Digital medical health parameter monitoring device
Technical Field
The invention relates to the technical field of health parameter monitoring, in particular to a digital medical health parameter monitoring device.
Background
Currently, for parameter monitoring of medical health, body temperature and heart rate are indispensable monitoring parameters. Especially heart rate, which is one of the most important parameters for health monitoring. Heart rate variability is closely related to heart disease. If the heart rate exceeds 160 times/minute or is lower than 40 times/minute, most of the heart disease patients are suffered from discomfort such as palpitation and chest distress, detailed examination should be performed as soon as possible, at present, for the patients, the hospitalization personnel need to be monitored at any time, the body temperature and the heart rate are monitored regularly by a mobile instrument, and along with the continuous development of electronic technology, the photoelectric heart rate monitor can greatly improve the medical monitoring efficiency. However, the current photoelectric heart rate monitor is not only troublesome in monitoring, but also easily causes an excessive error when in use, and especially under the influence of light and the like, the monitoring precision can be influenced, which is not favorable for accurately knowing the information of a patient.
Disclosure of Invention
The present invention is directed to a digital medical health parameter monitoring device, so as to solve the problems mentioned in the background art.
In order to achieve the purpose, the invention provides the following technical scheme: a digital medical health parameter monitoring device comprises a base, wherein a movable wheel is rotatably mounted at the lower end of the base, a hydraulic rod is further arranged at the lower end of the base and positioned outside the movable wheel, a monitoring control cabinet is fixedly arranged on the base, a digital display screen is arranged at the top of the monitoring control cabinet, two vertically extending vertical frames fixed on the base are arranged on one side of the monitoring control cabinet, a box body is vertically and vertically slidably mounted between the two vertical frames, a horizontal frame is mounted on one side of the box body, and a photoelectric heart rate monitoring assembly and an electronic thermometer are mounted on the horizontal frame; it is characterized in that the preparation method is characterized in that,
the photoelectric heart rate monitoring assembly comprises a monitoring body, the monitoring body comprises a fixed seat, a main monitoring seat, an auxiliary monitoring seat, a main photoelectric heart rate monitor and an auxiliary photoelectric heart rate monitor, wherein,
the fixed seat is fixed on the horizontal frame, and two ends of the fixed seat are provided with main monitoring seats in a telescopic manner along the length direction of the fixed seat;
the main monitoring seat is of an L-shaped structure, and a main photoelectric heart rate monitor is arranged in the main monitoring seat;
the main monitoring seat is provided with the auxiliary monitoring seat in a telescopic extending mode along the direction perpendicular to the fixed seat, and an auxiliary photoelectric heart rate monitor is arranged in the auxiliary monitoring seat;
when the heart rate of a patient is monitored, the main monitoring seat and the auxiliary monitoring seat respectively clamp and position the arms of the patient, and the main photoelectric heart rate monitor and the auxiliary photoelectric heart rate monitor simultaneously monitor the heart rate of the patient;
the monitoring control cabinet of the monitoring device analyzes the monitoring data of the main photoelectric heart rate monitor and the auxiliary photoelectric heart rate monitor, if the difference between the monitoring data of the main photoelectric heart rate monitor and the monitoring data of the auxiliary photoelectric heart rate monitor is within a certain threshold value, the monitoring value is effective, and the average value of the monitoring data of the main photoelectric heart rate monitor and the monitoring data of the auxiliary photoelectric heart rate monitor is taken as the heart rate monitoring value; if the difference between the two monitoring data exceeds a certain threshold value, the monitoring value is invalid, and monitoring is carried out again.
As a still further scheme of the invention: the fixing seat is provided with a through hole, the main monitoring seat and the auxiliary monitoring seat are connected in a sliding mode so as to be convenient to adjust the position of the auxiliary monitoring seat, an adjusting sliding groove is further formed between the main monitoring seat and the auxiliary monitoring seat, and an adjusting buffer spring is arranged in the adjusting sliding groove.
As a still further scheme of the invention: the outer sides of the main monitoring seat and the auxiliary monitoring seat are respectively provided with a shading baffle, and the main photoelectric heart rate monitor and the auxiliary photoelectric heart rate monitor are both positioned in the shading baffles.
