CN219250149U - Monitoring processing device, bedside monitoring equipment, acquisition device and central monitoring system - Google Patents

Abstract

According to the monitoring processing device, the bedside monitoring equipment, the acquisition device and the central monitoring system, the monitoring processing device and the acquisition device are connected in a wired communication mode through the communication interfaces, so that transmission of equipment identification codes is achieved, wireless communication pairing is achieved, a nurse only needs to connect the first communication interface of the acquisition device with the second communication interface of the monitoring processing device in a wired mode, wireless communication pairing of the first communication interface of the acquisition device and the second communication interface of the monitoring processing device is achieved, operation is simple and convenient, errors are avoided, and efficiency of wireless communication pairing of the first communication interface and the second communication interface of the acquisition device is improved.

Description

Monitoring processing device, bedside monitoring equipment, acquisition device and central monitoring system

Technical Field

The invention relates to the technical field of medical equipment, in particular to a monitoring processing device, bedside monitoring equipment, an acquisition device and a central monitoring system.

Background

The existing monitoring processing device such as bedside monitoring equipment can wirelessly pair with the acquisition device except for monitoring patients, and the wearable acquisition device acquires physiological parameters of the patients and then wirelessly transmits the physiological parameters to the bedside monitoring equipment for monitoring. The collection device is typically capable of monitoring only one patient, so that to avoid errors, one collection device can be paired with only one bedside monitoring device in wireless communication at the same time, and one bedside monitoring device can be paired with multiple collection devices in wireless communication at the same time. The patients in the ward are numerous, and nurses can only pair the acquisition device and the bedside monitoring equipment in a wireless communication mode one by one, so that the operation is tedious, time-consuming and prone to error.

Therefore, the efficiency of the existing acquisition device and monitoring processing device in use is still to be improved.

Disclosure of Invention

The invention provides a monitoring processing device, bedside monitoring equipment, a collecting device and a central monitoring system, which aim to improve the use efficiency.

One embodiment provides a monitoring processing apparatus having a second device identification code that uniquely identifies the monitoring processing apparatus; the monitoring processing device comprises:

the second power supply unit is used for supplying power to the monitoring processing device;

the second wireless communication module is used for wirelessly communicating with the first wireless communication module of the acquisition device matched with the wireless communication and receiving physiological parameters of a user sent by the first wireless communication module; the acquisition device is provided with a first equipment identification code which uniquely identifies the acquisition device;

the monitoring processing module is used for processing the physiological parameters of the user to obtain monitoring information; the monitoring information comprises alarm information;

at least one second communication interface; the second communication interface is used for being in wired communication connection with a first communication interface of the acquisition device, and a first equipment identification code of the acquisition device is acquired through the first communication interface; the first equipment identification code and the second equipment identification code are used for carrying out wireless communication pairing on the acquisition device and the monitoring processing device.

In the monitoring processing device provided in an embodiment, the monitoring processing device further includes:

at least one second acquisition sensor for acquiring a physiological parameter of the user.

In the monitoring processing device provided by an embodiment, the monitoring processing device includes an interface base and a monitoring processing device body connected with the interface base;

the at least one second communication interface is arranged on the interface base;

the monitoring processing device body is used for acquiring a first equipment identification code of the acquisition device through connection between the second communication interface and the first communication interface.

In a monitoring and processing apparatus provided in one embodiment,

the interface base is also provided with a power input interface which is used for connecting an external power supply, and the interface base is used for charging and/or supplying power to the monitoring processing device body by utilizing the electric energy acquired by the power input interface; and/or the number of the groups of groups,

the interface base comprises a chargeable power supply, and the output end of the chargeable power supply is electrically connected with the monitoring processing device body and is used for supplying power to the monitoring processing device body; the input end of the chargeable power supply is electrically connected with a power input interface on the interface base.

In the monitoring processing device provided by an embodiment, at least one fourth communication interface is arranged on the monitoring processing device body, and the fourth communication interface is used for being in wired or wireless communication connection with the third communication interface of the acquisition device;

the monitoring processing device body is further configured to obtain a first equipment identification code of the acquisition device through a connection between the fourth communication interface and the third communication interface.

In the monitoring processing device provided by an embodiment, the monitoring processing device body is a first intelligent terminal; the first intelligent terminal comprises one or more of a mobile phone, a tablet personal computer, a notebook computer, a computer and an intelligent television.

In the monitoring processing device provided in an embodiment, a sixth communication interface is provided on the first intelligent terminal;

the interface base is provided with a fifth communication interface which is in communication connection with the second communication interface; the fifth communication interface is connected with the sixth communication interface in a wired or wireless communication manner.

In the monitoring processing device provided in one embodiment, the monitoring processing device further includes a second indicating device, where the second indicating device is configured to display at least one of the physiological parameter of the user, the monitoring information and the alarm information; and the wireless communication pairing state between the monitoring processing device and the acquisition device is indicated.

An embodiment provides a bedside monitoring device comprising: an acquisition device for acquiring at least two kinds of information related to physiological functions, an alarm device and a monitoring processing device as described above; the alarm device is used for sending an alarm indication according to the alarm information; wherein the alarm indication comprises an audible alarm indication and/or a visual alarm indication;

the acquisition device comprises:

the first power supply unit is used for supplying power to the acquisition device;

the first acquisition sensor is used for acquiring physiological parameters of a user;

and the first wireless communication module is used for carrying out wireless communication with the second wireless communication module of the monitoring processing device matched with the wireless communication and sending the physiological parameters of the user to the monitoring processing device.

