CN111561193A - Remote medical clinic kiosk - Google Patents

Abstract

The invention discloses a remote medical clinic kiosk, which comprises a kiosk body, a remote video session mechanism and a plurality of medical detection mechanisms, wherein the kiosk body is provided with a video display screen; the remote video session mechanism is arranged in the pavilion body so as to enable a user to carry out remote video call with a medical attendant when the user carries out diagnosis and treatment in the pavilion body; the plurality of medical detection mechanisms are arranged in the pavilion body, and each medical detection mechanism in the plurality of medical detection mechanisms is in communication connection with a terminal device of a medical attendant. The pavilion body provided by the invention can be arranged in any region without installation condition limitation, can be arranged in rural areas, can increase rural medical resources, and solves the problem of difficult seeing of the rural areas, and can be arranged in cities, so that people do not need to go to hospital outpatients for seeing, the problem of queuing for seeing for hours is avoided, and meanwhile, the tension of urban medical resources is greatly relieved.

Description

Remote medical clinic kiosk

Technical Field

The invention relates to the technical field of remote medical treatment, in particular to a remote medical clinic kiosk.

Background

At present, because the regions of China are wide, the economic development of each region is unbalanced, the medical resources are seriously unevenly distributed, and high-quality medical resources are mainly concentrated in large and medium cities, the problems that the medical resources in vast rural areas are deficient and people in rural areas have difficulty seeing a doctor are caused. Meanwhile, with the increase of population, the medical resources in each large and medium-sized city are gradually insufficient, so that the medical staff of each medical institution greatly exceeds the maximum load of the medical staff, and each medical institution is crowded.

According to statistics, most of patients going to outpatients of medical institutions are non-sick, non-emergency or re-diagnosis personnel, but due to shortage of medical resources, the problems of queuing for hours and seeing a doctor for minutes occur, so that not only is the time of the patients greatly wasted, but also more medical resources are occupied. Therefore, how to solve the problem that urban people and rural people see a doctor while relieving medical resources becomes a problem to be solved urgently.

Disclosure of Invention

In order to solve the problems of long time for seeing a doctor and difficult seeing a doctor in rural areas caused by the fact that the existing urban medical treatment resources are short, the invention aims to provide a remote medical clinic kiosk which can realize remote medical treatment for users, does not need to go to a hospital and can be arranged in any area.

The technical scheme adopted by the invention is as follows:

the invention provides a remote medical clinic kiosk, comprising: a kiosk body, a remote video session mechanism, and a plurality of medical detection mechanisms;

the remote video session mechanism is arranged in the pavilion body so as to enable a user to carry out remote video call with a medical attendant when the user carries out diagnosis and treatment in the pavilion body;

the medical detection mechanisms are arranged in the pavilion body, and each medical detection mechanism in the medical detection mechanisms is in communication connection with a terminal device of a medical attendant;

when the user uses any one medical detection mechanism, the detection data of the user is sent to the terminal equipment of the medical service person corresponding to the medical detection mechanism so as to be checked by the medical service person.

Based on the disclosure, the invention adopts the pavilion body as the place for the user to see a doctor, and a plurality of medical detection mechanisms which are in communication connection with the terminal equipment of the remote medical server are arranged in the pavilion body, namely, the medical detection mechanisms are used for realizing the physical examination of the user, and the examined data are transmitted to the terminal equipment of the remote medical server in real time, so that the medical server can check each physical examination data of the user and communicate with the user through the remote video session mechanism, thereby realizing the remote medical treatment. Through the design, the pavilion body provided by the invention can be arranged in any region without installation condition limitation, can be arranged in rural areas, can increase rural medical resources, and solves the problem of difficulty in seeing a doctor in rural areas, and can be arranged in a city, so that people do not need to go to a hospital for seeing a doctor, the problem of queuing for seeing a doctor for hours is avoided, and meanwhile, the tension of urban medical resources is greatly relieved.

In one possible design, the plurality of medical testing facilities includes any one or any combination of the following;

the blood pressure detection mechanism, the blood oxygen detection mechanism, the heart rate detection mechanism, the body temperature detection mechanism, the electrocardio detection mechanism, the auscultation mechanism and the blood sugar detection mechanism.

Based on the above disclosure, the present invention can realize the examination of a plurality of physical items in the kiosk body, and increase the comprehensiveness of the examination in the outpatient kiosk.

In one possible design, a diagnosis and treatment chair with a retractable back in the vertical direction is arranged in the pavilion body, wherein the blood pressure detection mechanism, the blood oxygen detection mechanism, the heart rate detection mechanism and the auscultation mechanism are all arranged on the diagnosis and treatment chair.

Based on the disclosure, the diagnosis and treatment chair is arranged in the pavilion body, so that the pavilion can be used as a chair for a user when the user asks for a doctor, the user is prevented from standing for a long time, and the comfort level of the doctor is improved; on the other hand, diagnose that the chair is scalable and the back can be laid down, can diagnose the height of chair according to the user regulation of different heights, be convenient for adjust to the most suitable video conversation height, simultaneously, diagnose the back of chair and lay down the back, can regard as the medical bed, carry out each physical examination.

