CN110584628A - Vital sign acquisition device, unit and method - Google Patents

Abstract

A vital signs acquisition device comprising: the vital sign acquisition unit comprises a first vital sign acquisition sensor and a transmission interface matched with the first interface, the vital sign acquisition sensor corresponds to a first vital sign signal type, the transmission interface includes a third transmission endpoint corresponding to the first vital sign signal type.

Description

Vital sign acquisition device, unit and method

Technical Field

The embodiment of the invention relates to the field of medical instruments, in particular to a vital sign acquisition device, a vital sign acquisition unit and a vital sign acquisition method.

Background

In recent years, rapid development of medical institutions has made high demands on hospital treatment efficiency, and it is an important issue to improve hospital treatment efficiency and reduce the workload of medical staff.

In order to enable medical staff to better know the physical health condition and various physiological indexes of a patient in the whole process of patient admission, the patient needs to be connected with a monitor of a hospital in the whole process of hospital hospitalization so as to be referred by a doctor and provide professional opinions. However, in the current situation of the hospital, the interfaces of the monitors for vital sign signals are different due to different specific brands and models of the monitors in the hospital, so that when a patient is transported in different areas in the hospital, hospital personnel are required to repeatedly connect different monitors to the patient, and a large amount of manpower resources are consumed.

Therefore, how to solve the difficult problem of matching of different models and solve the compatibility of various models of monitors on the premise of coexistence of the existing monitors of various brands and models in a hospital, so that the problem that repeated work of medical staff is reduced to a great extent is in urgent need of solving at present.

Disclosure of Invention

In view of this, one of the technical problems solved by the present invention is how to improve the compatibility between monitors of different brands and reduce the repetitive work of medical staff.

In a first aspect, a vital sign acquisition device is provided, which comprises a vital sign acquisition unit and a connecting line;

the connecting line comprises a first interface and a second interface, the first interface comprises a first transmission endpoint corresponding to a first vital sign signal type, the second interface corresponds to the first vital sign signal type, the structure of the second interface is adapted to the monitor interface corresponding to the first vital sign signal type, the second interface comprises a second transmission endpoint for transmitting the vital sign signal of the first vital sign signal type, the second transmission endpoint is connected with a target transmission endpoint in the first transmission endpoint, and the vital sign signal type corresponding to the target transmission endpoint is the first vital sign signal type;

the vital sign acquisition unit comprises a first vital sign acquisition sensor and a transmission interface adaptive to the first interface, the vital sign acquisition sensor corresponds to a first vital sign signal type, and the transmission interface comprises a third transmission endpoint corresponding to each vital sign signal type;

optionally, the first interface includes a first transmission endpoint corresponding to a second vital sign signal type, the second interface includes a second transmission endpoint corresponding to the second vital sign signal type, the vital sign acquisition unit includes a second vital sign acquisition sensor and a transmission interface adapted to the first interface, the first vital sign acquisition sensor and the second vital sign acquisition sensor are simultaneously connected to the transmission interface, and when the transmission interface is connected to the first interface, the first interface is connected to the monitor through the second interface.

Optionally, the connection line includes a plurality of second transmission interfaces, different second transmission interfaces correspond to different vital sign types of the vital sign signals, and second transmission endpoints of all the second transmission interfaces are connected to the first transmission endpoint of the first transmission interface.

In another aspect, a vital sign acquisition unit is provided, which includes: the system comprises at least two vital sign type sensors and transmission interfaces, all signals of each vital sign sensor are connected with the transmission interfaces, and data interaction is conducted outside by the transmission interfaces in a unified mode.

Optionally, the signals connected to the transmission interface by the vital sign sensor are all analog signals.

According to the technical scheme, the interfaces of the monitors displaying different types of vital sign signals in the prior art are different, so that the compatibility among monitors of different brands and models cannot be realized. The vital sign acquisition equipment and the unit provided by the embodiment of the invention can transmit various types of vital sign signals through corresponding transmission end points in the transmission interfaces, so that various types of vital sign signals are transmitted through one transmission interface, and meanwhile, the corresponding types of vital sign signals are transmitted to the corresponding types of monitor interfaces through the second interface of the connecting wire, so that various types of vital sign signals are simultaneously transmitted through one vital sign acquisition terminal in a wired mode, and the defects of the prior art are overcome.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the embodiments of the present invention, and it is also possible for a person skilled in the art to obtain other drawings based on the drawings.

