CN221180402U - Portable bedside monitoring system - Google Patents

Abstract

The utility model relates to the technical field of medical equipment, in particular to a portable bedside monitoring system, which comprises: the monitoring system comprises a monitored signal processing device, a central monitoring display screen and a plurality of monitoring units; the monitoring signal processing device is provided with a plurality of different communication interfaces, the monitoring unit is provided with a communication connector, and the communication connectors of the monitoring units are connected with the communication interfaces of the monitoring signal processing device in a plug-in mode; the plurality of monitoring units comprise an oxygen saturation monitoring unit, a blood pressure monitoring unit, an electrocardio monitoring unit, an electroencephalogram monitoring unit, an myoelectric monitoring unit and a body temperature monitoring unit. Like this, in the during operation, according to the vital sign data that the patient needs to monitor, medical personnel select corresponding guardianship unit and guardianship signal processing device plug to be connected, and guardianship signal processing device can monitor the vital sign data that this guardianship unit gathered, need not every detector like this and all integrate each guardianship module, has practiced thrift the hardware cost.

Description

Portable bedside monitoring system

Technical Field

The utility model relates to the technical field of medical equipment, in particular to a portable bedside monitoring system.

Background

In order to collect and monitor various physiological parameters or physical sign data of a patient in real time, monitoring devices are widely used in the medical field.

The related art adopts a monitor to collect and monitor physiological parameters or physical sign data of a patient in real time. The related monitors generally integrate a plurality of monitoring units, for example, the existing monitors generally integrate at least an oxygen saturation monitoring unit, a blood pressure monitoring unit, an electrocardiograph monitoring unit, an electroencephalogram monitoring unit, an myoelectric monitoring unit and a body temperature monitoring unit; the monitoring units are respectively used for collecting and monitoring different physiological information of the patient. When in work, the monitor is generally placed beside a sickbed, and medical staff selects the monitoring unit according to the needs of patients. The vital sign parameters that need to be monitored are different for different patients, so that it is generally not necessary to use all the monitoring units, and some of the monitoring units are in an idle state. Although the integrated monitor has complete functions, the integrated monitor needs to integrate a plurality of monitoring units, so that the hardware cost is high, and part of monitoring units are in an idle state during each working, so that the waste of hardware resources is caused.

Disclosure of utility model

The application provides a portable bedside monitoring system, which aims to solve the technical problem of higher hardware cost of the existing monitor.

In one aspect, the present utility model provides a portable bedside monitoring system comprising: the monitoring system comprises a monitored signal processing device, a central monitoring display screen and a plurality of monitoring units;

the monitoring signal processing device is provided with a plurality of different communication interfaces, the monitoring unit is provided with a communication connector, and the communication connectors of the monitoring units are connected with the communication interfaces of the monitoring signal processing device in a plug-in mode;

The monitoring units comprise an oxygen saturation monitoring unit, a blood pressure monitoring unit, an electrocardiograph monitoring unit, an electroencephalogram monitoring unit, an myoelectric monitoring unit and a body temperature monitoring unit;

the blood oxygen saturation monitoring unit is used for collecting blood oxygen saturation information of a patient; the blood pressure monitoring unit is used for collecting blood pressure information of a patient; the electrocardiograph monitoring unit is used for collecting electrocardiograph information of a patient; the electroencephalogram monitoring unit is used for collecting electroencephalogram information of a patient; the myoelectricity monitoring unit is used for collecting myoelectricity information of a patient; the body temperature monitoring unit is used for collecting body temperature information of a patient.

In one embodiment, the monitored signal processing device comprises a blood oxygen saturation monitoring module, a blood pressure monitoring module, an electrocardiograph monitoring module, an electroencephalogram monitoring module, an myoelectric monitoring module and a body temperature monitoring module;

the blood oxygen saturation monitoring module is used for monitoring blood oxygen saturation information acquired by the blood oxygen saturation monitoring unit;

the blood pressure monitoring module is used for monitoring the blood pressure information acquired by the blood pressure monitoring unit;

the electrocardiograph monitoring module is used for monitoring electrocardiograph information acquired by the electrocardiograph monitoring unit;

The electroencephalogram monitoring module is used for monitoring electroencephalogram information acquired by the electroencephalogram monitoring unit;

The myoelectricity monitoring module is used for monitoring myoelectricity information acquired by the myoelectricity monitoring unit;

The body temperature monitoring module is used for monitoring the body temperature information acquired by the body temperature monitoring unit.

