CN111542036B

CN111542036B - Wireless transmission assembly for anesthesia monitor and transmission method thereof

Info

Publication number: CN111542036B
Application number: CN202010368051.5A
Authority: CN
Inventors: 张百慧; 朱伟玮; 胡瑶琴
Original assignee: Zhejiang University ZJU
Current assignee: Zhejiang University ZJU
Priority date: 2020-04-30
Filing date: 2020-04-30
Publication date: 2021-04-20
Anticipated expiration: 2040-04-30
Also published as: CN111542036A

Abstract

The invention discloses a wireless transmission component for an anesthesia monitor and a transmission method thereof, belonging to the technical field of medical instruments, the wireless transmission component comprises a measuring port, a plug, a connecting seat and a transmission body, the plug is fixedly connected with the top end of the measuring port, the intersection of the plug and the measuring port is fixedly connected with a clamping block, the left side and the right side of the middle part of the plug are respectively provided with a bulge, the center of the bottom of the connecting seat is provided with a clamping groove with a downward opening, the center of the top of the clamping groove is communicated with a jack with a downward opening, the top of the clamping groove is fixedly connected with a buffer layer, the left side and the right side of the jack are respectively provided with two sliding grooves, the sliding grooves are communicated with the clamping groove, the tops of the sliding grooves are respectively communicated with a rotating groove, the rotating grooves are communicated with the jack, the rotating directions of the rotating grooves are the, and the problem of interfering with the imaging examination during surgery.

Description

Wireless transmission assembly for anesthesia monitor and transmission method thereof

Technical Field

The invention relates to the technical field of medical instruments, in particular to a wireless transmission assembly for an anesthesia monitor and a transmission method thereof.

Background

The monitor is used for measuring and controlling physiological parameters of a patient, the main parameters are electrocardio, respiration, blood pressure, blood oxygen saturation, pulse and body temperature, the monitor is used for continuously monitoring the physiological parameters of the patient for 24 hours, detecting a change trend and indicating an imminent condition for emergency treatment and treatment of doctors, so that complications are minimized, and the purposes of relieving and eliminating the state of an illness are achieved; with the steady growth of the market of medical instruments in China, medical monitors are mainly used for monitoring critical patients from the past to the monitoring of general wards at present, and even basic medical units and community medical units also put forward application requirements.

The anesthesia monitor is mainly attached to the body surface of a patient through an electrode plate, the dosage of anesthetic is determined according to parameters by measuring parameters of various vital signs of the patient, and meanwhile, the change of physiological parameters of the patient after anesthesia can be monitored to assist in treatment; the existing anesthesia monitor is basically characterized in that the electrode plates and the monitor are connected through a lead, and finally, the monitor transmits image data to a computer and other display devices through a data line, medical staff observe from the computer and other display devices and know the change of physiological parameters of patients along with time, however, the monitor is inconvenient for medical staff to use due to the fact that the line required to be connected is too many, and is messy, time and labor are wasted in the using process, and therefore the medical staff are troubled, and meanwhile, the development of the data line can interfere with the image inspection in the surgical operation.

Disclosure of Invention

Aiming at the problems in the prior art, the invention aims to provide a wireless transmission assembly for an anesthesia monitor and a transmission method thereof, which can realize the transmission function of signals and data between an electrode plate and the monitor as well as between the monitor and a display device in a wireless connection mode between the electrode plate, the monitor and the display device, and solve the problems that the existing anesthesia monitor brings troubles and inconvenience to medical personnel and interferes the image inspection in a surgical operation due to the complicated connection circuit in the use process.

In order to solve the problems, the invention adopts the following technical scheme: a wireless transmission component for an anesthesia monitor and a transmission method thereof are provided, the wireless transmission component comprises a measuring port, a plug, a connecting seat and a transmission body, the plug is fixedly connected with the top end of the measuring port, a clamping block is fixedly connected at the intersection of the plug and the measuring port, the left side and the right side of the middle part of the plug are respectively provided with a bulge, the center of the bottom of the connecting seat is provided with a clamping groove with a downward opening, the center of the top of the clamping groove is communicated with a jack with a downward opening, the top of the clamping groove is fixedly connected with a buffer layer which is used for abutting and contacting with the clamping block, the left side and the right side of the jack are respectively provided with two sliding chutes which are communicated with the clamping groove, the tops of the sliding chutes are respectively communicated with a rotating groove, the rotary groove is communicated with the jack, the rotary directions of the rotary grooves are the same, and the transmission body is fixedly connected to the top of the connecting seat;

when in use, the method is operated according to the following steps:

