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

Abstract

The utility model belongs to the technical field of intelligent medical treatment, in particular to an intelligent diagnosis and treatment instrument for microcirculation disorders, which aims to solve the problem that the existing diagnosis and treatment instrument cannot meet the diverse needs of users. The device of the utility model comprises: an equipment main body, which transmits control signals of each device and receives the running state signals fed back by each device; an airbag device, which receives the control signal and controls the change of the internal air pressure of the corresponding airbag and transmits the state signal; and a hyperthermia device, which receives the control signal And control the temperature of the hyperthermia pad and send status signals; the monitoring device obtains the monitoring data of the user and sends it to the main body of the device. On the one hand, the utility model can realize customized medical service in combination with the medical scheme of the intelligent medical platform;

Description

Intelligent diagnosis and treatment instrument for microcirculation disorders

technical field

The utility model belongs to the technical field of intelligent medical treatment, and particularly relates to an intelligent diagnosis and treatment instrument for microcirculation disorders.

Background technique

The intelligent diagnosis and treatment instrument for microcirculation disorders mainly inflates and deflates multiple airbags intermittently in a certain order, compressing muscle contraction to strengthen the return effect of muscle force on venous blood, thereby reducing the venous blood pressure on the venous vessel wall and valve, and at the same time. The same is true for the effect of management on lymphatic return. The intelligent diagnosis and treatment instrument for microcirculation disorders currently has an important medical role in clinical practice. Long-term use can help prevent thrombosis and limb edema, and can directly or indirectly treat many diseases related to blood and lymph circulation. At present, it has a large number of applications in various departments such as orthopedics, obstetrics and gynecology, lymphatic surgery, and breast prevention after surgery, with significant curative effects.

The intelligent diagnosis and treatment instrument for microcirculation disorders can save manpower and material resources. Patients with mild lymphedema, postoperative recovery period of lymphedema, and varicose veins can also use this product for nursing at home under the guidance of doctors. However, the existing intelligent diagnosis and treatment instruments for microcirculation disorders have a single inflation method, which is difficult to meet the diverse needs of users. In the process of use, it is also necessary to monitor some basic physiological health indicators of patients, such as body temperature, circumference, blood oxygen, and heart rate. , blood pressure and other data, using a variety of testing equipment, heavy workload, low patient comfort, fatigue of medical staff, multiple wiring, recording lead to low efficiency.

Utility model content

In order to solve the above problem in the prior art, that is, the problem that the existing medical instruments cannot meet the diverse needs of users, the utility model provides an intelligent diagnosis and treatment instrument for microcirculation disorders, the intelligent diagnosis and treatment instrument comprises a device body, an airbag device, Hyperthermia device, monitoring device;

The device body is configured to be connected to the airbag device through a communication link, to send a control signal of the airbag device and to receive operating status information of the airbag device; Signal and receive the operating state information of the hyperthermia device; connect with the monitoring device through a communication link, and receive the physiological health monitoring data collected by the monitoring device;

The airbag device is configured to receive control signals of different modes of the airbag device sent by the device body, control the internal air pressure of the corresponding airbag to change accordingly according to the different mode signals, and send the obtained airbag device operating status information to the device body;

The hyperthermia device is configured to receive the control information of the hyperthermia device sent by the device body, control the temperature change of the hyperthermia pad, and send the obtained information on the operation state of the hyperthermia device to the device body;

The monitoring device is configured to acquire the monitoring data of the used object and send it to the main body of the device.

In some preferred embodiments, the device body includes 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 operation status information of the airbag device, the operation status information of the hyperthermia device, and the monitoring data of the object to be used, and send them to the touch display device for display, and receive the input control information obtained by the touch display device;

The touch display device is configured to display the operation state information of the airbag device, the operation state information of the hyperthermia device, and the monitoring data of the used object, and interacts the acquired external input control information with the central processing unit;

The voice device is configured to interact with the information such as alarms and prompts 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 airbag device, the hyperthermia device, and the monitoring device.

In some preferred embodiments, the air bag device includes a tension collecting device, a pressure collecting device, an air pump, a solenoid valve, and an air bag;

The tension collecting device is used to measure the circumference of the measured limb of the use object;

the pressure collection device for measuring the air pressure inside the airbag in the airbag device;

The air pump provides air pressure for the air bag;

The solenoid valve converts the airbag device control signal into an on-off signal of the air pump, which is used to control the inflation, deflation and stop of the air pump;

The air bag is in contact with various parts of the object to be used, and performs artificial massage to simulate massage.