In the bedside monitoring device provided by an embodiment, the acquisition device is provided with a first indicating device, and the first indicating device is used for indicating the wireless communication pairing state of the acquisition device and the monitoring processing device; and/or the monitoring processing device is provided with a second indicating device which is used for indicating the wireless communication pairing state of the acquisition device and the monitoring processing device.

In one embodiment a bedside monitoring device is provided,

the alarm device is provided with a third equipment identification code for uniquely identifying the alarm device; the monitoring processing device and the alarm device are subjected to wireless communication pairing through the second equipment identification code and the third equipment identification code;

the alarm device is also provided with a third wireless communication module, and the third wireless communication module is used for receiving alarm information sent by the second wireless communication module.

In the bedside monitoring device provided in an embodiment, the alarm device is disposed in the monitoring processing device, the alarm device is disposed in the collecting device, or the alarm device is disposed independently of the monitoring processing device and the collecting device.

In the bedside monitoring device provided by an embodiment, the alarm device comprises one or more of an audible alarm sub-device, a visual alarm sub-device and a vibration alarm sub-device; the audible alarm sub-device is used for sending out audible alarm indication, the visual alarm sub-device is used for visual alarm indication, and the vibration alarm sub-device is used for sending out vibration alarm indication.

In the bedside monitoring device provided by an embodiment, the alarm device is further provided with one or more of a pause button, a suppression button, a mute button and a reset button;

The pause button is used for temporarily closing the sounding alarm indication which is being sent, and the sounding alarm indication which is previously paused is automatically resumed after the preset pause time is exceeded; the suppression button is used for adjusting the audible alarm indication which is sent by the alarm device, and the audible alarm indication which is suppressed before is automatically recovered after the preset suppression time is exceeded; the mute button is used for performing mute processing on alarm information sent by the alarm device; the reset button is used for controlling the alarm device to stop the alarm indication sent currently and determining whether to send the alarm indication according to the new alarm information of the monitoring processing device.

An embodiment provides for the bedside monitoring device further comprising a shock device having at least 2 electrodes contacting the user for providing a shock voltage to the user.

The bedside monitoring device provided by an embodiment further comprises a time scale device, wherein the time scale device is used for synchronizing the time of the acquisition device and the time of the monitoring processing device.

In the bedside monitoring device provided by an embodiment, the time scale device is built in the acquisition device or the time scale device is built in the monitoring processing device.

In the bedside monitoring device provided by an embodiment, the physiological parameter of the user includes one or more of noninvasive blood pressure data, blood oxygen data, electrocardiographic data, respiratory data, heart rate data, body temperature data, invasive blood pressure data, end-of-breath carbon dioxide data, anesthetic gas data, cardiac output data, brain electrical double-frequency index, fetal heart rate, uterine contraction pressure, fetal movement of the user.

The bedside monitoring device provided by the embodiment further comprises a positioning device, wherein the positioning device is connected with the monitoring processing device and used for detecting the position information of a user; the positioning device is independent of the acquisition device or is built in the acquisition device; and/or the positioning device is independent of the monitoring processing device or built-in to the monitoring processing device.

The bedside monitoring equipment provided by the embodiment further comprises a calling device, wherein the calling device is connected with the monitoring processing device and used for calling medical staff in a hospital; the calling device is independent of the collecting device or is built in the collecting device; and/or the calling device is independent of the monitoring processing device or built-in to the monitoring processing device.

An embodiment provides an acquisition device having a first device identification code that uniquely identifies the acquisition device; comprising the following steps:

the first power supply unit is used for supplying power to the acquisition device;

the first acquisition sensor is used for acquiring physiological parameters of a user;

the first wireless communication module is used for carrying out wireless communication with a second wireless communication module of the monitoring processing device matched with the wireless communication and sending the physiological parameters of the user to the monitoring processing device;

at least one first communication interface; the first communication interface is used for being in wired communication connection with a second communication interface of the monitoring processing device, and a second equipment identification code of the monitoring processing device is acquired through the second communication interface; the first equipment identification code and the second equipment identification code are used for carrying out wireless communication pairing on the acquisition device and the monitoring processing device.

One embodiment provides a central monitoring system comprising:

a bedside monitoring device as described above;

the server is used for receiving and storing the physiological parameters of the user transmitted by the monitoring processing device of the bedside monitoring equipment; and/or receiving and storing the physiological parameters of the user transmitted by the acquisition device of the bedside monitoring equipment.

According to the monitoring processing device, bedside monitoring equipment, the acquisition device and the central monitoring system, the monitoring processing device and the acquisition device are connected in a wired communication mode through the communication interfaces, and then transmission of equipment identification codes is achieved, so that wireless communication pairing can be achieved, a nurse only needs to connect a first communication interface of the acquisition device with a second communication interface of the monitoring processing device in a wired mode, wireless communication pairing of the first communication interface of the acquisition device and the second communication interface of the monitoring processing device is achieved, operation is simple and convenient, errors are avoided, and wireless communication pairing efficiency of the first communication interface and the second communication interface of the acquisition device is improved.