firstly, attaching or binding the measuring ports to each measuring part of a patient, aligning the bulges with the sliding grooves, inserting the plug into the jack along the sliding grooves until the bulges reach the bottom of the sliding grooves, twisting the connecting seat to enable the bulges to rotate into the rotating grooves, and stably connecting the connecting seat and the monitoring ports to form a monitoring module;

secondly, the change of the physical quantity in the patient body measured by each measuring port is utilized, the measured change of the physical quantity is converted into an electric signal, the electric signal is sent to a corresponding signal input on a monitoring host machine in a wireless transmission mode by utilizing the transmission body, the signal input transmits the sent electric signal to a signal conversion processor, the signal conversion processor converts the electric signal into a digital signal, the converted digital signal generates image data, and finally the image data is sent to a mobile terminal in a wireless transmission mode through an arranged image data sending end;

and thirdly, the received image data is displayed by using the mobile terminal through a computer or an electronic screen and other display devices, medical personnel can observe the oscillogram of various physiological parameters of the patient along with the change of time on a display unit, and can directly and timely know the physical condition of the patient, so that reasonable treatment means are adopted.

Preferably, the external diameter of chucking piece with the internal diameter in chucking groove is the same, the thickness of chucking piece is less than the degree of depth in chucking groove, just the buffer layer extremely the distance of chucking groove opening part slightly is less than the thickness of chucking piece.

Preferably, when the rotating groove is rotated to the bulge, the measuring port is communicated with the connecting seat, power supply guarantee is provided for the monitoring port through the connecting seat, meanwhile, the clamping block is sunk into the buffer layer for a certain distance, the clamping block is completely positioned in the clamping groove, and the bottom end face of the connecting seat is attached to the top end face of the monitoring port.

Preferably, the transmission body comprises a USB interface and a wireless bluetooth, the USB interface is provided on any end face of the transmission body, and is not limited here, and is connected with a storage battery located in the transmission body, and the wireless bluetooth is provided inside the transmission body and is connected with the storage battery.

Preferably, the monitoring module comprises the measurement port and a transmission body, the measurement port is connected with the transmission body, the measurement port comprises an electrocardiogram measurement end, a respiration measurement end, a blood pressure measurement end, a blood oxygen saturation measurement end, a pulse measurement end, a body temperature measurement end and other parameter measurement ends, and the transmission body comprises signal outputs respectively connected with the electrocardiogram measurement end, the respiration measurement end, the blood pressure measurement end, the blood oxygen saturation measurement end, the pulse measurement end, the body temperature measurement end and other parameter measurement ends.

Preferably, the monitoring host comprises a signal input, a signal conversion processor and an image data sending end, the signal input is respectively and sequentially in wireless connection with the signal output, the input end of the signal conversion processor is sequentially connected with the signal input, and the image data sending end is connected with the output end of the signal conversion processor.

Preferably, the mobile terminal comprises an image data receiving end and a display unit, the image data receiving end is wirelessly connected with the image data sending end, and the display unit is connected with the image data receiving end.

The working principle of the invention is as follows: when in use, the measuring port is firstly attached or bound on each measuring part of a patient, then the bulge is aligned to the sliding groove, the plug is inserted into the jack along the sliding groove, until the bulge reaches the bottom of the sliding groove, the connecting seat is twisted to transfer the bulge into the rotating groove, and then the connecting seat is stably connected with the monitoring port, so that the measuring port starts to work with electricity by arranging the storage battery on the transmission body, the change of the physical quantity of the measuring part of the patient is measured in real time and converted into an electric signal, meanwhile, the electric signal is sent to the monitoring host machine through the wireless Bluetooth, the signal conversion processor in the monitoring host machine converts the received electric signal into a digital signal and processes the digital signal into image data, and then the image data is sent to the display equipment such as a computer in a wireless transmission mode, thereby replacing the complicated circuit in the prior anesthesia monitor, saves a lot of unnecessary troubles for the work of medical staff.

Compared with the prior art, the invention has the following beneficial effects:

the wireless transmission assembly and the transmission method thereof are characterized in that a wireless connection mode is adopted between a monitoring module and a monitoring host, the monitoring host and a mobile terminal are connected, an electric signal measured by the monitoring module can be transmitted to the monitoring host, and the monitoring host converts the electric signal into image data to be transmitted to the mobile terminal, so that a connecting line in the existing monitor can be replaced, and troubles brought to medical staff due to winding of the line and the like in the using process can be prevented.

According to the wireless transmission assembly and the transmission method thereof, the wireless transmission assembly is connected more stably in an embedded connection mode, so that the problems of poor contact or connection failure and the like can be avoided, and the reliability of the wireless transmission assembly in the using process is improved.

