CN111870274A

CN111870274A - Bluetooth auscultation device

Info

Publication number: CN111870274A
Application number: CN202010198085.4A
Authority: CN
Inventors: 万佳睿
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-03-19
Filing date: 2020-03-19
Publication date: 2020-11-03

Abstract

The invention relates to a Bluetooth auscultation device, which comprises a sound receiver and a sound pick-up; the sound pickup and the listening device are arranged independently; the sound receiver comprises two earphones, wherein one earphone is a receiving earphone and is connected with the other earphone, the receiving earphone comprises a Bluetooth receiving part, the sound receiver comprises a sound pickup body, a sound pickup part arranged on the sound pickup body, a Bluetooth emitting part arranged in the sound pickup body and a temperature detecting piece, a containing cavity capable of containing the sound receiver is arranged on the sound pickup body, the temperature detecting piece is arranged in the containing cavity and is used for measuring the body temperature of a person to be auscultated, the containing cavity is provided with a first opening, and the first opening penetrates through the bottom surface of the sound pickup body; at least one part of the sound collecting part is exposed out of the bottom surface of the sound collecting body; the Bluetooth transmitting part is connected with the sound pickup part, and the Bluetooth receiving part is in Bluetooth communication connection with the Bluetooth transmitting part so that the receiving earphone can receive sound picked up by the sound pickup part. The stethoscope box can facilitate auscultation and storage, and improves the examination efficiency of doctors.

Description

Bluetooth auscultation device

Technical Field

The invention relates to the technical field of medical instruments, in particular to a Bluetooth auscultation device.

Background

In the medical field, a listening device is the most commonly used diagnostic tool for internal and external gynecologists and mainly comprises a sound pickup part, a conduction part and a listening part. The sound pickup section detects the auscultated person and amplifies the collected sound through the conduction section, so that the doctor hears the condition of the detected part of the auscultated person through the listening section for diagnosis.

However, the conventional stethoscope usually adopts a pipeline sound cavity in the conduction part, and the sound pickup part is connected with the listening part through the pipeline sound cavity, but the stethoscope needs to auscultate different parts during detection, and the length of the conduction part is limited, so that doctors often need to adjust a catheter along with the different detection parts to prevent the listening part from separating from ears, and the stethoscope is very inconvenient to use; in addition, the sound pickup part, the conduction part and the listening part of the stethoscope are connected together, so that the stethoscope is very inconvenient to store.

Disclosure of Invention

Based on the above situation, the main object of the present invention is to provide a bluetooth auscultation device to solve the problem of inconvenient use and storage of the existing stethoscope.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

the invention provides a Bluetooth auscultation device, which comprises a listening device and a sound pick-up; the sound pickup and the listening device are arranged independently;

the listening device comprises two earphones, wherein one earphone is a receiving earphone and is connected with the other earphone, and the receiving earphone comprises a Bluetooth receiving part;

the sound pick-up comprises a sound pick-up body, a sound pick-up part arranged on the sound pick-up body, a Bluetooth emitting part arranged in the sound pick-up body and a temperature detecting piece, wherein a containing cavity capable of containing the sound pick-up is arranged on the sound pick-up body, the temperature detecting piece is arranged in the containing cavity and used for measuring the body temperature of a stethoscope-taker, the containing cavity is provided with a first opening, and the first opening penetrates through the bottom surface of the sound pick-up body; at least one part of the sound collecting part is exposed out of the bottom surface of the sound collecting body; the Bluetooth emitting part is connected with the sound pickup part, and the Bluetooth receiving part is in Bluetooth communication connection with the Bluetooth emitting part, so that the receiving earphone can receive the sound picked up by the sound pickup part.

Preferably, the sound pickup body has a side surface intersecting with the bottom surface, and a second opening penetrating through the side surface is provided on a side wall of the receiving cavity.

Preferably, the earphone comprises a listening body and an earplug arranged at one end of the listening body; the containing cavity is of a stepped structure and comprises a large section and a small section, and the large section is close to the side surface than the small section; the small section is used for being at least partially matched with the part of the listening body far away from the earplug; the large section is at least partially adapted to another part of the listening body and to the ear plug.