Drawings

FIG. 1 is a schematic diagram of a bedside monitoring device according to an embodiment of the present application;

FIG. 2 is a schematic diagram of a bedside monitoring device according to another embodiment of the present disclosure;

FIG. 3 is a schematic view of a bedside monitoring device according to another embodiment of the present disclosure;

FIG. 4 is a schematic diagram of a bedside monitoring device according to another embodiment of the present disclosure;

FIG. 5 is a schematic view of a bedside monitoring device according to another embodiment of the present disclosure;

FIG. 6 is a schematic diagram of a bedside monitoring device according to another embodiment of the present disclosure;

FIG. 7 is a schematic diagram of a bedside monitoring device according to another embodiment of the present disclosure;

fig. 8 is a schematic structural diagram of a central monitoring system according to an embodiment of the present application.

Detailed Description

The invention will be described in further detail below with reference to the drawings by means of specific embodiments. Wherein like elements in different embodiments are numbered alike in association. In the following embodiments, numerous specific details are set forth in order to provide a better understanding of the present application. However, one skilled in the art will readily recognize that some of the features may be omitted, or replaced by other elements, materials, or methods in different situations. In some instances, some operations associated with the present application have not been shown or described in the specification to avoid obscuring the core portions of the present application, and may not be necessary for a person skilled in the art to describe in detail the relevant operations based on the description herein and the general knowledge of one skilled in the art.

Furthermore, the described features, operations, or characteristics of the description may be combined in any suitable manner in various embodiments. Also, various steps or acts in the method descriptions may be interchanged or modified in a manner apparent to those of ordinary skill in the art. Thus, the various orders in the description and drawings are for clarity of description of only certain embodiments, and are not meant to be required orders unless otherwise indicated.

The numbering of the components itself, e.g. "first", "second", etc., is used herein merely to distinguish between the described objects and does not have any sequential or technical meaning. The terms "coupled" and "connected," as used herein, are intended to encompass both direct and indirect coupling (coupling), unless otherwise indicated.

The application provides a bedside guardianship equipment, it includes: the monitoring processing device and the acquisition device are arranged in a split mode, and are in communication connection in a wireless communication mode; the acquisition device acquires physiological parameters of a user and then sends the physiological parameters to the monitoring processing device through the wireless network. The monitoring processing device is used for monitoring the physiological parameters of the user. Therefore, a signal wire between the acquisition device and the monitoring processing device is omitted, and a complex cable is not arranged between the monitoring processing device and the patient, so that the operation of doctors and nurses is facilitated, and meanwhile, the patient can conveniently move.

The collection device has a first device identification code for uniquely identifying the collection device, which may be the device I D of the collection device, for example. The monitoring processing means has a second device identification code for uniquely identifying the monitoring processing means, which may be the device I D of the monitoring processing means, for example. The acquisition device and the monitoring processing device are in wireless communication pairing with each other through the first equipment identification code and the second equipment identification code, and then the monitoring processing device can receive the physiological parameters of the user acquired by the acquisition device.

Embodiment one:

referring to fig. 1, the present embodiment provides a bedside monitoring device, including: an acquisition device 1 and a monitoring and processing device 2.

The acquisition device 1 is generally worn on the body of a patient, but can also be placed beside a bed or at other positions for acquiring physiological parameters of a user. The acquisition device 1 includes a first wireless communication module 110, a first acquisition sensor 120, a first signal processing module 130, and a first power supply unit 140.

The first power supply unit 140 is used to supply power to the collecting device 1, and may employ various types of batteries, such as a button battery, a rechargeable battery, and the like. The first power supply unit 140 may further include a charge management circuit of the rechargeable battery for managing charge and discharge of the rechargeable battery.

The first acquisition sensor 120 is configured to acquire a physiological parameter of a user, such as one or more of a blood pressure signal, an electrocardiographic signal, a heart rate signal, a body temperature signal, a fetal heart rate signal, a uterine contractile signal, a fetal movement signal, and an electroencephalogram signal. The number of the first collecting sensors 120 may be plural, for example, some of the first collecting sensors 120 are blood pressure sensors for collecting blood pressure signals; the first collecting sensor 120 is a temperature sensor for collecting body temperature signals; some of the first acquisition sensors 120 are electrocardiographic sensors for acquiring electrocardiographic signals and the like. In this embodiment, the acquisition device has at least two first acquisition sensors 120, i.e. the acquisition device is used for acquiring at least two kinds of information (physiological parameters) related to physiological functions.

The various signals collected by the various collection sensors 120, together with the time information, form corresponding data. For example, in some embodiments, the physiological parameters of the user acquired by each of the first acquisition sensors 120 of the acquisition device may include one or more of non-invasive blood pressure data, blood oxygen data, electrocardiographic data, respiratory data, heart rate data, body temperature data, invasive blood pressure data, end-of-breath carbon dioxide data, anesthetic gas data, cardiac output data, brain electrical double frequency index, fetal heart rate, uterine contractile pressure, fetal movement of the user.

The first wireless communication module 110 is configured to wirelessly communicate with the second wireless communication module 210 of the monitoring processing device 2 paired with wireless communication, and send the physiological parameter of the user to the monitoring processing device 2. The first wireless communication module 110 may be a bluetooth module, a WI F I module, a Zi gbee module, a 4G module, a 5G module, a 2.4G communication module, etc.

The first signal processing module 130 is configured to control the acquisition device 1, such as processing physiological parameters. Some acquisition devices 1 may further comprise a display on which the first signal processing module 130 may display the physiological parameter. The first signal processing module 130 may be a processor or the like.