In one embodiment, the blood oxygen saturation monitoring unit includes a first acquisition module, a first display screen and a first communication connector, where the first acquisition module is configured to acquire blood oxygen saturation information of a patient, the first display screen is configured to display the acquired blood oxygen saturation information, and the first communication connector is configured to connect with a corresponding communication interface on the monitored signal processing device in a pluggable manner;

The blood pressure monitoring unit comprises a second acquisition module, a second display screen and a second communication connector, wherein the second acquisition module is used for acquiring blood pressure information of a patient, the second display screen is used for displaying the acquired blood pressure information, and the second communication connector is used for being connected with a corresponding communication interface on the monitored signal processing device in a plug-in mode;

The electrocardiograph monitoring unit comprises a third acquisition module, a third display screen and a third communication connector, wherein the third acquisition module is used for acquiring electrocardiograph information of a patient, the third display screen is used for displaying the acquired electrocardiograph information, and the third communication connector is used for being connected with a corresponding communication interface on the monitored signal processing device in a plugging manner;

The electroencephalogram monitoring unit comprises a fourth acquisition module, a fourth display screen and a fourth communication connector, wherein the fourth acquisition module is used for acquiring electroencephalogram information of a patient, the fourth display screen is used for displaying the acquired electroencephalogram information, and the fourth communication connector is used for being connected with a corresponding communication interface on the monitored signal processing device in a plug-in mode;

The myoelectricity monitoring unit comprises a fifth acquisition module, a fifth display screen and a fifth communication connector, wherein the fifth acquisition module is used for acquiring myoelectricity information of a patient, the fifth display screen is used for displaying the acquired myoelectricity information, and the fifth communication connector is used for being connected with a corresponding communication interface on the monitored signal processing device in a plugging manner;

The body temperature monitoring unit comprises a sixth acquisition module, a sixth display screen and a sixth communication connector, wherein the sixth acquisition module is used for acquiring body temperature information of a patient, the sixth display screen is used for displaying the acquired body temperature information, and the sixth communication connector is used for being connected with a corresponding communication interface on the monitored signal processing device in a plug-in mode.

In one embodiment, the blood oxygen saturation monitoring unit further comprises a first alarm module; the blood pressure monitoring unit also comprises a second alarm module; the electrocardiograph monitoring unit further comprises a third alarm module; the electroencephalogram monitoring unit further comprises a fourth alarm module; the myoelectricity monitoring unit further comprises a fifth alarm module; the body temperature monitoring unit further comprises a sixth alarm module.

In one embodiment, the monitored signal processing device further comprises an alarm module; and the alarm module is used for sending alarm information.

In another aspect, the present utility model also provides a portable bedside monitoring system, including: the monitoring system comprises a monitored signal processing device, a central monitoring display screen and a plurality of monitoring units;

The monitoring unit is also provided with a wireless communication module, and the monitoring unit is in communication connection with the monitoring signal processing device through the wireless communication module;

The monitoring units comprise an oxygen saturation monitoring unit, a blood pressure monitoring unit, an electrocardiograph monitoring unit, an electroencephalogram monitoring unit, an myoelectric monitoring unit and a body temperature monitoring unit;

the blood oxygen saturation monitoring unit is used for collecting blood oxygen saturation information of a patient; the blood pressure monitoring unit is used for collecting blood pressure information of a patient; the electrocardiograph monitoring unit is used for collecting electrocardiograph information of a patient; the electroencephalogram monitoring unit is used for collecting electroencephalogram information of a patient; the myoelectricity monitoring unit is used for collecting myoelectricity information of a patient; the body temperature monitoring unit is used for collecting body temperature information of a patient.

In one embodiment, the monitored signal processing device comprises a blood oxygen saturation monitoring module, a blood pressure monitoring module, an electrocardiograph monitoring module, an electroencephalogram monitoring module, an myoelectric monitoring module and a body temperature monitoring module;

the blood oxygen saturation monitoring module is used for monitoring blood oxygen saturation information acquired by the blood oxygen saturation monitoring unit;

the blood pressure monitoring module is used for monitoring the blood pressure information acquired by the blood pressure monitoring unit;

the electrocardiograph monitoring module is used for monitoring electrocardiograph information acquired by the electrocardiograph monitoring unit;

The electroencephalogram monitoring module is used for monitoring electroencephalogram information acquired by the electroencephalogram monitoring unit;

The myoelectricity monitoring module is used for monitoring myoelectricity information acquired by the myoelectricity monitoring unit;

The body temperature monitoring module is used for monitoring the body temperature information acquired by the body temperature monitoring unit.

