CN217471931U - Data acquisition device, medical acquisition equipment and medical data processing system - Google Patents

Abstract

The application relates to a data acquisition device, a medical acquisition device and a medical data processing system. The device includes: including casing, one or more type sensor and controller, the sensor sets up in the casing, and the controller sets up in the casing, and each sensor all is connected with the controller, and the sensor is used for the monitoring to diagnose the physiological data of object to with physiological data transmission to controller, the controller is used for carrying out analysis processes to physiological data and obtains the analysis processes result. By adopting the method, integration of a plurality of sensors can be realized, so that various physiological data can be monitored by one monitoring device, and the problem that various physiological data can be monitored by various devices is avoided, so that the monitoring process of the physiological data is simple and rapid, meanwhile, various physiological data can be monitored by only purchasing one monitoring device, the monitoring purpose can be achieved by not purchasing various devices, and the equipment purchasing cost for monitoring the physiological data can be reduced.

Description

Data acquisition device, medical acquisition equipment and medical data processing system

Technical Field

The application relates to the technical field of medical treatment, in particular to a data acquisition device, medical acquisition equipment and a medical data processing system.

Background

In medical diagnosis, important physiological indexes of a diagnosis object can provide guidance for correct diagnosis of a doctor, so that monitoring of the physiological indexes is particularly important.

In the conventional technology, different physiological data acquisition devices are used to monitor corresponding physiological data, such as a thermometer, an electrocardiograph monitor, a sphygmomanometer, a blood oxygen monitor, a respiratory monitor, and the like. However, the conventional method results in high cost and complicated monitoring process for monitoring physiological data.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide a data acquisition device, a medical acquisition apparatus and a medical data processing system for solving the above technical problems.

A data acquisition device, the data acquisition device comprising: the device comprises a shell, one or more types of sensors and a controller, wherein the sensors are arranged in the shell, the controller is arranged in the shell, and each sensor is connected with the controller;

the sensor is used for monitoring physiological data of a diagnosis and treatment object and sending the physiological data to the controller;

the controller is used for analyzing and processing the physiological data to obtain an analysis processing result.

In one embodiment, the sensor comprises: at least one of a blood oxygen sensor, a temperature sensor, and a motion sensor;

the blood oxygen sensor is used for monitoring blood oxygen data of the diagnosis and treatment object;

the temperature sensor is used for monitoring the temperature data of the diagnosis and treatment object;

the motion sensor is used for monitoring the motion physiological data of the diagnosis and treatment object.

In one embodiment, the shell comprises an upper shell and a lower shell, the upper shell and the lower shell are connected to form a cavity, and the upper shell and the lower shell are detachably connected.

In one embodiment, a waterproof material is disposed within the cavity.

In one embodiment, the lower housing is provided with a hole structure, the temperature sensor is mounted in the hole structure, and the blood oxygen sensor is arranged on the inner surface of the lower housing.

In one embodiment, the data acquisition device further comprises: the controller is arranged on the board card in the cavity, and the motion sensor is arranged on the board card.

In one embodiment, the data acquisition device further comprises: the battery is arranged between the board card and the lower shell, and is connected with the sensors and the controller.

In one embodiment, the data acquisition device further comprises: the alarm module is arranged on the outer surface of the shell and is connected with the controller;

the controller is further used for controlling the alarm module to output an alarm signal when the analysis processing result is abnormal information.

In one embodiment, the data acquisition device further comprises: the wireless transceiver is connected with the controller and arranged in the cavity;

the controller is also used for communicating with external equipment through the wireless transceiver.

The data acquisition device comprises a shell, one or more types of sensors and a controller, wherein the sensors are arranged in the shell, the controller is arranged in the shell, each sensor is connected with the controller, the sensors are used for monitoring physiological data of a diagnosis and treatment object and sending the physiological data to the controller, and the controller is used for analyzing and processing the physiological data to obtain an analysis and processing result; this data acquisition device can realize that a plurality of sensors are integrated to just can monitor multiple physiological data through a monitoring facilities, avoid just can monitor multiple physiological data's problem through multiple equipment, thereby make physiological data's monitoring process simple, swift, simultaneously, only need purchase monitoring facilities just can monitor multiple physiological data, just can reach the monitoring purpose not need to purchase multiple equipment, thereby can also reduce the equipment acquisition cost of monitoring physiological data.

A medical acquisition apparatus comprising a data acquisition device as in any one of the embodiments above and an electrocardiograph monitor;

the electrocardiogram monitor is used for monitoring electrocardiogram data of a diagnosis and treatment object and analyzing and processing the electrocardiogram data to obtain an analysis and processing result.

