CN211382568U - Intelligent diagnosis and treatment instrument for microcirculation disturbance - Google Patents

Abstract

The utility model belongs to the technical field of intelligent medical treatment, concretely relates to microcirculation obstacle intelligence diagnosis and treatment instrument aims at solving the problem that current diagnosis and treatment instrument can't satisfy user's diversified demand. The utility model discloses the device includes: the equipment main body is used for sending control signals of all devices and receiving running state signals fed back by all the devices; the air bag device receives the control signal and controls the internal air pressure change of the corresponding air bag and sends a state signal; a thermal therapy device for receiving the control signal, controlling the temperature of the thermal therapy pad and transmitting the state signal; and the monitoring device acquires the monitoring data of the object to be used and sends the monitoring data to the equipment main body. The utility model discloses an aspect can combine intelligent medical platform's medical scheme to realize customized medical service, and on the other hand has multiple treatment mode, but supports multiunit gasbag installation independent assortment, can satisfy the use of various ways.

Description

Intelligent diagnosis and treatment instrument for microcirculation disturbance

Technical Field

The utility model belongs to the technical field of intelligent medical treatment, concretely relates to microcirculation obstacle intelligence diagnosis and treatment instrument.

Background

Microcirculation disturbance intelligence diagnosis and treatment appearance is mainly through filling the gassing to a plurality of gasbags according to certain order intermittent type nature, oppresses muscle contraction and reaches the backward flow effect of strengthening muscle power to venous blood to alleviate vein vessel wall and the valve venous blood pressure that receives, it is also the same to the influence of lymph backward flow with the same principle. The intelligent diagnosis and treatment instrument for the microcirculatory disturbance has important clinical medical effects at present, is beneficial to preventing the formation of thrombus and limb edema after being used for a long time, and can directly or indirectly treat a plurality of diseases related to blood lymphatic circulation. At present, the traditional Chinese medicine composition is widely applied to various departments of orthopedics, obstetrics and gynecology, lymphatic surgery, prevention of postoperative attack of mammary gland department and the like in hospitals, and has obvious curative effect.

The intelligent diagnosis and treatment instrument for the microcirculatory disturbance can save manpower and material resources, and patients with mild lymphedema, postoperative convalescence personnel of the lymphedema, varicose veins and the like can also use the intelligent diagnosis and treatment instrument for family nursing under the guidance of doctors. However, the existing intelligent diagnosis and treatment instrument for microcirculation disturbance is single in inflation mode, and is difficult to meet the various demands of users, and in the using process, some basic physiological health indexes of patients need to be monitored, such as body temperature, circumference, blood oxygen, heart rate, blood pressure and other data, various detection devices are used, the workload is heavy, the comfort of the patients is low, and medical workers are tired, wiring for many times and recording result in low efficiency.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems in the prior art, namely the problem that the existing diagnosis and treatment instrument cannot meet the diversified demands of users, the utility model provides a microcirculation disturbance intelligent diagnosis and treatment instrument, which comprises an equipment main body, an air bag device, a thermotherapy device and a monitoring device;

the device main body is configured to be connected with the airbag device through a communication link, send an airbag device control signal and receive the operation state information of the airbag device; is connected with the thermal therapy device through a communication link, sends a thermal therapy device control signal and receives the thermal therapy device running state information; the monitoring device is connected with the monitoring device through a communication link and used for receiving physiological health monitoring data acquired by the monitoring device;

the airbag device is configured to receive different mode control signals of the airbag device sent by the equipment main body, control the internal air pressure of the corresponding airbag to change correspondingly according to the different mode signals, and send the acquired running state information of the airbag device to the equipment main body;

the thermal therapy device is configured to receive thermal therapy device control information sent by the equipment body, control temperature change of the thermal therapy pad and send acquired thermal therapy device running state information to the equipment body;

the monitoring device is configured to acquire monitoring data of a using object and send the monitoring data to the equipment main body.