In one possible design, the remote video session mechanism includes a display screen, a camera, a speaker, and a plurality of microphones;

the display screen and the camera are both arranged on the inner wall of the pavilion body and are opposite to the diagnosis and treatment chair;

the speaker and the plurality of microphones are respectively disposed on an inner wall of the booth body.

Based on the above disclosure, the remote video call between the user in the pavilion body and the medical service person can be realized through the display screen, the camera, the loudspeaker and the microphone, and then the remote medical treatment can be completed. Of course, the implementation disclosed above is only one implementation of a remote video session authority.

In one possible design, a detachable medical detection mechanism mounting cabinet is further arranged on the inner side wall of the pavilion body, wherein the medical detection mechanism mounting cabinet comprises a bottom plate and a mounting groove;

the bottom plate is provided with the mounting groove, and the medical detection mechanism is arranged in the mounting groove;

the left side and the right side of the top of the mounting groove are respectively provided with a bolt, and bolt holes which are in one-to-one correspondence with the positions of the bolts and are mutually matched are arranged in the side wall of the pavilion body;

the pavilion is characterized in that threaded through holes are respectively formed in the left side and the right side of the bottom end of the bottom plate, and threaded blind holes which correspond to the threaded through holes one to one are formed in the side wall of the pavilion body.

Based on the content disclosed above, the quick replacement of the medical detection mechanism mounting cabinet can be realized, so that the replacement of the internal medical detection mechanism is realized, and the diagnosis and treatment requirements of different users are met. The replacement principle is as follows: during the dismantlement, twist out the screw rod in screw thread through-hole and the screw thread blind hole earlier, extract the bolt from the bolt hole again, can realize the quick dismantlement of medical detection mechanism installation cabinet. In the same way, during installation, the bolt is inserted into the bolt hole, the screw passes through the thread through hole and is screwed into the thread blind hole, and the quick installation of the medical detection mechanism installation cabinet can be realized.

In one possible design, the remote medical outpatient kiosk further includes a disinfection mechanism, wherein the disinfection mechanism includes an ozone generator and a plurality of ultraviolet disinfection tubes;

the ozone generator is arranged in the wall body of the pavilion body, and a plurality of ozone air outlets communicated with the outlet end of the ozone generator are arranged in the pavilion body;

and the ultraviolet disinfection lamp tubes are respectively arranged in the wall included angle between two adjacent inner walls of the pavilion body.

Based on the above disclosure, ozone can be introduced into the pavilion body, and each part in the pavilion body can be disinfected by combining an ultraviolet disinfection lamp tube, so that the sanitation in the pavilion body is ensured, the propagation of bacteria and viruses is avoided, and the sanitation and safety of a user who makes an inquiry in the pavilion body in the past are ensured.

In one possible design, the remote medical outpatient kiosk further includes an air purification mechanism, wherein the air purification mechanism includes an exhaust fan and an intake fan;

the exhaust fan sets up the top of the pavilion body, the bottom of the pavilion body is provided with the air intake, the inside of the pavilion body is equipped with the air outlet, wherein, the end intercommunication that induced drafts of fan advance the air intake, the air-out end intercommunication of fan advance the air outlet, just the end that induced drafts of fan advance with set up air filter between the air intake.

Based on the above disclosure, the replacement of air in the pavilion body can be realized through the air inlet fan and the exhaust fan, so as to ensure the air circulation in the pavilion body, and meanwhile, the exhaust fan can be used for quickly discharging ozone in the pavilion body after disinfection, so that the next user can conveniently enter the pavilion body for remote medical treatment; in addition, set up air filter in air intake department, can purify the air that gets into the pavilion body, guarantee the internal air quality of pavilion.

In one possible design, the remote medical outpatient kiosk includes a temperature and humidity adjustment mechanism, wherein the temperature and humidity adjustment mechanism includes a humidifier, a dehumidifier, a temperature and humidity sensor, and an air conditioner;

the humidifier with the dehumidifier all sets up the inside of the pavilion body, temperature and humidity sensor is equipped with a plurality ofly, and installs respectively on each inner wall of the pavilion body, the top of the pavilion body still be provided with the air conditioner air outlet of air conditioner air-out end intercommunication.

Based on the above disclosure, the humiture in the pavilion body can be detected in real time through the humiture sensor, and the temperature and humidity in the pavilion body can be adjusted through the humidifier, the dehumidifier and the air conditioner, so that the constant humiture in the pavilion body can be ensured.

In one possible design, a demonstration screen for teaching a user to use each of the medical examination facilities is further provided on an inner wall of the kiosk body.

Based on the above disclosure, the user can be instructed to use each medical detection mechanism through the demonstration screen, and how to operate the medical detection mechanism is demonstrated, so that the use convenience is greatly improved.

In one possible design, an electric translation door is arranged on the outer wall of the pavilion body, an access control mechanism for identifying a user is arranged on the electric translation door, and an automatic medicine selling cabinet is further arranged on the outer wall of the pavilion body.