In one embodiment, the blood oxygen saturation monitoring unit includes a first acquisition module, a first display screen and a first wireless communication module, where the first acquisition module is configured to acquire blood oxygen saturation information of a patient, the first display screen is configured to display the acquired blood oxygen saturation information, and the first wireless communication module is configured to be in communication connection with the wireless communication module on the monitored signal processing device;

The blood pressure monitoring unit comprises a second acquisition module, a second display screen and a second wireless communication module, wherein the second acquisition module is used for acquiring blood pressure information of a patient, the second display screen is used for displaying the acquired blood pressure information, and the second wireless communication module is used for being in communication connection with the wireless communication module on the monitored signal processing device;

The electrocardiograph monitoring unit comprises a third acquisition module, a third display screen and a third wireless communication module, wherein the third acquisition module is used for acquiring electrocardiograph information of a patient, the third display screen is used for displaying the acquired electrocardiograph information, and the third wireless communication module is used for being in communication connection with the wireless communication module on the monitoring signal processing device;

The electroencephalogram monitoring unit comprises a fourth acquisition module, a fourth display screen and a fourth wireless communication module, wherein the fourth acquisition module is used for acquiring electroencephalogram information of a patient, the fourth display screen is used for displaying the acquired electroencephalogram information, and the fourth wireless communication module is used for being in communication connection with the wireless communication module on the monitored signal processing device;

The myoelectricity monitoring unit comprises a fifth acquisition module, a fifth display screen and a fifth wireless communication module, wherein the fifth acquisition module is used for acquiring myoelectricity information of a patient, the fifth display screen is used for displaying the acquired myoelectricity information, and the fifth wireless communication module is used for being in communication connection with the wireless communication module on the monitoring signal processing device;

The body temperature monitoring unit comprises a sixth acquisition module, a sixth display screen and a sixth wireless communication module, wherein the sixth acquisition module is used for acquiring body temperature information of a patient, the sixth display screen is used for displaying the acquired body temperature information, and the sixth wireless communication module is used for being in communication connection with the wireless communication module on the monitoring signal processing device.

In one embodiment, the blood oxygen saturation monitoring unit further comprises a first alarm module; the blood pressure monitoring unit also comprises a second alarm module; the electrocardiograph monitoring unit further comprises a third alarm module; the electroencephalogram monitoring unit further comprises a fourth alarm module; the myoelectricity monitoring unit further comprises a fifth alarm module; the body temperature monitoring unit further comprises a sixth alarm module.

A portable bedside monitoring system according to the above embodiments, comprising: the monitoring system comprises a monitored signal processing device, a central monitoring display screen and a plurality of monitoring units; the monitoring signal processing device is provided with a plurality of different communication interfaces, the monitoring unit is provided with a communication connector, and the communication connectors of the monitoring units are connected with the communication interfaces of the monitoring signal processing device in a plug-in mode; the plurality of monitoring units comprise an oxygen saturation monitoring unit, a blood pressure monitoring unit, an electrocardio monitoring unit, an electroencephalogram monitoring unit, an myoelectric monitoring unit and a body temperature monitoring unit. Like this, in the during operation, according to the vital sign data that the patient needs to monitor, medical personnel select corresponding guardianship unit and guardianship signal processing device plug to be connected, and guardianship signal processing device can monitor the vital sign data that this guardianship unit gathered, need not every detector like this and all integrate each guardianship module, has practiced thrift the hardware cost.

Drawings

FIG. 1 is a schematic diagram of a portable bedside monitoring system according to an embodiment of the present utility model;

Fig. 2 is a schematic diagram of a monitored signal processing device according to an embodiment of the present utility model;

Fig. 3 is a schematic structural diagram of a blood oxygen saturation monitoring unit according to an embodiment of the present utility model.

Detailed Description

The application 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, related operations of the present application have not been shown or described in the specification in order to avoid obscuring the core portions of the present application, and may be unnecessary to persons skilled in the art from a detailed description of the related operations, which may be presented in the description and general knowledge of one skilled in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments, and the operational steps involved in the embodiments may be sequentially exchanged or adjusted in a manner apparent to those skilled in the art. Accordingly, the description and drawings are merely for clarity of describing certain embodiments and are not necessarily intended to imply a required composition and/or order.

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 term "coupled" as used herein includes both direct and indirect coupling (coupling), unless otherwise indicated.

Embodiment one:

Fig. 1 is a schematic structural diagram of a portable bedside monitoring system according to an embodiment of the present utility model, please refer to fig. 1, the portable bedside monitoring system includes: a monitored signal processing device 11, a central monitoring display screen 10 and a plurality of monitoring units.