Fig. 1 is a schematic structural diagram of a vital sign acquisition device;

FIG. 2 is a schematic view of a connecting wire structure;

FIG. 3-1 is a schematic plan view of a transmission interface;

FIG. 3-2 is a schematic diagram of a portion of the blood oxygen sensor;

fig. 3-3 are schematic views of another partial structure of the blood oxygen sensor;

FIG. 4-1 is a schematic plan view of the first interface;

FIG. 4-2 is a schematic plan view of the second interface;

FIGS. 4-3 are further schematic plan views of the second interface;

FIGS. 4-4 are further schematic plan views of the second interface;

FIGS. 4-5 are schematic views of the connecting wires;

Detailed Description

Of course, it is not necessary for any particular embodiment of the invention to achieve all of the above advantages at the same time.

In order to make those skilled in the art better understand the technical solutions in the embodiments of the present invention, the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments obtained by a person skilled in the art based on the embodiments of the present invention shall fall within the scope of the protection of the embodiments of the present invention.

The following further describes specific implementation of the embodiments of the present invention with reference to the drawings.

Referring to fig. 1, an embodiment of the present invention provides a vital sign collecting device, including: vital sign acquisition unit and connecting wire, wherein, the connecting wire is used for connecting vital sign acquisition unit and monitor.

Specifically, referring to fig. 2 in conjunction with fig. 1, the connecting line includes a first interface 200 and at least one second interface 202. The first interface 200 comprises first transmission endpoints corresponding to the vital sign signal types, respectively, the second interface 202 corresponds to the first vital sign signal type and the structure of the second interface 202 is adapted to the monitor interface corresponding to the first vital sign signal type. The second interface 202 includes a second transmission endpoint for transmitting the vital sign signal of the first vital sign signal type, the second transmission endpoint is connected to a target transmission endpoint in the first transmission endpoint, and the vital sign signal type corresponding to the target transmission endpoint is the first vital sign signal type. The first vital sign signal type is any vital sign signal type, such as temperature, electrocardiogram or blood oxygen, etc. The first and second are merely for convenience of description, and are not particularly limited. Temperature of

In the example shown in fig. 2, the connection line further comprises at least one transmission line 201, the transmission line 201 corresponding to a vital sign signal type. Aiming at a third vital sign signal type in the vital sign signal types, a target transmission line corresponding to the third vital sign signal type is connected with a first transmission endpoint corresponding to the third vital sign signal type and a second transmission endpoint corresponding to the third vital sign signal type. That is, for each transmission line, the second interface connected by the transmission line corresponds to the same vital sign signal type as the first transmission endpoint in the first interface.

For example: the vital sign signal type corresponding to the transmission line 1 is temperature, and then the vital sign signal type corresponding to the first transmission endpoint in the second interface connected to the transmission line 1 and the first interface is temperature. The vital sign signal type corresponding to the transmission line 2 is electrocardiogram, and the vital sign signal types corresponding to the second interface connected to the transmission line 2 and the first transmission end point in the first interface are both electrocardiogram. The connecting line from the first interface to the second interface comprises a temperature transmission line 1 and an electrocardio transmission line 2, and can simultaneously transmit the temperature signal and the electrocardio signal.

The vital sign acquisition unit, i.e. the device for acquiring vital sign signals, may be a sensor or a terminal device with an acquisition function. Each type of vital sign signal can be acquired by a corresponding vital sign acquisition sensor, that is, in this embodiment, the vital sign acquisition sensor corresponds to the type of the vital sign signal. That is, for a certain vital sign acquisition sensor, the vital sign acquisition sensor can acquire a vital sign signal of a vital sign signal type corresponding to the vital sign acquisition sensor.

In one example, the vital sign signal type includes at least one of a blood oxygen signal, a temperature signal, a blood pressure signal, and an electrocardiographic signal, and accordingly, the vital sign acquisition sensors corresponding to the vital sign signal types are respectively a blood oxygen sensor (including a light emitting LED and a photosensitive LED receiving tube), a temperature probe/temperature sensor (outputting different resistance values by sensing different temperature values), a blood pressure cuff, an electrocardiographic sensor/electrocardiographic connection line, and an electrode. In practical application, the blood oxygen signal is collected by the blood oxygen sensor, the temperature signal is collected by the temperature probe, the blood pressure signal is collected by the blood pressure cuff, and the electrocardio signal is collected by the electrocardio sensor.