Based on the above disclosure, after the remote medical treatment is completed, the user can directly purchase corresponding medicines in the automatic medicine selling cabinet, so that the use convenience is further improved.

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 schematic perspective view of a remote medical clinic kiosk provided by the present invention.

Figure 2 is a schematic diagram of a telemedicine clinic kiosk provided by the present invention with the roof removed.

Fig. 3 is a schematic perspective view of the remote medical clinic kiosk provided by the invention with the electric translation door and the automatic medicine vending cabinet removed.

Fig. 4 is a schematic structural diagram of a medical detection mechanism mounting cabinet provided by the invention.

Figure 5 is a top view of a remote medical kiosk provided by the present invention.

Fig. 6 is a schematic view of an installation structure of the air inlet, the air outlet and the air inlet fan provided by the invention.

Fig. 7 is a communication configuration diagram of a remote medical outpatient kiosk provided by the present invention.

Reference numeral, 1-a pavilion body; 2-a diagnosis and treatment chair; 3-a display screen; 4-a camera; 5-a loudspeaker; 6-a microphone; 7-medical detection mechanism mounting cabinet; 8-a bottom plate; 9-mounting grooves; 10-a bolt; 11-a threaded through hole; 12-ultraviolet sterilizing lamp tube; 13-an ozone outlet; 14-exhaust fan; 15-air inlet; 16-air outlet; 17-an air filter element; 18-a humidifier; 19-a dehumidifier; 20-a temperature and humidity sensor; 21-air-conditioning air outlet; 22-a presentation screen; 23-an electric translation door; 24-automatic medicine selling cabinet; 25-an air inlet fan; 26-high definition camera; 27-a card reader; 28-glazing; 29-operating platform.

Detailed Description

The invention is further described with reference to the following figures and specific embodiments. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. Specific structural and functional details disclosed herein are merely illustrative of example embodiments of the invention. This invention may, however, be embodied in many alternate forms and should not be construed as limited to the embodiments set forth herein.

It will be understood that, although the terms first, second, etc. may be used herein to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another. For example, a first element could be termed a second element, and, similarly, a second element could be termed a first element, without departing from the scope of example embodiments of the present invention.

It should be understood that, for the term "and/or" as may appear herein, it is merely an associative relationship that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, B exists alone, and A and B exist at the same time; for the term "/and" as may appear herein, which describes another associative object relationship, it means that two relationships may exist, e.g., a/and B, may mean: a exists independently, and A and B exist independently; in addition, for the character "/" that may appear herein, it generally means that the former and latter associated objects are in an "or" relationship.

It is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments of the invention. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises," "comprising," "includes" and/or "including," when used herein, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, numbers, steps, operations, elements, components, and/or groups thereof.

Example one

As shown in fig. 1 to 7, the remote medical outpatient kiosk provided in the present embodiment includes: akiosk body 1, a remote video session facility, and a plurality of medical detection facilities.

The remote video conversation means is provided in thekiosk body 1 so that a user can make a remote video call with a medical service person when making a medical treatment in thekiosk body 1.

The plurality of medical detection mechanisms are arranged in thepavilion body 1, and each of the plurality of medical detection mechanisms is in communication connection with a terminal device of a medical attendant.

When the user uses any one medical detection mechanism, the detection data of the user is sent to the terminal equipment of the medical service person corresponding to the medical detection mechanism so as to be checked by the medical service person.

As shown in fig. 1 and fig. 2, the remote medical clinic kiosk provided in the present embodiment has a kiosk structure, that is, a user performs remote medical treatment in thekiosk body 1, and thekiosk body 1 may be, but is not limited to: square kiosks, round kiosks, and the like. The pavilion body provided by the embodiment can be installed in any region, and the installation region is not limited. For example, thekiosk 1 may be installed in a shopping mall, a drug store, a grocery store, an office building, a village, a community medical center, a community living committee, or the like.

In the present embodiment, a remote video session mechanism is provided in thekiosk body 1 for implementing a video call between the user and the remote medical service author, that is, the user and the medical service can communicate via the remote video session mechanism, for example, the medical service can ask the physical condition of the user, what kind of symptoms are present, and the like. In this embodiment, the example medical service provider may include, but is not limited to: a doctor.

In the present embodiment, a plurality of medical detection mechanisms are further provided in thekiosk body 1 so as to complete various physical examinations of the user, and in order to enable the medical service provider to view various detection data of the user, each medical detection mechanism is also connected to the terminal device of the medical service provider in a communication manner so as to complete data transmission.

In this embodiment, in order to implement data transmission, each hardware device for implementing network transmission is provided in thekiosk body 1, but the hardware device may include, but is not limited to: a controller, a communication module, etc.