Preferably, the adapter still including set up in display screen on the adapter body, temperature detecting spare with the display screen is connected for show the body temperature information that temperature detecting spare detected.

Preferably, the sound pickup further comprises a cover body, and the cover body is used for covering or opening the containing cavity.

Preferably, the earphone comprises a pickup part, a listening body and an earplug which are connected with each other; the taking part is connected to the listening main body, and at least part of the taking part extends out of the side face of the sound pickup main body when the earphone is accommodated in the accommodating cavity.

Preferably, the receiving earphone further comprises a pressure sensor, the pressure sensor is arranged on the back side of the earphone ear plug and is connected with the bluetooth receiving part, so that the pressure sensor controls the opening and closing of the bluetooth receiving part.

Preferably, the pickup further comprises a charging contact exposed in the receiving cavity;

the earphone is provided with the hole that charges, the contact that charges with the hole adaptation that charges sets up.

Preferably, the adapter still includes and is used for controlling bluetooth auscultation device opens and the master switch who closes, master switch set up in accomodate the intracavity, master switch is in the listening ware is accomodate in be in the off-state when accomodating the chamber the listening ware takes out be in the on-state when accomodating the chamber.

Preferably, the containing cavities are symmetrically arranged, and the containing cavities and the two earphones are arranged in a one-to-one correspondence mode.

According to the Bluetooth auscultation device, the sound pick-up and the listening device are arranged to be of a separated structure and can communicate through Bluetooth signals, and the sound pick-up and the listening device are not physically connected, so that the sound pick-up is basically not influenced by the listening device within the examination distance of a doctor and is more flexible to use; the sound pick-up is also provided with a special containing cavity, so that the sound listening device can be contained in the containing cavity when the auscultation is finished or the stethoscope is out, and then the sound listening device is stored and carried together; simultaneously still being provided with the temperature piece of accomodating the intracavity, accomodating the multiplexing for the temperature chamber of chamber in the auscultation, can also carrying out the body temperature measurement to being auscultated the person, improved doctor's diagnosis efficiency, and improve bluetooth auscultation device's space utilization.

Other advantages of the present invention will be described in the detailed description, and those skilled in the art will understand the technical features and technical solutions presented in the description.

Drawings

Preferred embodiments according to the present invention will be described below with reference to the accompanying drawings. In the figure:

FIG. 1 is a schematic view of a preferred embodiment of a Bluetooth stethoscope according to the present invention, wherein a sound pickup is accommodated in a sound receiver;

FIG. 2 is a schematic diagram of the structure of the Bluetooth stethoscope according to a preferred embodiment of the present invention, showing the separation of the listening device and the sound pick-up;

FIG. 3 is a schematic diagram of the structure of a preferred embodiment of the sound pick-up of the Bluetooth auscultation device of the present invention;

fig. 4 is a front view of the embodiment shown in fig. 3.

In the figure:

10. a sound pickup; 11. a pickup body; 111. a receiving cavity; 1111. a first opening; 1112. a second opening; 1113. a small segment; 1114. a large section; 112. a bottom surface; 113. a side surface; 12. a sound pickup section; 13. a Bluetooth transmitting part; 14. a temperature detecting member; 15. a charging contact;

20. a sound receiver; 21. receiving an earphone; 211. a Bluetooth receiving section; 212. a main listening body; 213. an earplug; 214. a taking part; 215. a pressure sensor.

Detailed Description

It should be noted that the terms "top surface", "bottom surface", "side surface", and the like are defined for convenience of description, and do not limit the orientation of the bluetooth auscultation device when actually used, for example, the detection surface (i.e., the surface facing the auscultated person when used) of the sound pickup body is defined as the bottom surface, and other surfaces are only described with respect to the bottom surface.