The monitoring module is divided into an electrocardiogram measuring end, a respiration measuring end, a blood pressure measuring end, a blood oxygen saturation measuring end, a pulse measuring end, a body temperature measuring end and other measuring ports, and each measuring port corresponds to an independent signal output, so that the measured physical quantity change in the body of the patient can be conveniently converted into an electric signal to be transmitted.

The wireless transmission assembly and the transmission method thereof have the advantages that the monitoring host is internally provided with the signal input which corresponds to the signal output of the monitoring module one by one and is in wireless connection, the signal input converts the acquired electric signals into image data through the signal conversion processor arranged in the monitoring host, and finally the image data is transmitted to the display unit in a wireless transmission mode, so that medical personnel can know the change condition of the physiological parameters of the patient along with the change of time in time conveniently.

Drawings

Fig. 1 is a schematic structural view of a connecting base 3 according to the present invention;

FIG. 2 is a schematic cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is a schematic structural diagram of a measurement port 1 according to the present invention;

FIG. 4 is a diagram of the overall transport framework of the present invention;

FIG. 5 is a diagram of a transport framework for a monitoring module according to the present invention;

fig. 6 is a transmission frame diagram of the monitoring host according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below 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 of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, a wireless transmission assembly for an anesthesia monitor and a transmission method thereof are disclosed, the wireless transmission assembly includes a measurement port 1, a plug 2, a connection seat 3 and a transmission body 5.

Wherein, the plug 2 is fixedly connected with the top end of the measuring port 1 and is used for connecting with the connecting seat 3, the intersection of the plug 2 and the measuring port 1 is fixedly connected with a clamping block 21, the left side and the right side of the middle part of the plug 2 are respectively provided with a bulge 22, the center of the bottom of the connecting seat 3 is provided with a clamping groove 31 with a downward opening so as to fix the measuring port 1 and the connecting seat 3, the center of the top of the clamping groove 31 is communicated with a jack 4 with a downward opening and is used for inserting the plug 2, the top of the clamping groove 31 is fixedly connected with a buffer layer 32 which is in contact with the clamping block 21 in a butting way, so that the clamping block 22 has certain acting force when being embedded into the clamping groove 31, the left side and the right side of the jack 4 are respectively provided with two sliding grooves 41, the sliding grooves 41 are communicated with the clamping groove 31, the tops of, when the protrusion 22 reaches the bottom end of the sliding groove 41, the connecting base 3 is rotated, so that the protrusion 22 enters the rotating groove 42, and under the action of the buffer layer 32 on the clamping block 22, the protrusion 22 is tightly abutted in the rotating groove 42, thereby preventing the connection between the monitoring port 1 and the connecting base 3 from being loosened, and the problem of poor contact and the like, wherein the transmission body 5 is fixedly connected to the top of the connecting base 3 and is used for transmitting the electric signal measured by the measuring port 1 to the monitor in a wireless manner through the transmission body 5;

when in use, the method is operated according to the following steps:

firstly, attaching or binding the measuring port 1 to each measuring part of a patient, so as to measure the change of physical quantity of each measuring part of the patient through the measuring port 1, aligning the protrusion 22 with the sliding groove 41, inserting the plug 2 into the jack 4 along the sliding groove 41, and twisting the connecting seat 3 until the protrusion 22 reaches the bottom of the sliding groove 41, so that the protrusion 22 is rotated into the rotating groove 42, and the connecting seat 3 is stably connected with the monitoring port 1, thereby forming a monitoring module;

secondly, the change of the physical quantity in the patient body measured by each measuring port 1 is utilized, the measured change of the physical quantity is converted into an electric signal, the electric signal is sent to a corresponding signal input on a monitoring host in a wireless transmission mode by utilizing a signal output arranged on a transmission body 5 in a monitoring module, the signal input transmits the sent electric signal to a signal conversion processor, the signal conversion processor converts the electric signal into a digital signal, the converted digital signal generates image data, and the image data is finally sent to a mobile terminal in a wireless transmission mode through an arranged image data sending end;

and thirdly, the received image data is displayed by a computer or an electronic screen and other display devices by utilizing the mobile terminal, medical personnel can observe the oscillogram of each vital sign of the patient along with the change of time on the display unit, and can directly and timely know the physical condition of the patient, thereby adopting reasonable treatment means.