In one embodiment, the data acquisition device is detachably connected with the ECG monitor.

In one embodiment, the electrocardiograph monitor comprises an electrocardiograph collecting box and a plurality of electrode pastes, wherein the electrocardiograph collecting box and each electrode paste are connected through a lead wire;

the electrode pastes are used for monitoring the electrocardio data of different parts of the diagnosis and treatment object and sending the electrocardio data to the electrocardio acquisition box;

the electrocardio acquisition box is used for analyzing and processing the electrocardio data to obtain the analysis and processing result.

Above-mentioned medical acquisition equipment can be in the same place data acquisition device and ECG monitor integration, so that can monitor the multiple physiological data and the ECG data of diagnosing the object, thereby avoid just can monitor the problem of multiple physiological data and ECG data through multiple equipment, thereby make the monitoring process of multiple physiological data and ECG data simple, swift, and simultaneously, only need purchase a medical acquisition equipment just can monitor multiple physiological data and ECG data, need not purchase multiple equipment and can reach the monitoring purpose, thereby can also reduce the equipment acquisition cost of monitoring physiological data and ECG data.

A medical data processing system, the system comprising a medical acquisition device as described in any of the above embodiments and an external device; the medical acquisition device is in communication connection with the external device.

Above-mentioned medical data processing system, medical data processing system can monitor the multiple physiological data and the electrocardio data of diagnosing the object, thereby avoid just can monitoring multiple physiological data and electrocardio data's problem through multiple equipment, thereby make the monitoring process of multiple physiological data and electrocardio data simple, swiftly, and simultaneously, only need purchase a medical collection equipment just can monitor multiple physiological data and electrocardio data, need not purchase multiple equipment and just can reach the monitoring purpose, thereby can also reduce the equipment acquisition cost of monitoring physiological data and electrocardio data.

Drawings

FIG. 1 is a schematic diagram of a data acquisition device according to an embodiment;

FIG. 2 is a schematic diagram showing a detailed structure of a data acquisition device according to an embodiment;

FIG. 3 is a schematic diagram of the configuration of a medical acquisition device in one embodiment;

fig. 4 is a schematic structural diagram of a medical data processing system in another embodiment.

Description of reference numerals:

10. a data acquisition device; 11. a housing; 111. an upper housing; 112. a lower housing; 12. a sensor; 121. A blood oxygen sensor; 122. a temperature sensor; 123. a motion sensor; 13. a controller; 14. a board card; 15. a battery; 20. an electrocardiograph monitor; 21. an electrocardio acquisition box; 22. and (6) sticking an electrode.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clearly understood, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad application.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings). In the description of the present application, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like are used in the orientations and positional relationships indicated on the basis of the drawings, only for the convenience of description and for simplicity of description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present application.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through intervening media. Also, a first feature "on," "above," and "over" a second feature may be directly on or obliquely above the second feature, or simply mean that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

The data acquisition device 10 provided herein may be configured as shown in fig. 1. The data acquisition device 10 is a medical device, and is suitable for clinical use, and the application scenario may not be limited.

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions in the embodiments of the present application are further described in detail by the following embodiments in combination with the accompanying drawings. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Referring to the schematic structural diagram of the data acquisition device 10 shown in fig. 1, the present embodiment provides a data acquisition device 10, where the data acquisition device 10 includes: the device comprises a shell 11, one or more types of sensors 12 and a controller 13, wherein the sensors 12 are arranged in the shell 11, the controller 13 is arranged in the shell 11, and each sensor 12 is connected with the controller 13;

the sensor 12 is used for monitoring physiological data of a diagnosis and treatment object and sending the physiological data to the controller 13;

and the controller 13 is used for analyzing and processing the physiological data to obtain an analysis and processing result.

Specifically, the housing 11 of the data acquisition device 10 may have a circular, rectangular, square, or polygonal structure, and may have a detachable structure. The interior of the housing 11 may be hollow, semi-solid, etc. The volume of the housing 11 may be greater than or equal to the volume of the other structures in the data acquisition device 10 that can be contained inside the housing 11. The material of the housing 11 may be ABS plastic, high temperature resistant heat insulation polymer, etc., as long as the material ensuring that the housing 11 is not easily deformed is sufficient. The color of the housing 11 may be set arbitrarily, and is not limited thereto. The outer surface of the housing 11 may be provided with a printed pattern or an engraved pattern, and the pattern may include information such as a specific name of the data acquisition device 10, related acquired data, and an applicable range.

