlet valve 14 are the check valve, in detail, air inlet 11 is because admission valve 13's setting, gas can only follow the outside and get into in the sealed cowling 1 along air inlet 11, gas outlet 12 is because air outlet valve 14's setting, gas can only follow inside outside along gas outlet 12 discharge sealed cowling 1.

Degassing unit 2 includes the disinfection piece, and this disinfection piece has the effect of eliminating the virus, and through this degassing unit 2's gas, the disinfection piece can eliminate virus wherein to purify gas, specifically, this degassing unit 2 communicates with sealed cowling 1 through first pipeline 3, and communicates with external environment through second pipeline 4. At least one of the air inlet 11 and the air outlet 12 of the sealed cover 1 is communicated with the disinfection device 2 through the first pipeline 3.

In detail, when the air inlet 11 is communicated with the first pipeline 3, the user suitable for the breathing mask is an uninfected person (not carrying viruses) such as medical staff, external air enters the disinfection device 2 along the second pipeline 4, the disinfection part of the disinfection device 2 can disinfect the entered air so as to eliminate viruses mixed in the air and purify the air, and then the purified air enters the sealing cover 1 along the first pipeline 3 through the air inlet 11 to be breathed by the uninfected person, so that the air inhaled by the uninfected person is purified air disinfected by the disinfection device 2, the inside of the air does not contain viruses, the risk of virus infection of the uninfected person is reduced, and the safety of the person is ensured. The gas exhaled by the uninfected person, due to the absence of viruses, can be directly discharged to the external environment along the gas outlet 12.

When the air outlet 12 is communicated with the first pipeline 3, the breathing mask is suitable for being used by an infected person (carrying viruses) infected with the viruses, the gas exhaled by the infected person is discharged along the air outlet 12 and enters the disinfecting device 2 along the first pipeline 3, the disinfecting part in the disinfecting device 2 can kill the viruses in the gas and purify the gas, the purified gas is discharged to the external environment along the second pipeline 4, namely the gas exhaled by the infected person possibly carries the viruses, and after the breathing mask is worn by the infected person, the gas exhaled by the infected person can be disinfected and purified to ensure that the gas does not contain the viruses when being discharged to the external environment any more, so that the viruses are killed from the root, and the propagation of the viruses is controlled. External air can enter the sealing cover 1 along the air inlet 11 for the infected person to breathe.

That is to say, the breathing mask provided by the embodiment can kill the virus from the virus infection source, and also can protect the uninfected person from self, and cut off the way of the droplet spreading disease from the root, so that the epidemic situation spreading can be effectively controlled, and the safety is improved.

In summary, the breathing mask provided in this embodiment has two types, one type is that the air inlet 11 is communicated with the first pipeline 3, and the air outlet 12 is communicated with the external environment, at this time, the user to which the breathing mask is applied is an uninfected person; the second is that the air outlet 12 communicates with the first conduit 3 and the air inlet 11 communicates with the external environment, in which case the user to which the breathing mask is adapted is an infected person.

In addition, in this embodiment, do not do the restriction to the concrete structure of sealed cowling 1, if can choose for use the better structure of whole leakproofness such as helmet with it, the travelling comfort is good, chooses for use healthy, environmental protection, no peculiar smell's material, sets up isolation cloth along helmet structure's bottom circumference and makes it prolong to the shoulder to heighten the leakproofness.

In the above embodiment, the specific structure of the sterilizing device 2 and the form of the sterilizing member for sterilizing the virus are not particularly required, as long as the sterilizing member can sterilize the virus mixed in the gas entering the sterilizing device 2. In the present embodiment, two kinds of sterilizing devices 2 are given, and the two kinds of sterilizing devices 2 will be described in detail below.

In the first disinfection apparatus 2, as shown in fig. 1 and 2, the disinfection apparatus 2 includes a sealed disinfection container 21, the disinfection member is a disinfection solution 22 disposed in the disinfection container 21, the disinfection end of the first pipeline 3 and the disinfection end of the second pipeline 4 are both disposed in the disinfection container 21, wherein the disinfection end is an end connected to the disinfection container 21, one of the disinfection ends of the first pipeline 3 and the second pipeline 4 disposed on the upstream side of the air flow is disposed in the disinfection solution 22, and one of the disinfection ends disposed on the downstream side of the air flow is disposed above the liquid level of the disinfection solution 22.