In some preferred embodiments, the apparatus main body includes a central processing unit, a touch display device, a voice device, a power supply device;

the central processing unit is configured to receive the running state information of the air bag device, the running state information of the thermal therapy device, the monitoring data of the used object, send the monitoring data to the touch display device for displaying, and receive the input control information acquired by the touch display device;

the touch display device is configured to display the running state information of the air bag device, the running state information of the thermal therapy device and the monitoring data of the used object, and perform interaction between the acquired external input control information and the central processing unit;

the voice device is configured to perform interaction between information such as alarm and prompt sent by the central processing unit and the acquired external input control information;

the power supply device is configured to provide power for the central processing unit, the touch display device, the voice device, the air bag device, the thermal therapy device and the monitoring device.

In some preferred embodiments, the airbag device comprises a tension collecting device, a pressure collecting device, an air pump, an electromagnetic valve and an airbag;

the tension acquisition device is used for measuring the circumference of the measured limb of the using object;

the pressure acquisition device is used for measuring the air pressure in the air bag device;

the air pump is used for providing air pressure for the air bag;

the electromagnetic valve converts the control signal of the air bag device into an air pump on-off signal for controlling the inflation, deflation and stop of the air pump;

the air bag is in contact with each part of the object to be used, and performs artificial massage.

In some preferred embodiments, the thermal treatment device comprises a temperature acquisition device, a temperature control device, a thermal treatment pad;

the temperature acquisition device is used for measuring the temperature of the thermotherapy part of the user object;

the temperature control device converts the thermal therapy device control signal into a thermal therapy liner temperature adjusting signal;

the thermal therapy pad is arranged on one surface, which is in contact with the skin of a user, in the air bag, and the temperature is adjusted according to the temperature adjusting signal.

In some preferred embodiments, the monitoring data includes signals of body temperature, pulse, electrocardiogram, blood pressure, heart rate, blood oxygen, blood sugar, skin electricity, body fat, limb volume, and the like.

In some preferred embodiments, the intelligent microcirculatory disturbance diagnosis and treatment instrument further comprises a remote terminal;

the remote terminal is configured to receive and display the airbag device operation state information, the thermal therapy device operation state information, the usage object monitoring data, and transmit the acquired input control information to the apparatus main body.

In some preferred embodiments, the remote terminal is connected to the device body through a communication module;

the communication module is one or a combination of a WIFI communication module, a Bluetooth communication module, a ZigBee communication module, a GPRS communication module, an NB-IOT communication module and an Ethernet communication module.

In some preferred embodiments, the remote terminal is provided with a cloud platform data interface, and the cloud platform data interface is used for acquiring medical data sent by an intelligent medical cloud platform.

The utility model discloses an on the other hand provides a microcirculation obstacle intelligence diagnosis and treatment appearance application method, and based on foretell microcirculation obstacle intelligence diagnosis and treatment appearance, its application method is:

step S10, acquiring the set working mode and treatment time;

step S20, judging whether the residual working time is 0, if yes, jumping to step S60; otherwise, sending an airbag inflation signal according to the set working mode, collecting and judging whether the airbag pressure value at the moment t is greater than a preset first threshold value;

step S30, making t equal to t +1, sending an air bag inflation signal, collecting and judging an air bag pressure value until the air bag pressure value is greater than the preset first threshold value, and recording the current time as k;

step S40, sending an air bag deflation signal according to the set working mode, collecting and judging whether the air bag pressure value at the moment k is smaller than a preset second threshold value;

step S50, enabling k to be k +1, sending an air bag deflation signal, collecting and judging an air bag pressure value until the air bag pressure value is smaller than the preset second threshold value, and returning to the step S20;

and step S60, sending deflation signals of all air bags to finish the working process of the intelligent diagnosis and treatment instrument for the microcirculatory disturbance.

The third aspect of the utility model provides a data acquisition method, based on foretell microcirculation obstacle intelligence diagnosis and treatment appearance, this acquisition method is:

step C10, acquiring the set data acquisition time;

step C20, judging whether the residual data acquisition time is 0, if yes, jumping to step C30; otherwise, collecting data of each sensor;

step C30, filtering and calculating the data of most sensors and outputting the result;

step C40, judging whether the output result data is normal, if normal, sending the data to a display device for display, and transmitting the data to a remote terminal through a communication device; otherwise, alarming and prompting and then jumping to the step C20.