It should be noted that the data collection device 10 may include one or more types of sensors 12, and the sensors 12 may be pressure sensors, bioelectrode sensors, biosensors, speed sensors, visual sensors, auditory sensors, olfactory sensors, and/or the like. The data acquisition device 10 may periodically or continuously acquire one or more physiological data of the medical subject through one or more types of sensors 12. The diagnosis and treatment object can be a human or an animal, and the physiological data can be related data such as temperature, pulse, blood pressure, respiration and/or electrocardio.

It is understood that the controller 13 in the data acquisition device 10 can analyze and process the physiological data to obtain the analysis processing result. The analysis process may be a preprocessing, a format conversion process, an arithmetic process, and/or a comparison process, etc. One or more types of sensors 12 in the data acquisition device 10 may be communicatively connected to the controller 13, and the connection may be a wired connection, a data connection, or a bluetooth connection. The controller 13 may be a chip or a processor. The analysis processing result may include abnormality information and normal information. For example, if the data acquisition device 10 includes a temperature sensor, the temperature sensor sends the temperature data to the controller 13 after monitoring the temperature data of the diagnosis and treatment object, and the controller 13 analyzes and processes the temperature data to determine whether the diagnosis and treatment object is low fever, high fever, or in a good physical condition currently, at this time, the diagnosis and treatment object may be an analysis and processing result.

In this embodiment, in practical applications of the data acquisition device 10, the data acquisition device 10 may be fixed on the skin of the diagnosis and treatment object through a medical double-sided tape, and the data acquisition device 10 may also be fixed on the skin of the diagnosis and treatment object through a binding manner. In addition, the specific shapes of the housing 11, the sensor 12 and the controller 13 in the data acquisition device 10 may be any shapes, and are not limited to the corresponding shapes shown in fig. 1.

The data acquisition device comprises a shell, one or more types of sensors and a controller, wherein the sensors are arranged in the shell, the controller is arranged in the shell, all the sensors are connected with the controller, the sensors are used for monitoring physiological data of a diagnosis and treatment object and sending the physiological data to the controller, and the controller is used for analyzing and processing the physiological data to obtain an analysis and processing result; the data acquisition device can realize integration of a plurality of sensors, so that a plurality of physiological data can be monitored by one monitoring device, and the problem that the plurality of physiological data can be monitored by a plurality of devices is avoided, so that the monitoring process of the physiological data is simple and quick, meanwhile, the plurality of physiological data can be monitored by only purchasing one monitoring device, the monitoring purpose can be achieved without purchasing a plurality of devices, and the purchase cost of the device for monitoring the physiological data can be reduced; in addition, in order to achieve the monitoring purpose, various physiological data can be monitored only through one monitoring device, and compared with the prior art, the device placement space can be reduced.

As one example, as shown in fig. 2, the sensor 12 in the data acquisition device 10 includes: at least one of blood oxygen sensor 121, temperature sensor 122, and motion sensor 123;

the blood oxygen sensor 121 is used for monitoring blood oxygen data of the diagnosis and treatment object;

the temperature sensor 122 is used for monitoring the temperature data of the diagnosis and treatment object;

and the motion sensor 123 is used for monitoring the motion physiological data of the diagnosis and treatment object.

Specifically, the sensor 12 of the data acquisition device 10 may include at least one of a blood oxygen sensor 121, a temperature sensor 122, and a motion sensor 123, and in addition, the sensor 12 may further include other sensors to monitor various physical indicators of the medical subject, so that the plasticity of the data acquisition device 10 is relatively strong. The blood oxygen sensor 121 can monitor the blood oxygen saturation level in the body of the patient, the blood oxygen saturation level represents the percentage of oxygenated hemoglobin in the blood in the body of the patient to the blood in the body, and the blood oxygen saturation level is an important body index for monitoring the patient. The blood oxygen sensor 121 may be composed of a light emitting device and a receiving device; the light emitting device of the blood oxygen sensor 121 is composed of an infrared light emitting tube, the light sensitive receiver of the blood oxygen sensor 121 can be a light sensitive diode, and the blood oxygen sensor 121 converts the received incident light signal into an electric signal through the light sensitive diode, so that the receiving area is enlarged when the blood oxygen sensor is used, the sensitivity is high, the dark current is small, and the noise is low.

It is understood that the temperature sensor 122 in the data acquisition device 10 may be a contact temperature sensor and a non-contact temperature sensor. The shape of the temperature sensor 122 may be arbitrarily set. The temperature sensor can be NTC temperature measurement, thermocouple, infrared temperature measurement and the like.