As shown in fig. 1, the arrow direction is an air flow direction, when the air inlet 11 is communicated with the first pipeline 3, the air flow direction is from the disinfecting device 2 to the air inlet 11, at this time, the disinfecting end of the first pipeline 3 is located in the disinfecting container 21 and above the liquid level of the disinfecting liquid 22, the disinfecting end of the second pipeline 4 is located in the disinfecting container 21 and below the liquid level of the disinfecting liquid 22, that is, the external air enters the disinfecting container 21 along the second pipeline 4 and then enters the disinfecting liquid 22, the disinfecting liquid 22 can kill viruses mixed in the air, the air above the liquid level is disinfected air, and then the disinfected air enters the sealing cover 1 along the first pipeline 3 and the air inlet 11.

As shown in fig. 2, the arrow direction is an air flow direction, when the air outlet 12 is communicated with the first pipeline 3, the air flow direction is from the air outlet 12 to the disinfection device 2, at this time, the disinfection end of the first pipeline 3 is located in the disinfection container 21 and below the liquid level of the disinfection solution 22, the disinfection end of the second pipeline 4 is located in the disinfection container 21 and above the liquid level of the disinfection solution 22, that is, the gas exhaled by the infected person enters the disinfection container 21 along the air outlet 12 and the first pipeline 3 and then enters the disinfection solution 22, the disinfection solution 22 can kill viruses mixed in the gas, the gas above the liquid level is the disinfected gas, and then the disinfected gas is discharged along the second pipeline 4.

Under the structure, the virus can be eliminated by the disinfectant 22, so that the virus mixed in the gas can be completely eliminated, the virus eliminating effect is ensured, and the safety is high.

Further, a monitoring element 23 is further disposed in the disinfection container 21, the monitoring element 23 is configured to monitor at least one of a liquid level height, a concentration and a quality in the disinfection container 21, taking the liquid level height as an example, the monitoring element 23 is a liquid level meter, positions of two disinfection ends are stable, one is located above the liquid level and the other is located below the liquid level, when the liquid level meter monitors that the liquid level height of the disinfection liquid 22 is not higher than the disinfection end located below, the disinfection liquid 22 in the disinfection container 21 needs to be supplemented, and when the concentration of the disinfection liquid 22 is reduced or the overall quality is changed due to a reaction between a certain chemical substance and a virus to be killed, the concentration or the overall quality of a certain substance can be monitored by the monitoring element 23, so that the disinfection liquid 22 can be supplemented or replaced in time, and safety is ensured.

In the above embodiment, the disinfection apparatus 2 further comprises the filter member 24, and the filter member 24 is disposed on the downstream side of the air flow of the disinfection container 21 and is used for filtering the gas disinfected by the disinfection apparatus 2 to filter the disinfection liquid 22 mixed in the disinfected gas, so as to avoid the disinfection liquid 22 from causing a safety hazard to users or polluting the outside air. In particular, the second circuit 4 comprises an intermediate circuit 41 and an external circuit 42, wherein the intermediate circuit 41 is in communication between the sterilization container 21 and the filter element 24 and the external circuit 42 is intended to be in communication with the external environment. As shown in fig. 1 and 2, when the air inlet 11 communicates with the first pipe 3, the filter member 24 communicates between the first pipe 3 and the intermediate pipe 41, and when the air outlet 12 communicates with the first pipe 3, the filter member 24 communicates between the intermediate pipe 41 and the outer pipe 42.

In this embodiment, the specific structure of the filtering component 24 is not limited, for example, the filtering component may be configured to include a filtering container 241 and a filtering solution 242 disposed in the filtering container 241, the filtering container 241 is also provided with a monitoring element 23, the process of gas flowing through the filtering container 241 is the same as the process of gas flowing through the sterilizing container 21, which is not described herein for brevity, or the filtering component 24 may be configured as an activated carbon filtering layer, etc.

In this embodiment, neither the disinfecting solution 22 nor the filter element 24 is specifically limited, for example, the disinfecting solution 22 may be set to be disinfecting water with a certain concentration, such as 75% ethanol, and the like, and specifically may be set according to the self condition of the virus, and no specific limitation is made here, and the filter element 24 is set according to the disinfecting solution 22, for example, when the disinfecting solution 22 is ethanol, the filtering solution 242 of the filter element 24 may be clean water, and the disinfected gas is filtered by the clean water so that the ethanol is dissolved in the clean water, and the filter device is configured to further avoid the influence on the user or the atmosphere due to the volatilization of the disinfecting solution 22, thereby further ensuring the safety.