In a fourth aspect of the present invention, a storage device is provided, in which a plurality of programs are stored, the programs being adapted to be loaded and executed by a processor to implement the above-mentioned pressure wave treatment method and health data acquisition method.

In a fifth aspect of the present invention, a processing device is provided, which comprises a processor and a storage device; the processor is suitable for executing various programs; the storage device is suitable for storing a plurality of programs; the program is adapted to be loaded and executed by a processor to implement the pressure wave therapy method, the health data acquisition method described above.

The utility model has the advantages that:

(1) the utility model discloses a microcirculation obstacle intelligence diagnosis and treatment instrument is doctorsed and nurses a part of product as intelligence, can satisfy the dual operation of hospital, family. The individual can carry out professional nursing in a hospital, and in addition, a plurality of patients with lymphedema or varicose veins and other related diseases can be treated by the intelligent diagnosis and treatment instrument for microcirculatory disturbance automatically after being discharged or slightly. The utility model discloses the product has multiple treatment mode, but supports multiunit gasbag installation and independent assortment, can satisfy individual and medical personnel and carry out the interactive use of various ways, but the product touch callbacks out the description, convenience simple to use.

(2) The utility model discloses a microcirculation obstacle intelligence diagnosis and treatment appearance has the online function, supports the wireless/wired transmission of data, and internet data connection can show its in service behavior and the individual physiological health monitoring condition on intelligent medical platform to can monitor the individual edema recovery condition, intelligent medical platform still supports doctor's online medical treatment, realizes customized medical service.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 is a schematic structural view of the intelligent diagnosis and treatment instrument for microcirculatory disturbance of the present invention;

fig. 2 is the utility model discloses microcirculation obstacle intelligence diagnosis and treatment instrument and remote terminal connection structure sketch map.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and are not limiting of the invention. It should be noted that, for convenience of description, only the relevant portions of the related inventions are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

The utility model relates to an intelligent diagnosis and treatment instrument for microcirculation disturbance, which comprises an equipment main body, an air bag device, a thermotherapy device and a monitoring device;

the device main body is configured to be connected with the airbag device through a communication link, send an airbag device control signal and receive the operation state information of the airbag device; is connected with the thermal therapy device through a communication link, sends a thermal therapy device control signal and receives the thermal therapy device running state information; the monitoring device is connected with the monitoring device through a communication link and used for receiving physiological health monitoring data acquired by the monitoring device;

the airbag device is configured to receive different mode control signals of the airbag device sent by the equipment main body, control the internal air pressure of the corresponding airbag to change correspondingly according to the different mode signals, and send the acquired running state information of the airbag device to the equipment main body;

the thermal therapy device is configured to receive thermal therapy device control information sent by the equipment body, control temperature change of the thermal therapy pad and send acquired thermal therapy device running state information to the equipment body;

the monitoring device is configured to acquire monitoring data of a using object and send the monitoring data to the equipment main body.

In order to more clearly explain the intelligent diagnosis and treatment instrument for microcirculatory disturbance of the present invention, the following detailed description is provided for each device in the embodiment of the method of the present invention with reference to fig. 1.

The utility model relates to a microcirculation obstacle intelligence diagnosis and treatment instrument of embodiment, this intelligence diagnosis and treatment instrument include equipment main part, gasbag device, thermotherapy device, monitoring devices, and each device detailed description is as follows:

the device body is connected with the air bag device through a communication link, and is used for sending an air bag device control signal and receiving the running state information of the air bag device; is connected with the thermal therapy device through a communication link, sends a thermal therapy device control signal and receives the thermal therapy device running state information; and the monitoring device is connected with the monitoring device through a communication link and receives the physiological health monitoring data acquired by the monitoring device.

The equipment main body comprises a central processing unit, a touch display device, a voice device and a power supply device:

and the central processing unit is configured to receive the running state information of the air bag device, the running state information of the thermal therapy device, the monitoring data of the used object, send the monitoring data to the touch display device for displaying, and receive the input control information acquired by the touch display device.