For example, the controller is a control motherboard of Cortex-a72, a signal output end of each medical detection mechanism is connected to a corresponding serial port of the control motherboard, and the control motherboard is further provided with an EMMC (Embedded Multi media card, Embedded Memory standard specification) serial port, an ethernet, WiFi, bluetooth 4.0, an Audio (compressed digital voice format, AU), an EEPROM (Electrically Erasable Programmable Read-Only Memory), an SD-card, a USB interface, a HOST interface, and the like, so as to realize each function in thekiosk body 1, such as using a WiFi module and a network cable such as an ethernet rescue and a WiFi interface, to realize uploading of detection data, and simultaneously, using the EMMC to realize storage of various data in thekiosk body 1, and using the Audio to connect a remote video session mechanism, to realize transmission of sound.

In this embodiment, the data of each medical detection mechanism can be uploaded to the server by the control motherboard, and then transmitted to the terminal device of the medical server by the server, which are all the prior art.

Of course, in this embodiment, the user can use the outpatient kiosk to perform remote medical treatment with only one medical service provider, and also can perform expert consultation according to the user's requirement to perform remote medical treatment with a plurality of medical service providers in thekiosk body 1.

In this embodiment, the plurality of medical detection mechanisms include any one or any combination of a blood pressure detection mechanism, a blood oxygen detection mechanism, a heart rate detection mechanism, a body temperature detection mechanism, an electrocardiogram detection mechanism, an auscultation mechanism, and a blood sugar detection mechanism.

In this embodiment, the terminal device of the medical attendant is preferably a computer.

The following is a specific example of each medical examination facility:

the blood pressure detection mechanism may be, but is not limited to: the blood pressure meter is used for measuring the blood pressure of a user.

The blood oxygen detection mechanism may be, but is not limited to: an oximeter for detecting the oxygen saturation of blood of a user.

The heart rate detection mechanism may be, but is not limited to: a heart rate meter for detecting a heart rate of a user.

The body temperature detection mechanism may be, but is not limited to: the infrared thermal imaging line thermometer is used for detecting the body temperature of a user.

The electrocardiograph detection mechanism can be, but is not limited to: and the electrocardiogram measuring instrument is used for obtaining the electrocardiogram of the user.

The auscultation mechanism may be, but is not limited to: the stethoscope for detect the sound of user's heart, lung and intestines, when the auscultation mechanism was the stethoscope, can set up sound sensor at the listening end of stethoscope to realize the collection of sound in the stethoscope, and be connected to the control mainboard with sound sensor, in order to realize the real-time transmission of the sound that the stethoscope detected.

The blood glucose detection mechanism may be, but is not limited to: a blood glucose meter for detecting blood glucose.

Of course, the above-listed medical detection mechanisms are only one form, and the present embodiment also makes corresponding improvements to the medical detection mechanisms and thekiosk body 1 so as to be better used in thekiosk body 1.

Through the design, the remote medical clinic kiosk provided by the embodiment can be arranged in any region, is not limited by installation conditions, is arranged in rural areas, can increase rural medical resources, solves the problem of difficulty in seeing a doctor in rural areas, is arranged in a city, enables people to see a doctor without going to hospital clinics, avoids the problem of queuing for seeing a doctor for several hours, and greatly relieves the tension of urban medical resources.

Example two

As shown in fig. 1 to 7, the present embodiment provides a detailed structure of each mechanism in thekiosk body 1 in addition toembodiment 1, and may include, but is not limited to: remote video conversation mechanism, medical treatment detectionmechanism installation cabinet 7, disinfection mechanism, air purification mechanism and temperature humidity control mechanism.

As shown in fig. 2, first, the external structure of thebooth body 1 is described, in this embodiment, anelectric translation door 23 is provided on the outer wall of thebooth body 1, and an entrance guard mechanism for identifying a user is provided on theelectric translation door 23.

In this embodiment, the access control mechanism includes a high-definition camera 26 and acard reader 27, where the high-definition camera 26 is configured to collect a face image of a user, so as to implement face recognition of the user; thecard reader 27 is used for reading the identity card information of the user, and theelectronic translation door 23 can be automatically opened only when the face recognition is matched with the information read by thecard reader 27.

In this embodiment, for example, a user may implement online reservation of an outpatient kiosk through app, the user must upload own identity information (including face information and identification card information) during reservation, and after the user makes a reservation successfully, the user identity information is sent to a control main board in thekiosk body 1, and thehigh definition camera 26 and thecard reader 27 determine whether information actually collected by the user is consistent with the reservation information, and only if so, theelectric translation door 23 can be automatically opened.

In the present embodiment, the opening and closing of theelectric translation door 23 is controlled by the control main board provided in the embodiment.

When the outpatient kiosk of the embodiment is used in combination with software app, after the appointment is successful, a two-dimensional code is generated, a corresponding two-dimensional code scanner is arranged on the outer wall of thekiosk body 1 to complete the verification of the two-dimensional code, and meanwhile, a loudspeaker is arranged on the outer wall of thekiosk body 1 to give out prompt voice when the user fails in verification.

In the present embodiment, both face recognition and software app are prior art.