Of course, in an actual scenario, the types of the vital sign signals may also include other types, and the vital sign signals of the types are acquired by corresponding vital sign acquisition sensors, which are not listed any more in the embodiments of the present invention.

And the transmission interface comprises a third transmission endpoint corresponding to each vital sign signal type, and each transmission endpoint can be used for transmitting the vital sign signal of the corresponding vital sign signal type. In an embodiment of the present invention, for each type of vital sign signal, the transmission interface includes a transmission endpoint corresponding to the type of the vital sign signal.

In the embodiment of the present invention, in order to realize compatibility of different monitors, the inventor of the present invention counts the monitor interface to which each vital sign signal is applied on the monitor, that is, when the vital sign signals of various types are transmitted in a wired manner, the transmission end point applied on the monitor is counted, and the counted transmission end point is displayed in the form of the first interface. Meanwhile, for each type of vital sign signal, a second interface corresponding to the monitor is selected according to a transmission endpoint corresponding to the monitor end. For example: for the monitor of model 1, the second interface with the square frame is selected for the temperature signal. Another example is: for the monitor of model 2, the wired interface of the monitor corresponding to the temperature signal is a circular interface, and then the second interface with a circular outer frame is selected.

Here, the monitor is typically a multi-parameter monitor capable of displaying various vital sign signals, such as: philips brand monitor model MP 60.

In one example, a schematic plan view of a transport interface is shown in fig. 3-1. In fig. 3-1, black dots 1-14 are transmission endpoints. Wherein, the black points 1-4 are transmission end points for transmitting blood oxygen signals, the black points 5-6 are transmission end points for transmitting temperature signals, and the black points 7-11 are transmission end points for transmitting electrocardiosignals. As shown in fig. 3-2 and fig. 3-3, which are two-part structural schematic diagrams of the blood oxygen sensor, the left side in fig. 3-2 is a part of the sensor portion, the right side is an acquisition circuit for the sensor portion, the left side in fig. 3-3 is also a part of the sensor, and the right side is a control circuit for the sensor portion. The upper and lower ends of the receiving tube Rx in Figs. 3-2, and the left and right sides of DP1 in Figs. 3-3 are the four endpoints of the blood oxygen sensor, respectively. The specific connection relationship is that the black 1 point of the transmission interface is connected with the upper part of the Rx of the figure 3-2, and the black 2 point of the transmission interface is connected with the lower part of the Rx of the figure 3-2. The black 3 point of the transmission interface is connected to the left side of the DP1 in fig. 3-3, and the black 4 point of the transmission interface 104 is connected to the right side of the DP1 in fig. 3-3. It should be understood that the number and arrangement of transmission endpoints shown in fig. 3-1 are only examples, and the corresponding transmission endpoints for each type of vital sign signal are also only examples.

In a specific example, the second interface may have a different shape and line order for different monitors, such as different brands or the same brand but different models of monitors. For example: with reference to fig. 4-1, for the ecg interface of the monitor with the model MP60, the second interface for transmitting ecg signals needs to be consistent with the interface shape and the line sequence in 4-1, fig. 4-2 shows the blood oxygen interface of the monitor with the MP60 series, the second interface for transmitting blood oxygen signals needs to be consistent with the interface shape and the line sequence in 4-2, fig. 4-3 shows the ecg interface of the monitor with the mei rui T series, the second interface for transmitting ecg signals needs to be consistent with the interface shape and the line sequence in 4-3, for the monitor with the model MP60 series, the temperature interface is as shown in fig. 4-4 and the line sequence, and the second interface for transmitting temperature signals needs to be consistent with the interface shape in 4-4.

Please refer to fig. 4-5, which are specific examples of the connecting wires. The connecting line comprises a first interface, four transmission lines and four second interfaces. Specifically, the three second interfaces from top to bottom can be the second interfaces shown in fig. 4-1, 4-2 and 4-3, respectively.

