CN114259212A

CN114259212A - Health monitoring system based on 5G

Info

Publication number: CN114259212A
Application number: CN202210110159.3A
Authority: CN
Inventors: 王国忱; 鄢志崧
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-01-29
Filing date: 2022-01-29
Publication date: 2022-04-01

Abstract

The invention belongs to the technical field of health monitoring, and particularly relates to a health monitoring system based on 5G; the system comprises an arm positioning device and a pulse monitoring device, wherein the arm positioning device can clamp and position the arm of a patient, the pulse monitoring device is used for monitoring the arm pulse and the temperature of liquid medicine of the patient in infusion, monitoring data are uploaded to a monitoring terminal through a 5G network, the arm positioning device comprises a fixing platform, a wrist supporting frame and arm fixing arc plates, the fixing platform is installed on the armrest of a seat for infusion, the wrist supporting frame is installed on the fixing platform, a plurality of arm fixing arc plates are installed on the wrist supporting frame, the arm fixing arc plates are pairwise combined, two arm fixing arc plates in one group can be opened mutually, and the pulse monitoring device is installed on the fixing platform; the technology can estimate whether the patient has the potential illness state according to the change of the health index in the infusion process.

Description

Health monitoring system based on 5G

Technical Field

The invention belongs to the technical field of health monitoring, and particularly relates to a health monitoring system based on 5G.

Background

With the rapid development of the state science and technology level and the continuous improvement of the life quality of people, people are moving into a fast-paced life style, some potential chronic diseases become a great obstacle to the improvement of the life quality of people, and the health of patients needs to be monitored in the process of carrying out medical infusion on the patients due to the existence of some potential diseases;

under the condition of liquid medicine injected into a human body, the health condition of a patient needs to be monitored, and whether the patient has a potential illness state or not is estimated according to the change of health indexes, so that the patient can be timely cured.

Disclosure of Invention

In view of the above, the technical problem to be solved by the present invention is to provide a health monitoring system based on 5G, which can estimate whether a patient has a potential illness state according to the change of health index during infusion.

The invention provides a health monitoring system based on 5G, which comprises an arm positioning device and a pulse monitoring device, wherein the arm positioning device can clamp and position the arm of a patient, the pulse monitoring device is used for monitoring the arm pulse and the temperature of liquid medicine of the patient in infusion, monitoring data are uploaded to a monitoring terminal through a 5G network, the arm positioning device comprises a fixing platform, a wrist supporting frame and arm fixing arc plates, the fixing platform is installed on the armrest of a seat for infusion, the fixing platform is provided with the wrist supporting frame, the wrist supporting frame is provided with a plurality of arm fixing arc plates, the arm fixing arc plates are grouped in pairs, two arm fixing arc plates in one group can be mutually opened, and the pulse monitoring device is installed on the fixing platform.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a flow chart of the operation of a health monitoring system provided by the present invention;

FIG. 2 is a schematic structural view of a fixing platform according to the present invention;

FIG. 3 is a schematic structural view of a hand fixing arc plate according to the present invention;

FIG. 4 is a schematic structural view of a simultaneous fastening column according to the present invention;

FIG. 5 is a first schematic structural diagram of a carriage according to the present invention;

FIG. 6 is a schematic structural view of a hinge plate provided in the present invention;

FIG. 7 is a second schematic structural view of the slider according to the present invention;

FIG. 8 is a schematic view of the pressure massage rod according to the present invention;

FIG. 9 is a schematic view of the structure of the elastic massage head provided by the present invention;

FIG. 10 is a schematic structural view of an extrusion column provided in the present invention;

FIG. 11 is a schematic structural diagram of a pressure cylinder provided by the present invention;

FIG. 12 is a schematic structural view of a tightening sleeve according to the present invention;

fig. 13 is a schematic structural diagram of the elastic segment provided by the present invention.

Detailed Description

The health monitoring system based on 5G provided by the invention is described in detail with reference to the attached drawings in the embodiment of the invention.

See fig. 2-3:

a health monitoring system based on 5G comprises an arm positioning device and a pulse monitoring device, wherein the arm positioning device can clamp and position the arm of a patient, the pulse monitoring device is used for monitoring the arm pulse and the temperature of liquid medicine of the patient during transfusion, monitoring data are uploaded to a monitoring terminal through a 5G network, the arm positioning device comprises a fixed platform 101, a wrist supporting frame 103 and an arm fixing arc plate 301, the fixed platform 101 is detachably and fixedly connected on the armrest of the chair for transfusion, the wrist supporting frame 103 is arranged on the fixed platform 101, the arm fixing arc plate 301 is arranged on the wrist supporting frame 103, the arm fixing arc plates 301 are provided with a plurality of arm fixing arc plates 301, the arm fixing arc plates 301 are pairwise in a group, the two arm fixing arc plates 301 in a group can be opened and buckled with each other, and the pulse monitoring device is installed on the fixing platform 101.

