CN215605764U - Multifunctional wireless monitor system - Google Patents

Abstract

The embodiment of the utility model discloses a multifunctional wireless monitor system, which comprises a host, a secondary machine and a peripheral detecting instrument, wherein the host is connected with the secondary machine through a wireless network; an integrated mainboard is arranged in the host, and is provided with a central processing module, a network communication module, a carbon dioxide module, a fetal monitoring module, a display interaction module and a printing function module; the central processing module is respectively and electrically connected with the network communication module, the carbon dioxide module, the fetal monitoring module, the display interaction module and the printing function module; the peripheral detecting instrument is connected to the side surfaces of the main machine and the auxiliary machine through joints respectively; a first fixing piece is arranged on the first side of the main machine, and a second fixing piece is arranged on one side of the auxiliary machine; the main machine and the auxiliary machine are fixed through a first fixing piece and a second fixing piece. The embodiment increases the functions of the monitor, accelerates the monitoring and parameter deriving speed of medical personnel, and improves the efficiency of the medical personnel for on-site observation and timely taking treatment measures.

Description

Multifunctional wireless monitor system

Technical Field

The utility model relates to the technical field of medical monitoring equipment, in particular to a multifunctional wireless monitor system.

Background

With the continuous investment of national infrastructure, 5G communication networks have basically covered all cities, and wireless networks have been pushed to a completely new height. Therefore, in the field of the application of wireless communication network technology to the development of medical services, especially the application of practical medical monitoring equipment, the seamless data transfer performance between the inside and outside of the hospital for patient monitoring becomes a trend.

Most of the existing monitors only have single functions, for example, only monitor pulse, only monitor electrocardiogram, only monitor body temperature, only monitor blood oxygen saturation, and the like, most of the monitors with single functions do not have communication functions, and need to be in interactive communication with a remote display screen through wired connection, so that the problems of large engineering quantity in wiring treatment, complex overhaul and maintenance and trouble in deriving monitoring parameters are caused, and the field observation and timely treatment measures of medical workers are influenced to a great extent.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a multifunctional wireless monitor system, which is used to solve the problems of the prior art that the monitor has a single function, and the monitor needs no communication or wired communication, resulting in a large wiring engineering amount, complex maintenance and repair, and troublesome derivation of monitoring parameters.

In order to achieve one or part or all of the above purposes or other purposes, the utility model provides a multifunctional wireless monitor system, which comprises a host, a secondary machine and a peripheral detecting instrument;

an integrated mainboard is arranged in the host, and is provided with a central processing module, a network communication module, a carbon dioxide module, a fetal monitoring module, a display interaction module and a printing function module; the central processing module is electrically connected with the network communication module, the carbon dioxide module, the fetal monitor module, the display interaction module and the printing function module respectively;

the side surfaces of the main machine and the auxiliary machine are both provided with detection accessory interfaces, the peripheral detection instrument is provided with a joint matched with the detection accessory interfaces, and the peripheral detection instrument is connected to the side surfaces of the main machine and the auxiliary machine through the joint respectively;

a first fixing piece is arranged on the first side of the main machine, and a second fixing piece is arranged on one side of the auxiliary machine; the main machine and the auxiliary machine are fixed through a first fixing piece and a second fixing piece.

In the multifunctional wireless monitor system, the peripheral detecting instrument comprises an air passage adapter, a fetal monitoring sensor and a printer suite;

the probe accessory interface comprises a first interface and a second interface; the carbon dioxide module is connected with the airway adapter through the first interface and is used for collecting the concentration of main flow or bypass flow end-call carbon dioxide; the fetal monitoring module is connected with the fetal monitoring sensor through the second interface and is used for acquiring parameter data of fetal heart rate, uterine contraction pressure and fetal movement of a fetus; the printing function module is connected with the network communication module through the internet and prints monitoring results of the carbon dioxide module and the fetal monitoring module.