The invention provides a Bluetooth auscultation device which can detect sounds emitted by the heart, the lung, the artery, the vein and other internal organs of an auscultated person so as to help a doctor to diagnose. As shown in fig. 1-4, the bluetooth auscultation device includes a sound collector 10 and a listening device 20, and the sound collector 10 is disposed independently of the listening device 20, i.e., the sound collector 10 is not physically connected to the listening device 20. The listening device 20 may be worn on the ear of a physician and comprises two earphones, one of which is a receiving earphone 21 and is connected to the other earphone, the receiving earphone 21 comprising a bluetooth receiving portion 211, it being understood that the receiving earphone 21 is a bluetooth earphone. The sound pick-up 10 comprises a sound pick-up body 11, a sound pick-up part 12 arranged on the sound pick-up body 11 and a Bluetooth emitting part 13 arranged in the sound pick-up body 11, wherein a containing cavity 111 is arranged on the sound pick-up body 11, and a listening device 20 can be contained in the containing cavity 111; at least a part of the sound-collecting portion 12 is exposed out of the sound-collecting body 11 for use in examination of the auscultated person, i.e., at the time of examination, the sound can be captured by contacting the auscultated person through the sound-collecting portion 12. The bluetooth emitting part 13 is connected with the sound collecting part 12, and the bluetooth emitting part 13 is connected with the bluetooth receiving part 211 through bluetooth communication, so that the receiving earphone 21 can receive the sound collected by the sound collecting part 12, that is, the sound collecting part 12 transmits the obtained sound to the bluetooth emitting part 13, and then transmits the sound to the bluetooth receiving part 211 through bluetooth signals, and further, a doctor can hear the sound of the part to be inspected of the stethoscope.

According to the Bluetooth auscultation device, the sound pickup device 10 and the listening device 20 are arranged to be of a separated structure, and can be communicated through Bluetooth signals, when the Bluetooth auscultation device is used, a doctor wears the listening device 20 on ears, holds the sound pickup device 10 to examine a person being auscultated, and sound signals acquired by the sound pickup device 10 are sent to the listening device 20 through the Bluetooth signals, so that the doctor can diagnose according to the sound. Signal transmission is realized through the Bluetooth signal, and the reliability of signal transmission can be improved; since the microphone 10 is not physically connected to the listening device 20, the microphone 10 is substantially unaffected by the listening device 20 and is more flexible to use; in order to solve the problem, the sound pickup body 11 is further provided with a special accommodating cavity 111, so that the sound pickup 20 can be accommodated in the accommodating cavity 111 and then stored together; when auscultation is performed, the listening device 20 is taken out from the housing cavity 111.

On the other hand, by adopting the Bluetooth auscultation device, the sound receiver can be directly accommodated in the sound pick-up to form a whole, and the space except the sound pick-up can not be occupied when the Bluetooth auscultation device is carried, so that the Bluetooth auscultation device is convenient to accommodate, and particularly when a doctor goes out a doctor, the Bluetooth auscultation device with small volume can be directly put into a pocket and the like to be carried about.

Specifically, pickup portion 12 can be digital pickup portion, also can be acoustic pickup portion, and the structure among the prior art can be adopted to concrete structure, generally includes pickup piece and sound cavity isotructure, and the pickup piece exposes in the outside of pickup body 11, when the inspection, contacts and then obtains the sound with the person of being auscultated through the pickup piece. It is understood that a processing circuit may be disposed between the sound pickup portion 12 and the bluetooth transmitting portion 13 to process the acquired sound and then transmit the processed sound, such as amplifying the acquired sound and then transmitting the amplified sound to the bluetooth receiving portion 211 through the bluetooth transmitting portion 13.

Referring to fig. 3 and 4, the pickup body 11 may have a cylindrical structure, a square structure, or other structures, the pickup body 11 has a bottom surface 112 and a side surface 113 intersecting the bottom surface 112, the side surface 113 may have a cylindrical surface, a prismatic surface, or the like, and the bottom surface 112 may have a flat surface or a curved surface. The bottom surface 112 is a detection surface of the sound pickup 10, that is, the sound pickup part 12 is at least partially exposed out of the bottom surface 112 of the sound pickup body 11; the physician may grasp the side 113. For the convenience of grasping, the side surface 113 may be provided with a structure with an interval of concave and convex, or a thread structure, or a rubber ring may be directly sleeved on the side surface.

