SUMMERY OF THE UTILITY MODEL
In view of this, the present invention provides an auscultation device and an intelligent auscultation system to overcome the problem that the current traditional stethoscope may not be able to obtain correct diagnosis results.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
a auscultation device comprises a shell, and a detection circuit, a communication circuit, a state output circuit and a memory which are respectively arranged in the shell;
the shell comprises a main body part and a handle part which is convenient to hold, wherein a first end of the main body part is connected with a first end of the handle part;
the detection circuit is arranged at the second end of the main body part and used for acquiring body data of a user;
the detection circuit is connected with the memory, the memory is used for storing the body data, and the detection circuit is further used for controlling the memory to output the body data when receiving an output signal aiming at the body data;
the detection circuit and external terminal equipment are respectively connected with the communication circuit, and the communication circuit is used for sending the body data to the terminal equipment so that the terminal equipment sends the body data to a remote server and acquires the diagnostic information fed back by the remote server;
the diagnostic information is automatically generated by the remote server according to the body data, or the remote server sends the body data to a remote terminal to obtain the diagnostic information fed back by the remote terminal;
the state output circuit is also connected with the detection circuit, the detection circuit is used for acquiring the diagnosis information through the communication circuit, and the state output circuit is used for outputting the health state prompt corresponding to the diagnosis information.
Further, the auscultation equipment also comprises a power circuit;
the power circuit comprises a rechargeable battery arranged in the shell and a charging interface arranged on the shell;
the rechargeable battery is respectively connected with the charging interface, the detection circuit, the communication circuit, the state output circuit and the memory.
Further, the auscultation device described above, the detection circuit comprises a signal amplifier, a filter, a digital-to-analog converter, a processor, and an acoustic sensor;
the signal amplifier is respectively connected with the acoustic sensor and the filter;
the digital-to-analog converter is respectively connected with the filter and the processor;
the processor is also connected with the communication circuit and the memory respectively.
Further, in the auscultation device, the shell is also provided with a diaphragm;
the acoustic sensor is in contact with the user through the diaphragm.
Further, the auscultation equipment also comprises a preheating circuit arranged in the shell;
the preheating circuit comprises a preheating resistance wire and a temperature sensor;
the preheating resistance wire and the temperature sensor are both arranged at the second end of the main body part and are respectively connected with the processor;
the temperature sensor is used for detecting the temperature value of the second end of the main body part;
the processor is used for controlling the preheating resistance wire to work so as to heat the second end of the main body part, and controlling the preheating resistance wire to stop heating when the temperature value reaches a preset temperature value.
Further, in the auscultation device described above, the status output circuit is at least one of a status display lamp, a display screen and a speaker.
Further, in the auscultation device described above, the surface of the handle portion is provided with an anti-slip means.
Further, above the auscultation equipment, communication circuit is WIFI module or bluetooth module.
Further, the auscultation device of the above, the body data comprises heart sound data and/or breath sound data.
The utility model also provides an intelligent auscultation system, which is characterized in that the auscultation system comprises an intelligent terminal and the auscultation equipment;
the auscultation equipment and the remote server are respectively connected with the intelligent terminal;
the remote server is also connected with the remote terminal.
The utility model discloses an auscultation equipment and intelligent auscultation system, including the casing with set up the detection circuitry in the casing respectively, communication circuit, state output circuit, the memory, detection circuitry is used for acquireing user's health data, the memory is used for saving health data, detection circuitry still is used for when receiving the output signal to health data, control memory output health data, communication circuit sends health data for terminal equipment, so that terminal equipment sends health data for remote server, and acquire the diagnostic information of remote server feedback, state output circuit is used for exporting the health status that corresponds with diagnostic information and reminds. Adopt the technical scheme of the utility model, doctor or user can repeatedly listen to the health data to make more accurate judgement, can carry out the information interaction through communication circuit and outside terminal equipment and remote server in addition, realize remote diagnosis, even the user also can obtain the correct diagnostic result at home, solved the problem that medical resources are not enough, improved efficiency of seeing a doctor.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
Fig. 1 is a structure diagram provided by an embodiment of the auscultation device of the present invention, and fig. 2 is a circuit diagram provided by an embodiment of the auscultation device of the present invention. As shown in fig. 1, the auscultation device of the present embodiment includes a housing 10, and a detection circuit 11, a communication circuit 12, a status output circuit, and a memory 14 respectively disposed in the housing 10.