It should be noted that the motion sensor 123 may be a respiration sensor, a pulse sensor, a blood pressure sensor, and/or a pressure sensor, etc. The pulse sensor can monitor pressure change data generated during arterial pulsation of a diagnosis and treatment object, and the type of the pulse sensor can be an infrared pulse sensor, a heart rate pulse sensor, a photoelectric pulse sensor, a wrist pulse sensor, a digital pulse sensor or a heart sound pulse sensor.

In this embodiment, the blood oxygen sensor 121, the temperature sensor 122 and the motion sensor 123 may be chip-type corresponding sensors.

The data acquisition device can realize integration of a plurality of sensors, so that a plurality of physiological data can be monitored by one monitoring device, and the problem that the plurality of physiological data can be monitored by a plurality of devices is avoided, so that the monitoring process of the physiological data is simple and quick, meanwhile, the plurality of physiological data can be monitored by only purchasing one monitoring device, the monitoring purpose can be achieved without purchasing a plurality of devices, and the equipment purchasing cost for monitoring the physiological data can be reduced; in addition, in order to achieve the monitoring purpose, various physiological data can be monitored only through one monitoring device, and compared with the prior art, the device placement space can be reduced.

As one example, with continued reference to fig. 2, the housing 11 of the data acquisition device 10 includes an upper housing 111 and a lower housing 112, the upper housing 111 and the lower housing 112 are connected to form a cavity, and the upper housing 111 and the lower housing 112 are detachably connected.

Specifically, the housing 11 of the data acquisition device 10 may include an upper housing 111 and a lower housing 112, and the upper housing 111 and the lower housing 112 may form a cavity by being detachably connected. The detachable connection mode can be key connection, pin connection, threaded connection, bonding, snap connection, hinge connection and/or the like. The material of the upper casing 111 may be the same as or different from that of the lower casing 112, and any material may be used as long as it can ensure that the upper casing 111 and the lower casing 112 are not easily deformed. The inside of the cavity may be a hollow structure, and the size of the volume of the cavity may be greater than or equal to the size of the volume of the inside of the cavity that can contain other structures in the data acquisition device 10.

Wherein, the cavity is internally provided with a waterproof material.

It should be noted that the inner surface of the cavity may be provided with a waterproof material, or a circle of waterproof material is provided at the connection port of the lower shell 112 in the cavity, but in this embodiment, a circle of waterproof material is provided at the connection port of the upper shell 111 in the cavity, and the waterproof material may be a polymer waterproof material, an acrylic waterproof material, a waterproof roll material, or the like. The size of the connection ports of the upper shell 111 and the lower shell 112 may not be equal, as long as the upper shell 111 and the lower shell 112 can be connected to form a closed cavity. Meanwhile, the connection ports of the upper housing 111 and the lower housing 112 are both closed connection ports, the connection ports of the upper housing 111 and the lower housing 112 may have a circular, square, rectangular, polygonal shape, or the like, and the connection ports of the upper housing 111 and the lower housing 112 may have shapes corresponding to each other. The waterproof material arranged in the cavity can prevent other structures from being invaded by moisture, steam, harmful gas, harmful liquid and the like in liquid and air, and plays the roles of moisture prevention, water prevention and corrosion prevention on other structures in the data acquisition device 10 so as to prolong the service life of the data acquisition device 10.

Meanwhile, a hole-shaped structure is disposed on the lower housing 112, the temperature sensor 122 is mounted in the hole-shaped structure, and the blood oxygen sensor 121 is disposed on the inner surface of the lower housing 112.

It is understood that the shape of the aperture may be circular, square, rectangular, or polygonal, among others. In the present embodiment, the shape of the hole shape is circular. The temperature sensor 122 of the data collection device 10 may be mounted in a hole-shaped structure on the lower housing 112, and the temperature sensor 122 may be fixed in the hole-shaped structure by a detachable connection or a non-detachable connection. A portion of the outer surface of the temperature sensor 122 may be monitored against the skin of the subject during use of the data acquisition device 10. Blood oxygen sensor 121 of data collection device 10 may be disposed on an inner surface of lower housing 112, and blood oxygen sensor 121 may be secured to the inner surface of lower housing 112 by a removable or non-removable connection. The non-detachable connection mode can be a folding edge connection mode, a rivet connection mode, an adhesive connection mode, a welding connection mode and the like.

In the present embodiment, the temperature sensor 122 may be installed in the hole-shaped structure, and the blood oxygen sensor 121 is disposed on the inner surface of the lower housing 112 to achieve the fixing purpose, so that even if the medical object moves, the data acquisition device 10 may not cause the monitored physiological data to be inaccurate due to the movement of the temperature sensor 122 and the blood oxygen sensor 121.