As a still further scheme of the invention: the adjusting assembly is arranged between the main monitoring seats at two ends of the fixing seat and positioned in the fixing seat, the adjusting assembly comprises an adjusting gear, an inner rack, a torsional spring, an outer rack and a clamping and positioning electromagnetic assembly, wherein the adjusting gear is rotatably arranged at the middle position of the fixing seat, one end of the main monitoring seat, extending into the fixing seat, on one side of the fixing seat is fixedly connected with the inner rack, one end of the main monitoring seat, extending into the fixing seat, on the other side of the fixing seat is fixedly connected with the outer rack, the outer rack and the inner rack are in external meshing transmission with the adjusting gear, the outer rack and the inner rack are arranged in parallel, the torsional spring is further arranged on a wheel shaft of the adjusting gear, the torsional spring enables the two main monitoring seats to move towards opposite directions, so that the distance between the two main monitoring seats is maximum, and a clamping and positioning electromagnetic assembly is further arranged between the two main monitoring seats, and the clamping and positioning electromagnetic assembly can overcome the force of the torsion spring to reduce the distance between the two main monitoring seats so as to clamp and position the two main monitoring seats on the arms of the patient.
As a still further scheme of the invention: the adjusting gear is two of arranging from top to bottom, outer rack is two of becoming U type symmetrical arrangement, just interior rack is the cuboid structure that all is provided with the tooth from top to bottom, still be provided with the guide holder in the fixing base, the internal rack along the guide holder direction slides, the outside non-flank of tooth of outer rack with the inner wall sliding guide cooperation of fixing base.
As a still further scheme of the invention: the clamping and positioning electromagnetic assembly comprises a first electromagnet and a second electromagnet, wherein the first electromagnet is fixed at the end part of the outer rack, the second electromagnet is fixedly arranged at the joint of the inner rack and the main monitoring seat, the first electromagnet and the second electromagnet are opposite in position, and when the first electromagnet and the second electromagnet are electrified, the electromagnetic suction force between the first electromagnet and the second electromagnet can overcome the force of the torsion spring to enable the distance between the two main monitoring seats to be reduced so as to clamp and position the first electromagnet and the second electromagnet on the arm of a patient.
As a still further scheme of the invention: the upside of base is equipped with the handle, be equipped with red lamp pearl and blue lamp pearl on the monitor control cabinet of the downside of display screen, the downside of red lamp pearl and blue lamp pearl is equipped with the speaker.
As a still further scheme of the invention: the vertical rack is characterized in that two opposite inner side walls of the vertical rack are vertically provided with slide rails, two slide blocks are slidably mounted on the inner sides of the slide rails, and the box body is fixedly mounted on the inner sides of the slide blocks.
As a still further scheme of the invention: the lower extreme fixed mounting of slider has first motor, the right side of first motor is rotated and is installed first action wheel, the right side of first action wheel is equipped with the rack.
As a still further scheme of the invention: the rack is fixedly arranged at the front end of the vertical frame, and the first driving wheel is connected with the rack in a matching way; the rear side fixed mounting of box has the second motor, the front side rotation of second motor installs the second action wheel, the downside of second action wheel is rotated and is installed from the driving wheel, the front side fixed mounting from the driving wheel has the dwang, photoelectric heart rate ware and electrothermometer fixed mounting are in the outside of dwang, the second action wheel with from the driving wheel cooperation connection.
Compared with the prior art, the invention has the beneficial effects that:
(1) the invention adopts the mode of synchronously monitoring the main photoelectric heart rate monitor and the auxiliary photoelectric heart rate monitor, can greatly improve the monitoring efficiency, and has simple and convenient monitoring mode and can greatly improve the monitoring efficiency;
(2) the outer sides of the main monitoring seat and the auxiliary monitoring seat are respectively provided with the shading baffle, and the main photoelectric heart rate monitor and the auxiliary photoelectric heart rate monitor are both positioned in the shading baffles, so that the influence of external light on the monitors can be reduced, and the monitoring precision is improved;
(3) the adjusting assembly is arranged between the main monitoring seats at the two ends of the fixing seat, so that the arms of a patient can be conveniently and automatically clamped and positioned, and the aim of rapid and automatic monitoring is fulfilled;
(4) the invention has novel design, simple structure and convenient use, the handle is held, the base can drive the equipment at the upper end to move after the moving wheel at the lower end rotates, so that the monitoring device can carry out physical examination on different patients on different sickbeds, compared with the prior monitoring device which is a sickbed and a monitoring device, the design ensures that one machine has multiple functions, thereby the equipment is put into use, when the heart rate of the patient is abnormal, the red lamp bead flashes, the loudspeaker gives an alarm, when the body temperature of the patient is abnormal, the blue lamp bead lights, the loudspeaker gives another alarm, so that the patient can quickly know the self physical abnormality, even if the medical care personnel are not nearby, the warning effect can be played, and the medical care personnel can be reminded to take measures as quickly as much as possible;
(5) the slide block drives the vertical position height of the internal box body to realize adjustment, and the position heights of the heart rate monitor and the electronic thermometer can be adjusted according to the position heights of a sickbed or a patient, so that the heart rate monitor and the electronic thermometer are more in line with ergonomics; the dwang can drive the heart rate monitor and the electronic thermometer in the outside and realize rotating, when needs monitor, rotates heart rate monitor and electronic thermometer patient's body surface, when need not the measuring, can retrieve heart rate monitor and electronic thermometer gyration, and the better protection of carrying on equipment prevents that equipment from causing the damage.