The monitoring signal processing device is provided with a plurality of different communication interfaces, the monitoring unit is provided with a communication connector, and the communication connectors of the monitoring units are connected with the communication interfaces of the monitoring signal processing device in a plug-in mode. For example, a HDMI (High Definition Multimedia Interface) interface, a Type-c interface, an RS485 interface, a RCA (Radio Corporation of American) interface and the like are arranged on the monitoring signal processing device, an adaptive communication connector is arranged on the corresponding monitoring unit, medical staff can connect the required monitoring unit with the monitoring signal processing device in a communication manner through plugging and unplugging manner, then the monitoring unit is started, the monitoring unit sends collected patient sign data to the monitoring signal processing device, and the monitoring signal processing device sends the collected patient sign data to the central monitoring display screen 10 for real-time display and monitoring.

It can be seen that, by adopting the portable bedside monitoring system of this embodiment, the monitoring units with various functions are separately designed and set to be connected with the monitored signal processing device in a pluggable manner, and medical staff can select the corresponding monitoring unit according to the physiological data requirement of patient monitoring, so that the monitoring units with various functions do not need to be integrated on one monitor, and the hardware cost is saved.

Referring to fig. 1, the plurality of monitoring units of the present embodiment may include a blood oxygen saturation monitoring unit 21, a blood pressure monitoring unit 22, an electrocardiographic monitoring unit 23, an electroencephalogram monitoring unit 24, an myoelectric monitoring unit 25, and a body temperature monitoring unit 26.

Wherein, the blood oxygen saturation monitoring unit 21 is used for collecting blood oxygen saturation information of a patient; the blood pressure monitoring unit 22 is used for collecting blood pressure information of a patient; the electrocardiograph monitoring unit 23 is used for collecting electrocardiograph information of a patient; the electroencephalogram monitoring unit 24 is used for collecting electroencephalogram information of a patient; the myoelectricity monitoring unit 25 is used for collecting myoelectricity information of a patient; the body temperature monitoring unit 26 is configured to collect body temperature information of a patient.

In one embodiment, the monitoring unit may be a respiratory system-related monitoring unit in addition to the specific monitoring units described above, such as a respiratory rate monitoring unit, an oxygen concentration monitoring unit, a carbon dioxide concentration monitoring unit, an airway pressure monitoring unit, a respiratory volume monitoring unit, and a anesthesia monitoring unit. The monitoring unit can also be a monitoring unit related to the circulatory system, for example, the monitoring unit can be a pulse monitoring unit and a heart blood discharge monitoring unit; the monitoring unit may also be a neurological monitoring unit, for example, the monitoring unit may be an intracranial pressure monitoring unit, an electroencephalogram monitoring unit, an anesthesia depth monitoring unit, a frontal electromyography monitoring unit, a neuromuscular conduction function monitoring unit, etc. It will be appreciated that one skilled in the art may select one or more corresponding monitoring units as desired, and are not enumerated here.

Fig. 2 is a schematic diagram of a monitored signal processing device according to an embodiment of the present utility model, and referring to fig. 2, the monitored signal processing device of the present embodiment includes an oxygen saturation monitoring module 111, a blood pressure monitoring module 112, an electrocardiograph monitoring module 113, an electroencephalogram monitoring module 114, an electromyographic monitoring module 115, and a body temperature monitoring module 116.

Wherein, the blood oxygen saturation monitoring module 111 is configured to monitor blood oxygen saturation information collected by the blood oxygen saturation monitoring unit 21; the blood pressure monitoring module 112 is configured to monitor blood pressure information collected by the blood pressure monitoring unit 22; the electrocardiographic monitoring module 113 is configured to monitor electrocardiographic information collected by the electrocardiographic monitoring unit 23; the electroencephalogram monitoring module 114 is configured to monitor electroencephalogram information collected by the electroencephalogram monitoring unit 24; the myoelectricity monitoring module 115 is configured to monitor myoelectricity collected by the myoelectricity monitoring unit 25; the body temperature monitoring module 116 is configured to monitor body temperature information collected by the body temperature monitoring unit 26.

In one embodiment, the monitored signal processing device 11 further comprises an alarm module; the alarm module is used for sending alarm information when each monitoring module monitors that certain physical sign data is abnormal, so as to prompt medical staff to process in time.