The casing among the above-mentioned data acquisition device includes casing and lower casing, goes up casing and lower casing coupling formation cavity, goes up the casing and is connected for dismantling with casing down to can add other monitoring physiological data's sensor in data acquisition device at any time, in order to let data acquisition device can integrate more physiological data monitoring sensor, thereby improve data acquisition device's service function.

As one example, and with continued reference to fig. 2, the data acquisition device 10 further includes: the board card 14 arranged in the cavity, the controller 13 and the motion sensor 123 are all arranged on the board card 14.

Specifically, the board 14 may be a circuit board, and may also be a structure for fixing the controller 13 and the motion sensor 123. The board card 14 may be disposed at any position in the cavity, as long as the positions of the controller 13 and the motion sensor 123 can be fixed. The size of the board 14 may be any value as long as the size of the controller 13 and the size of the motion sensor 123 can be fixed.

It is understood that the controller 13 and the motion sensor 123 may be disposed on the same side of the board 14, or disposed on a side of the board 14 respectively. The controller 13 and the motion sensor 123 may be detachably connected to the board 14, and may also be non-detachably connected, which is not limited in any way. In this embodiment, the motion sensor 123 may be disposed on a side of the board 14 closer to the lower housing 112.

As shown in fig. 2, the data acquisition device 10 further includes: and the battery 15 is arranged in the cavity, the battery 15 is arranged between the board card 14 and the lower shell 112, and the battery 15 is connected with each sensor 12 and the controller 13.

It should be noted that the battery 15 may be disposed at any position in the cavity, but in this embodiment, the battery 15 may be disposed between the board 14 and the lower housing 112, that is, the battery 15 is disposed between the board 14 and the blood oxygen sensor 121. The battery 15 may be a lead-acid battery, an uninterruptible battery, a lithium iron phosphate battery, a super battery, or the like, but in this embodiment, the battery 15 may be a button battery or a lithium battery. The battery is connected to each sensor 12 and the controller 13 in the data acquisition device 10, and is used for supplying power to each sensor 12 and the controller 13 in the data acquisition device 10, so that each sensor 12 and the controller 13 in the data acquisition device 10 can work normally.

The battery 15 is arranged in the data acquisition device 10 in the embodiment, power can be supplied to each sensor 12 and the controller 13 in the data acquisition device 10 in real time, and the data acquisition device is small in size and convenient to carry, so that the size of the data acquisition device 10 can be reduced, the data acquisition device 10 can be conveniently moved, and the placement space can be reduced.

Meanwhile, the data acquisition apparatus 10 further includes: the alarm module is arranged on the outer surface of the shell 11 and is connected with the controller 13; and the controller 13 is further configured to control the alarm module to output an alarm signal when the analysis processing result is abnormal information.

It will also be appreciated that the data acquisition device 10 may further include an alarm module, which may be disposed within the housing 11 (i.e., within the cavity) or disposed on an outer surface of the housing 11 (i.e., an outer surface of the cavity). The alarm signal may include a light signal and a voice signal. The alarm module can be an alarm indicator lamp, an alarm player and the like; if the alarm module is an alarm indicator lamp, the alarm module can be arranged on the outer surface of the shell 11 and can output optical signals. When the alarm indicating lamp outputs the optical signal, a user can visually know the current early warning information through the flashing condition of the alarm indicating lamp. The flashing speed of the alarm indicator lamp (namely the output frequency of the optical signal) can be determined according to the grade of the early warning information, if the grade of the early warning information is higher, the larger the degree that the early warning information needs emergency processing is, at the moment, the higher the flashing speed of the alarm indicator lamp is, otherwise, the lower the grade of the early warning information is, the smaller the degree that the early warning information needs emergency processing is, and at the moment, the lower the flashing speed of the alarm indicator lamp is. The flashing color of the alarm indicator light can also be determined according to the grade of the early warning information, and different grades correspond to different flashing colors, or the flashing color of the alarm indicator light is invariable all the time, and the flashing speed of the alarm indicator light can be different only according to the grades of different early warning information.

If the alarm module is an alarm player, the alarm module can be arranged on the outer surface of the shell 11 or in the shell 11, and the alarm player can output voice signals. When the alarm player outputs the voice signal, the user can know the current early warning information through the voice signal output by the alarm player. The alarm player can repeatedly output voice signals according to the grade of the early warning information, the frequency of repeatedly outputting the voice signals can be determined according to the grade of the early warning information, if the grade of the early warning information is high, the larger the degree that the early warning information needs to be emergently processed is shown, at the moment, the more the voice signals are output, otherwise, the lower the grade of the early warning information is, the smaller the degree that the early warning information needs to be emergently processed is shown, and at the moment, the less the voice signals are output.