The housing 10 includes a main body portion 101 and a handle portion 102 for easy gripping, a first end of the main body portion 101 and a first end of the handle portion 102 being connected. A detection circuit 11 is provided at a second end of the body portion 101, wherein the detection circuit 11 is used to acquire body data of the user. Wherein the body data comprises heart sound data and/or breath sound data.
The detection circuit 11 of this embodiment may acquire the heart sound data or the breath sound data separately, and may also acquire the heart sound data and the breath sound data simultaneously, which is not limited in this embodiment.
The detection circuit 11 is connected to the memory 14, the memory 14 is used for storing the body data, and the detection circuit 11 is further used for controlling the memory 14 to output the body data when receiving the output signal aiming at the body data. So that the user or doctor can repeatedly listen to the body data to facilitate the doctor or user to make more accurate judgment.
The detection circuit 11 and an external terminal device are respectively connected to the communication circuit 12, and the communication circuit 12 is configured to send body data to the terminal device, so that the terminal device sends the body data to the remote server, and obtains the diagnostic information fed back by the remote server.
The diagnosis information is automatically generated by the remote server according to the body data, or the remote server sends the body data to the remote terminal to obtain the diagnosis information fed back by the remote terminal. Specifically, the remote server can make diagnosis information containing diagnosis results based on big data technology through comparison of a knowledge graph generated by a large amount of data and body data, and feeds the diagnosis information back to the intelligent terminal, so that the problem of insufficient medical care resources is solved greatly, and the efficiency of seeing a doctor is improved. The remote server intelligently identifies the body data collected by the auscultation equipment to obtain the diagnosis information is common in the art and will not be described in detail here. In addition, the remote server can also send body data to the remote terminal, and medical personnel at the remote terminal can carry out professional judgement according to body data to the diagnostic information who obtains through judging uploads to the remote terminal, and the remote terminal passes through the remote server and sends to terminal equipment, and terminal equipment can show this diagnostic information.
The state output circuit of the present embodiment is also connected to the detection circuit 11, the detection circuit 11 is used for obtaining the diagnosis information through the communication circuit 12, and the state output circuit is used for outputting the health state prompt corresponding to the diagnosis information. And then the user can obtain the diagnosis information rapidly and intuitively through the state output circuit, and does not need to operate the terminal equipment, thereby providing convenience for the old and other groups incapable of operating the terminal equipment.
Further, the auscultation device of the present embodiment further includes a power supply circuit 15. The power supply circuit 15 includes a rechargeable battery 151 disposed inside the housing 10 and a charging interface 152 disposed on the housing 10; the rechargeable battery 151 is connected to the charging interface 152, the detection circuit 11, the communication circuit 12, the state output circuit, and the memory 14, respectively. Specifically, the rechargeable battery 151 is charged through the charging interface 152, and supplies power to the detection circuit 11, the communication circuit 12, the state output circuit, and the memory 14.
In a specific embodiment, the charging interface 152 is a Type C — USB interface, and the user can use the data cable of the mobile phone to charge the auscultation device of this embodiment, and does not need to carry a special charging device, so that the auscultation device is more convenient to use.
Further, in the auscultation apparatus of the present embodiment, the detection circuit 11 includes a signal amplifier 111, a filter 112, a digital-to-analog converter 113, a processor 114, and an acoustic sensor 115. As shown in fig. 2, the signal amplifier 111 is connected to the acoustic sensor 115 and the filter 112, respectively, the digital-to-analog converter 113 is connected to the filter 112 and the processor 114, respectively, and the processor 114 is further connected to the communication circuit 12 and the memory 14, respectively.
In a specific embodiment, the acoustic sensor 115 selects an acoustic sensor, the processor 114 uses a chip with a model number of MTK6737, the MTK6737 chip is a relatively common device in the prior art, and a person skilled in the art can obtain a specific wiring diagram without any creative effort, which is not described in this embodiment.
Specifically, the acoustic sensor 115 is configured to pick up sound information, the signal amplifier 111 is configured to amplify the sound information, the filter 112 is configured to filter clutter information in the sound information, and the digital-to-analog converter 113 is configured to convert the sound information of the digital signal into body data of an analog signal and send the body data to the processor 114. The processor 114 may control the communication circuit 12 to transmit the body data to the terminal device.
Further, in the auscultation device of the present embodiment, the housing 10 is further provided with a diaphragm 103, and the acoustic sensor 115 is in contact with the user through the diaphragm 103.