The outer diameter of the clamping block 21 is the same as the inner diameter of the clamping groove 31, so that the clamping block 21 cannot shake when inserted into the clamping groove 31, the thickness of the clamping block 21 is smaller than the depth of the clamping groove 31, and the distance from the buffer layer 32 to the opening of the clamping groove 31 is slightly smaller than the thickness of the clamping block 21, so that when the clamping block 21 is inserted into the bottom of the clamping groove 31 and abutted against the buffer layer 32, the buffer layer 32 deforms, an outward acting force is exerted on the clamping block 21, when the protrusion 22 is rotated into the rotary groove 42, the protrusion 22 is abutted against the rotary groove 42 under the action of the acting force, the situation that the plug 2 is loosened when inserted into the jack 4 is avoided, the measuring port 1 is conducted with the connecting seat 3, and provides power supply for the monitoring port 1 through the connecting seat 3, and the clamping block 21 is completely positioned in the clamping groove 31, the bottom end face of the connecting seat 3 is attached to the top end face of the monitoring port, and then guarantee to monitor that the connection between port 1 and the connecting seat is more stable to the condition that contact failure or connection easily become flexible can not appear.

Above-mentioned transmission body 5 includes 51 and wireless bluetooth 52, and USB interface 51 is seted up in the arbitrary terminal surface of transmission body 5, does not do the injecing here, and is connected with the battery that is located transmission body 5, is convenient for charge for the battery that is equipped with in the connecting seat 3 through the USB interface, and wireless bluetooth 52 sets up inside transmission body 5, and with the battery is connected to be convenient for provide the power guarantee for the wireless transmission of the measurement work of measuring port 1 department and wireless bluetooth 52 department signal.

The monitoring module comprises a measuring port 1 and a transmission body 5, wherein the measuring port 1 is connected with the transmission body 5, the measuring port 1 comprises an electrocardiogram measuring end, a respiration measuring end, a blood pressure measuring end, an oxyhemoglobin saturation measuring end, a pulse measuring end, a body temperature measuring end and other parameters measuring ends, and can also comprise other parameters measuring ends, wherein only main six parameters are mentioned, the measuring ends are used for measuring different parts of a patient and converting the measured physical quantity change into an electric signal, the transmission body 5 comprises signal outputs respectively connected with the electrocardiogram measuring end, the respiration measuring end, the blood pressure measuring end, the oxyhemoglobin saturation measuring end, the pulse measuring end and the body temperature measuring end, and the electric signal obtained by measuring at the measuring port 1 is conveniently transmitted in a wireless mode.

The monitoring host comprises a signal input, a signal conversion processor and an image data sending end, wherein the signal input is respectively and sequentially in wireless connection with the signal output, the signal input is used for receiving an electric signal transmitted by the signal output in the monitoring module, the input end of the signal conversion processor is sequentially connected with the signal input, the signal input is used for converting the electric signal into a digital signal, the digital signal is processed into image data, the image data sending end is connected with the output end of the signal conversion processor, and the image data obtained through the signal conversion processor is conveniently transmitted in a wireless mode.

The mobile terminal comprises an image data receiving end and a display unit, wherein the image data receiving end is in wireless connection with the image data sending end and is used for receiving image data sent by the image data sending end, and the display unit is connected with the image data receiving end and is convenient for displaying the received image data.

The working principle of the invention is as follows: when in use, the measuring port 1 is firstly attached or bound on each measuring part of a patient, the bulge 22 is aligned with the sliding groove 41, the plug 2 is inserted into the jack 4 along the sliding groove 41, the connecting seat 3 is twisted until the bulge 22 reaches the bottom of the sliding groove 41, the bulge 22 is shifted into the rotating groove 42, the connecting seat 3 is stably connected with the monitoring port 1, the measuring port 1 starts to work with electricity by arranging the storage battery on the transmission body 5, the change of the physical quantity of the measuring part of the patient is measured in real time and converted into an electric signal, meanwhile, the electric signal is sent to the monitoring host by the wireless Bluetooth 52, the signal conversion processor in the monitoring host converts the received electric signal into a digital signal and processes the digital signal into image data, and then the image data is sent to a display device such as a computer by a wireless transmission mode, thereby replacing the complicated line in the prior anesthesia monitor and saving a lot of unnecessary troubles for the work of medical staff.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims

1. A transmission method of a wireless transmission component for an anesthesia monitor is characterized in that: the wireless transmission assembly comprises a measurement port (1), a plug (2), a connecting seat (3) and a transmission body (5), wherein the plug (2) is fixedly connected to the top end of the measurement port (1), a clamping block (21) is fixedly connected to the intersection of the plug (2) and the measurement port (1), bulges (22) are respectively arranged on the left side and the right side of the middle part of the plug (2), a clamping groove (31) with a downward opening is formed in the center of the bottom of the connecting seat (3), a jack (4) with a downward opening is communicated with the center of the top of the clamping groove (31), a buffer layer (32) which is in abutting contact with the clamping block (21) is fixedly connected to the top of the clamping groove (31), two sliding grooves (41) are respectively arranged on the left side and the right side of the jack (4), the sliding grooves (41) are communicated with the clamping groove (31), rotating grooves (42) are respectively communicated with the, the rotating groove (42) is communicated with the jack (4), the rotating directions of the rotating groove (42) are the same, and the transmission body (5) is fixedly connected to the top of the connecting seat (3);

when in use, the method is operated according to the following steps:

firstly, attaching or binding the measuring port (1) to each measuring part of a patient, aligning the protrusion (22) with the sliding groove (41), inserting the plug (2) into the jack (4) along the sliding groove (41), and twisting the connecting seat (3) until the protrusion (22) reaches the bottom of the sliding groove (41), so that the protrusion (22) rotates into the rotating groove (42), and stably connecting the connecting seat (3) and the measuring port (1) together to form a monitoring module;

secondly, the change of the physical quantity in the patient body measured by each measuring port (1) is utilized, the measured change of the physical quantity is converted into an electric signal, the electric signal is sent to a corresponding signal input on a monitoring host machine in a wireless transmission mode by utilizing the transmission body (5), the signal input transmits the sent electric signal to a signal conversion processor, the signal conversion processor converts the electric signal into a digital signal, the converted digital signal generates image data, and finally the image data is sent to a mobile terminal in a wireless transmission mode through an arranged image data sending end;

and thirdly, the received image data is displayed by the mobile terminal through a computer or an electronic screen, so that medical personnel can observe oscillograms of various physiological parameters of the patient along with time on a display unit, and can directly and timely know the physical condition of the patient, thereby adopting reasonable treatment means.

2. The transmission method of the wireless transmission component for the anesthesia monitor of claim 1, wherein: the external diameter of chucking piece (21) with the internal diameter of chucking groove (31) is the same, the thickness of chucking piece (21) is less than the degree of depth of chucking groove (31), just buffer layer (32) extremely the distance of chucking groove (31) opening part is slightly less than the thickness of chucking piece (21).

3. The transmission method of the wireless transmission component for the anesthesia monitor of claim 1, wherein: when arch (22) changes over to rotary tank (42), measure port (1) will with connecting seat (3) switch on, and pass through connecting seat (3) do measure port (1) and provide the power guarantee, simultaneously, chucking piece (21) are absorbed in buffer layer (32) certain distance, just chucking piece (21) are in completely in chucking groove (31), the bottom terminal surface of connecting seat (3) with measure the top terminal surface of port (1) and laminate mutually.

4. The transmission method of the wireless transmission component for the anesthesia monitor of claim 1, wherein: the transmission body (5) comprises a USB interface (51) and a wireless Bluetooth (52), the USB interface (51) is arranged on any end face of the transmission body (5), no limitation is made here, a storage battery located in the transmission body (5) is connected, and the wireless Bluetooth (52) is arranged inside the transmission body (5) and connected with the storage battery.

5. The transmission method of the wireless transmission component for the anesthesia monitor of claim 1, wherein: the monitoring module comprises a measuring port (1) and a transmission body (5), wherein the measuring port (1) is connected with the transmission body (5), the measuring port (1) comprises an electrocardiogram measuring end, a respiration measuring end, a blood pressure measuring end, an oxyhemoglobin saturation measuring end, a pulse measuring end and a body temperature measuring end, and the transmission body (5) comprises a signal output which is respectively connected with the electrocardiogram measuring end, the respiration measuring end, the blood pressure measuring end, the oxyhemoglobin saturation measuring end, the pulse measuring end and the body temperature measuring end.

6. The transmission method of the wireless transmission component for the anesthesia monitor of claim 1, wherein: the monitoring host comprises a signal input, a signal conversion processor and an image data sending end, wherein the signal input is respectively and sequentially in wireless connection with the signal output, the input end of the signal conversion processor is sequentially connected with the signal input, and the image data sending end is connected with the output end of the signal conversion processor.

7. The transmission method of the wireless transmission component for the anesthesia monitor of claim 1, wherein: the mobile terminal comprises an image data receiving end and a display unit, wherein the image data receiving end is wirelessly connected with the image data sending end, and the display unit is connected with the image data receiving end.

8. A wireless transmission module for an anesthesia monitor, wherein the transmission method of the wireless transmission module for the anesthesia monitor of any one of claims 1-7 can be implemented.