Through the vital sign acquisition equipment, various types of vital sign signals can be transmitted through corresponding transmission endpoints in the transmission interfaces, so that various types of vital sign signals are transmitted through one transmission interface, and various types of vital sign signals are transmitted to the corresponding second interfaces through the corresponding transmission lines by utilizing the first interfaces, adaptive to the transmission interfaces, of the connecting lines, so that each type of vital sign signal is transmitted through a specific monitor interface, and various types of vital sign signals are transmitted and displayed on a monitor. The embodiment of the invention realizes the collection of various vital sign signals through various vital sign collecting units of one vital sign collecting terminal, realizes the simultaneous transmission of various vital sign signals in a wired mode through the matching of the transmission interface and the connecting wire of the vital sign collecting terminal, and displays each type of the collected vital sign signals on the monitor by utilizing the second interface of the connecting wire.

The connecting line provided by the embodiment of the invention can transmit various types of vital sign signals. When the connecting line is matched with the vital sign acquisition unit for use, the vital sign acquisition unit transmits various acquired vital sign signals through corresponding transmission end points in the transmission interface, the first interface connected with the transmission interface transmits the signals through the first transmission end points corresponding to the types of the vital sign signals, then, for each vital sign signal type, the vital sign signal is transmitted to a second interface corresponding to the vital sign signal type through a transmission line corresponding to the vital sign signal type, thereby realizing the simultaneous transmission of various types of vital sign signals in a wired way through one vital sign acquisition unit, and transmitting the various types of vital sign signals to the corresponding monitor interfaces through the corresponding second interfaces so as to display the various types of vital sign signals on the monitor.

Based on the connection lines adapted to different monitors, the same vital sign acquisition unit may be adapted to monitors of different types and models in the embodiments of the present invention, and the vital sign acquisition method described in the claims is described below by taking a specific application scenario as an example.

In this application scenario, two different types of monitors are included: monitor 1 and monitor 2, transmit respectively to these two monitors for the vital sign signal that can gather vital sign acquisition unit, consequently is equipped with the connecting wire of an adaptation for every monitor: a connecting wire 1 adapted with the monitor and a connecting wire 2 adapted with the monitor 2. Specifically, the first interfaces of the connecting line 1 and the connecting line 2 are the same and are adapted to the transmission interface of the vital sign acquisition unit, the second interface of the connecting line 1 is adapted to the various interfaces of the monitor 1, and the second interface of the connecting line 2 is adapted to the various interfaces of the monitor 2. It should be understood that, for each vital sign signal type, the structure of the second interface is adapted to the monitor interface corresponding to the vital sign signal type, which is specifically referred to the description of the connection line and fig. 4, and is not described herein again. At the same time, it should be understood that the interfaces of the monitors 1, 2 may be different for the interfaces transmitting the same type of vital sign signals, and then the second interface of the connection line 2 of the adaptive monitor 2 may be different from the second interface of the connection line 1 of the adaptive monitor 2. After the vital sign signal of user A is gathered to above-mentioned vital sign acquisition unit of application, can be through connecting wire 1 with the vital sign signal transmission of gathering to monitor 1, then pull out the first interface of connecting wire 1, insert the first interface of connecting wire 2 on the transmission interface at vital sign acquisition terminal, just can be through connecting wire 2 with the vital sign signal transmission of gathering to monitor 2.

In order to verify the efficiency of the method, the inventor carries out a lot of statistics on the workload of connecting the patient to the monitor, wherein the average time of connecting various vital sign sensors to the patient is about 5 minutes, and the time of establishing the connection between the first interface and the transmission interface of the vital sign acquisition unit on the patient is only 10 seconds.

Through the operation, the connecting wires adaptive to different monitors can be utilized to adapt to the monitors with different types and models by one vital sign acquisition unit, so that the vital sign signals acquired by the vital sign acquisition unit are transmitted to the different monitors, the data acquisition efficiency is improved, and the repeated work of manpower is avoided.

Optionally, a display unit is arranged on the acquisition unit, so that the vital sign information acquired by various vital sign sensors is displayed in real time, and when the distance from the monitor 1 to the monitor 2 is long, the vital signs of the patient can be displayed in real time in the midway through the display unit, so that the safety guarantee of the patient in the transfer process is further improved.

The scheme is applied to hospitals, each patient only needs one vital sign acquisition unit to transmit the vital sign signals of the patient to different monitors, and the hospitals can rapidly switch the vital sign signals of the patients on the different monitors at any time, so that better treatment schemes are given.