In some preferred embodiments, the hyperthermia device includes a temperature acquisition device, a temperature control device, and a hyperthermia pad;

The temperature acquisition device is used to measure the temperature of the hyperthermia site of the object;

The temperature control device converts the hyperthermia device control signal into a hyperthermia pad temperature adjustment signal;

The hyperthermia pad is installed on the side of the airbag that is in contact with the skin of the user, and adjusts the temperature according to the temperature adjustment signal.

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

In some preferred embodiments, the intelligent diagnosis and treatment instrument for microcirculation disorders further includes a remote terminal;

The remote terminal is configured to receive and display the operation state information of the airbag device, the operation state information of the hyperthermia device, and the monitoring data of the used object, and transmit the acquired input control information to the device main body.

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

The communication module is a combination of one or more 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 interface is used to obtain medical data sent by the intelligent medical cloud platform.

Another aspect of the present utility model proposes a method of using an intelligent diagnosis and treatment instrument for microcirculation disorders. Based on the above-mentioned intelligent diagnosis and treatment instrument for microcirculation disturbances, the usage method is as follows:

Step S10, obtaining the set working mode and treatment time;

Step S20, judge whether the remaining working time is 0, and jump to step S60; otherwise, send the airbag inflation signal according to the set working mode, collect and judge whether the airbag pressure value at time t is greater than the preset first threshold;

Step S30, set t=t+1, send an airbag inflation signal, collect and determine the airbag pressure value, until the airbag pressure value is greater than the preset first threshold, denote the current time as k;

Step S40, sending an airbag deflation signal according to the set working mode, collecting and judging whether the airbag pressure value at time k is less than a preset second threshold;

Step S50, set k=k+1, send an airbag deflation signal, collect and judge the airbag pressure value, until the airbag pressure value is less than the preset second threshold, return to step S20;

Step S60, sending all airbag deflation signals to complete the working process of the intelligent diagnosis and treatment instrument for microcirculation disorders.

In the third aspect of the present utility model, a data acquisition method is proposed, based on the above-mentioned intelligent diagnosis and treatment instrument for microcirculation disorders, the acquisition method is as follows:

Step C10, obtaining the set data collection time;

Step C20, judge whether the remaining data collection time is 0, and jump to step C30 if it is; otherwise, collect the data of each sensor;

Step C30, filtering, calculating and outputting the results of most of the sensor data;

Step C40, judging whether the output result data is normal, sending the data to the display device for display, and transmitting the data to the remote terminal through the communication device; otherwise, jump to Step C20 after alarming and prompting.

In a fourth aspect of the present invention, a storage device is provided, wherein a plurality of programs are stored, and the programs are suitable for being loaded and executed by a processor to realize the above-mentioned pressure wave therapy method and health data acquisition method.

In a fifth aspect of the present invention, a processing device is proposed, including a processor and a storage device; the processor is adapted to execute various programs; the storage device is adapted to store a plurality of programs; It is loaded and executed by the processor to realize the above-mentioned pressure wave treatment method and health data acquisition method.

The beneficial effects of the present utility model:

(1) As a part of intelligent medical care products, the intelligent diagnosis and treatment instrument for microcirculation disorders of the present invention can satisfy the dual operation of hospitals and families. Individuals can take professional care in the hospital. In addition, many related patients such as lymphedema or varicose veins can be treated by themselves through the intelligent diagnosis and treatment instrument for microcirculation disorders after discharge or relatively mild patients. The product of the utility model has a variety of treatment modes, supports the installation of multiple groups of airbags and can be freely combined, and can meet the interactive use of individuals and medical staff in various ways.

(2) The intelligent diagnosis and treatment instrument for microcirculation disorders of the present invention has the function of surfing the Internet, supports wireless/wired transmission of data, is connected to Internet data, can display its usage and personal physiological health monitoring on the intelligent medical platform, and can monitor Personal edema recovery, the intelligent medical platform also supports doctors' online medical treatment and realizes customized medical services.

Description of drawings

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

Fig. 1 is the structural schematic diagram of the intelligent diagnosis and treatment instrument for microcirculation disorders of the present utility model;

FIG. 2 is a schematic diagram of the connection structure between the intelligent diagnosis and treatment instrument for microcirculation disorders of the present invention and a remote terminal.

Detailed ways

The present application will be further described in detail below with reference to the accompanying drawings and embodiments. It can be understood that the specific embodiments described herein are only used to explain the related utility model, rather than limit the utility model. In addition, it should be noted that, for the convenience of description, only the parts related to the relevant utility model are shown in the drawings.