The central processing unit integrates embedded firmware programs, and comprises the program design of a whole set of low power consumption scheme, the signal acquisition and filtering calculation processing of multi-sensor data, the realization of communication function, the selection of different working modes and the like.

And the touch display device is configured to display the running state information of the air bag device, the running state information of the thermal therapy device and the monitoring data of the used object, and perform interaction between the acquired external input control information and the central processing unit.

And the voice device is configured to perform interaction between information such as alarm and prompt sent by the central processing unit and the acquired external input control information.

The touch display device, the voice device, the indicating lamp, the keys and the like form an interaction unit, so that the single-machine operation and the alarm function of the equipment are realized, the description of the functions of the equipment and the demonstration of use animation can be realized, the operation is carried out according to the set functions during the use, various sensor data indexes can be realized in a monitoring mode, and the checking of different modes such as icons can be carried out.

A power supply device configured to provide power to the central processing unit, the touch display device, the voice device, the airbag device, the thermal therapy device, the monitoring device.

The power supply device adopts a transformer to convert a domestic 220VAC power supply into power supplies of 24VDC, 5VDC, 3.3VDC and the like, and supplies different electric devices.

And the air bag device is configured to receive the air bag device control signal sent by the equipment main body, control the internal air pressure change of the corresponding air bag and send the acquired running state information of the air bag device to the equipment main body.

The air bag device comprises a tension collecting device, a pressure collecting device, an air pump, an electromagnetic valve and an air bag:

the tension acquisition device is used for measuring the circumference of the measured limb of the using object; the pressure acquisition device is used for measuring the air pressure in the air bag device; the air pump is used for providing air pressure for the air bag; the electromagnetic valve converts the control signal of the air bag device into an air pump on-off signal and is used for controlling the inflation, deflation and stop of the air pump; an air bag which is contacted with each part of the using object to perform artificial massage.

The air bags are connected with the air pump through hoses, the air bags are divided into air bags for upper limbs, lower limbs, conjoined bodies, hands, feet and the like, and each air bag has different types and is suitable for different crowds. The air bag has various types, wherein the glove and foot cover mode is a product which is not available before, but has effective function in protecting the functions of hands and feet of a patient; in addition, the air bags of the limb parts adopt a imbricated type, so that the pressure can be gradually applied when the therapeutic apparatus works, and the boundary parts of the air bags can be uniformly applied.

The pressure sensor independently monitors the pressure of each air bag and feeds back the pressure, so that the pressure state of each air bag can be effectively monitored, and different working modes can be switched according to setting; the data of the object to be used are compared according to the pressure acquired by the pressure sensor, so that the change of the limb of the object to be used is obtained, and the measurement work of doctors is effectively reduced

A thermal therapeutic device configured to receive thermal therapeutic device control information transmitted from the apparatus body, control a thermal therapeutic pad temperature variation, and transmit acquired thermal therapeutic device operation state information to the apparatus body.

The thermal therapy device comprises a temperature acquisition device, a temperature control device and a thermal therapy pad:

a temperature acquisition device for measuring the temperature of the site for thermotherapy of the subject; the temperature control device converts the thermal therapy device control signal into a thermal therapy liner temperature adjusting signal; a thermal therapy pad for adjusting temperature according to the temperature adjusting signal.

And the monitoring device is configured to acquire the monitoring data of the using object and send the monitoring data to the equipment main body.

The monitoring data comprises signals of body temperature, pulse, electrocardio, blood pressure, heart rate, blood oxygen, blood sugar, skin electricity, body fat, limb volume and the like, and the detection of the physiological health indexes of the person in the nursing process can be realized.

Microcirculation obstacle intelligence diagnosis and treatment appearance still includes remote terminal:

for receiving and displaying the operation state information of the air bag device, the operation state information of the thermal therapy device, the monitoring data of the object to be used, and transmitting the acquired input control information to the apparatus main body.