The data acquisition device 10 in this embodiment further includes an alarm module, and an alarm signal can be timely output through the alarm module, so that a user can quickly obtain the early warning information, and the early warning information can be timely processed, so as to avoid affecting the health condition of the diagnosis and treatment object.

In addition, the data acquisition apparatus 10 further includes: the wireless transceiver is connected with the controller 13 and is arranged in the cavity; and the controller 13 is also used for communicating with external equipment through a wireless transceiver.

Alternatively, each sensor 12 in the data acquisition device 10 may transmit the monitored data to an external device via a bus. In this embodiment, the data acquisition device 10 may further include a wireless transceiver, and each sensor 12 in the data acquisition device 10 may transmit the monitored data to an external device through the wireless transceiver, and the wireless transceiver may be connected to the controller 13 and may be disposed at any position in the cavity. The wireless transceiver can be a Bluetooth module, a narrow-band Internet of things module, a 4G module and/or a 5G module and the like. The external device may be a server, a mobile device, a keyboard, a mouse, a scanner, a digital camera, a display screen, or the like.

The controller 13 in the data acquisition device 10 in this embodiment can carry out wireless communication through between wireless transceiver and the external equipment, has broken away from the defect that can just communicate through the cable for the maintenance of data acquisition device 10 is more convenient, is convenient for remove, and simultaneously, the mode that adopts wireless communication can reduce the risk of some disease infections, helps health management.

The board card is arranged in the data acquisition device, the controller and the motion sensor are both arranged on the board card, so that the data acquisition device can move together with the data acquisition device even if the data acquisition device slightly moves in the using process, and the accuracy of data processing and monitoring of the controller and the motion sensor can be improved.

Fig. 3 is a schematic structural diagram of another embodiment of a medical acquisition device, which includes the data acquisition apparatus 10 and the electrocardiograph monitor 20 according to any one of the embodiments shown in fig. 1-2;

the electrocardiogram monitor 20 is configured to monitor electrocardiogram data of the diagnosis and treatment object, and analyze and process the electrocardiogram data to obtain an analysis and processing result.

Specifically, the medical acquisition device may include the data acquisition device 10 and the electrocardiograph monitor 20, and the data acquisition device 10 may monitor a plurality of physiological data of the diagnosis and treatment object, analyze and process the plurality of physiological data to obtain an analysis and processing result, and output an alarm signal according to the analysis and processing result. The ecg monitor 20 can be a medical device capable of monitoring ecg data of a subject.

In addition, the medical acquisition device may further include a display screen, and the display screen may be in communication connection with both the data acquisition device 10 and the electrocardiograph monitor 20, and the communication connection mode may be a wireless connection or a wired connection, which is not limited to this. The display screen can display various physiological data and electrocardiographic data monitored by the data acquisition device 10 and the electrocardiographic monitor 20, analysis processing results obtained by analyzing and processing the various physiological data, and analysis processing results obtained by analyzing and processing the electrocardiographic data, and can also display current configuration parameters of the data acquisition device 10 and the electrocardiographic monitor 20.

Wherein, the data acquisition device 10 is detachably connected with the electrocardiograph monitor 20.

It should be noted that the data acquisition device 10 and the electrocardiograph monitor 20 of the medical acquisition apparatus may be detachably connected or non-detachably connected. The detachable connection mode can be key connection, pin connection, threaded connection, bonding, buckle connection, hinge connection or the like; the non-detachable connection mode can be a folding connection mode, a rivet connection mode, an adhesive connection mode, a welding connection mode or the like. However, in this embodiment, the data acquisition device 10 and the electrocardiograph monitor 20 may be detachably connected.

In this embodiment, the respiratory condition, the sleep quality condition, the motion state, the temperature condition, and the like of the medical treatment object can be monitored by the medical collecting apparatus.

The medical acquisition equipment can integrate the data acquisition device with the electrocardiogram monitor together so as to monitor various physiological data and electrocardiogram data of a diagnosis object, thereby avoiding the problem that various physiological data and electrocardiogram data can be monitored by various equipment, so that the monitoring process of various physiological data and electrocardiogram data is simple and quick, meanwhile, various physiological data and electrocardiogram data can be monitored by only purchasing one medical acquisition equipment, the monitoring purpose can be achieved without purchasing various equipment, and the equipment purchasing cost for monitoring physiological data and electrocardiogram data can be reduced; in addition, the medical acquisition equipment can integrate various modules for monitoring physiological data and electrocardio data, so that the integration level of the medical acquisition equipment is higher.