In one embodiment, the receiving cavity 111 has a first opening 1111, and the first opening 1111 may be disposed on the bottom surface 112 or a top surface (i.e. a surface facing away from the detection surface) of the sound pickup body 11 opposite to the bottom surface 112, in this embodiment, the listening device 20 may be taken out from the first opening 1111. In another embodiment, the receiving cavity 111 has a second opening 1112 disposed on the side 113, and the listening device 20 can be taken out from the second opening 1112 at this time. In another preferred embodiment, the receiving cavity 111 has both the first opening 1111 and the second opening 1112 to further facilitate the accessing of the listening device, and more preferably, the first opening 1111 and the second opening 1112 are through the surface of the sound pick-up body 11, that is, the receiving cavity 111 is through to the bottom surface 112 or the top surface in the direction of the first opening 1111.

During auscultation by a physician, it is often necessary to detect the body temperature of the auscultated person, and the detection of the body temperature is usually measured by a thermometer or the like. In a preferred embodiment of the present invention, the sound pick-up 10 further includes a temperature detecting element 14 disposed inside the sound pick-up body 11, and the temperature detecting element 14 may be a temperature sensor, such as a patch sensor, for measuring the body temperature of the auscultated person. When the pickup body 11 with by the contact of auscultator, can direct perception by the body temperature of auscultator, can directly show body temperature at display screen (following detail), adopt this kind of structure, can measure by the body temperature of auscultator when the doctor carries out the auscultation to reduce the procedure that the doctor examined, improve the convenience and the efficiency of detection.

Further, the first opening 1111 penetrates through the bottom surface 112 of the sound pickup body 11, and the sound pickup body 11 may be recessed inward from the bottom surface 112 to form a receiving cavity 111, that is, the first opening 1111 and the sound pickup portion 12 are located on the same surface of the sound pickup body 11; the temperature detector 14 is disposed in the receiving cavity 111. Adopt this kind of structure, when pickup body 11 with by the contact of auscultator, by the auscultator with accomodate and form the air current chamber between the chamber 111, by the body temperature of auscultator can directly get into the air current intracavity, and then with the contact of temperature probe 14, make temperature probe 14 can detect by the body temperature of auscultator more accurately, improve the accuracy of detection. When the first opening 1111 is provided, the listening device 20 can be taken out or put into the receiving cavity 111 through the first opening 1111; meanwhile, when the listening device 20 is taken out and housed through another opening (such as the second opening 1112 mentioned below), it can also be observed through the first opening 1111 whether or not the listening device 20 is securely housed.

Specifically, the temperature sensing member 14 may be disposed on a bottom wall of the accommodating cavity 111 opposite to the first opening 1111, so as to further improve the accuracy of detection through the temperature sensing member 14. Of course, the housing may be provided on the side wall of the receiving cavity 111.

If the receiving cavity 111 is only provided with the first opening 1111, when the sound pick-up body 11 contacts with the stethoscope, the whole receiving cavity 111 basically forms a closed cavity, so that the body temperature of the stethoscope can be collected in the airflow cavity, which may cause the actual temperature in the airflow cavity to be higher than the body temperature of the stethoscope, thereby affecting the accuracy of detection of the temperature detecting element 14. In order to solve the problem, in a preferred embodiment of the present invention, a second opening 1112 penetrating through the side surface 113 of the sound pick-up body 12 is disposed on the side surface 113 of the sound pick-up body 11, that is, the second opening 1112 is disposed on the side surface 113 of the sound pick-up body 11, and by disposing the second opening 1112, after the sound pick-up body 11 contacts the person to be auscultated, the entire sound pick-up cavity 111 is substantially open only at the second opening 1112, so that the airflow in the airflow cavity flows toward the second opening 1112, so that the temperature in the airflow cavity is substantially consistent with the body temperature of the person to be auscultated, and the accuracy of detection by the temperature detector 14 is improved.

When second opening 1112 is provided, listening device 20 may be removed from and placed into second opening 1112. Second opening 1112 is preferably in communication with first opening 1111 at the surface of pickup body 11 to further facilitate removal and insertion of listening device 20.