Drawings
FIG. 1 is a schematic diagram of a digital medical health parameter monitoring device;
FIG. 2 is a schematic structural diagram of a vertical frame in the digital medical health parameter monitoring device;
fig. 3 is a schematic structural diagram of a rotating rod in the digital medical health parameter monitoring device.
FIG. 4 is a schematic diagram of a photoelectric heart rate monitoring assembly of the digital medical health parameter monitoring device;
FIG. 5 is a schematic diagram of an adjustment assembly of the digital medical health parameter monitoring device;
Detailed Description
Referring to fig. 1-5, in an embodiment of the present invention, a digital medical health parameter monitoring device includes a base 1, the lower end of the base 1 is rotatably provided with a movable wheel 2, the lower end of the base 1 is also provided with a hydraulic rod 9 positioned outside the movable wheel 2, the hydraulic rod 9 can be jacked downwards to fix the equipment, so that the monitoring device can carry out physical examination on different patients on different sickbeds, the base 1 is fixedly provided with a monitoring control cabinet, the top of the monitoring control cabinet is provided with a digital display screen 4, one side of the monitoring control cabinet is provided with two vertical frames 5 which are fixed on the base 1 and extend vertically, a box body 6 is vertically and vertically installed between the two vertical frames 5 in a sliding way, a rotating rod 21 is installed on one side of the box body 6, and a photoelectric heart rate monitoring component 7 and an electronic thermometer 8 are installed on the rotating rod 21; it is characterized in that the preparation method is characterized in that,
the photoelectric heart rate monitoring assembly 7 comprises a monitoring body 22, the monitoring body 22 comprises a fixed seat 23, a main monitoring seat 25, an auxiliary monitoring seat 26, a main photoelectric heart rate monitor 28 and an auxiliary photoelectric heart rate monitor 29, wherein,
the fixed seat 23 is fixed on the rotating rod, and two ends of the fixed seat 23 are provided with main monitoring seats 25 in a telescopic manner along the length direction;
the main monitoring seat 25 is of an L-shaped structure, and a main photoelectric heart rate monitor 28 is arranged in the main monitoring seat 25;
the main monitoring seat 25 is provided with the auxiliary monitoring seat 26 in a telescopic extending manner along a direction perpendicular to the fixed seat 23, and an auxiliary photoelectric heart rate monitor 29 is arranged in the auxiliary monitoring seat 26;
when the heart rate of the patient is monitored, the main monitoring seat 25 and the auxiliary monitoring seat 26 respectively clamp and position the arms of the patient, and the main photoelectric heart rate monitor 28 and the auxiliary photoelectric heart rate monitor 29 simultaneously monitor the heart rate of the patient;
the monitoring control cabinet of the monitoring device analyzes the monitoring data of the main photoelectric heart rate monitor 28 and the auxiliary photoelectric heart rate monitor 29, if the difference between the monitoring data of the main photoelectric heart rate monitor and the monitoring data of the auxiliary photoelectric heart rate monitor is within a certain threshold value, the monitoring value is effective, and the average value of the monitoring data and the monitoring data is taken as the heart rate monitoring value; if the difference between the two monitoring data exceeds a certain threshold value, the monitoring value is invalid, and monitoring is carried out again.
In this embodiment, the fixing seat 23 is provided with a through hole 24, the main monitoring seat 25 and the auxiliary monitoring seat 26 are slidably connected to adjust the position of the auxiliary monitoring seat, an adjusting sliding groove is further provided between the main monitoring seat 25 and the auxiliary monitoring seat 26, and an adjusting buffer spring 30 is provided in the adjusting sliding groove.