Firstly, clamping and positioning the arm of a patient through an arm positioning device, and carrying out infusion on the patient;

then, in the infusion process, the health indexes of the patient are monitored: monitoring the arm pulse of a patient in transfusion through a pulse monitoring device;

monitoring the temperature of the liquid medicine through a pulse monitoring device, and analyzing whether health indexes of a patient such as pulse and the change of the body temperature of the patient are related to the temperature of the liquid medicine;

then, uploading the data to a monitoring terminal for analysis through a 5G network, and monitoring whether the patient has potential diseases and whether the medicine has adverse reactions causing the patient;

the fixing platform 101 is installed on the armrest of the infusion seat through a plurality of vertical columns at the bottom in an inserting mode, and the firmness between the fixing platform 101 and the infusion seat can be improved due to the arrangement of the vertical columns;

the arm fixing arc plates 301 are used for fixedly clamping the arms of the patient, so that the phenomenon that the arms of the patient move around and are unnecessarily damaged in the sleeping process is avoided;

the two corresponding arm fixing arc plates 301 can be opened and closed with each other, so that the arm fixing arc plates are suitable for patients with various body types; the fixing mode between the arm fixing arc plate 301 and the wrist supporting frame 103 can be locked by a fastener.

See fig. 2 and 4:

the pulse monitoring device comprises a pulse monitor 102, the supporting plate at the upper end of the bottom of the fixing platform 101 is fixedly connected with the pulse monitor 102, the pulse monitor 102 is formed by connecting a plurality of infrared detection lamps in parallel, and the wrist supporting frame 103 is made of a light-transmitting material.

The pulse monitor 102 is formed by connecting a plurality of infrared detection lamps in parallel, and the infrared detection lamps are sequentially lighted up to detect different positions of the arm of the patient, so that the monitoring error caused by over-thick local fat of the patient is avoided;

the infrared detection lamp can carry out pulse and temperature detection to the arm of patient through wrist support frame 103.

Referring to fig. 2:

the pulse monitoring device further comprises a positioning seat 201, the positioning seat 201 is connected to a supporting plate at the upper end of the bottom of the fixing platform 101 in a sliding mode, a monitor is mounted on the positioning seat 201, and the monitor is used for detecting the temperature of liquid medicine for infusion.

The monitor is used for detecting the temperature of the liquid medicine for transfusion so as to analyze whether the health indexes of the patient, such as pulse and the change of the body temperature of the patient, are related to the temperature of the liquid medicine;

the position of the positioning seat 201 at the supporting plate at the upper end of the bottom of the fixed platform 101 is changed to position the infusion tube.

Referring to fig. 2, 10 and 12:

the arm positioning device further comprises an elastic connecting strip 302, extension articulated arms 303 and a through hole 304, the two arm fixing arc plates 301 are connected through the elastic connecting strip 302, the extension articulated arms 303 are fixedly connected to the arm fixing arc plates 301, the two extension articulated arms 303 in one group are connected in a hinged mode, the through hole 304 is formed in the hinged center, and the wrist supporting frame 103 penetrates through the through hole 304.

The two arm fixing arc plates 301 are connected through the elastic connecting strip 302, so that the positions of the lower ends of the arms cannot be clamped and damaged in the opening and closing processes of the two arm fixing arc plates 301;

one extension hinge arm 303 is hinged on the wrist support frame 103, the other extension hinge arm 303 is hinged on the extension hinge arm 303, and the two extension hinge arms 303 are clamped between a plurality of limiting sheets on the wrist support frame 103;

the fixing mode between the arm fixing arc plate 301 and the wrist supporting frame 103 can be locked by spring screws.

Referring to fig. 6:

the arm positioning device further comprises synchronous fastening columns 401 and a tightening ring 403, the wrist supporting frame 103 is hinged with the two synchronous fastening columns 401, the two synchronous fastening columns 401 are respectively located on two sides of the arm fixing arc plate 301, the tightening ring 403 is installed on the synchronous fastening columns 401, tension springs are fixedly connected between the tightening rings 403 on the two synchronous fastening columns 401, and the synchronous fastening columns 401 are in fit with the side portions of the extending hinge arms 303.