The breathing mask in the above embodiment further includes at least one of a first air inducing device 51 and a second air inducing device 52, wherein the first air inducing device 51 is disposed at one side of the air inlet 11 and is used for providing power for air entering the sealing cover 1 along the air inlet 11, and the second air inducing device 52 is disposed at one side of the air outlet 12 and is used for supplying air so as to ensure smooth breathing of the user.

As shown in fig. 1, when the air inlet 11 is communicated with the first pipeline 3, the first air inducing device 51 is disposed on one side of the air inlet 11, specifically, the first air inducing device 51 may be disposed on the first pipeline 3 or on the second pipeline 4, so as to ensure that the air in the external environment can enter the sterilizing device 2 along the second pipeline 4 and be sent into the air inlet 11 along the first pipeline 3, and ensure that the user can breathe smoothly. In this case, the second air inducing device 52 may be provided at one side of the air outlet 12, or the second air inducing device 52 may not be provided.

As shown in fig. 2, when the air outlet 12 is communicated with the first pipeline 3, the second air inducing device 52 is disposed on one side of the air outlet 12, specifically, the second air inducing device 52 may be disposed on the first pipeline 3 or on the second pipeline 4, so as to ensure that the air exhaled by the user can enter the disinfection device 2 and be discharged along the second pipeline 4, thereby ensuring smooth breathing of the user. In this case, the first air inducing device 51 may be provided on one side of the air inlet 11, or the first air inducing device 51 may not be provided.

In the second type of the sterilization apparatus 2, as shown in fig. 3 and 4, the sterilization apparatus 2 further includes a sterilization line 25 communicating between the first line 3 and the second line 4, and the sterilization line 25 includes a heating member 26 disposed on an upstream side of the air flow and a cooling member 27 disposed on a downstream side of the air flow. Wherein, heating element 26 can heat the gas in disinfection pipeline 25 to the high temperature state to eliminate the virus in the gas, and the high temperature gas after the heating no longer mixes the virus, resumes to the normal atmospheric temperature after cooling part 27 cools off, then can supply the user to breathe or get rid of to the external environment in, can not cause the influence to user or external environment.

As shown in fig. 3, the direction of the arrow is an air flow direction, and when air inlet 11 communicates with first pipeline 3, cooling part 27 is disposed toward one side of first pipeline 3, and heating part 26 is disposed toward one side of second pipeline 4, as shown in fig. 4, when air outlet 12 communicates with first pipeline 3, heating part 26 is disposed toward one side of first pipeline 3, and cooling part 27 is disposed toward one side of second pipeline 4. The disinfection device 2 is suitable for the situation that viruses can be killed under the high-temperature condition, and has a simpler structure.

Further, the disinfection pipeline 25 further comprises a temperature monitoring element, and the temperature monitoring element 25 is used for monitoring the temperature of the disinfection pipeline 25 at one side of the heating component 26, so as to monitor the temperature in the disinfection pipeline in real time and ensure that viruses can be killed through high temperature.

In the above embodiment, the disinfection device 2 further comprises a mobile power supply 28, wherein the mobile power supply 28 can supply power to the heating element 26, is convenient to carry and does not limit the movement of the user. In addition, in this embodiment, the cooling unit 27 is a cooling water path that is sleeved outside the disinfection line 25, and cooling water is introduced into the cooling water path to cool the high-temperature gas in the disinfection line 25, and further, the cooling water path may be a circulation water path, that is, an external cooling device may be communicated with the cooling water path to cool the cooling water in the cooling water path, or in this embodiment, the cooling unit 27 may be configured to perform cooling by electric cooling, and in this case, the mobile power supply 28 may supply power to the cooling unit 27.

In the two solutions provided in the above embodiments, fig. 1-4 are schematic structural diagrams, and the sizes of the components are not limited, and the volumes of the disinfecting device 2, the filtering device 24, the heating component 26, the cooling component 27, and the like can be set according to the specific use duration of the breathing mask, and therefore, the situations of inconvenient use, and the like, do not exist. Further, in order to improve the convenience of use, the breathing mask further includes a mounting component, the mounting component can fix the disinfection device 2 on the body of the user, specifically, the mounting component can be a mounting bag or a mounting rope, and the like, which is not limited herein. The disinfection apparatus 2 is fixed at the waist, abdomen or shoulder, etc., so that the user can be ensured to move freely.