Fig. 3 is a schematic structural diagram of an oxygen saturation monitoring unit according to an embodiment of the present utility model, referring to fig. 3, the oxygen saturation monitoring unit 21 includes a first collection module 212, a first display screen 211 and a first communication connector 213, where the first collection module 212 is configured to collect oxygen saturation information of a patient, the first display screen 211 is configured to display the collected oxygen saturation information, the information displayed by the first display screen 211 is consistent with that displayed by the central monitoring display screen 10, the central monitoring display screen 10 is generally disposed at a nurse monitoring station, and the first display screen 211 is disposed beside a patient's hospital bed. The first communication connector 213 is configured to be connected to and plugged into a corresponding communication interface on the monitored signal processing device 11.

In one embodiment, the blood oxygen saturation monitoring unit 21 further includes a first alarm module, which is configured to send alarm information when the first acquisition module 212 detects that the acquired blood oxygen saturation information is abnormal, so as to prompt a medical staff to process in time.

In one embodiment, a communication socket is further provided on the first display screen 211 or the first acquisition module 212, where the communication socket is used to connect to a tablet computer or a notebook computer, so as to facilitate parameter setting on the first display screen 211 or the first acquisition module 212.

The blood pressure monitoring unit 22 includes a second acquisition module, a second display screen and a second communication connector, where the second acquisition module is used to acquire blood pressure information of a patient, the second display screen is used to display the acquired blood pressure information, and the second communication connector is used to connect with a corresponding communication interface on the monitored signal processing device in a plug-in manner;

The electrocardiograph monitoring unit 23 comprises a third acquisition module, a third display screen and a third communication connector, wherein the third acquisition module is used for acquiring electrocardiograph information of a patient, the third display screen is used for displaying the acquired electrocardiograph information, and the third communication connector is used for being connected with a corresponding communication interface on the monitored signal processing device in a plugging manner;

The electroencephalogram monitoring unit 24 comprises a fourth acquisition module, a fourth display screen and a fourth communication connector, wherein the fourth acquisition module is used for acquiring electroencephalogram information of a patient, the fourth display screen is used for displaying the acquired electroencephalogram information, and the fourth communication connector is used for being connected with a corresponding communication interface on the monitored signal processing device in a plug-in mode;

The myoelectricity monitoring unit 25 comprises a fifth acquisition module, a fifth display screen and a fifth communication connector, wherein the fifth acquisition module is used for acquiring myoelectricity information of a patient, the fifth display screen is used for displaying the acquired myoelectricity information, and the fifth communication connector is used for being connected with a corresponding communication interface on the monitored signal processing device in a plugging manner;

The body temperature monitoring unit 26 includes a sixth acquisition module, a sixth display screen and a sixth communication connector, where the sixth acquisition module is configured to acquire body temperature information of a patient, the sixth display screen is configured to display the acquired body temperature information, and the sixth communication connector is configured to connect with a corresponding communication interface on the monitored signal processing device in a pluggable manner.

It is to be understood that the structures of the blood pressure monitor unit 22, the electrocardiograph monitor unit 23, the electroencephalogram monitor unit 24, the myoelectric monitor unit 25 and the body temperature monitor unit 26 are similar to those of the blood oxygen saturation monitor unit 21, and will not be described herein.

In one embodiment, the blood pressure monitoring unit 22 further comprises a second alarm module; the electrocardiograph monitoring unit 23 further comprises a third alarm module; the electroencephalogram monitoring unit 24 further comprises a fourth alarm module; the myoelectricity monitoring unit 25 further comprises a fifth alarm module; the body temperature monitoring unit 26 further includes a sixth alarm module.

The following provides a portable bedside monitoring system in which a monitored signal processing device and each monitoring unit communicate in a wireless communication mode, and the portable bedside monitoring system can be correspondingly referred to and understood by the portable bedside monitoring system.

Embodiment two:

The embodiment provides a portable bedside monitoring system, including: the monitoring system comprises a monitored signal processing device, a central monitoring display screen and a plurality of monitoring units; the monitoring unit is also provided with a wireless communication module, and the monitoring unit is in communication connection with the monitoring signal processing device through the wireless communication module.

The monitoring units comprise an oxygen saturation monitoring unit, a blood pressure monitoring unit, an electrocardiograph monitoring unit, an electroencephalogram monitoring unit, an myoelectric monitoring unit and a body temperature monitoring unit;

the blood oxygen saturation monitoring unit is used for collecting blood oxygen saturation information of a patient; the blood pressure monitoring unit is used for collecting blood pressure information of a patient; the electrocardiograph monitoring unit is used for collecting electrocardiograph information of a patient; the electroencephalogram monitoring unit is used for collecting electroencephalogram information of a patient; the myoelectricity monitoring unit is used for collecting myoelectricity information of a patient; the body temperature monitoring unit is used for collecting body temperature information of a patient.