Under the action of the synchronous fastening column 401, the extending articulated arms 303 on various arm fixing arc plates 301 can be limited at the same time;

two synchronous fastening posts 401 are respectively located on two sides of the arm fixing arc plate 301, and under the action of the tension spring, the limiting clamping effect on the arm of the patient can be further improved, and at the moment, the arm of the patient can rotate in a small range relative to the rotation center of the wrist supporting frame 103.

See fig. 2 and 4:

the arm positioning device further comprises two sliding seats 104, a hinge plate 402, a lifting driving seat 501 and a sliding groove 502, the wrist supporting frame 103 is symmetrically and fixedly connected with the two sliding seats 104, the lifting driving seat 501 is provided with the sliding groove 502, the sliding seats 104 are in sliding connection with the sliding groove 502, and the two synchronous fastening columns 401 are rotatably connected with the lifting driving seat 501 through the hinge plate 402.

A quadrilateral mechanism is formed among the two synchronous fastening columns 401, the two hinge plates 402 and the lifting driving seat 501;

the two sliding seats 104 are respectively positioned at two sides of the wrist supporting frame 103, and respectively slide on the two sliding seats 104 through sliding grooves 502 on two lifting driving seats 501 to control the opening angle between the two synchronous fastening columns 401;

at this time, the rotation angles of the two synchronous fastening columns 401 are the same;

when the lifting driving seat 501 is controlled to lift, the lifting driving seats 501 on two sides need to be controlled at the same time, when only one lifting driving seat 501 moves, the lifting driving seat 501 on the other side can be clamped on the sliding seat 104, and the design improves the safety of a patient in the using process.

Referring to fig. 4:

the arm positioning device further comprises a spring plate 503, the lower end of the lifting driving seat 501 is fixedly connected with the spring plate 503, and a spring is arranged between the spring plate 503 and the fixed platform 101.

The safety of equipment in the use can be further improved through the arrangement of the spring.

See fig. 10-11:

the arm positioning device further comprises a pressure cylinder 305 and a squeezing column 306, the arm fixing arc plate 301 is provided with the pressure cylinder 305, the pressure cylinder 305 is provided with a gas injection pipe, the squeezing column 306 penetrating through the arm fixing arc plate 301 is connected in the pressure cylinder 305 in a sliding mode, and the squeezing column 306 is in contact fit with the skin of the arm of a patient.

The gas injection pipe is communicated with the pump through a pipeline, when the air pressure in the pressure cylinder 305 changes, the position of the extrusion column 306 in the pressure cylinder 305 can be changed, so that the extrusion column 306 is contacted with the skin of the arm of the patient, and the design is convenient for stretching the skin of the arm of the patient to two sides, so that the insertion of the infusion needle head is convenient;

the extrusion post 306 stretches the arm skin of the patient in a flexible pressing mode of air pressure, and the patient can be prevented from being damaged.

Referring to fig. 12:

the arm positioning device further comprises a tightening sleeve 307, and the tightening sleeve 307 capable of elastically deforming is mounted on the arm fixing arc plate 301.

The elastic deformable tightening sleeve 307 can be used for further clamping and limiting the arm of the patient, so that the safety of the patient in the infusion process is improved.

See fig. 12-13:

the tightening sleeves 307 are hollow inside and can circulate liquid to maintain the temperature of liquid medicine in the infusion tube, and the infusion tube penetrates through the tightening sleeves 307 and is positioned outside the arm fixing arc plate 301.

At which time the monitor can be aimed at the infusion line.

The arm positioning device further comprises a fixing section 371, an elastic section 372 and a water service pipe 373, the tightening sleeve 307 is provided with the fixing section 371 and the elastic section 372, the elastic section 372 and the fixing section 371 are respectively located on the inner side and the outer side of the arm fixing arc plate 301, and the fixing section 371 is communicated with the two water service pipes 373.

One water pipe 373 is used for injecting liquid, the other water pipe 373 is used for discharging liquid, and the liquid inlet and outlet amount between the two water pipes 373 is adjusted, so that the pipe diameter of the elastic section 372 is changed, and the clamping effect on the arm of the patient is further improved;

furthermore, heat-conducting liquid for raising the temperature of the arm of the patient can be injected into the water pipe 373, so that discomfort caused by injecting cooler liquid medicine into a human body is avoided;

further, the water pipe 373 can be filled with a heat conductive liquid for maintaining the temperature of the drug solution, and it is analyzed whether or not the change in the health index of the patient, such as the pulse rate and the body temperature of the patient, is related to the temperature of the drug solution.