The remote terminal is connected with the equipment main body through the communication module;

the communication module is one or a combination of a WIFI communication module, a Bluetooth communication module, a ZigBee communication module, a GPRS communication module, an NB-IOT communication module and an Ethernet communication module.

The remote terminal is provided with a cloud platform data interface, and the interface is used for acquiring medical data sent by the intelligent medical cloud platform.

As shown in fig. 2, for the utility model discloses microcirculation obstacle intelligence diagnosis and treatment appearance and remote terminal connection structure sketch map, microcirculation obstacle intelligence diagnosis and treatment appearance passes through communication module and is connected with remote terminal, can be through wired and/or wireless mode, the supporting software of microcirculation obstacle intelligence diagnosis and treatment appearance has been integrated among the remote terminal, and can be connected with intelligent medical treatment cloud platform through remote terminal, simulate artifical gimmick drainage massage, equipment accessible client software or touch-sensitive screen carry out personnel and bind, the doctor can carry out the customization medical treatment to everyone through the network. The remote terminal may be a computer, PAD, handset, etc.

The utility model discloses microcirculation obstacle intelligence diagnosis and treatment instrument application method of second embodiment is based on foretell microcirculation obstacle intelligence diagnosis and treatment instrument, and its application method is:

step S10, acquiring the set working mode and treatment time;

step S20, judging whether the residual working time is 0, if yes, jumping to step S60; otherwise, sending an airbag inflation signal according to the set working mode, collecting and judging whether the airbag pressure value at the moment t is greater than a preset first threshold value;

step S30, making t equal to t +1, sending an air bag inflation signal, collecting and judging an air bag pressure value until the air bag pressure value is greater than the preset first threshold value, and recording the current time as k;

step S40, sending an air bag deflation signal according to the set working mode, collecting and judging whether the air bag pressure value at the moment k is smaller than a preset second threshold value;

step S50, enabling k to be k +1, sending an air bag deflation signal, collecting and judging an air bag pressure value until the air bag pressure value is smaller than the preset second threshold value, and returning to the step S20;

and step S60, sending deflation signals of all air bags to finish the working process of the intelligent diagnosis and treatment instrument for the microcirculatory disturbance.

The utility model discloses the data acquisition method of third embodiment, based on foretell microcirculation obstacle intelligence diagnosis and treatment appearance, this acquisition method includes:

step C10, acquiring the set data acquisition time;

step C20, judging whether the residual data acquisition time is 0, if yes, jumping to step C30; otherwise, collecting data of each sensor;

step C30, filtering and calculating the data of most sensors and outputting the result;

step C40, judging whether the output result data is normal, if normal, sending the data to a display device for display, and transmitting the data to a remote terminal through a communication device; otherwise, alarming and prompting and then jumping to the step C20.

The utility model discloses a storage device of fourth embodiment has many procedures stored therein, the procedure is suitable for and is executed in order to realize foretell intelligent diagnosis and treatment instrument of microcirculation obstacle application method, data acquisition method by the loading of treater.

The utility model discloses a processing device of the fifth embodiment, which comprises a processor and a storage device; a processor adapted to execute various programs; a storage device adapted to store a plurality of programs; the program is suitable for being loaded and executed by a processor to realize the usage method and the data acquisition method of the intelligent diagnosis and treatment instrument for the microcirculatory disturbance.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes and related descriptions of the storage device and the processing device described above may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

Those of skill in the art would appreciate that the various illustrative modules, method steps, and modules described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that programs corresponding to the software modules, method steps may be located in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art. To clearly illustrate this interchangeability of electronic hardware and software, various illustrative components and steps have been described above generally in terms of their functionality. Whether such functionality is implemented as electronic hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The terms "comprises," "comprising," or any other similar term are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

So far, the technical solution of the present invention has been described with reference to the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Without departing from the principle of the present invention, a person skilled in the art can make equivalent changes or substitutions to the related technical features, and the technical solutions after these changes or substitutions will fall within the protection scope of the present invention.