In the above embodiment, this respirator still includes display and controller, still is equipped with the thermometer 15 that is used for detecting user's body temperature in the sealed cowling 1, and the controller is connected with thermometer 15 and display respectively, and thermometer 15 can real-time detection user's body temperature to send testing result to the controller, the above-mentioned testing result can be shown to the display, and, the controller can also send testing result to remote server, is convenient for realize remote monitoring, guarantees user's security. Further, in this embodiment, the breathing mask may further include an oximeter 16 for measuring the heart rate of the user and sending the detected result to the controller. In addition, the controller in this embodiment can also be connected with the monitoring element 23, the temperature monitoring element and other signals to ensure that the disinfection device 2 can realize the disinfection effect and ensure the safety.

Furthermore, in this embodiment, the breathing mask further comprises an alarm device in signal connection with the controller, if the result detected by the thermometer 15 is higher than a preset temperature, which indicates that the user is in a fever state, the alarm device can give an alarm, and if the detection result of the liquid level meter is lower than a preset height, or the temperature detected by the temperature monitoring element is lower than the temperature required for killing viruses, the alarm device gives an alarm, so that corresponding measures can be taken in time. Specifically, the alarm device may send an alarm through a sound or light signal, and the like, which is not limited specifically.

Specifically, how to connect the controller with the thermometer 15, the monitoring element 23, the temperature monitoring element, the display and the external device for signal transmission is well known in the art, and will not be described herein for brevity.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A breathing mask with a disinfection function is characterized by comprising a sealing cover (1), a disinfection device (2), a first pipeline (3) and a second pipeline (4);

the sealing cover (1) can seal the mouth and nose of a user, the sealing cover (1) is provided with an air inlet (11) and an air outlet (12), the air inlet (11) is provided with an air inlet valve (13), the air outlet (12) is provided with an air outlet valve (14), and the air inlet valve (13) and the air outlet valve (14) are both one-way valves;

the disinfection device (2) comprises a disinfection piece capable of killing viruses so as to disinfect passing gas, and the disinfection device (2) is communicated with the sealing cover (1) through the first pipeline (3) and is communicated with the external environment through the second pipeline (4);

at least one of the air inlet (11) and the air outlet (12) is in communication with the first conduit (3).

2. The respirator as set forth in claim 1, wherein the disinfecting device (2) further comprises a sealed disinfecting container (21), the disinfecting member is a disinfecting liquid (22) disposed in the disinfecting container (21), the disinfecting ends of the first and second pipelines (3, 4) are both located in the disinfecting container (21), and one of the disinfecting ends of the first and second pipelines (3, 4) disposed on an upstream side of an air flow is located below a liquid level of the disinfecting liquid (22), and one of the disinfecting ends of the first and second pipelines (3, 4) disposed on a downstream side of the air flow is located above a liquid level of the disinfecting liquid (22).

3. A breathing mask according to claim 2, wherein a monitoring element (23) is further provided in the disinfection container (21) for monitoring at least one of the level, concentration and quality of the disinfecting liquid (22).

4. A breathing mask according to claim 2, wherein said disinfection device (2) further comprises a filter member (24) provided on the downstream side of the flow of air of said disinfection container (21) for filtering said disinfecting liquid (22) mixed in the air;

the second circuit (4) comprises an intermediate circuit (41) and an external circuit (42), the intermediate circuit (41) being in communication between the sterilization container (21) and the filtering element (24), the external circuit (42) being in communication with the external environment.

5. A breathing mask according to any one of claims 2-4, further comprising at least one of a first air-inducing device (51) and a second air-inducing device;

the first air inducing device (51) is arranged on one side of the air inlet (11), and the second air inducing device (52) is arranged on one side of the air outlet (12).

6. A breathing mask according to claim 1, wherein the disinfection device (2) further comprises a disinfection line (25) communicating between the first line (3) and the second line (4), the disinfection line (25) comprising a heating component (26) arranged on an upstream side of the airflow and a cooling component (27) arranged on a downstream side of the airflow.

7. Breathing mask according to claim 6, wherein the disinfection device (2) further comprises a temperature monitoring element for monitoring the temperature of the side of the disinfection line (25) facing the heating means (26).

8. Breathing mask according to claim 7, wherein the disinfection device (2) further comprises a mobile power source (28) for supplying power to the heating means (26) and/or wherein the cooling means (27) is a cooling water circuit that is arranged outside the disinfection circuit (25).

9. A facial mask according to any of claims 1-4 and 6-8, further comprising a mounting component capable of securing the disinfecting device to the user's body.

10. A breathing mask according to any of claims 1-4 and 6-8, further comprising a display and a controller, wherein a thermometer (15) is provided in the sealed housing (1) for detecting the temperature of the user, and wherein the controller is connected to the thermometer and the display, respectively, and is capable of displaying the thermometer via the display.

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