In the multifunctional wireless monitor system, the integrated main board is also provided with an electrocardio module, a blood pressure module, a blood oxygen module and a body temperature module.

In the multifunctional wireless monitor system, the display interaction module comprises a first display screen and a second display screen which are electrically connected with the central processing module, the first display screen is arranged on the front side of the host, the second display screen is arranged on the top of the auxiliary unit, the first display screen is a 7-inch liquid crystal screen, and the size of the first display screen is larger than that of the second display screen.

In the multifunctional wireless monitor system of the utility model, the first fixing member comprises a first fixing plate fixed with the host and a fixing groove fixed with the second fixing member; the second fixing piece comprises a second fixing plate fixed with the auxiliary machine and a fixing bulge matched with the fixing groove; the main engine and the auxiliary engine are fixed through the fixing groove and the fixing protrusion in a matched mode, and the fixing groove and the fixing protrusion are fixed through interference fit.

In the multifunctional wireless monitor system, the fixing groove is internally provided with a clamping block; the middle part of the fixed bulge is provided with a clamping groove; the clamping block is matched with the clamping groove to further fix the main machine and the auxiliary machine; the clamping block and the clamping groove are fixed in an interference fit mode.

In the multifunctional wireless monitor system, an outer frame is arranged on the periphery of the first display screen, a key module is arranged on the right side of the outer frame, and the key module is electrically connected with the central processing module.

In the multifunctional wireless monitor system, a portable structure which is convenient to carry is arranged on the top surface of the main machine, and the portable structure is rotatably connected with the top surface of the main machine; the top of the main machine is provided with a U-shaped groove for accommodating the portable structure.

In the multifunctional wireless monitor system, the integrated mainboard is also provided with a GPRS module, a GPS positioning module and a Bluetooth module which are respectively connected with the central processing module.

The multifunctional wireless monitor system further comprises a power adapter, the integrated mainboard further comprises a power conversion module, and the power conversion module converts voltage generated by the external power adapter into working voltage.

The embodiment of the utility model has the following beneficial effects: in the embodiment, an integrated mainboard is arranged in a host, the integrated mainboard is provided with a central processing module, a network communication module, a carbon dioxide module, a fetal monitoring module, an electrocardio module, a blood pressure module, a blood oxygen module, a body temperature module, a key module, a display interaction module and a printing function module which are respectively and electrically connected with the central processing module, and is used for the Electrocardio (ECG) and the Heart Rate (HR) of a patient, the monitoring system has the advantages that the monitoring system has the functions of monitoring vital parameters, alarming and printing functions by non-invasive blood pressure (NIBP), body Temperature (TEMP), blood oxygen saturation (SpO2), Pulse Rate (PR), carbon dioxide gas at the end of breath (main flow or bypass flow EtCO2), airway respiration rate (AWRR), Fetal Heart Rate (FHR), Fetal Movement (FM) and uterine contraction strength (TOCO) of pregnant women, the functions of the monitor are increased, the monitoring and parameter deriving speed of medical staff is increased, and the efficiency of the medical staff in site observation and timely taking of treatment measures is improved.

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 of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of a portion of a multi-function wireless monitor system according to an embodiment.

Fig. 2 is a schematic diagram illustrating a relationship between modules in the integrated motherboard of fig. 1.

Fig. 3 is a schematic structural diagram of the host in fig. 1.

Fig. 4 is a schematic structural view of the auxiliary unit in fig. 1.

Fig. 5 is a schematic structural diagram of the first connecting member in fig. 3.

Fig. 6 is a schematic structural view of the second connector in fig. 4.