The monitoring processing device 2 includes a second wireless communication module 210, a monitoring processing module 220, an alarm parameter setting module 230, and a second power supply unit 240.

The second power supply unit 240 is used for supplying power to the monitoring processing device 2.

The second wireless communication module 210 is configured to wirelessly communicate with the first wireless communication module 110 of the acquisition device 1 paired with wireless communication, and receive physiological parameters of the user sent by the first wireless communication module 110. Similarly, the second wireless communication module 210 may be a bluetooth module, a WI F I module, a Zi gbee module, a 4G module, a 5G module, a 2.4G communication module, etc., and may be adapted to the first wireless communication module 110.

The monitoring processing module 220 is used for processing physiological parameters of the user to obtain monitoring information; the monitoring information includes alarm information. The monitoring processing means 2 may also comprise a display. The monitoring processing module 220 may display the physiological parameters on a display. The monitoring processing module 220 may be a processor or the like.

To perform wireless communication, the wireless communication modules of the monitoring processing device 2 and the acquisition device 1 need to perform wireless communication pairing first. The two may be paired in a conventional wireless communication connection manner, for example, before the first wireless communication module 110 performs wireless communication with the second wireless communication module 210, the first wireless communication module 110 is further configured to first send a handshake request to the second wireless communication module 210 to request to establish a communication connection with the second wireless communication module 210, where the handshake request includes the first device identifier of the acquisition apparatus 1. The monitoring processing device 2 acquires the first device identification code in the handshake request, and performs wireless communication pairing with the corresponding acquisition device 1 according to the first device identification code.

In order to facilitate the wireless pairing operation of nurses, the wireless communication pairing between the monitoring processing device 2 and the acquisition device 1 is realized by a wired communication connection mode. As shown in fig. 2, for example, the monitoring processing device 2 is provided with at least one second communication interface 21; the acquisition device 1 is provided with a first communication interface 11 adapted to a second communication interface 21. The second communication interface 21 is configured to be in wired communication connection with the first communication interface 11 of the acquisition device 1, and the first device identification code of the acquisition device 1 is acquired through the first communication interface 11, and preferably, the second communication interface 21 and the first communication interface 11 are in communication connection in a pluggable manner or in a contact manner. The contacts are contacted, for example, the second communication interface 21 and the first communication interface 11 are respectively provided with an adaptive contact, and the second communication interface 21 and the first communication interface 11 make contact with each other through magnetic attraction or gravity, so that wired communication connection of the two communication interfaces is realized. The second communication interface 21 and the first communication interface 11 are in communication connection in a pluggable manner or in a contact manner, specifically, the two communication interfaces may be directly pluggable or in direct contact connection, or the two communication interfaces may be pluggable or in contact connection through a communication cable. Before wearing the acquisition device 1 on the patient, the doctor or nurse connects (e.g., plugs) the first communication interface 11 of the acquisition device 1 with the second communication interface 21 on the monitoring and processing device 2 to enable communication. The first communication interface 11 is configured to obtain the second device identification code of the monitoring processing apparatus 2 through the second communication interface 21 when the first communication interface 11 is communicatively connected to the second communication interface 21 (e.g., the first communication interface 11 is plugged into the second communication interface 21). The first communication interface 11, the first wireless communication module 110, and the first acquisition sensor 120 may all be connected with the first signal processing module 130. The second device identification code acquired by the first communication interface 11 may be transmitted to the first wireless communication module 110 through the first signal processing module 130, so that the first wireless communication module 110 and the second wireless communication module 210 may perform wireless communication pairing, such as bluetooth pairing. In some embodiments, the first communication interface 11 may also be directly connected to the first wireless communication module 110, so as to transmit the acquired second device identifier to the first wireless communication module 110, so as to facilitate wireless communication pairing, such as bluetooth pairing, between the first wireless communication module 110 and the second wireless communication module 210. Similarly, the second communication interface 21 and the monitoring processing module 220 may be connected to the second wireless communication module 210, and the second communication interface 21 may transmit the acquired first device identification code to the second wireless communication module 210, so as to facilitate the wireless communication pairing, such as bluetooth pairing, between the second wireless communication module 210 and the first wireless communication module 110. The first device identification code and the second device identification code are used for wireless communication pairing between the acquisition device 1 and the monitoring processing device 2. In this way, the monitoring processing apparatus 2 can be paired with the acquisition apparatus 1 through the first device identification code and the second device identification code in wireless communication, and the acquisition apparatus 1 can be paired with the monitoring processing apparatus 2 through the first device identification code and the second device identification code in wireless communication. The pairing mode of the physical communication interface is adopted, so that the pairing mode is more flexible in the use process, a doctor or a nurse can directly plug any two acquisition devices 1 and the monitoring processing device 2 so as to realize wireless pairing, then the wireless pairing can be used, the subsequent physiological parameter transmission adopts wireless communication, and the work efficiency is improved. The second communication interface 21 may be a male connector of a USB interface, and the corresponding first communication interface 11 may be a female connector of a USB interface, and of course, the second communication interface 21 may also be a female connector of a USB interface, and the corresponding first communication interface 11 may be a male connector of a USB interface. Of course, the second communication interface 21 and the first communication interface 11 may be other types of interfaces, such as a male, female, etc. of the Type-C interface. For the transmission of the equipment identification code, the wireless transmission is replaced by the wired transmission, so that the wireless pairing between the first wireless communication module and the second wireless communication module is more convenient and accurate.