It should be noted that the embodiments in the present application and the features of the embodiments may be combined with each other in the case of no conflict. The present application will be described in detail below with reference to the accompanying drawings and in conjunction with the embodiments.

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

The device body is configured to be connected to the airbag device through a communication link, to send a control signal of the airbag device and to receive operating status information of the airbag device; Signal and receive the operating state information of the hyperthermia device; connect with the monitoring device through a communication link, and receive the physiological health monitoring data collected by the monitoring device;

The airbag device is configured to receive control signals of different modes of the airbag device sent by the device body, control the internal air pressure of the corresponding airbag to change accordingly according to the different mode signals, and send the obtained airbag device operating status information to the device body;

The hyperthermia device is configured to receive the control information of the hyperthermia device sent by the device body, control the temperature change of the hyperthermia pad, and send the obtained information on the operation state of the hyperthermia device to the device body;

The monitoring device is configured to acquire the monitoring data of the used object and send it to the main body of the device.

In order to describe the intelligent diagnosis and treatment instrument for microcirculation disorders of the present invention more clearly, each device in the method embodiment of the present invention will be described in detail below with reference to FIG. 1 .

An intelligent diagnosis and treatment instrument for microcirculation disorder according to an embodiment of the present utility model, the intelligent diagnosis and treatment instrument includes an equipment main body, an airbag device, a thermotherapy device, and a monitoring device, and each device is described in detail as follows:

The main body of the device is configured to be connected with the airbag device through a communication link, send a control signal of the airbag device and receive the operation status information of the airbag device; Receive the operating state information of the hyperthermia device; connect with the monitoring device through a communication link, and receive the physiological health monitoring data collected by the monitoring device.

The main body of the device includes 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 operating state information of the airbag device, the operating state information of the hyperthermia device, and the monitoring data of the used object, and send them to the touch display device for display, and receive the input control information obtained by the touch display device.

The central processing unit integrates the embedded firmware program, including the program design of a complete set of low power consumption solutions, the signal acquisition and filtering calculation processing of multi-sensor data, the realization of communication functions, and the selection of different working modes.

The touch display device is configured to display the operation state information of the airbag device, the operation state information of the hyperthermia device, and the monitoring data of the used object, and interacts the acquired external input control information with the central processing unit.

The voice device is configured to perform interaction between information such as alarms and prompts sent by the central processing unit and the acquired external input control information.

Touch display device, voice device, indicator lights, buttons, etc. form an interactive unit, which realizes stand-alone operation and alarm function of the device, and can realize the description of device functions and the use of animation demonstrations. When using, operate according to the set functions. In monitoring mode Various sensor data indicators can be realized, and icons can be viewed in different ways.

A power supply device, configured to provide power for the central processing unit, the touch display device, the voice device, the airbag device, the hyperthermia device, and the monitoring device.

The power supply device uses a transformer to convert the 220VAC power supply for daily use into 24VDC, 5VDC, 3.3VDC and other power supplies to supply different electrical devices.

The airbag device is configured to receive the airbag device control signal sent by the device body, control the change of the internal air pressure of the corresponding airbag, and send the acquired airbag device operating state information to the device body.

The air bag device includes a tension collection device, a pressure collection device, an air pump, a solenoid valve, and an air bag:

A tension collection device, used to measure the circumference of the measured limb of the object; a pressure collection device, used to measure the air pressure inside the air bag device; an air pump, to provide air pressure for the air bag; a solenoid valve, to control the air bag device The signal is converted into an on-off signal of the air pump, which is used to control the inflation, deflation and stop of the air pump; the air bag is in contact with the various parts of the object to be used, and the artificial massage is performed.

The airbag and the air pump are connected by hoses. The airbags are divided into upper limbs, lower limbs, conjoined airbags, hands, feet and other airbags. Each airbag has different models and is suitable for different groups of people. There are various types of airbags, among which the glove and foot cover models are products that were not available before, but have an effective role in protecting the patient's hand and foot function; in addition, the limbs part of the airbag adopts the shingled type, which can be used when the therapeutic apparatus is working. Step-by-step pressurization is performed, and the airbag interface can be uniformly pressurized.

The pressure sensor independently monitors the pressure of each air bag and provides feedback, which can effectively monitor the pressure state of each air bag and switch different working modes according to the settings; Change, effectively reduce the measurement work of doctors

The hyperthermia device is configured to receive the control information of the hyperthermia device sent by the device body, control the temperature change of the hyperthermia pad, and send the obtained information on the operation state of the hyperthermia device to the device body.