Wherein the content of the first and second substances,

the system comprises a host 100, a central processing module 111, a network communication module 112, a carbon dioxide module 113, a fetal monitoring module 114, a display interaction module 115, a printing function module 116, an electrocardio module 117, a blood pressure module 118, a blood oxygen module 119 and a body temperature module 11 a;

the probe accessory interface 12, the first interface 121, the second interface 122;

a first fixing member 13, a fixing groove 131, a first fixing plate 132, and a locking block 133;

the portable structure 14, the first display screen 15, the outer frame 16, the key module 17 and the U-shaped groove 18;

the auxiliary unit 200, the second fixing member 21, the fixing protrusion 211, the second fixing plate 212, the engaging groove 213,

A second display screen 22.

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 and 2, a multifunctional wireless monitor system includes a main unit 100, a sub-unit 200 and a peripheral detector.

An integrated mainboard is arranged in the host 100, and the integrated mainboard is provided with a central processing module 111, a network communication module 112, a carbon dioxide module 113, a fetal monitoring module 114, a display interaction module 115 and a printing function module 116. The central processing module 111 is electrically connected to the network communication module 112, the carbon dioxide module 113, the fetal monitor module 114, the display interaction module 115 and the print function module 116, respectively.

The detection accessory interfaces 12 are arranged on the side faces of the main machine 100 and the auxiliary machine 200, the connectors matched with the detection accessory interfaces 12 are arranged on the peripheral detectors, and the peripheral detectors are connected to the side faces of the main machine 100 and the auxiliary machine 200 through the connectors respectively.

The first fixing member 13 is provided on a first side of the main unit 100, and the second fixing member 21 is provided on a side of the sub unit 200. The main unit 100 and the sub unit 200 are fixed by the first fixing member 13 and the second fixing member 21.

In this embodiment, an integrated motherboard is disposed inside the host 100, the integrated motherboard is provided with a central processing module 111, a network communication module 112, a carbon dioxide module 113, a fetal monitor module 114, an electrocardiograph module 117, a blood pressure module 118, a blood oxygen module 119, a body temperature module 11a, a key module 17, a display interaction module 115 and a printing function module 116, which are electrically connected to the central processing module 111, respectively, for the Electrocardiograph (ECG), the Heart Rate (HR), the non-invasive blood pressure (NIBP), the body Temperature (TEMP), the blood oxygen saturation (SpO2), the Pulse Rate (PR), the carbon dioxide gas at the end of respiration (main flow or bypass flow EtCO2), the airway respiration rate (AWRR), the heart rate (FHR) of the fetus, the Fetal Movement (FM), the uterine contraction strength (TOCO) of the pregnant woman to monitor the vital parameters and alarm, and print functions, thereby increasing the functions of the monitor and the speed of medical personnel for monitoring and deriving the parameters, the efficiency of medical personnel on-the-spot observation and in time taking treatment measures is improved. In addition, the main unit 100 and the auxiliary unit 200 are detachably arranged, and the peripheral detecting instrument is detachably connected with the side surfaces of the main unit 100 and the auxiliary unit 200, so that the peripheral detecting instrument is separately stored and carried at ordinary times, and is assembled as required when needed, thereby facilitating the carrying and use of medical personnel.

The peripheral detection instrument comprises an air passage adapter, a fetal monitoring sensor and a printer suite.

The host 100 is provided with a first interface 121 and a second interface 122 on the side. The carbon dioxide module 113 is connected to the airway adapter via a first interface 121 for acquiring the end-tidal carbon dioxide concentration of the main or bypass flow. The fetal monitoring module 114 is connected to the fetal monitoring sensor through the second interface 122, and is configured to acquire the fetal heart rate, uterine contraction pressure, and fetal movement parameter data of the fetus. The print function module 116 is connected to the network communication module 112 via the internet, and prints the monitoring results of the capnography module 113 and the fetal monitoring module 114.