By adopting the portable bedside monitoring system of the embodiment, the monitoring units with all functions are separately designed and arranged in a mode of being connected with the monitoring signal processing device in a wireless communication mode, medical staff can select the corresponding monitoring unit according to the requirement of physiological data required to be monitored by patients, then the monitoring unit is connected with the monitoring signal processing device in a wireless communication mode, and the monitoring signal processing device is used for monitoring vital sign data of the patients collected by the monitoring unit, so that the monitoring units with all functions are not required to be integrated on one monitor, and the hardware cost is saved.

The wireless communication module can be a close range wireless communication module such as a Bluetooth communication module, a radio frequency communication module and the like.

In one embodiment, the monitored signal processing device further comprises an alarm module; the alarm module is used for sending alarm information when each monitoring module monitors that certain physical sign data is abnormal, so as to prompt medical staff to process in time.

The monitoring signal processing device comprises an oxygen saturation monitoring module, a blood pressure monitoring module, an electrocardiograph monitoring module, an electroencephalogram monitoring module, an myoelectric monitoring module and a body temperature monitoring module;

the blood oxygen saturation monitoring module is used for monitoring blood oxygen saturation information acquired by the blood oxygen saturation monitoring unit;

the blood pressure monitoring module is used for monitoring the blood pressure information acquired by the blood pressure monitoring unit;

the electrocardiograph monitoring module is used for monitoring electrocardiograph information acquired by the electrocardiograph monitoring unit;

The electroencephalogram monitoring module is used for monitoring electroencephalogram information acquired by the electroencephalogram monitoring unit;

The myoelectricity monitoring module is used for monitoring myoelectricity information acquired by the myoelectricity monitoring unit;

The body temperature monitoring module is used for monitoring the body temperature information acquired by the body temperature monitoring unit.

Wherein the blood oxygen saturation monitoring unit comprises a first acquisition module, a first display screen and a first wireless communication module, the first acquisition module is used for acquiring blood oxygen saturation information of a patient, the first display screen is used for displaying collected blood oxygen saturation information, and the first wireless communication module is used for being in communication connection with the wireless communication module on the monitored signal processing device;

The blood pressure monitoring unit comprises a second acquisition module, a second display screen and a second wireless communication module, wherein the second acquisition module is used for acquiring blood pressure information of a patient, the second display screen is used for displaying the acquired blood pressure information, and the second wireless communication module is used for being in communication connection with the wireless communication module on the monitored signal processing device;

The electrocardiograph monitoring unit comprises a third acquisition module, a third display screen and a third wireless communication module, wherein the third acquisition module is used for acquiring electrocardiograph information of a patient, the third display screen is used for displaying the acquired electrocardiograph information, and the third wireless communication module is used for being in communication connection with the wireless communication module on the monitoring signal processing device;

The electroencephalogram monitoring unit comprises a fourth acquisition module, a fourth display screen and a fourth wireless communication module, wherein the fourth acquisition module is used for acquiring electroencephalogram information of a patient, the fourth display screen is used for displaying the acquired electroencephalogram information, and the fourth wireless communication module is used for being in communication connection with the wireless communication module on the monitored signal processing device;

The myoelectricity monitoring unit comprises a fifth acquisition module, a fifth display screen and a fifth wireless communication module, wherein the fifth acquisition module is used for acquiring myoelectricity information of a patient, the fifth display screen is used for displaying the acquired myoelectricity information, and the fifth wireless communication module is used for being in communication connection with the wireless communication module on the monitoring signal processing device;

The body temperature monitoring unit comprises a sixth acquisition module, a sixth display screen and a sixth wireless communication module, wherein the sixth acquisition module is used for acquiring body temperature information of a patient, the sixth display screen is used for displaying the acquired body temperature information, and the sixth wireless communication module is used for being in communication connection with the wireless communication module on the monitoring signal processing device.

Wherein, the blood oxygen saturation monitoring unit further comprises a first alarm module; the blood pressure monitoring unit also comprises a second alarm module; the electrocardiograph monitoring unit further comprises a third alarm module; the electroencephalogram monitoring unit further comprises a fourth alarm module; the myoelectricity monitoring unit further comprises a fifth alarm module; the body temperature monitoring unit further comprises a sixth alarm module.

The foregoing description of the utility model 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 utility model pertains, based on the idea of the utility model.