In this embodiment, aglass window 28 is further disposed on the electric slidingdoor 23 to avoid discomfort of a part of people (for example, people with claustrophobia, theglass window 28 is disposed to relieve symptoms of the closed environment to the claustrophobia people) when the electric slidingdoor 23 is closed.

In this embodiment, an infrared probe can be further disposed on the closed side of the electric slidingdoor 23, so as to avoid the problem that the electric slidingdoor 23 pinches a hand and squeezes a user, and improve the safety of use.

As shown in fig. 1, in the present embodiment, amedical chair 2 which is retractable in the vertical direction and has a retractable back is provided in thekiosk body 1, wherein the blood pressure detection mechanism, the blood oxygen detection mechanism, the heart rate detection mechanism, and the auscultation mechanism are all provided on themedical chair 2.

Through the design, on one hand, the diagnosis andtreatment chair 2 can be used as a chair for a user when the user asks for a diagnosis, so that the user is prevented from standing for a long time, and the diagnosis and treatment comfort level of the user is improved; on the other hand, diagnosechair 2 and can realize stretching out and drawing back from top to bottom and the back is fallen, can adjust the height of diagnosingchair 2 according to the people of different heights, is convenient for adjust to the most suitable video conversation height, simultaneously, diagnoses the back ofchair 2 and falls the back, can regard as the medical bed, carries out each physical examination.

In the present embodiment, the example of the extension and retraction of thechair 2 in the vertical direction can be, but is not limited to, the following: hydraulic telescoping rod, electric telescopic handle realize. The back part can be laid down, and the functions of the existing seat are realized.

In this embodiment, the blood oxygen detection mechanism, the heart rate detection mechanism and the auscultation mechanism are all arranged on the diagnosis andtreatment chair 2, so that the user can take the diagnosis and treatment chair conveniently. For example, when the blood oxygen detecting mechanism and the heart rate detecting mechanism are an oximeter and a cardiotachometer, respectively, they may be disposed in the placing groove of the armrest of thechair 2, and when the auscultation mechanism is a stethoscope, they may be hooked on the back of thechair 2. Of course, the above-described mounting manner and mounting area are only one of the manners in which the above-described medical examination apparatus is provided.

As shown in fig. 1 and 2, the following describes a specific structure of the remote video session mechanism:

in this embodiment, the remote video session mechanism comprises adisplay screen 3, acamera 4, aspeaker 5 and a plurality ofmicrophones 6.

Thedisplay screen 3 and thecamera 4 are both arranged on the inner wall of thepavilion body 1 and are opposite to the diagnosis andtreatment chair 2.

Saidspeaker 5 and said plurality ofmicrophones 6 are respectively arranged on an inner wall of saidbooth body 1.

Can gather user's video information in real time throughcamera 4, transmit to the control mainboard simultaneously to transmit to medical service person's terminal equipment through communication module, in the same way, user's sound information can be gathered in real time tomicrophone 6, also sends to medical service person's terminal equipment through control panel and communication module, and medical service person's audio and video information is then broadcast throughdisplay screen 3 andspeaker 5. Through the design, the remote communication between the user and the medical service provider (for example, the medical service provider inquires the symptom expression of the user, checks the examination data of the user and then communicates with the user) can be realized, and the remote medical treatment of the user is finally completed.

In this embodiment, ademonstration screen 22 for teaching a user to use each of the medical examination facilities is further provided on the inner wall of thebooth body 1. As shown in fig. 1, in the present embodiment, thedemonstration screen 22 is disposed around thedisplay screen 3, such as above, below, left and right sides, and the like, so as to be convenient for the user to view.

Through above-mentioned design, can use the use teaching animation of the various medical detection mechanism ofdisplay screen 22 broadcast, be convenient for instruct the user to operate medical detection mechanism, also can be equipped with corresponding pronunciation teaching simultaneously, combine the demonstration animation for teaching more popular and understandable, great improvement user uses medical detection mechanism's convenience.

In this embodiment, anoperation desk 29 is further provided inside thekiosk body 1, a document scanner is provided on theoperation desk 29, and when a user needs to send a paper document to a medical attendant for viewing, the document scanner can be used for scanning.

Of course, a high-definition camera may be disposed on theconsole 29, and when the user carries an X-ray film, the user can take the X-ray film through the high-definition camera and directly transmit the taken X-ray image to the terminal device of the medical service person, so that the medical service person can check the X-ray film.

In addition, in order to improve the brightness in thepavilion body 1, in the embodiment, an illuminating lamp is arranged in a wall included angle between two adjacent inner walls of thepavilion body 1, and the illuminating lamp is also arranged at the top of thepavilion body 1, so that the inside of thewhole pavilion body 1 is created into a shadowless environment, the brightness in thepavilion body 1 is high, and the definition of a background environment when a user and a medical service person video is ensured.

Optimized in the scheme, the detachable medical detectionmechanism installation cabinet 7 is further arranged on the side wall of thepavilion body 1, the medical detection mechanism is placed in the medical detectionmechanism installation cabinet 7, the mechanism installation is achieved, meanwhile, the installation cabinet can be detached, modular replacement of the medical detection mechanism can be facilitated, and physical examination requirements of different users are met.