See fig. 8-9:

arm positioner still includes cantilever 202, articulated seat 203, torsional spring 204, pressure massage stick 205, elasticity massage head 206 and damping cover 207, two cantilever 202 of bilateral symmetry fixedly connected with of positioning seat 201, the articulated seat 203 of rotation connection on the cantilever 202, install torsional spring 204 between articulated seat 203 and the cantilever 202, the articulated seat 203 is gone up to rotate and is connected with pressure massage stick 205, is equipped with a plurality of elasticity massage heads 206 on the pressure massage stick 205, installs damping cover 207 on the pressure massage stick 205, and damping cover 207 passes through friction drive with the rubber sleeve in the synchronous fastening post 401 outside and is connected.

The torsion spring 204 can enable the far ends of the two pressure massage rods 205 to always have the tendency of moving towards the direction close to each other, thereby facilitating the blood circulation at the arm of the patient and improving the use effect of the liquid medicine;

meanwhile, the condition that the arms of the patient are not moved for a long time and are stiffened can be avoided;

the damping sleeve 207 is connected with the rubber sleeve outside the synchronous fastening column 401 through friction transmission, so that the massage effect of the elastic massage head 206 on the arm of the patient can be further improved.

Claims

1. The utility model provides a health monitoring system based on 5G, includes arm positioner and pulse monitoring devices, its characterized in that: arm positioner can carry out the centre gripping location with patient's arm, and pulse monitoring devices is arranged in monitoring patient's arm pulse and liquid medicine temperature in the infusion, and monitoring data passes through 5G network upload to monitor terminal, arm positioner includes fixed platform (101), and fixed platform (101) are installed on the handrail of seat for the infusion, installs the wrist on fixed platform (101) and hold up frame (103), and the wrist holds up and installs a plurality of arm fixed arc boards (301) on frame (103), and two liang of a set of a plurality of arm fixed arc boards (301), and two fixed arc boards of a set of arm (301) can open each other, pulse monitoring devices installs on fixed platform (101).

2. The 5G-based health monitoring system of claim 1, wherein: the pulse monitoring device comprises a pulse monitor (102), the pulse monitor (102) is installed at a supporting plate at the upper end of the bottom of the fixed platform (101), the pulse monitor (102) is formed by connecting a plurality of infrared detection lamps in parallel, and the wrist supporting frame (103) is made of a light-transmitting material.

3. A 5G-based health monitoring system according to any of claims 1-2, wherein: the upper end of the bottom of the fixing platform (101) is connected with a positioning seat (201) in a sliding mode, and a monitor used for detecting the temperature of the infusion liquid is arranged on the positioning seat (201).

4. The 5G-based health monitoring system of claim 1, wherein: two arm fixing arc plates (301) are connected through an elastic connecting strip (302), an extending articulated arm (303) is fixedly connected to the arm fixing arc plates (301), a group of two extending articulated arms (303) are rotatably connected, a through hole (304) is formed in the rotating center, and the wrist supporting frame (103) penetrates through the through hole (304).

5. The 5G-based health monitoring system of claim 4, wherein: the wrist supporting frame (103) is hinged with two synchronous fastening columns (401), the two synchronous fastening columns (401) are respectively located on two sides of the arm fixing arc plate (301), tensioning rings (403) are installed on the synchronous fastening columns (401), tension springs are installed between the tensioning rings (403) on the two synchronous fastening columns (401), and the synchronous fastening columns (401) are in fit with the side portions of the extending hinged arms (303).

6. The 5G-based wellness monitoring system of claim 5 wherein: two sliding seats (104) are symmetrically and fixedly connected to the wrist supporting frame (103), a sliding groove (502) is formed in the lifting driving seat (501), the sliding groove (502) is in sliding connection with the sliding seats (104), and the two synchronous fastening columns (401) are rotatably connected with the lifting driving seat (501) through a hinge piece (402).

7. The 5G-based wellness monitoring system of claim 6 wherein: the lower end of the lifting driving seat (501) is fixedly connected with a spring plate (503), and a spring is installed between the spring plate (503) and the fixed platform (101).

8. The 5G-based health monitoring system of claim 7, wherein: be equipped with pressure cylinder (305) on arm fixed arc board (301), be equipped with the gas injection pipe on pressure cylinder (305), sliding connection has extrusion column (306) that runs through arm fixed arc board (301) in pressure cylinder (305), and contact fit between extrusion column (306) and the patient arm skin.

9. A 5G-based health monitoring system as claimed in claim 1 or 8, wherein: and the arm fixing arc plate (301) is provided with a jacking sleeve (307) capable of elastically deforming.

10. The 5G-based health monitoring system of claim 9, wherein: the tightening sleeves (307) are hollow, liquid can flow through the tightening sleeves to keep the temperature of liquid medicine in the infusion tube, and the infusion tube penetrates through the tightening sleeves (307) and is located on the outer side of the arm fixing arc plate (301).