As one example, with continued reference to fig. 3, the electrocardiograph monitor 20 of the medical collecting apparatus includes an electrocardiograph collecting box 21 and a plurality of electrode patches 22, wherein the electrocardiograph collecting box 21 and each electrode patch 22 are connected by a lead wire;

the electrode pastes 22 are used for monitoring the electrocardio data of different parts of the diagnosis and treatment object and sending the electrocardio data to the electrocardio acquisition box 21; the electrocardio acquisition box 21 is used for analyzing and processing the electrocardio data to obtain an analysis processing result.

Specifically, the electrocardiograph monitor 20 in the medical acquisition device may include an electrocardiograph acquisition box 21 and a plurality of electrode patches 22, the electrocardiograph acquisition box 21 and each electrode patch 22 may be connected by a lead wire, and the electrocardiograph acquisition box 21 may acquire electrocardiograph data and perform analysis processing on the electrocardiograph data to obtain an analysis processing result. It will also be appreciated that the medical acquisition device integrates the data acquisition apparatus 10 and the ECG monitor 20 in a unified configuration.

It should be noted that, when the medical acquisition device is used, the electrocardiograph monitor 20 can be fixed by the plurality of electrode patches 22 in the electrocardiograph monitor 20, that is, the plurality of electrode patches 22 are used for fixing the medical acquisition device. The electrocardiograph monitor 20 may include a plurality of electrode patches 22, each electrode patch 22 may be connected to an electrocardiograph collecting box 21 in the electrocardiograph monitor 20, and different electrode patches 22 may also be connected by a lead wire. The electrocardiograph monitor 20 may further include a wireless transmitter for transmitting the acquired electrocardiographic data and the corresponding analysis processing result to an external device. The electrode pastes 22 are made of the same material and can be made of flexible material, for example, the electrode pastes can be connected with the electrocardio collecting box 21 through printed flexible flat cables.

It will be appreciated that each electrode patch 22 may be attached to a different location of the skin of the treatment site of the subject during use of the medical acquisition device. The electrode patches 22 can monitor electrocardiographic data at different positions, and the electrocardiographic data monitored by the electrode patches 22 can be equal or unequal. After monitoring the electrocardiographic data, each electrode patch 22 can send the electrocardiographic data to the electrocardiographic acquisition box 21 through the bus of the electrocardiographic acquisition box 21, and the electrocardiographic acquisition box 21 performs comprehensive analysis processing on all the received electrocardiographic data to obtain an analysis processing result. The bus of the ECG collection box 21 can also provide power to the entire ECG monitor 20.

In fig. 3, RA, LA, RL, LL, V1, V2, V3, V4, V5, and V6 may all be the electrode patches 22, when the medical acquisition device is used, the RA electrode patch 22 may be attached to the upper right position of the diagnostic object, the LA electrode patch 22 may be attached to the upper left position of the diagnostic object, the RL electrode patch 22 may be attached to the lower right position of the diagnostic object, the LL electrode patch 22 may be attached to the lower left position of the diagnostic object, the V1, V2, V3, V4, V5, and V6 electrode patches 22 may be attached in sequence according to a specific design position, and the diagnostic object shown in fig. 3 is an outer contour of a human body.

The electrocardiogram monitor in the medical acquisition equipment can comprise an electrocardiogram acquisition box and a plurality of electrode pastes, so that electrocardiogram data at a plurality of different positions can be monitored, the accuracy of the acquired electrocardiogram data is higher, and the accuracy of an analysis processing result corresponding to the electrocardiogram data is higher.

Fig. 4 is a schematic structural diagram of a medical data processing system according to another embodiment, where the system includes the medical acquisition device and the external device according to the embodiment of fig. 3; the medical acquisition equipment is in communication connection with the external equipment.

Specifically, the data acquisition device 10 and the electrocardiograph monitor 20 in the medical acquisition device may be connected to an external device in a wireless communication manner, and the connection manner may be wifi, bluetooth, mobile data, or the like. The data acquisition device 10 can send various monitored physiological data to an external device, the electrocardiograph monitor 20 can send various monitored physiological data to the external device, and meanwhile, both the data acquisition device 10 and the electrocardiograph monitor 20 can send respective obtained analysis processing results to the external device.

The medical acquisition equipment in the embodiment can remotely transmit the monitored data to the server, so that medical workers can remotely analyze the monitored data, online diagnosis is realized, and health management of diagnosis and treatment objects is facilitated.