The hyperthermia device includes a temperature acquisition device, a temperature control device, and a hyperthermia pad:

A temperature acquisition device for measuring the temperature of the hyperthermia part of the object; the temperature control device for converting the control signal of the hyperthermia device into a thermotherapy pad temperature adjustment signal; the hyperthermia pad for adjusting the temperature according to the temperature The signal adjusts the temperature.

The monitoring device is configured to acquire the monitoring data of the used object and send it to the main body of the device.

The monitoring data includes body temperature, pulse, ECG, blood pressure, heart rate, blood oxygen, blood sugar, skin electricity, body fat, limb volume and other signals, which can realize the detection of human physiological health indicators during the nursing process.

The intelligent diagnosis and treatment instrument for microcirculation disorders also includes a remote terminal:

It is used to receive and display the operating state information of the airbag device, the operating state information of the hyperthermia device, and the monitoring data of the used object, and to transmit the acquired input control information to the main body of the device.

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

The communication module is a combination of one or more 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, which is used to obtain medical data sent by the intelligent medical cloud platform.

As shown in Figure 2, it is a schematic diagram of the connection structure between the intelligent diagnosis and treatment instrument for microcirculation disorders of the present invention and the remote terminal. The intelligent diagnosis and treatment instrument for microcirculation disturbances is connected with the remote terminal through the communication module, and can be connected to the remote terminal in a wired and/or wireless manner. It integrates the supporting software of the intelligent diagnosis and treatment instrument for microcirculation disorders, and can be connected to the intelligent medical cloud platform through a remote terminal to perform simulated manual drainage massage. Individuals for customized medical care. The remote terminal can be a computer, a PAD, a mobile phone, and the like.

The use method of the intelligent diagnosis and treatment instrument for microcirculation disorders according to the second embodiment of the present invention is based on the above-mentioned intelligent diagnosis and treatment instrument for microcirculation disorders, and the usage method is as follows:

Step S10, obtaining the set working mode and treatment time;

Step S20, judge whether the remaining working time is 0, and jump to step S60; otherwise, send the airbag inflation signal according to the set working mode, collect and judge whether the airbag pressure value at time t is greater than the preset first threshold;

Step S30, set t=t+1, send an airbag inflation signal, collect and determine the airbag pressure value, until the airbag pressure value is greater than the preset first threshold, denote the current time as k;

Step S40, sending an airbag deflation signal according to the set working mode, collecting and judging whether the airbag pressure value at time k is less than a preset second threshold;

Step S50, set k=k+1, send an airbag deflation signal, collect and judge the airbag pressure value, until the airbag pressure value is less than the preset second threshold, return to step S20;

Step S60, sending all airbag deflation signals to complete the working process of the intelligent diagnosis and treatment instrument for microcirculation disorders.

The data collection method of the third embodiment of the present invention is based on the above-mentioned intelligent diagnosis and treatment instrument for microcirculation disorders, and the collection method includes:

Step C10, obtaining the set data collection time;

Step C20, judge whether the remaining data collection time is 0, and jump to step C30 if it is; otherwise, collect the data of each sensor;

Step C30, filtering, calculating and outputting the results of most of the sensor data;

Step C40, judging whether the output result data is normal, sending the data to the display device for display, and transmitting the data to the remote terminal through the communication device; otherwise, jump to Step C20 after alarming and prompting.

A storage device according to the fourth embodiment of the present invention stores a plurality of programs, and the programs are adapted to be loaded and executed by a processor to realize the above-mentioned using method and data collection method of the intelligent diagnosis and treatment instrument for microcirculation disorders.

A processing device according to the fifth embodiment of the present invention includes a processor and a storage device; the processor is adapted to execute various programs; the storage device is adapted to store multiple programs; the programs are adapted to be loaded by the processor and stored Execute to realize the above-mentioned using method and data acquisition method of the intelligent diagnosis and treatment instrument for microcirculation disorder.

Those skilled in the art can clearly understand that, for the convenience and brevity of description, the specific working process and relevant description of the storage device and processing device described above can refer to the corresponding process in the foregoing method embodiments, which is not repeated here. Repeat.

Those skilled in the art should be aware that the modules and method steps of each example described in conjunction with the embodiments disclosed herein can be implemented by electronic hardware, computer software or a combination of the two, and the programs corresponding to the software modules and method steps Can be placed in random access memory (RAM), internal memory, read only memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, removable disk, CD-ROM, or as known in the art in any other form of storage medium. In order to clearly illustrate the interchangeability of electronic hardware and software, the components and steps of each example have been described generally in terms of functionality in the foregoing description. Whether these functions are performed in electronic hardware or software depends on the specific application and design constraints of the technical solution. Skilled artisans may use different methods of implementing the described functionality for each particular application, but such implementations should not be considered beyond the scope of this disclosure.