Further, the auscultation device of the present embodiment further includes a preheating circuit 16 disposed in the housing 10. The preheating circuit 16 comprises a preheating resistance wire 161 and a temperature sensor 162, the preheating resistance wire 161 and the temperature sensor 162 are both arranged at the second end of the main body portion 101, the preheating resistance wire 161 and the temperature sensor 162 are respectively connected with the processor 114, the temperature sensor 162 is used for detecting the temperature value of the second end of the main body portion 101, and the processor 114 is used for controlling the preheating resistance wire 161 to work so as to heat the second end of the main body portion 101, and controlling the preheating resistance wire 161 to stop heating when the temperature value reaches a preset temperature value.
In a specific implementation manner, before the user uses the auscultation device of this embodiment, the user can send a heating signal to the processor 114 through a button disposed on the housing 10, the processor 114 receives the heating signal and then controls the operation of the preheating resistance wire 161, and there is a temperature sensor 162, the heating temperature of the preheating resistance wire 161 does not exceed a preset temperature, and the preset temperature is set to the body temperature of the human body, generally 36.1 ℃ to 36.8 ℃, the condition that the auscultation device is damaged by the overhigh temperature of the preheating resistance wire 161 does not occur, and through the preheating operation of the preheating resistance wire 161, not only is the temperature rising speed fast, the detection efficiency is improved, but also the inaccurate detection result caused by the fact that the temperature of the auscultation device is too low and stimulates the skin of the user in. It should be noted that the computer programs and the connection modes between the temperature sensor 162, the processor 114 and the preheating resistance wire 161 are all very common technologies in the prior art, and those skilled in the art may refer to the technologies in the prior art, and are not described herein.
Further, the status output circuit includes at least one of a status display light, a display screen, and a speaker.
In one embodiment, the status output circuit is a status indicator 13, the status indicator 13 may be illuminated red when the diagnostic information is abnormal, the status indicator 13 may be illuminated green when the diagnostic information is normal, and the status indicator 13 may be illuminated yellow during the detection process.
Further, the status display lamp 13 may be in the form of a ring and may be provided around the junction of the body portion 101 and the handle portion 102, so that the user or doctor can observe the status displayed by the status display lamp 13.
Further, in the auscultation device of the present embodiment, the surface of the handle portion 102 is provided with a slip prevention device 104 to prevent the auscultation device from slipping off during the detection process and affecting the body detection. Anti-slip threads or anti-slip contact points may be provided as the anti-slip means 104, and the embodiment is not limited thereto.
In one particular embodiment, anti-skid threads are provided as the anti-skid device 104, as shown in FIG. 1.
Further, this auscultation equipment of implementing, communication circuit 12 are WIFI module or bluetooth module.
Further, in the auscultation device of this embodiment, the communication circuit 12 may further be connected to an external printer, and the processor 114 may generate a corresponding waveform diagram according to the body data, control the communication circuit 12 to send the waveform diagram to the external printer, so that the external printer prints the waveform diagram, so that the user or the medical staff can further analyze according to the waveform diagram, so as to improve the accuracy of the diagnosis information.
The auscultation equipment and the intelligent auscultation system of this embodiment, including casing 10 and detection circuitry 11 who sets up respectively in casing 10, communication circuit 12, state output circuit, memory 14, detection circuitry 11 obtains user's health data, memory 14 is used for storing health data, detection circuitry 11 is still used for when receiving the output signal to health data, control memory 14 outputs health data, communication circuit 12 sends health data to terminal equipment, so that terminal equipment sends health data to remote server, and obtain the diagnostic information that remote server fed back, state output circuit is used for outputting the health status that corresponds with diagnostic information and reminds. By adopting the technical scheme of the embodiment, doctors or users can repeatedly listen to body data to make more accurate judgment, and can perform information interaction with external terminal equipment and a remote server through the communication circuit 12, so that remote diagnosis is realized, even if the users can obtain correct diagnosis results at home, the problem of insufficient medical care resources is solved, and the efficiency of seeing a doctor is improved.
Fig. 3 is a circuit block diagram provided by an embodiment of the intelligent auscultation system of the present invention. As shown in fig. 3, the present embodiment further provides an intelligent auscultation system, which includes an intelligent terminal 21 and the auscultation device 22 described above; the auscultation equipment 22 and the remote server 23 are respectively connected with the intelligent terminal 21, and the remote server 23 is also connected with the remote terminal 24.
The above devices may adopt a wireless connection mode or a wired connection mode, and this embodiment is not limited.
It is understood that the same or similar parts in the above embodiments may be mutually referred to, and the same or similar parts in other embodiments may be referred to for the content which is not described in detail in some embodiments.
It should be noted that, in the description of the present invention, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In addition, in the description of the present invention, "a plurality" means at least two unless otherwise specified.
In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.