Along the opening direction of the second opening 1112, the receiving cavity 111 includes an airflow collecting section and an airflow diffusing section, the airflow collecting section is farther away from the second opening than the airflow diffusing section, and the flow area of the airflow collecting section is smaller than that of the airflow diffusing section, in this embodiment, the temperature detecting element 14 is disposed at the junction of the collecting section and the diffusing section. As shown in fig. 4, when the receiving cavity 111 has a stepped structure, the smaller segment 1113 and the larger segment 1114 are far away from the second opening 1112. By adopting the structure, when the pickup body 11 is contacted with a stethoscope, due to the instant contact, the air flow in the air flow cavity is influenced by the outside and can be lower than the temperature of the stethoscope, and the overflowing area of the collecting section 1113 is smaller, therefore, the air flow with the temperature of the stethoscope can be rapidly collected at the position, and when the collected air flow flows to the area with the larger overflowing area, the temperature detecting piece 14 can timely sense the temperature, so that the detected temperature is closer to the true temperature of the stethoscope.

The sound pick-up 10 further comprises a display screen (not shown in the figure) disposed on the sound pick-up body 11, and the temperature detecting member 14 is connected to the display screen for displaying the body temperature information detected by the temperature detecting member, so as to facilitate observation by a doctor. Specifically, the display screen may be disposed on the side surface 113, or may be disposed on the top surface of the sound pickup body away from the detection surface. In another embodiment, the temperature probe 14 is connected to the bluetooth transmitter 13 to transmit the body temperature information to the listening device 20 for the diagnosis of the physician.

Referring to fig. 2, the earphone comprises a listening body 212 and an earplug 213 connected to each other, specifically, the listening body 212 may be a column structure or a bent structure, and in the embodiment shown in fig. 2, the listening body 212 has an L-shaped structure, and one end of one side of the L-shaped structure is connected to the earplug 213. When the listening device 20 is housed in the sound pickup 10, the headphone may have an L-shaped configuration in a projection in the opening direction of the second opening 1112, an L-shaped configuration in a projection in the opening direction of the first opening 1111, or an L-shaped configuration in a projection in another direction.

Considering that the bottom surface 112 of the sound pick-up body 11 serves as a detection surface, the area is set to be relatively large for better contact with the auscultated person, especially in the embodiment forming the airflow cavity, while the earphone is substantially in an L-shaped structure, the volume of the portion near the earplug 213 is larger than that of the other portion, and in order to better utilize the limited space of the sound pick-up 10, in a preferred embodiment, the small section 1113 of the receiving cavity 111 is at least partially adapted to the portion of the listening body 212 far from the earplug 213; the large section 1114 of the receiving cavity 111 is at least partially adapted to another part of the listening body 212 and the earpieces 213, i.e. the headset has an approximately L-shaped configuration in the opening direction of the first opening 1111, so that the receiving cavity 111 at least partially adapts to the shape of the headset.

Although the listening main body 212 has been described as having an L-shaped configuration, the shape of the earphone is not limited thereto, and the earphone may have various configurations that can be accommodated in the sound pickup body 11.

In order to facilitate the taking out of the listening device 20 when it is accommodated in the accommodating cavity 111, the earphone further comprises a taking part 214, the taking part 214 is connected to the listening main body 212, and when the earphone is accommodated in the accommodating cavity 111, the taking part 214 at least partially extends out of the side surface 113 of the sound collecting body 11. The taking part 214 may include a bending structure, one end of the bending structure is connected to the listening main body 212, and an operation space is left between the other end of the bending structure and the listening main body 212, as shown in fig. 1 and 2, the taking part 214 may be an L-shaped hook-shaped structure, or the taking part 214 may be a columnar structure, or other structures convenient to take.

It can be understood that, in order to avoid the power loss, a main switch is disposed on the sound pickup body 11, when the main switch is triggered, the sound pickup portion 12, the bluetooth transmitting portion 13, and the bluetooth receiving portion 211 are in an operating state, and when the temperature detecting member 14 is included, the temperature detecting member 14 also operates simultaneously.