The term "comprising" or any other similar term is intended to encompass a non-exclusive inclusion such that a process, method, article or device/means comprising a list of elements includes not only those elements but also other elements not expressly listed, or Also included are elements inherent to these processes, methods, articles or devices/devices.

So far, the technical solutions of the present invention have been described with reference to the preferred embodiments shown in the accompanying drawings, but those skilled in the art can easily understand that the protection scope of the present invention is obviously not limited to these specific embodiments. On the premise of not departing from the principle of the present invention, those skilled in the art can make equivalent changes or replacements to the relevant technical features, and the technical solutions after these changes or replacements will fall within the protection scope of the present invention.

Claims (8)

1. an intelligent diagnosis and treatment instrument for microcirculation disorder, characterized in that, this intelligent diagnosis and treatment instrument comprises an equipment main body, an airbag device, a hyperthermia device, and a monitoring device; The device body is configured to be connected to the airbag device through a communication link, to send a control signal of the airbag device and to receive operating status information of the airbag device; Signal and receive the operating state information of the hyperthermia device; connect with the monitoring device through a communication link, and receive the physiological health monitoring data collected by the monitoring device; The airbag device is configured to receive control signals of different modes of the airbag device sent by the device body, control the internal air pressure of the corresponding airbag to change accordingly according to the different mode signals, and send the obtained airbag device operating status information to the device body; The hyperthermia device is configured to receive the control information of the hyperthermia device sent by the device body, control the temperature change of the hyperthermia pad, and send the obtained information on the operation state of the hyperthermia device to the device body; The monitoring device is configured to acquire the monitoring data of the used object and send it to the main body of the device. 2. The intelligent diagnosis and treatment instrument for microcirculation disorders according to claim 1, wherein the main body of the device 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 operation status information of the airbag device, the operation status information of the hyperthermia device, and the monitoring data of the object to be used, and send them to the touch display device for display, and receive the input control information obtained by the touch display device; The touch display device is configured to display the operation state information of the airbag device, the operation state information of the hyperthermia device, and the monitoring data of the used object, and interacts the acquired external input control information with the central processing unit; The voice device is configured to interact with the information such as alarms and prompts 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 airbag device, the hyperthermia device, and the monitoring device. 3. The intelligent diagnosis and treatment instrument for microcirculation disorders according to claim 1, wherein the air bag device comprises a tension collection device, a pressure collection device, an air pump, a solenoid valve, and an air bag; The tension collecting device is used to measure the circumference of the measured limb of the use object; the pressure collection device for measuring the air pressure inside the airbag in the airbag device; The air pump provides air pressure for the air bag; The solenoid valve converts the airbag device control signal into an on-off signal of the air pump, which is used to control the inflation, deflation and stop of the air pump; The air bag is in contact with each part of the object to be used for massage. 4 . The intelligent diagnosis and treatment instrument for microcirculation disorders according to claim 3 , wherein the hyperthermia device comprises a temperature acquisition device, a temperature control device, and a hyperthermia pad; 5 . The temperature acquisition device is used to measure the temperature of the hyperthermia site of the object; The temperature control device converts the hyperthermia device control signal into a hyperthermia pad temperature adjustment signal; The hyperthermia pad is installed on the side of the airbag that is in contact with the skin of the user, and adjusts the temperature according to the temperature adjustment signal. 5 . The intelligent diagnosis and treatment instrument for microcirculation disorders according to claim 1 , wherein the monitoring data includes body temperature, pulse, electrocardiogram, blood pressure, heart rate, blood oxygen, blood sugar, and electrical skin signals. 6 . 6. The intelligent diagnosis and treatment instrument for microcirculation disorders according to any one of claims 1-5, wherein the intelligent diagnosis and treatment instrument for microcirculation disorders further comprises a remote terminal; The remote terminal is configured to receive and display the operation state information of the airbag device, the operation state information of the hyperthermia device, and the monitoring data of the used object, and transmit the acquired input control information to the device main body. 7. The intelligent diagnosis and treatment instrument for microcirculation disorders according to claim 6, wherein the remote terminal is connected to the main body of the device through a communication module; The communication module is a combination of one or more 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 diagnosis and treatment instrument for microcirculation disorders according to claim 6 , wherein the remote terminal is provided with a cloud platform data interface, and the interface is used to obtain medical data sent by the intelligent medical cloud platform. 9 .

Images