Meanwhile, in order to more conveniently use the scheme provided by the embodiment of the invention, each interface of the monitor can be connected with the adaptive second interface in advance, so that when the vital sign signal of a patient needs to be transmitted to a certain monitor, the first interface of the connecting line connected to the monitor is directly inserted into the transmission interface of the vital sign acquisition terminal for acquiring the vital sign signal of the patient.

Based on the same inventive principle, an embodiment of the present invention further provides a vital sign acquisition unit, and the description of the vital sign acquisition unit is as described above and is not repeated herein.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (9)

1. A vital sign acquisition device, comprising: a vital sign acquisition unit and a connecting line;

the connecting line comprises a first interface and a second interface, the first interface comprises a first transmission endpoint corresponding to a first vital sign signal type, the second interface corresponds to the first vital sign signal type, the structure of the second interface is adapted to the monitor interface corresponding to the first vital sign signal type, the second interface comprises a second transmission endpoint for transmitting the vital sign signal of the first vital sign signal type, the second transmission endpoint is connected with a target transmission endpoint in the first transmission endpoint, and the vital sign signal type corresponding to the target transmission endpoint is the first vital sign signal type;

the vital sign acquisition unit comprises a first vital sign acquisition sensor and a transmission interface matched with the first interface, the vital sign acquisition sensor corresponds to a first vital sign signal type, and the transmission interface comprises a third transmission endpoint corresponding to the first vital sign signal type.

2. The device according to claim 1, wherein the first interface comprises a first transmission endpoint corresponding to a second vital sign signal type, the second interface comprises a second transmission endpoint corresponding to a second vital sign signal type, the vital sign acquisition unit comprises a second vital sign acquisition sensor and a transmission interface adapted to the first interface, the first vital sign acquisition sensor and the second vital sign acquisition sensor are simultaneously connected to a third transmission endpoint of the transmission interface, and when the transmission interface is connected to the first interface, the first interface is connected to the monitor through the second interface.

3. The device according to claim 1, wherein the connection line includes a plurality of second transmission interfaces, different second transmission interfaces correspond to different vital sign types of the vital sign signals, and second transmission endpoints of all the second transmission interfaces are connected to the first transmission endpoint of the first transmission interface.

4. A vital sign acquisition unit, comprising: the system comprises at least two vital sign type sensors and transmission interfaces, all signals of each vital sign sensor are connected with the transmission interfaces, and data interaction is conducted outside by the transmission interfaces in a unified mode.

5. The acquisition unit of claim 4, wherein the signals connected by the vital signs sensor to the transmission interface are all analog signals.

6. The acquisition unit of claim 4, further comprising a display unit for displaying the data acquired by the acquisition sensor.

7. A vital sign acquisition method is characterized by comprising the following steps:

A. connecting a first connecting line with a first monitor through a second interface, so that a vital sign monitoring interface of the first monitor is output outwards in a first interface form through the connecting line, and the second interface of the connecting line is matched with the corresponding first monitor interface;

B. wearing an acquisition device containing a vital sign acquisition sensor on a patient, wherein the acquisition device comprises a transmission interface matched with the first interface of the connecting line, and each acquisition sensor of the acquisition device can be connected to the transmission interface;

C. and connecting the first interface with a transmission interface of acquisition equipment worn by the patient, and displaying and processing the vital signs of the patient through the first monitor.

8. The vital sign acquisition method according to claim 7, further comprising the steps of:

D. connecting a second connecting line with a second monitor through a second interface, so that a vital sign monitoring interface of the second monitor is output outwards in the form of a first interface through the second connecting line, and the second interface of the second connecting line is adapted to the corresponding second monitor interface;

E. and disconnecting the connection between the transmission interface of the acquisition equipment worn by the patient and the first interface of the connecting line connected with the first monitor, establishing the connection between the first interface of the connecting line connected with the second monitor and the transmission interface, and displaying and processing the vital signs of the patient by the second monitor.

9. The vital sign collection method according to claim 7, wherein the vital sign collection device is an electrocardiograph cable, one end of the vital sign collection device is a transmission interface adapted to the first interface, the other end of the vital sign collection device is at least three metal points connectable to a human body, and each of the metal points is connected to the transmission interface through a transmission line.