In another embodiment, the microphone 10 further comprises a main switch (not shown) for controlling the bluetooth auscultation device to be turned on and off, the main switch is disposed in the receiving cavity 111, and the main switch is turned off when the listening device 10 is received in the receiving cavity 111 and turned on when the listening device 20 is taken out of the receiving cavity 111. The main switch may be a push switch, etc., and after the earphone is taken out of the receiving cavity 111, the push switch is in an on state, and the sound pickup portion 12, the bluetooth transmitting portion 13, the temperature detecting member 14, and the bluetooth receiving portion 211 are in an operating state, in an embodiment where the receiving earphone 21 includes a pressure sensor, the bluetooth receiving portion 211 is only in a standby state, and the bluetooth receiving portion 211 is in an operating state when the listening device 20 is worn on the earphone. When the earphone is placed in the accommodating cavity 111, the push switch is squeezed and is in an off state, and all parts stop working. Although the above embodiments have been described with reference to the push-type main switch, the specific form of the main switch is not limited in the present invention, and any existing switch may be used as long as the function of the switch is realized.

Further, the receiving earphone 21 further includes a pressure sensor 215, the pressure sensor 215 is disposed on the back side of the earplug 213, i.e. the side facing away from the insertion surface (the surface facing the cochlea when being worn on the ear) of the earplug 213, and is connected with the bluetooth receiving portion 211, as shown in fig. 2, so as to control the opening and closing of the bluetooth receiving portion 211 through the pressure sensor 215, that is, the receiving earphone 21 is further provided with a switch for controlling the bluetooth receiving portion 211, i.e. the pressure sensor 215 is a switch for opening and closing the bluetooth receiving portion 211, and a specific implementation circuit may be a switch circuit conventionally used in an electronic circuit, such as a control switch disposed between the bluetooth receiving portion 211 and a power supply source, and a control end of the control switch is connected with the pressure sensor 215, so that when the doctor wears the device 20, the ear is inserted into the earplug 213, the pressure sensor 215 senses the pressure, and turns on the, the bluetooth receiver 211 starts to operate in such a way that it is possible to avoid power waste while ensuring that the listening device 20 receives signals in time.

Further, the sound pickup 0 further includes a charging contact 15, and the charging contact 15 is exposed in the receiving cavity 111; accordingly, the earphone is provided with a charging hole (not shown), and the charging contact 15 is adapted to the charging hole to charge the earphone when the listening device 20 is received in the receiving cavity 111.

Of course, the sound collector 10 may be provided with a power supply, and may be a charging power supply or a non-charging power supply.

In order to prevent the listening device 20 from falling out of the storage cavity 111, the earphone and the sound pickup body 11 can be locked by a magnetic attraction structure; or a buckle structure is arranged between the two, when the listening device 20 is accommodated in the accommodating cavity 111, the earphone and the sound pickup body 11 are clamped tightly through the buckle structure.

Further, the sound pickup 10 further includes a cover (not shown) for closing or opening the receiving cavity 111 to prevent the listening device 20 from falling out, and particularly, when the receiving cavity 111 is provided with the temperature sensing member 14, dust and the like can be prevented from falling into the receiving cavity 111 to affect the detection accuracy of the temperature sensing member 14.

Specifically, the cover body and the sound pickup body 11 may be detachably connected, and if the cover body and the sound pickup body are separately arranged, the cover body and the sound pickup body are covered and connected when the cover body needs to be covered; in an embodiment, the cover body is connected to the sound pickup body 11 along the side 113 of the sound pickup body 11 in a sliding manner, and particularly when the side 113 is a cylindrical surface, the cover body can be opened and closed in the accommodating cavity 111 by sliding along the cylindrical surface.

In a preferred embodiment, the two accommodating cavities 111 are symmetrically arranged, and the two accommodating cavities 111 and the two earphones are arranged in a one-to-one correspondence manner to respectively accommodate the two earphones. Of course, the two receiving cavities 111 may be asymmetrically arranged, or the two receiving cavities 111 may communicate with each other to form a larger receiving cavity.