Claims (8)

1. An intelligent diagnosis and treatment instrument for microcirculation disturbance is characterized by comprising an equipment main body, an air bag device, a thermotherapy device and a monitoring device;

the device main body is configured to be connected with the airbag device through a communication link, send an airbag device control signal and receive the operation state information of the airbag device; is connected with the thermal therapy device through a communication link, sends a thermal therapy device control signal and receives the thermal therapy device running state information; the monitoring device is connected with the monitoring device through a communication link and used for receiving physiological health monitoring data acquired by the monitoring device;

the airbag device is configured to receive different mode control signals of the airbag device sent by the equipment main body, control the internal air pressure of the corresponding airbag to change correspondingly according to the different mode signals, and send the acquired running state information of the airbag device to the equipment main body;

the thermal therapy device is configured to receive thermal therapy device control information sent by the equipment body, control temperature change of the thermal therapy pad and send acquired thermal therapy device running state information to the equipment body;

the monitoring device is configured to acquire monitoring data of a using object and send the monitoring data to the equipment main body.

2. The intelligent microcirculation disturbance diagnosis and treatment instrument according to claim 1, wherein the main body of the equipment comprises a central processing unit, a touch display device, a voice device and a power supply device;

the central processing unit is configured to receive the running state information of the air bag device, the running state information of the thermal therapy device, the monitoring data of the used object, send the monitoring data to the touch display device for displaying, and receive the input control information acquired by the touch display device;

the touch display device is configured to display the running state information of the air bag device, the running state information of the thermal therapy device and the monitoring data of the used object, and perform interaction between the acquired external input control information and the central processing unit;

the voice device is configured to perform interaction between information such as alarm and prompt sent by the central processing unit and the acquired external input control information;

the power supply device is configured to provide power for the central processing unit, the touch display device, the voice device, the air bag device, the thermal therapy device and the monitoring device.

3. The intelligent microcirculation disturbance diagnosis and treatment instrument according to claim 1, wherein the air bag device comprises a tension acquisition device, a pressure acquisition device, an air pump, an electromagnetic valve and an air bag;

the tension acquisition device is used for measuring the circumference of the measured limb of the using object;

the pressure acquisition device is used for measuring the air pressure in the air bag device;

the air pump is used for providing air pressure for the air bag;

the electromagnetic valve converts the control signal of the air bag device into an air pump on-off signal for controlling the inflation, deflation and stop of the air pump;

the air bag is in contact with each part of the object to be used to massage.

4. The intelligent microcirculation disturbance diagnosis and treatment instrument according to claim 3, wherein the thermal therapy device comprises a temperature acquisition device, a temperature control device and a thermal therapy pad;

the temperature acquisition device is used for measuring the temperature of the thermotherapy part of the user object;

the temperature control device converts the thermal therapy device control signal into a thermal therapy liner temperature adjusting signal;

the thermal therapy pad is arranged on one surface, which is in contact with the skin of a user, in the air bag, and the temperature is adjusted according to the temperature adjusting signal.

5. The intelligent therapeutic apparatus for microcirculatory disturbance according to claim 1, wherein the monitoring data includes body temperature, pulse, electrocardio, blood pressure, heart rate, blood oxygen, blood sugar, and skin electrical signals.

6. The intelligent microcirculatory disorder treatment instrument according to any one of claims 1-5, wherein the intelligent microcirculatory disorder treatment instrument further comprises a remote terminal;

the remote terminal is configured to receive and display the airbag device operation state information, the thermal therapy device operation state information, the usage object monitoring data, and transmit the acquired input control information to the apparatus main body.

7. The intelligent microcirculation disturbance diagnosis and treatment instrument according to claim 6, wherein the remote terminal is connected with the equipment main body through a communication module;

the communication module is one or a combination of a WIFI communication module, a Bluetooth communication module, a ZigBee communication module, a GPRS communication module, an NB-IOT communication module and an Ethernet communication module.

8. The intelligent microcirculation disturbance diagnosis and treatment instrument according to claim 6, wherein the remote terminal is provided with a cloud platform data interface, and the cloud platform data interface is used for acquiring medical data sent by the intelligent medical cloud platform.

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