Claims (9)

1. A portable bedside monitoring system, comprising: the monitoring system comprises a monitored signal processing device, a central monitoring display screen and a plurality of monitoring units;

the monitoring signal processing device is provided with a plurality of different communication interfaces, the monitoring unit is provided with a communication connector, and the communication connectors of the monitoring units are connected with the communication interfaces of the monitoring signal processing device in a plug-in mode;

The monitoring units comprise an oxygen saturation monitoring unit, a blood pressure monitoring unit, an electrocardiograph monitoring unit, an electroencephalogram monitoring unit, an myoelectric monitoring unit and a body temperature monitoring unit;

the blood oxygen saturation monitoring unit is used for collecting blood oxygen saturation information of a patient; the blood pressure monitoring unit is used for collecting blood pressure information of a patient; the electrocardiograph monitoring unit is used for collecting electrocardiograph information of a patient; the electroencephalogram monitoring unit is used for collecting electroencephalogram information of a patient; the myoelectricity monitoring unit is used for collecting myoelectricity information of a patient; the body temperature monitoring unit is used for collecting body temperature information of a patient.

2. The portable bedside monitoring system of claim 1, wherein the monitored signal processing device comprises a blood oxygen saturation monitoring module, a blood pressure monitoring module, an electrocardiograph monitoring module, an electroencephalogram monitoring module, an electromyography monitoring module, and a body temperature monitoring module;

the blood oxygen saturation monitoring module is used for monitoring blood oxygen saturation information acquired by the blood oxygen saturation monitoring unit;

the blood pressure monitoring module is used for monitoring the blood pressure information acquired by the blood pressure monitoring unit;

the electrocardiograph monitoring module is used for monitoring electrocardiograph information acquired by the electrocardiograph monitoring unit;

The electroencephalogram monitoring module is used for monitoring electroencephalogram information acquired by the electroencephalogram monitoring unit;

The myoelectricity monitoring module is used for monitoring myoelectricity information acquired by the myoelectricity monitoring unit;

The body temperature monitoring module is used for monitoring the body temperature information acquired by the body temperature monitoring unit.

3. The portable bedside monitoring system of claim 2, wherein the blood oxygen saturation monitoring unit comprises a first acquisition module, a first display screen and a first communication connector, wherein the first acquisition module is used for acquiring blood oxygen saturation information of a patient, the first display screen is used for displaying the acquired blood oxygen saturation information, and the first communication connector is used for being connected with a corresponding communication interface on the monitoring signal processing device in a plugging manner;

The blood pressure monitoring unit comprises a second acquisition module, a second display screen and a second communication connector, wherein the second acquisition module is used for acquiring blood pressure information of a patient, the second display screen is used for displaying the acquired blood pressure information, and the second communication connector is used for being connected with a corresponding communication interface on the monitored signal processing device in a plug-in mode;

The electrocardiograph monitoring unit comprises a third acquisition module, a third display screen and a third communication connector, wherein the third acquisition module is used for acquiring electrocardiograph information of a patient, the third display screen is used for displaying the acquired electrocardiograph information, and the third communication connector is used for being connected with a corresponding communication interface on the monitored signal processing device in a plugging manner;

The electroencephalogram monitoring unit comprises a fourth acquisition module, a fourth display screen and a fourth communication connector, wherein the fourth acquisition module is used for acquiring electroencephalogram information of a patient, the fourth display screen is used for displaying the acquired electroencephalogram information, and the fourth communication connector is used for being connected with a corresponding communication interface on the monitored signal processing device in a plug-in mode;

The myoelectricity monitoring unit comprises a fifth acquisition module, a fifth display screen and a fifth communication connector, wherein the fifth acquisition module is used for acquiring myoelectricity information of a patient, the fifth display screen is used for displaying the acquired myoelectricity information, and the fifth communication connector is used for being connected with a corresponding communication interface on the monitored signal processing device in a plugging manner;

The body temperature monitoring unit comprises a sixth acquisition module, a sixth display screen and a sixth communication connector, wherein the sixth acquisition module is used for acquiring body temperature information of a patient, the sixth display screen is used for displaying the acquired body temperature information, and the sixth communication connector is used for being connected with a corresponding communication interface on the monitored signal processing device in a plug-in mode.

4. The portable bedside monitoring system of claim 3, wherein the blood oxygen saturation monitoring unit further comprises a first alarm module; the blood pressure monitoring unit also comprises a second alarm module; the electrocardiograph monitoring unit further comprises a third alarm module; the electroencephalogram monitoring unit further comprises a fourth alarm module; the myoelectricity monitoring unit further comprises a fifth alarm module; the body temperature monitoring unit further comprises a sixth alarm module.

5. The portable bedside monitoring system of claim 4, wherein the monitored signal processing device further comprises an alarm module; and the alarm module is used for sending alarm information.