The integrated main board is also provided with an electrocardio module 117, a blood pressure module 118, a blood oxygen module 119 and a body temperature module 11 a. The central processing module 111 controls the electrocardiograph module 117 to acquire heart rate and respiratory parameter data through an external direct plug electrocardiograph lead wire, and controls the display interaction module 115 to display the monitoring result or the network communication module 112 to send the monitoring result to an external network. The principle of the electrocardiograph module 117 is to measure the electrocardiograph by using the body surface potential, place a plurality of electrodes at the well-arranged positions of the chest and the back, and record the electrocardiograph waveform of each electrode at each sampling moment. The number of electrodes of the body surface potential is as many as 200, thus providing a body surface equipotential map depicted by a plurality of electrocardio dwellings on the body surface, comprehensively observing the full appearance of the cardiac electric field issued on the body surface, knowing the general outline of the cardiac activity in the cardiac cycle (especially P wave, QRS wave and T wave), and drawing an extreme value track map to reflect the movement tracks of the maximum value and the minimum value of the electrocardio in a certain electrocardio interval; and rapid electrocardiogram data characteristics, digital matrix display, printing and the like. The method is clinically used for judging the abnormal electrical activity caused by myocardial infarction, myocardial ischemia, ischemia position judgment, conduction block, atrial and ventricular hypertrophy, arrhythmia and the like by professional medical care personnel.

The central processing module 111 controls the blood pressure module 118 to acquire three parameter data of systolic pressure, diastolic pressure and average pressure of the human body through the external blood pressure cuff, and controls the display interaction module 115 to display the monitoring result or controls the network communication module 112 to transmit the monitoring result to the external network. The measurement principle of the blood pressure module 118 of the utility model adopts an oscillation method to non-invasively measure the blood pressure of a patient, an inflator pump is used for automatic inflation, then the air is slowly deflated, a microprocessor on the central processing module 111 records the change of the blood pressure cuff pressure in all deflation processes, and then the method of calculating the blood pressure value is carried out. Firstly, the microprocessor on the central processing module 111 determines whether the quality of the measurement signal is sufficient to ensure accurate calculation (for example, air leakage and other conditions occur during the measurement process), if not, the calculation is abandoned, otherwise, the calculation of the blood pressure value is performed. The circuit in the oscillation method measuring instrument distinguishes the amplitude of the blood pressure cuff pressure and the amplitude of the blood pressure cuff pressure changing along with the pulse, the oscillation method measuring defines the blood pressure corresponding to the maximum amplitude of the blood pressure cuff pressure as the average pressure, the blood pressure corresponding to the forward 50% reduction of the amplitude of the blood pressure cuff pressure as the systolic pressure, and the blood pressure corresponding to the backward 80% reduction of the amplitude of the blood pressure cuff pressure as the diastolic pressure.

The blood oxygen module 119 of the central processing module 111 collects two parameter data of pulse and pulse oxygen saturation and pulse oxygen volume wave through the external blood oxygen probe, and controls the display interaction module 115 to display the monitoring result or the network communication module 112 to send the monitoring result to the external network. The blood oxygen module 119 of the present invention uses an external blood oxygen probe to collect pulse blood oxygen to measure the blood oxygen saturation or arterial hemoglobin saturation in a non-invasive manner. Based on the fact that the change of the light absorption amount during the artery pulsation is related to the oxygen content in the blood, a pair of LED lamps on the blood oxygen probe are arranged, wherein one LED is red light, and the wavelength is about 660 nm; the other is infrared, with a wavelength of around 940nm, the two light sources alternately illuminate the semi-transparent part of the patient's body to be tested, usually the finger tip or the earlobe, the microprocessor on the central processing module 111 calculates the ratio of the two absorbed spectra and compares the result with a saturation value table stored in a memory on the central processing module 111, thus obtaining the blood oxygen saturation.

The central processing module 111 controls the body temperature module 11a to collect body temperature parameter data through the external body temperature probe, and controls the display interaction module 115 to display the monitoring result or the network communication module 112 to transmit the monitoring result to the external network. The measurement principle of the body temperature module 11a is that a body temperature probe adopting a thermal resistance method measures the temperature of the body surface of a human body.