As shown in fig. 3, the monitoring and processing means 2 further comprise at least one second acquisition sensor 3 connected by wire. The second acquisition sensor 3 is also used for acquiring physiological parameters of the user, such as one or more of blood pressure signals, electrocardiographic signals, heart rate signals, body temperature signals, fetal heart rate signals, uterine contractility signals, fetal movement signals, brain electrical signals. The number of the second collecting sensors 3 may be plural, for example, some of the second collecting sensors 3 are blood pressure sensors for collecting blood pressure signals; the second acquisition sensor 3 is a temperature sensor and is used for acquiring body temperature signals; the second acquisition sensor 3 is an electrocardio sensor and is used for acquiring electrocardio signals and the like. When in actual use, the second collecting sensor 3 can be in communication connection with the monitoring processing device 2 in a plug-in or contact connection mode, and a doctor or a nurse selects the type of the corresponding second collecting sensor 3 according to actual demands so as to collect corresponding physiological parameters.

The bedside monitoring device may further comprise time scale means for synchronizing the time of the acquisition means 1 and the monitoring processing means 2, in particular the acquisition means and the monitoring processing means. The time scale device may be built in the acquisition device 1 or the monitoring processing device 2.

The bedside monitoring device may further comprise calling means. The calling device is used for calling medical staff in the hospital. The calling device can be independently arranged or built in the acquisition device, so that the user can call conveniently, and of course, the calling device can also be connected with the monitoring processing device, is independent of the monitoring processing device or is built in the monitoring processing device.

Embodiment two:

the present embodiment provides a bedside monitoring device, as shown in fig. 3, which comprises an acquisition device 1 and a monitoring processing device 2 as described above. The monitoring and processing device 2 of the present embodiment adopts a split design, and includes an interface base 23 and a monitoring and processing device body 22 connected to the interface base 23. The monitoring and processing device body 22 is used for monitoring physiological parameters of a user, and has the same specific functions as the monitoring and processing device of the first embodiment. The monitoring processing device body 22 includes the second wireless communication module 210 as described above, and the function of the second wireless communication module 210 of the monitoring processing device body 22 is the same as that of the second wireless communication module 210 of the monitoring processing device of the first embodiment, and will not be described herein.

The interface base 23 of the present embodiment is provided with at least one second communication interface 21 as described above. The second communication interface 21 is adapted for wired communication connection with the first communication interface 11 of the acquisition device 1. The monitoring processing apparatus body 22 is further configured to obtain a first device identifier of the acquisition apparatus through a connection between the second communication interface 21 and the first communication interface 11, for example, when the second communication interface 21 is connected to the first communication interface 11 in a wired manner, read the first device identifier of the acquisition apparatus 1 through the first communication interface 21 of the interface base 23, and perform wireless communication pairing with the acquisition apparatus 1 through the first device identifier and the second device identifier thereof. The monitoring and processing device 2 and the acquisition device 1 can then perform wireless communication to realize the monitoring of the physiological parameters of the user.

As shown in fig. 3, one monitoring processing device 2 may be paired with a plurality of acquisition devices 1 at the same time to monitor data acquired by the plurality of acquisition devices 1.

In this embodiment, the monitoring processing device 2 adopts a split design, and the interface base 23 and the monitoring processing device body 22 can be connected through a communication cable, a communication interface plug connection or a communication interface contact connection, so that on one hand, when any one of the interface base 23 and the monitoring processing device body 22 fails, the replacement is convenient; on the other hand, the interface base 23 and the monitoring processing device body 22 are connected in a plug-in or contact mode through the communication interface, so that a user can conveniently pick up the monitoring processing device body 22 from the interface base 23, the monitoring processing device body 22 can be moved as required, and the monitoring processing device is similar to a mobile phone or a tablet, and remote monitoring is realized without being bound by a cable.

Further, in one embodiment, the interface base 23 is further provided with a power input interface 232, and the power input interface 232 is used for connecting an external power source (such as a mains supply), and the interface base 23 is used for charging and/or supplying power to the monitoring and processing device body 22 by using the electric energy obtained by the power input interface 232. For example, the monitoring and processing device body 22 includes an energy storage battery, and the interface base 23 is configured to charge the energy storage battery of the monitoring and processing device body 22 by using the electric energy obtained by the power input interface 232; if the monitoring and processing device body 22 does not include a power storage battery, it can be powered directly. The interface mount 23 may also include a rechargeable power source having an output electrically coupled to the monitoring and treatment device body 22 for powering the monitoring and treatment device body 22. The input of the rechargeable power source is electrically connected to the power input interface 232 on the interface mount 23.

In one embodiment, as shown in fig. 4, the monitoring and processing device body 22 may be a first smart terminal including one or more of a mobile phone, a tablet computer, a notebook computer, a smart television, and a smart wearable device.