Above-mentioned medical data processing system can monitor the multiple physiological data and the electrocardio data of object of diagnosing, thereby avoid just can monitoring multiple physiological data and electrocardio data's problem through multiple equipment, thereby make the monitoring process of multiple physiological data and electrocardio data simple, and is fast, and simultaneously, only need purchase a medical acquisition facility and just can monitor multiple physiological data and electrocardio data, just can reach the monitoring purpose to need not purchase multiple equipment, thereby can also reduce the equipment acquisition cost of monitoring physiological data and electrocardio data, additionally, in order to reach the monitoring purpose, just can monitor multiple physiological data and electrocardio data through a monitoring facilities, compare the space of placing of equipment that can also dwindle with prior art.

All possible combinations of the technical features in the above embodiments may not be described for the sake of brevity, but should be considered as being within the scope of the present disclosure as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims (13)

1. A data acquisition device (10), characterized in that the data acquisition device (10) comprises: a housing (11), one or more types of sensors (12) and a controller (13), the sensors (12) being disposed in the housing (11), the controller (13) being disposed within the housing (11), each of the sensors (12) being connected to the controller (13);

the sensor (12) is used for monitoring physiological data of a diagnosis and treatment object and sending the physiological data to the controller (13);

the controller (13) is used for analyzing and processing the physiological data to obtain an analysis and processing result.

2. The data acquisition device (10) according to claim 1, characterized in that the sensor (12) comprises: at least one of a blood oxygen sensor (121), a temperature sensor (122), and a motion sensor (123);

the blood oxygen sensor (121) is used for monitoring blood oxygen data of the diagnosis and treatment object;

the temperature sensor (122) is used for monitoring the temperature data of the diagnosis and treatment object;

the motion sensor (123) is used for monitoring the motion physiological data of the diagnosis and treatment object.

3. The data acquisition device (10) according to claim 2, wherein the housing (11) comprises an upper housing (111) and a lower housing (112), the upper housing (111) and the lower housing (112) are connected to form a cavity, and the upper housing (111) and the lower housing (112) are detachably connected.

4. The data acquisition device (10) according to claim 3, characterized in that a waterproof material is provided within the cavity.

5. The data acquisition device (10) according to claim 3 or 4, wherein the lower housing (112) is provided with a hole structure, the temperature sensor (122) is mounted in the hole structure, and the blood oxygen sensor (121) is provided on an inner surface of the lower housing (112).

6. The data acquisition device (10) according to claim 5, characterized in that the data acquisition device (10) further comprises: the integrated circuit board (14) is arranged in the cavity, and the controller (13) and the motion sensor (123) are arranged on the integrated circuit board (14).

7. The data acquisition device (10) according to claim 6, characterized in that the data acquisition device (10) further comprises: the battery (15) is arranged in the cavity, the battery (15) is arranged between the board card (14) and the lower shell (112), and the battery (15) is connected with the sensors (12) and the controller (13).

8. The data acquisition device (10) according to claim 7, wherein the data acquisition device (10) further comprises: the alarm module is arranged on the outer surface of the shell (11) and is connected with the controller (13);

and the controller (13) is also used for controlling the alarm module to output an alarm signal when the analysis processing result is abnormal information.

9. The data acquisition device (10) of claim 8, wherein the data acquisition device (10) further comprises: a wireless transceiver connected to the controller (13), the wireless transceiver being disposed within the cavity;

the controller (13) is also used for communicating with external equipment through the wireless transceiver.

10. A medical acquisition device, characterized in that it comprises a data acquisition apparatus (10) according to any one of claims 1 to 9 and an electrocardiograph monitor (20);

the electrocardiogram monitor (20) is used for monitoring electrocardiogram data of the diagnosis and treatment object and analyzing and processing the electrocardiogram data to obtain an analysis and processing result.

11. The medical acquisition device according to claim 10, wherein the data acquisition means (10) is removably connected to the electrocardiograph monitor (20).

12. The medical acquisition device according to claim 10 or 11, wherein the electrocardiograph monitor (20) comprises an electrocardiograph acquisition box (21) and a plurality of electrode patches (22), and the electrocardiograph acquisition box (21) is connected with each electrode patch (22) through a lead wire;

the electrode pastes (22) are used for monitoring the electrocardio data of different parts of the diagnosis and treatment object and sending the electrocardio data to the electrocardio acquisition box (21);

the electrocardio acquisition box (21) is used for analyzing and processing the electrocardio data to obtain the analysis and processing result.

13. A medical data processing system, characterized in that the system comprises a medical acquisition device according to any of claims 10-12 and an external device; the medical acquisition device is in communication connection with the external device.

Images