For example, the medical detection mechanisms not mounted on thetreatment chair 2 may be mounted in the medical detectionmechanism mounting cabinets 7, and of course, each medical detectionmechanism mounting cabinet 7 corresponds to one medical detection mechanism, and correspondingly, a corresponding detection port may be provided at a side of the medical detectionmechanism mounting cabinet 7 facing the inside of thebooth body 1, so as to take the detection mechanism or extend hands and feet from the detection port for detection.

For example, the blood sugar test mechanism may be mounted in the medical testmechanism mounting cabinet 7, and the user may insert his or her hand through the test port to perform the test.

In this embodiment, each medical detectionmechanism mounting cabinet 7 is reserved with a corresponding signal interface, so as to realize transmission of detection data of the medical detection mechanism in the medical detectionmechanism mounting cabinet 7.

As shown in fig. 4, the specific structure of the medical examinationfacility mounting cabinet 7 will be explained in detail below:

in this embodiment, the medical detectionmechanism mounting cabinet 7 includes abottom plate 8 and a mountinggroove 9, wherein the mountinggroove 9 is disposed on thebottom plate 8, and the medical detection mechanism is disposed in the mountinggroove 9.

The left side and the right side of the top of the mountinggroove 9 are respectively provided with abolt 10, and bolt holes which are in one-to-one correspondence with the positions of thebolts 10 and are mutually matched are arranged in the side wall of thepavilion body 1;

the pavilion is characterized in that threaded throughholes 11 are respectively formed in the left side and the right side of the bottom end of thebottom plate 8, and threaded blind holes corresponding to the threaded throughholes 11 in position one to one are formed in the side wall of thepavilion body 1.

Of course, in this embodiment, the medical detectionmechanism mounting cabinet 7 is configured with a screw, so that the medical detectionmechanism mounting cabinet 7 is fixed by screwing the screw into the threaded throughhole 11 and the threaded blind hole.

The mounting and dismounting of the medical examinationapparatus mounting cabinet 7 will be explained below:

when the disassembly is carried out: the screw rods in the threaded through holes and the threaded blind holes are firstly screwed out, and then the bolts are pulled out from the bolt holes, so that the medical detectionmechanism mounting cabinet 7 can be quickly dismounted. In the same way, during installation, the bolt is inserted into the bolt hole, the screw passes through the thread through hole and is screwed into the thread blind hole, and the rapid installation of the medical detectionmechanism installation cabinet 7 can be realized. Through the design, the modularized replacement of the medical detection mechanism can be conveniently carried out, and the physical examination requirements of different users are met.

In the present embodiment, in order to ensure the hygiene inside thekiosk body 1, a sterilization mechanism is further provided, and the inside of thekiosk body 1 can be sterilized in a complete manner after the user has completed the remote medical care and has left thekiosk body 1.

As shown in fig. 2 and 5, the disinfecting mechanism includes an ozone generator and a plurality of ultraviolet disinfectinglamp tubes 12, the ozone generator is disposed inside the wall body of thepavilion body 1, a plurality ofozone outlets 13 communicated with the outlet end of the ozone generator are disposed in thepavilion body 1, and the ultraviolet disinfectinglamp tubes 12 are disposed in the wall included angle between two adjacent inner walls of thepavilion body 1.

By the design, the inside of thepavilion body 1 can be comprehensively disinfected by the ozone generator and the ultravioletdisinfection lamp tube 12, so that the next user can enter thepavilion body 1 safely and sanitarily, and the propagation of bacteria and viruses is avoided.

In the present embodiment, the procedure of each disinfection may be, but not limited to, 5 minutes, and a thermal infrared detector is further provided in thekiosk body 1 to determine whether the user is in thekiosk body 1, and disinfection is performed only when the user leaves thekiosk body 1.

In this embodiment, the control board is used to control the operation of the ozone generator and theultraviolet disinfection lamp 12.

In the present embodiment, an air cleaning mechanism is provided to promptly discharge ozone in thebooth 1 after the sterilization.

As shown in fig. 1, fig. 2, fig. 3, fig. 5, and fig. 6, in this embodiment, the air purification mechanism includes anexhaust fan 14 and anintake fan 25, wherein theexhaust fan 14 is disposed at the top of thepavilion body 1, anair inlet 15 is disposed at the bottom end of thepavilion body 1, anair outlet 16 is disposed inside thepavilion body 1, an air suction end of theintake fan 25 communicates with theair inlet 15, an air outlet end of theintake fan 25 communicates with theair outlet 16, and adetachable air filter 17 is disposed between the air suction end of theintake fan 25 and theair inlet 15.

Through the design, after thepavilion body 1 is disinfected, the control main board controls theexhaust fan 14 to start, so that ozone in thepavilion body 1 is extracted in time, and the next user can use thepavilion body 1 in time.