In one embodiment, as shown in fig. 5, a sixth communication interface 221 is provided on the first intelligent terminal; the interface base 23 is provided with a fifth communication interface 233, and the fifth communication interface 233 is communicatively connected to the second communication interface 21, such as a wired communication connection; while the fifth communication interface 233 is connected to the sixth communication interface 221 by wire or wireless communication. In this embodiment, the wired communication connection is taken as an example, preferably, the fifth communication interface 233 and the sixth communication interface 221 are in communication connection in a pluggable manner or in a contact manner, and the fifth communication interface 233 and the sixth communication interface 221 can be directly plugged and disconnected without a communication cable, so that the first intelligent terminal can be plugged and connected with the interface base 23 or in contact with the contact as required, the first intelligent terminal is very convenient to be taken off from the interface base 23 or connected, and the first intelligent terminal is not limited by the interface base 23 and the communication cable when being used alone, so that the use is more convenient.

Embodiment III:

in one embodiment, as shown in fig. 6, the monitoring processing apparatus 2 includes the monitoring processing apparatus body 22 and the interface base 23, where at least one fourth communication interface 222 is provided on the monitoring processing apparatus body 22, and a third communication interface adapted to the fourth communication interface 222 is provided on the collecting apparatus 1, and the fourth communication interface 222 and the third communication interface are connected in a wired or wireless communication manner, and in this embodiment, the wired communication connection is illustrated as an example, and preferably, the fourth communication interface 222 and the third communication interface are connected in a pluggable manner or a contact manner in a communication manner. The monitoring processing device body 22 is configured to read a first device identification code of the acquisition device 1 through the fourth communication interface 222 and pair with the acquisition device 1 through the first device identification code and a second device identification code thereof when the fourth communication interface 222 is in communication connection with the third communication interface of the acquisition device 1. After the wireless communication is paired, the fourth communication interface 222 and the third communication interface can be disconnected, and the acquisition device 1 and the monitoring processing device 2 are still in a paired state, so that the user can realize the wireless communication pairing between the two devices by plugging and unplugging the communication interfaces, and the wireless communication pairing is very convenient and quick. The third communication interface may be a separate communication interface or may be the first communication interface, thereby saving the number of interfaces of the acquisition device 1.

In one embodiment, the bedside monitoring device further comprises: and an alarm device. The alarm device is used for sending an alarm indication according to the alarm information; wherein the alarm indication comprises an audible alarm indication and/or a visual alarm indication. As shown in fig. 7, the acquisition device 1 and/or the monitoring processing device 2 are provided with an alarm device 241, and the alarm device 241 is configured to send out an alarm indication when one or more of the physiological parameters of the user trigger a preset alarm mechanism, that is, the acquisition device 1 and/or the monitoring processing device 2 obtain alarm information and then output a corresponding alarm indication through the alarm device 241. As shown in fig. 7, an alarm device 241 is provided on the interface base 23. In some embodiments, the alarm device may also be provided independently, i.e. the bedside monitoring device further comprises an alarm device having a third device identification code for uniquely identifying the alarm device. The monitoring processing means 2 and the alarm means are paired in wireless communication by means of the second device identification code and the third device identification code. The monitoring processing device generates alarm information and then sends the alarm information to the matched alarm devices. Specifically, the alarm device is further provided with a third wireless communication module, and the third wireless communication module is used for receiving alarm information sent by the second wireless communication module.

Wherein, the alarm device 241 can adopt one or more of an audible alarm device, a visual alarm device and a vibration alarm device; the audible alarm device is used for sending out audio information (such as sound) to alarm, the visual alarm device is used for sending out visible information (such as flashing of an indicator light) to alarm, and the vibration alarm device is used for sending out vibration information to alarm.

In an embodiment, the collecting device 1 is provided with a first indicating device for indicating a wireless communication pairing status (such as paired or unpaired) of the collecting device 1 and the monitoring processing device 2 and an identification (such as a name of the monitoring processing device) of the paired monitoring processing device. Therefore, a user can quickly know whether the acquisition device is paired with the monitoring processing device, in particular to which monitoring processing device. The first indication means may be a display or a loudspeaker or the like of the acquisition means. Similarly, the monitoring and processing device may also be provided with a second indicating device 242, where the second indicating device 242 is used to indicate the wireless communication pairing status of the collecting device 1 and the monitoring and processing device 2 and the identification of the paired collecting device 1 (such as the name of the collecting device). So that the user can quickly learn whether the monitoring processing device 2 is paired with the acquisition device, and in particular with which acquisition device. The second indication device 242 may also be used to display at least one of physiological parameters, monitored information, and alarm information. The second indication means may be a display or a loudspeaker or the like of the monitoring processing means 2.

In one embodiment, the alarm device 241 is provided with one or more of a pause button, a suppress button, a mute button, and a reset button. The pause button is used for temporarily turning off the sounding alarm indication being sent out, and the sounding alarm indication which is paused before being automatically resumed after the preset pause time is exceeded. The suppression button is used for adjusting the audible alarm indication which is being sent by the alarm device, and the audible alarm indication which is suppressed before is automatically recovered after the preset suppression time is exceeded. The mute button is used for muting the alarm information sent by the alarm device. The reset button is used for controlling the alarm device to stop the alarm indication sent currently and determining whether to send the alarm indication according to the new alarm information of the monitoring processing device. For example, referring to fig. 7, a pause button 243, a suppress button (not shown), a mute button 244, and a reset button 245 are provided on the interface base 23.

In one embodiment, the bedside monitoring device further comprises a shock means having at least 2 electrodes for contacting the user, the shock means for providing a shock voltage to the user via the electrodes.