6. A portable bedside monitoring system, comprising: the monitoring system comprises a monitored signal processing device, a central monitoring display screen and a plurality of monitoring units;

The monitoring unit is also provided with a wireless communication module, and the monitoring unit is in communication connection with the monitoring signal processing device through the wireless communication module;

The monitoring units comprise an oxygen saturation monitoring unit, a blood pressure monitoring unit, an electrocardiograph monitoring unit, an electroencephalogram monitoring unit, an myoelectric monitoring unit and a body temperature monitoring unit;

the blood oxygen saturation monitoring unit is used for collecting blood oxygen saturation information of a patient; the blood pressure monitoring unit is used for collecting blood pressure information of a patient; the electrocardiograph monitoring unit is used for collecting electrocardiograph information of a patient; the electroencephalogram monitoring unit is used for collecting electroencephalogram information of a patient; the myoelectricity monitoring unit is used for collecting myoelectricity information of a patient; the body temperature monitoring unit is used for collecting body temperature information of a patient.

7. The portable bedside monitoring system of claim 6, wherein the monitored signal processing device comprises a blood oxygen saturation monitoring module, a blood pressure monitoring module, an electrocardiograph monitoring module, an electroencephalogram monitoring module, an electromyography monitoring module, and a body temperature monitoring module;

the blood oxygen saturation monitoring module is used for monitoring blood oxygen saturation information acquired by the blood oxygen saturation monitoring unit;

the blood pressure monitoring module is used for monitoring the blood pressure information acquired by the blood pressure monitoring unit;

the electrocardiograph monitoring module is used for monitoring electrocardiograph information acquired by the electrocardiograph monitoring unit;

The electroencephalogram monitoring module is used for monitoring electroencephalogram information acquired by the electroencephalogram monitoring unit;

The myoelectricity monitoring module is used for monitoring myoelectricity information acquired by the myoelectricity monitoring unit;

The body temperature monitoring module is used for monitoring the body temperature information acquired by the body temperature monitoring unit.

8. The portable bedside monitoring system of claim 7, wherein the blood oxygen saturation monitoring unit comprises a first acquisition module, a first display screen and a first wireless communication module, wherein the first acquisition module is used for acquiring blood oxygen saturation information of a patient, the first display screen is used for displaying the acquired blood oxygen saturation information, and the first wireless communication module is used for being in communication connection with the wireless communication module on the monitoring signal processing device;

The blood pressure monitoring unit comprises a second acquisition module, a second display screen and a second wireless communication module, wherein the second acquisition module is used for acquiring blood pressure information of a patient, the second display screen is used for displaying the acquired blood pressure information, and the second wireless communication module is used for being in communication connection with the wireless communication module on the monitored signal processing device;

The electrocardiograph monitoring unit comprises a third acquisition module, a third display screen and a third wireless communication module, wherein the third acquisition module is used for acquiring electrocardiograph information of a patient, the third display screen is used for displaying the acquired electrocardiograph information, and the third wireless communication module is used for being in communication connection with the wireless communication module on the monitoring signal processing device;

The electroencephalogram monitoring unit comprises a fourth acquisition module, a fourth display screen and a fourth wireless communication module, wherein the fourth acquisition module is used for acquiring electroencephalogram information of a patient, the fourth display screen is used for displaying the acquired electroencephalogram information, and the fourth wireless communication module is used for being in communication connection with the wireless communication module on the monitored signal processing device;

The myoelectricity monitoring unit comprises a fifth acquisition module, a fifth display screen and a fifth wireless communication module, wherein the fifth acquisition module is used for acquiring myoelectricity information of a patient, the fifth display screen is used for displaying the acquired myoelectricity information, and the fifth wireless communication module is used for being in communication connection with the wireless communication module on the monitoring signal processing device;

The body temperature monitoring unit comprises a sixth acquisition module, a sixth display screen and a sixth wireless communication module, wherein the sixth acquisition module is used for acquiring body temperature information of a patient, the sixth display screen is used for displaying the acquired body temperature information, and the sixth wireless communication module is used for being in communication connection with the wireless communication module on the monitoring signal processing device.

9. The portable bedside monitoring system of claim 8, wherein the blood oxygen saturation monitoring unit further comprises a first alarm module; the blood pressure monitoring unit also comprises a second alarm module; the electrocardiograph monitoring unit further comprises a third alarm module; the electroencephalogram monitoring unit further comprises a fourth alarm module; the myoelectricity monitoring unit further comprises a fifth alarm module; the body temperature monitoring unit further comprises a sixth alarm module.