When being equipped with two earphones, can one for receiving the earphone, another is supplementary earphone, the two signal connection, the two can be connected through entity structures such as wire promptly, also can be through bluetooth signal connection. Preferably, both the two earphones are receiving earphones 21, that is, both the two earphones are bluetooth earphones, and when the bluetooth auscultation device works, the two receiving earphones are respectively communicated with the bluetooth transmitting part 13 on the sound pick-up 10, in this way, signals of the two earphones are complementarily interfered, and the accuracy of information transmission can be improved; if one of the receiving earphones 21 is not powered, the other receiving earphone 21 can be used for auscultation, so that the influence on normal auscultation is avoided.

It should be noted that the bluetooth receiving part 111 and the bluetooth transmitting part 13 in the above embodiments may be any bluetooth components capable of implementing bluetooth communication, which are well known to those skilled in the art, and the technical details of the communication protocol and the like are also the prior art, and are not described herein again.

It will be appreciated by those skilled in the art that the above-described preferred embodiments may be freely combined, superimposed, without conflict.

It will be understood that the embodiments described above are illustrative only and not restrictive, and that various obvious and equivalent modifications and substitutions for details described herein may be made by those skilled in the art without departing from the basic principles of the invention.

Claims

1. A Bluetooth auscultation device comprises a listening device and a pickup; the sound pickup and the listening device are independently arranged;

the sound pick-up comprises a sound pick-up body, a sound pick-up part arranged on the sound pick-up body, a Bluetooth emitting part arranged in the sound pick-up body and a temperature detecting piece, wherein a containing cavity capable of containing the sound pick-up is arranged on the sound pick-up body, the temperature detecting piece is arranged in the containing cavity and used for measuring the body temperature of a person to be auscultated, the containing cavity is provided with a first opening, and the first opening penetrates through the bottom surface of the sound pick-up body; at least one part of the sound collecting part is exposed out of the bottom surface of the sound collecting body; the Bluetooth emitting part is connected with the sound pickup part, and the Bluetooth receiving part is in Bluetooth communication connection with the Bluetooth emitting part, so that the receiving earphone can receive the sound picked up by the sound pickup part.

2. The bluetooth auscultation device of claim 1, characterized in that, the pickup body has the side that intersects with the bottom surface, is provided with the second opening that link up in the lateral wall of receiving the chamber.

3. The bluetooth auscultation device of claim 2, wherein the headset comprises a listening body and an ear plug disposed at one end of the listening body; the containing cavity is of a stepped structure and comprises a large section and a small section, and the large section is close to the side surface than the small section; the small section is used for being at least partially matched with the part of the listening body far away from the earplug; the large section is at least partially adapted to another part of the listening body and to the ear plug.

4. The bluetooth auscultation device of claim 1, characterized in that, the adapter still includes the display screen that sets up on the adapterization body, temperature-detecting piece with the display screen is connected for show the body temperature information that temperature-detecting piece detected.

5. The bluetooth auscultation device of claim 1, characterized in that, the adapter further includes a lid, the lid is used for closing or opening the receiving cavity.

6. The bluetooth auscultation device according to any one of claims 1-5, characterized in that, the earphone comprises a pick-up part, a listening body and an earplug which are connected with each other; the taking part is connected to the listening main body, and at least part of the taking part extends out of the side face of the sound pickup main body when the earphone is accommodated in the accommodating cavity.

7. The bluetooth auscultation device of any one of claims 1-5, wherein the receiving earphone further comprises a pressure sensor, the pressure sensor is disposed on the back side of the ear plug of the earphone and connected with the bluetooth receiving part, so as to control the opening and closing of the bluetooth receiving part through the pressure sensor.

8. The bluetooth auscultation device of claim 1, wherein the sound pick-up further comprises a charging contact, the charging contact being exposed in the receiving cavity;

9. The bluetooth auscultation device of any one of claims 1-8, wherein the microphone further comprises a main switch for controlling the bluetooth auscultation device to turn on and off, the main switch is disposed in the receiving cavity, and the main switch is turned off when the listening device is received in the receiving cavity and turned on when the listening device is taken out of the receiving cavity.

10. The bluetooth auscultation device of any one of claims 1-8, wherein there are two symmetrical receiving cavities, and the two receiving cavities are arranged in one-to-one correspondence with the two earphones.