The monitoring processing device 2 of the present embodiment further includes a display module. The display module is used for displaying the physiological parameters of the user. The display module may be a display of various types, in this embodiment a touch screen, i.e. a display screen capable of touch input. In some embodiments, the display module and the second indicator device may be the same display.

In one embodiment, the monitoring processing device 2 further includes an editing module for editing the user information. For example, the editing module comprises an input device and a processing module matched with the input device, and after the input device inputs information, the processing module processes the input information. The input device includes one or more of a keyboard, a mouse, and an inputtable touch screen.

In an embodiment, the bedside monitoring device may further include a positioning device, which may be built in the acquisition device, for detecting the position information of the user, and the monitoring processing device is connected through the first wireless communication module 110, for example, the position information is sent to the monitoring processing device through the first wireless communication module 110. Of course, the positioning device may also be provided independently of the acquisition device, i.e. on the user wearing the device as a separate unit to detect the position information of the user and send the position information to the monitoring processing device via the wireless communication module of the positioning device itself. In some embodiments, the positioning device may be built in the monitoring device, so as to position the monitoring device. The positioning device may be a Beidou or GPS positioning device.

As shown in fig. 8, the present invention further provides a central monitoring system, including: the acquisition device 1 as described above, the monitoring processing device 2 as described above, and the server 4. The acquisition device 1 may be connected to the server 4 in a wireless communication manner, and the monitoring processing device 2 may be connected to the server 4 in a wired or wireless communication manner.

The server 4 is used for receiving and storing physiological parameters of the user transmitted by the monitoring processing device 2 of the bedside monitoring equipment; it may also be used to receive and store physiological parameters of the user transmitted by the acquisition device 1 of the bedside monitoring apparatus.

Those skilled in the art will appreciate that all or part of the functions of the various methods in the above embodiments may be implemented by hardware, or may be implemented by a computer program. When all or part of the functions in the above embodiments are implemented by means of a computer program, the program may be stored in a computer readable storage medium, and the storage medium may include: read-only memory, random access memory, magnetic disk, optical disk, hard disk, etc., and the program is executed by a computer to realize the above-mentioned functions. For example, the program is stored in the memory of the device, and when the program in the memory is executed by the processor, all or part of the functions described above can be realized. In addition, when all or part of the functions in the above embodiments are implemented by means of a computer program, the program may be stored in a storage medium such as a server, another computer, a magnetic disk, an optical disk, a flash disk, or a removable hard disk, and the program in the above embodiments may be implemented by downloading or copying the program into a memory of a local device or updating a version of a system of the local device, and when the program in the memory is executed by a processor.

The foregoing description of the invention has been presented for purposes of illustration and description, and is not intended to be limiting. Several simple deductions, modifications or substitutions may also be made by a person skilled in the art to which the invention pertains, based on the idea of the invention.

Claims (22)

1. A monitoring processing apparatus characterized by a second device identification code that uniquely identifies the monitoring processing apparatus; the monitoring processing device comprises:

the second power supply unit is used for supplying power to the monitoring processing device;

the second wireless communication module is used for wirelessly communicating with the first wireless communication module of the acquisition device matched with the wireless communication and receiving physiological parameters of a user sent by the first wireless communication module; the acquisition device is provided with a first equipment identification code which uniquely identifies the acquisition device;

the monitoring processing module is used for processing the physiological parameters of the user to obtain monitoring information; the monitoring information comprises alarm information;

at least one second communication interface; the second communication interface is used for being in wired communication connection with a first communication interface of the acquisition device, and a first equipment identification code of the acquisition device is acquired through the first communication interface; the first equipment identification code and the second equipment identification code are used for carrying out wireless communication pairing on the acquisition device and the monitoring processing device.

2. The guardianship processing device of claim 1, further comprising:

at least one second acquisition sensor for acquiring a physiological parameter of the user.

3. The monitoring and processing device of claim 1, wherein the monitoring and processing device comprises an interface base and a monitoring and processing device body coupled to the interface base;

the at least one second communication interface is arranged on the interface base;

the monitoring processing device body is used for acquiring a first equipment identification code of the acquisition device through connection between the second communication interface and the first communication interface.

4. The monitoring and processing device of claim 3, wherein,

the interface base is also provided with a power input interface which is used for connecting an external power supply, and the interface base is used for charging and/or supplying power to the monitoring processing device body by utilizing the electric energy acquired by the power input interface; and/or the number of the groups of groups,

the interface base comprises a chargeable power supply, and the output end of the chargeable power supply is electrically connected with the monitoring processing device body and is used for supplying power to the monitoring processing device body; the input end of the chargeable power supply is electrically connected with a power input interface on the interface base.

5. The monitoring and processing device according to claim 3, wherein the monitoring and processing device body is provided with at least one fourth communication interface, and the fourth communication interface is used for being connected with the third communication interface of the acquisition device in a wired or wireless communication manner;

the monitoring processing device body is further configured to obtain a first equipment identification code of the acquisition device through a connection between the fourth communication interface and the third communication interface.

6. The monitoring and processing device of claim 3, wherein the monitoring and processing device body is a first intelligent terminal; the first intelligent terminal comprises one or more of a mobile phone, a tablet personal computer, a notebook computer, a computer and an intelligent television.

7. The monitoring and processing device according to claim 6, wherein a sixth communication interface is provided on the first intelligent terminal;

the interface base is provided with a fifth communication interface which is in communication connection with the second communication interface; the fifth communication interface is connected with the sixth communication interface in a wired or wireless communication manner.