In this embodiment, in order to facilitate the user to know the inside condition of thepavilion body 1, an ozone sensor is further arranged in thepavilion body 1, and is used for detecting the ozone concentration in thepavilion body 1 in real time after disinfection, and meanwhile, a liquid crystal display screen is further arranged on theelectric translation door 23 and is used for displaying the ozone concentration detected by the ozone sensor in real time, and meanwhile, the liquid crystal display screen can also display other information in thepavilion body 1, such as temperature and humidity information in thepavilion body 1, whether the sterilization is in the middle (can be displayed during disinfection, and during disinfection), whether an ultraviolet disinfection lamp tube is opened or not, and the like. By the above-described design, it is possible to facilitate the use of knowing the internal condition of thebooth body 1.

Meanwhile, air circulation in thepavilion body 1 can be completed through theair inlet fan 25 and theexhaust fan 14, namely dirty air in thepavilion body 1 is exhausted through theexhaust fan 14, fresh air outside is sucked through theair inlet fan 25, air circulation in thepavilion body 1 is guaranteed, and the situation of air tightness and the like is avoided.

In the present embodiment, in order to further improve the quality of the sucked air, theair filter 17 is disposed between the air suction end of theair intake fan 25 and theair intake 15, and theair filter 17 is disposed to purify the sucked air, thereby ensuring better quality of the air in thepavilion body 1.

In the present embodiment, theair filter 17 is detachably mounted inside the inner wall of thepavilion body 1, so that the replacement is convenient, and the purification effect of the air sucked into thepavilion body 1 is ensured.

In the present embodiment theair intake fan 25 is mounted inside the inner wall of thebooth body 1, i.e. between theair intake opening 15 and theair outlet opening 16.

In the above-mentioned scheme, further optimized, a temperature and humidity adjusting mechanism is further provided in thepavilion body 1, so as to adjust the temperature and humidity in thepavilion body 1 in real time, so that the temperature and humidity in thepavilion body 1 are kept constant.

As shown in fig. 2 and 4, the temperature and humidity adjusting mechanism includes ahumidifier 18, adehumidifier 19, a temperature andhumidity sensor 20, and an air conditioner, wherein thehumidifier 18 and thedehumidifier 19 are both disposed inside thebooth body 1, the temperature andhumidity sensors 20 are provided in plurality and respectively mounted on each inner wall of thebooth body 1, and anair conditioner outlet 21 communicated with an air conditioner outlet end is further provided at the top of thebooth body 1.

Through the design, the temperature and humidity in thepavilion body 1 can be monitored in real time by using the temperature andhumidity sensor 20, and the temperature and humidity in thepavilion body 1 can be adjusted through thehumidifier 18, thedehumidifier 19 and the air conditioner.

In this embodiment, for example, the operations of thehumidifier 18, thedehumidifier 19, and the air conditioner are controlled by the control main board, that is, the temperature andhumidity sensor 20 transmits temperature and humidity data to the control main board, and once the temperature and humidity data do not reach the preset value, the control main board starts thehumidifier 18, thedehumidifier 19, and the air conditioner, so as to adjust the temperature and humidity in thekiosk body 1.

In this embodiment, the preset temperature is 25 ℃ and the humidity is 45% to 65%.

In the present embodiment, an example air conditioner may be installed on the outer side wall of thebooth body 1.

In this embodiment, besides the above-mentioned each mechanism, still be provided with fire control mechanism, be provided with smoke alarm and dry powder shower nozzle promptly inpavilion body 1, when smoke alarm detects the smog to appear inpavilion body 1, the control mainboardjudges pavilion body 1 conflagration promptly, and steerable dry powder shower nozzle sprays dry powder, and timely elimination conflagration hidden danger guarantees the safety ofpavilion body 1 and user.

Of course, when smoke alarm detected the conflagration to appear in thepavilion body 1,electronic translation door 23 can directly be opened to the control mainboard, and simultaneously, the emergency light of inside setting and the sign of fleing all can light, instruct the quick evacuation of user.

In this embodiment,pavilion body 1 still disposes USP uninterrupted power source to when cutting off the power supply inpavilion body 1, provide emergency power, guarantee the normal work of each mechanism inpavilion body 1, also can guarantee the normal switching ofelectronic translation door 23 simultaneously, avoid appearing because of the unable condition that leads to the user stranded of opening the door that has a power failure.

In addition, in this embodiment, the automatic medicine selling cabinet 24 is further provided on the outer wall of thekiosk body 1, and through the above design, the user can directly purchase the corresponding medicine in the automatic medicine selling cabinet 24 after the telemedicine is completed, thereby further increasing the convenience of use.

In conclusion, the remote medical clinic kiosk provided by the invention can be arranged in any region without installation condition limitation, can increase rural medical resources when being arranged in rural areas, solves the problem of difficulty in seeing a doctor in rural areas, and can be arranged in a city, so that people do not need to go to a hospital clinic for seeing a doctor, the problem of queuing for seeing a doctor for several hours is avoided, and meanwhile, the tension of urban medical resources is greatly relieved.

The invention is not limited to the above alternative embodiments, and any other various forms of products can be obtained by anyone in the light of the present invention, but any changes in shape or structure thereof, which fall within the scope of the present invention as defined in the claims, fall within the scope of the present invention.