Referring to fig. 2 to 6, the display interaction module 115 includes a first display screen 15 and a second display screen 22 electrically connected to the central processing module 111, the first display screen 15 is disposed on the front side of the main unit 100, the second display screen 22 is disposed on the top of the auxiliary unit 200, and the first display screen 15 is a 7-inch liquid crystal display. Preferably, the first display 15 is a touchable display. Therefore, the wireless communication monitor is small and convenient to carry.

The first fixing member 13 includes a first fixing plate 132 fixed to the main unit 100 and a fixing groove 131 fixed to the second fixing member 21. The second fixing member 21 includes a second fixing plate 212 fixed to the sub-machine 200 and a fixing protrusion 211 engaged with the fixing groove 131. The main unit 100 and the sub-unit 200 are fixed by fitting the fixing groove 131 and the fixing protrusion 211, and the fixing groove 131 and the fixing protrusion 211 are fixed by interference fit. The main unit 100 and the sub-unit 200 are fixed by the fixing groove 131 and the fixing protrusion 211. Specifically, the first fixing plate 132 is fixed to the main unit 100 by screws, and the second fixing plate 212 is fixed to the auxiliary unit 200 by screws.

The engaging block 133 is provided in the fixing groove 131. The middle of the fixing protrusion 211 is provided with an engaging groove 213. The engaging block 133 and the engaging groove 213 are engaged with each other to further fix the main unit 100 and the sub unit 200. The engaging block 133 and the engaging groove 213 are fixed by interference fit.

In this embodiment, the fixing groove 131 and the fixing protrusion 211 are in interference fit, and the engaging block 133 and the engaging groove 213 are in interference fit, so that the assembly and disassembly are convenient, and the medical staff can use the device conveniently.

An outer frame 16 is disposed on the periphery of the first display screen 15, a key module 17 is disposed on the right side of the outer frame 16, and the key module 17 is electrically connected to the central processing module 111.

The top surface of the main unit 100 is provided with a portable structure 14 which is convenient to carry, and the portable structure 14 is rotatably connected with the top surface of the main unit 100. A U-shaped slot 18 is formed in the top of the main body 100 for receiving the portable structure 14.

The integrated mainboard is also provided with a GPRS module, a GPS positioning module and a Bluetooth module which are respectively connected with the central processing module 111. For example, the use environment is a remote mountain area, the multifunctional wireless monitor system can be connected with an interactive display large screen at a hospital end through the GPRS module, so that medical personnel at the hospital end can know the specific conditions of patients. And the setting of GPS orientation module conveniently learns patient's specific position, when needs with patient's meet the hospital, can be according to the quick position that finds the needs meet and send of GPS orientation module. The bluetooth module can wirelessly transmit the data collected by the monitor to a device having bluetooth equipment, for example, the data of the monitor can be received by a mobile phone having bluetooth. In one embodiment, the family members of the patients are outside the ward, and can be connected with the host computer 100 through a mobile phone with Bluetooth to know the physiological parameters of the patients in the ward in real time.

The integrated mainboard comprises a power adapter and a power conversion module, wherein the power conversion module converts the voltage generated by the external power adapter into working voltage.

The multifunctional wireless monitor system is used for monitoring the Electrocardiogram (ECG), the Heart Rate (HR), the non-invasive blood pressure (NIBP), the body Temperature (TEMP), the blood oxygen saturation (SpO2), the Pulse Rate (PR), the carbon dioxide gas at the end of respiration (main flow or by-pass flow EtCO2), the airway respiration rate (AWRR), the heart rate (FHR) of a fetus, Fetal Movement (FM) and the uterine contraction strength (TOCO) of a pregnant woman; the monitoring device is connected to a remote interactive display large screen through wireless networks such as a WiFi module 41 and a 4G/5G integrated module, and monitors vital sign information obtained by the monitoring device.