8. The monitoring and processing device of claim 1, further comprising a second indicating device for displaying at least one of the physiological parameter of the user, the monitoring information, and the alarm information; and the wireless communication pairing state between the monitoring processing device and the acquisition device is indicated.

9. A bedside monitoring device, comprising: acquisition means for acquiring at least two physiological functions related information, alarm means, and monitoring and processing means according to any one of claims 1-8; the alarm device is used for sending an alarm indication according to the alarm information; wherein the alarm indication comprises an audible alarm indication and/or a visual alarm indication;

the acquisition device comprises:

the first power supply unit is used for supplying power to the acquisition device;

the first acquisition sensor is used for acquiring physiological parameters of a user;

and the first wireless communication module is used for carrying out wireless communication with the second wireless communication module of the monitoring processing device matched with the wireless communication and sending the physiological parameters of the user to the monitoring processing device.

10. The bedside monitoring apparatus of claim 9, wherein the acquisition device is provided with a first indication device for indicating a wireless communication pairing status of the acquisition device and the monitoring processing device; and/or the monitoring processing device is provided with a second indicating device which is used for indicating the wireless communication pairing state of the acquisition device and the monitoring processing device.

11. The bedside monitoring device of claim 9, wherein,

the alarm device is provided with a third equipment identification code for uniquely identifying the alarm device; the monitoring processing device and the alarm device are subjected to wireless communication pairing through the second equipment identification code and the third equipment identification code;

the alarm device is also provided with a third wireless communication module, and the third wireless communication module is used for receiving alarm information sent by the second wireless communication module.

12. The bedside monitoring apparatus of claim 9, wherein the alarm device is disposed on the monitoring processing device, the alarm device is disposed on the acquisition device, or the alarm device is disposed independent of the monitoring processing device and the acquisition device.

13. The bedside monitoring apparatus of claim 9, wherein the alarm device comprises one or more of an audible alarm sub-device, a visual alarm sub-device, and a vibratory alarm sub-device; the audible alarm sub-device is used for sending out audible alarm indication, the visual alarm sub-device is used for visual alarm indication, and the vibration alarm sub-device is used for sending out vibration alarm indication.

14. The bedside monitoring device of claim 9, wherein the alarm means is further provided with one or more of a pause button, a suppress button, a mute button, and a reset button;

the pause button is used for temporarily closing the sounding alarm indication which is being sent, and the sounding alarm indication which is previously paused is automatically resumed after the preset pause time is exceeded; the suppression button is used for adjusting the audible alarm indication which is sent by the alarm device, and the audible alarm indication which is suppressed before is automatically recovered after the preset suppression time is exceeded; the mute button is used for performing mute processing on alarm information sent by the alarm device; the reset button is used for controlling the alarm device to stop the alarm indication sent currently and determining whether to send the alarm indication according to the new alarm information of the monitoring processing device.

15. The bedside monitoring device of claim 9, further comprising a shock means having at least 2 electrodes contacting the user for providing a shock voltage to the user.

16. The bedside monitoring device of any one of claims 9 to 15, further comprising a time scale means for synchronizing the time of the acquisition means and the monitoring processing means.

17. The bedside monitoring apparatus of claim 16, wherein the time scale device is built into the acquisition device or the time scale device is built into the monitoring processing device.

18. The bedside monitoring device of claim 9, wherein the physiological parameter of the user comprises one or more of non-invasive blood pressure data, blood oxygen data, electrocardiographic data, respiratory data, heart rate data, body temperature data, invasive blood pressure data, end-of-breath carbon dioxide data, anesthetic gas data, cardiac output data, brain electrical double frequency index, fetal heart rate, uterine contractile pressure, fetal movement of the user.

19. The bedside monitoring device of claim 9, further comprising a positioning means coupled to the monitoring processing means for detecting user location information; the positioning device is independent of the acquisition device or is built in the acquisition device; and/or the positioning device is independent of the monitoring processing device or built-in to the monitoring processing device.

20. The bedside monitoring apparatus of claim 9, further comprising a calling device connected to the monitoring processing device for making a call to a hospital healthcare worker; the calling device is independent of the collecting device or is built in the collecting device; and/or the calling device is independent of the monitoring processing device or built-in to the monitoring processing device.

21. An acquisition device characterized by a first device identification code that uniquely identifies the acquisition device; comprising the following steps:

the first power supply unit is used for supplying power to the acquisition device;

the first acquisition sensor is used for acquiring physiological parameters of a user;

the first wireless communication module is used for carrying out wireless communication with a second wireless communication module of the monitoring processing device matched with the wireless communication and sending the physiological parameters of the user to the monitoring processing device;

at least one first communication interface; the first communication interface is used for being in wired communication connection with a second communication interface of the monitoring processing device, and a second equipment identification code of the monitoring processing device is acquired through the second communication interface; the first equipment identification code and the second equipment identification code are used for carrying out wireless communication pairing on the acquisition device and the monitoring processing device.

22. A central monitoring system, comprising:

the bedside monitoring device of any one of claims 9-20;

the server is used for receiving and storing the physiological parameters of the user transmitted by the monitoring processing device of the bedside monitoring equipment; and/or receiving and storing the physiological parameters of the user transmitted by the acquisition device of the bedside monitoring equipment.

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