Claims (10)

1. A telemedicine outpatient kiosk, comprising: a pavilion body (1), a remote video session mechanism and a plurality of medical detection mechanisms;

the remote video conversation mechanism is arranged in the pavilion body (1) so as to enable a user to carry out remote video conversation with a medical service person when the user carries out diagnosis and treatment in the pavilion body (1);

the medical detection mechanisms are arranged in the pavilion body (1), and each medical detection mechanism of the medical detection mechanisms is in communication connection with a terminal device of a medical attendant;

when the user uses any one medical detection mechanism, the detection data of the user is sent to the terminal equipment of the medical service person corresponding to the medical detection mechanism so as to be checked by the medical service person.

2. The remote medical outpatient kiosk of claim 1, wherein: the plurality of medical detection mechanisms comprise any one or any combination of the following;

the blood pressure detection mechanism, the blood oxygen detection mechanism, the heart rate detection mechanism, the body temperature detection mechanism, the electrocardio detection mechanism, the auscultation mechanism and the blood sugar detection mechanism.

3. The remote medical outpatient kiosk of claim 2, wherein: the medical chair (2) with the retractable back in the vertical direction is arranged in the pavilion body (1), wherein the blood pressure detection mechanism, the blood oxygen detection mechanism, the heart rate detection mechanism and the auscultation mechanism are all arranged on the medical chair (2).

4. The remote medical outpatient kiosk of claim 3, wherein: the remote video session mechanism comprises a display screen (3), a camera (4), a loudspeaker (5) and a plurality of microphones (6);

the display screen (3) and the camera (4) are both arranged on the inner wall of the pavilion body (1) and are opposite to the diagnosis and treatment chair (2);

the loudspeaker (5) and the microphones (6) are respectively arranged on the inner wall of the pavilion body (1).

5. The remote medical outpatient kiosk of claim 1, wherein: a detachable medical detection mechanism mounting cabinet (7) is further arranged on the inner side wall of the pavilion body (1), wherein the medical detection mechanism mounting cabinet (7) comprises a bottom plate (8) and a mounting groove (9);

the bottom plate (8) is provided with the mounting groove (9), and the medical detection mechanism is arranged in the mounting groove (9);

the left side and the right side of the top of the mounting groove (9) are respectively provided with a bolt (10), and bolt holes which are in one-to-one correspondence with the positions of the bolts (10) and are mutually matched are arranged in the side wall of the pavilion body (1);

the pavilion is characterized in that threaded through holes (11) are respectively formed in the left side and the right side of the bottom end of the bottom plate (8), and threaded blind holes corresponding to the threaded through holes (11) in position one to one are formed in the side wall of the pavilion body (1).

6. The remote medical outpatient kiosk of claim 1, wherein: the device also comprises a disinfection mechanism, wherein the disinfection mechanism comprises an ozone generator and a plurality of ultraviolet disinfection lamp tubes (12);

the ozone generator is arranged in the wall body of the pavilion body (1), and a plurality of ozone air outlets (13) communicated with the outlet end of the ozone generator are arranged in the pavilion body (1);

the ultraviolet disinfection lamp tubes (12) are respectively arranged in the wall included angle between two adjacent inner walls of the pavilion body (1).

7. The remote medical outpatient kiosk of claim 1, wherein: the air purifier also comprises an air purifying mechanism, wherein the air purifying mechanism comprises an exhaust fan (14) and an intake fan (25);

exhaust fan (14) set up the top of the pavilion body (1), the bottom of the pavilion body (1) is provided with air intake (15), the inside of the pavilion body (1) is equipped with air outlet (16), wherein, the end intercommunication that induced drafts of fan (25) air intake (15), the air-out end intercommunication of fan (25) advances air outlet (16), just the end that induced drafts of fan (25) with be provided with air filter (17) between air intake (15).

8. The remote medical outpatient kiosk of claim 1, wherein: the temperature and humidity control system further comprises a temperature and humidity control mechanism, wherein the temperature and humidity control mechanism comprises a humidifier (18), a dehumidifier (19), a temperature and humidity sensor (20) and an air conditioner;

the humidifier (18) and the dehumidifier (19) are arranged inside the pavilion body (1), the temperature and humidity sensors (20) are arranged in a plurality and are respectively installed on each inner wall of the pavilion body (1), and an air conditioner air outlet (21) communicated with an air conditioner air outlet end is further arranged at the top of the pavilion body (1).

9. The remote medical outpatient kiosk of claim 1, wherein: and a demonstration screen (22) for teaching a user to use each medical detection mechanism is further arranged on the inner wall of the pavilion body (1).

10. The remote medical outpatient kiosk of claim 1, wherein: the pavilion is characterized in that an electric translation door (23) is arranged on the outer wall of the pavilion body (1), an access control mechanism for identifying users is arranged on the electric translation door (23), and an automatic medicine selling cabinet (24) is further arranged on the outer wall of the pavilion body (1).

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