This multi-functional wireless monitor system can be carried out vital sign monitoring at medical institution by professional medical personnel or qualified personnel through training, is applicable to from connecting the monitoring of patient and beginning to the whole medical treatment stage with the patient separation, can look over patient vital sign in long-range real time for show and report to the police.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the utility model is not limited by the scope of the appended claims.

Claims (10)

1. A multifunctional wireless monitor system is characterized by comprising a host, a secondary machine and a peripheral detecting instrument;

an integrated mainboard is arranged in the host, and is provided with a central processing module, a network communication module, a carbon dioxide module, a fetal monitoring module, a display interaction module and a printing function module; the central processing module is electrically connected with the network communication module, the carbon dioxide module, the fetal monitor module, the display interaction module and the printing function module respectively;

the side surfaces of the main machine and the auxiliary machine are both provided with detection accessory interfaces, the peripheral detection instrument is provided with a joint matched with the detection accessory interfaces, and the peripheral detection instrument is connected to the side surfaces of the main machine and the auxiliary machine through the joint respectively;

a first fixing piece is arranged on the first side of the main machine, and a second fixing piece is arranged on one side of the auxiliary machine; the main machine and the auxiliary machine are fixed through a first fixing piece and a second fixing piece.

2. The multifunctional wireless monitor system according to claim 1, wherein the peripheral detector comprises an airway adapter, a fetal monitor sensor, and a printer suite;

the probe accessory interface comprises a first interface and a second interface; the carbon dioxide module is connected with the airway adapter through the first interface and is used for collecting the concentration of main flow or bypass flow end-call carbon dioxide; the fetal monitoring module is connected with the fetal monitoring sensor through the second interface and is used for acquiring parameter data of fetal heart rate, uterine contraction pressure and fetal movement of a fetus; the printing function module is connected with the network communication module through the internet and prints data monitored by the carbon dioxide module and the fetal monitor module.

3. The multifunctional wireless monitor system according to claim 1, wherein the integrated main board further comprises an electrocardiograph module, a blood pressure module, a blood oxygen module and a body temperature module.

4. The system according to claim 1, wherein the display interaction module comprises a first display screen and a second display screen electrically connected to the central processing module, the first display screen is disposed on the front side of the main unit, the second display screen is disposed on the top of the auxiliary unit, and the first display screen is a 7-inch liquid crystal display screen and is larger than the second display screen.

5. The multifunctional wireless monitor system according to claim 1, wherein the first fixing member comprises a first fixing plate fixed to the host and a fixing groove fixed to the second fixing member; the second fixing piece comprises a second fixing plate fixed with the auxiliary machine and a fixing bulge matched with the fixing groove; the main engine and the auxiliary engine are fixed through the fixing groove and the fixing protrusion in a matched mode, and the fixing groove and the fixing protrusion are fixed through interference fit.

6. The multifunctional wireless monitor system according to claim 1, wherein a snap-fit block is disposed in the fixing groove; the middle part of the fixed bulge is provided with a clamping groove; the clamping block is matched with the clamping groove to further fix the main machine and the auxiliary machine; the clamping block and the clamping groove are fixed in an interference fit mode.

7. The system according to claim 6, wherein an outer frame is disposed around the first display screen, and a button module is disposed on a right side of the outer frame and electrically connected to the central processing module.

8. The multifunctional wireless monitor system according to claim 1, wherein the top surface of the main unit is provided with a portable structure for carrying, and the portable structure is rotatably connected with the top surface of the main unit; the top of the main machine is provided with a U-shaped groove for accommodating the portable structure.

9. The system of claim 1, wherein the integrated motherboard further comprises a GPRS module, a GPS module and a bluetooth module, and the integrated motherboard is connected to the central processing module.

10. The multifunctional wireless monitor system according to any one of claims 1-9, comprising a power adapter, wherein the integrated motherboard further comprises a power conversion module, and the power conversion module converts a voltage generated by the external power adapter into an operating voltage.

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