In a preferred embodiment, the main monitoring seat 25 and the auxiliary monitoring seat 26 are provided with a light-shielding baffle 27 on the outer side, and the main photoelectric heart rate monitor 28 and the auxiliary photoelectric heart rate monitor 29 are located in the light-shielding baffle 27.
Wherein, still be provided with adjusting part between the main monitoring seat 25 at fixing base both ends, adjusting part is located fixing base 23, adjusting part includes adjusting gear 34, interior rack 33, torsional spring 35, outer rack 32 and centre gripping location electromagnetic component, wherein, the rotatable setting of adjusting gear 34 is in fixing base 23 middle part position, the one end fixedly connected with interior rack 33 that stretches into the fixing base of main monitoring seat 25 of fixing base one side, the one end fixedly connected with outer rack 32 that stretches into the fixing base of main monitoring seat 25 of fixing base opposite side, outer rack 32, interior rack 33 all with adjusting gear 34 external gearing transmission, and outer rack 32, interior rack 33 parallel arrangement, still be provided with torsional spring 35 on the shaft of adjusting gear 34, torsional spring 35 makes two main monitoring seat 25 move to opposite direction, so as to maximize the distance between the two main monitoring seats 25, and a clamping and positioning electromagnetic assembly is further disposed between the two main monitoring seats 25, and the clamping and positioning electromagnetic assembly can overcome the force of the torsion spring to make the distance between the two main monitoring seats 25 smaller so as to clamp and position the two main monitoring seats on the arm of the patient.
As a better embodiment, the adjusting gears 34 are two arranged up and down, the outer racks 32 are two symmetrically arranged in a U shape, the inner rack 33 is a cuboid structure with teeth arranged on the upper surface and the lower surface, the guide seat 31 is further arranged in the fixing seat, the inner rack 33 slides along the guide seat in a guiding manner, and the external non-tooth surface of the outer rack is matched with the inner wall of the fixing seat in a sliding guiding manner.
In this embodiment, the clamping and positioning electromagnetic assembly includes a first electromagnet 37 and a second electromagnet 36, wherein the first electromagnet 36 is fixed at an end of the outer rack 32, the second electromagnet 37 is fixed at a connection position of the inner rack 33 and the main monitoring seat 25, the first electromagnet 37 and the second electromagnet 36 are opposite, and when the first electromagnet 37 and the second electromagnet 36 are energized, the electromagnetic attraction between the first electromagnet 37 and the second electromagnet 36 can overcome the force of the torsion spring to reduce the distance between the two main monitoring seats 25, so as to clamp and position the two main monitoring seats on the arm of the patient.
Wherein, the upside of base 1 is equipped with handle 3, be equipped with red lamp pearl 10 and blue lamp pearl 11 on the monitor control cabinet of the downside of display screen 4, the downside of red lamp pearl 10 and blue lamp pearl 11 is equipped with speaker 12, photoelectric heart rate ware 7 can real-time monitoring patient's rhythm of the heart, electrothermometer 8 can real-time monitoring patient's body temperature, the real-time demonstration of data monitored simultaneously is on display screen 4, when patient's rhythm of the heart has appeared unusually, red lamp pearl 10 sends out the flash of light, speaker 12 sends an alarm, when patient's body temperature appears unusually, blue lamp pearl 11 lights, speaker 12 sends another kind of police dispatch newspaper this moment, make the patient can be quick learn that self is unusual, even medical personnel are not near when, also can play the warning effect, remind medical personnel's taking measures as early as possible.
The two opposite inner side walls of the vertical frame 5 are vertically provided with slide rails 13, the inner sides of the slide rails 13 are slidably provided with two slide blocks 14, and the box body 6 is fixedly arranged on the inner sides of the slide blocks 14. The lower extreme fixed mounting of slider 14 has first motor 15, first motor 15's right side is rotated and is installed first action wheel 16, first action wheel 16's right side is equipped with rack 17, and first motor 15 starts the back for first motor 15 drives first action wheel 16 and vertically reciprocates in one side of rack 17, thereby makes slider 14 drive the vertical position height of inside box 6 and has realized the regulation, can be according to the position height of sick bed or patient's position height control heart rate monitor and electronic thermometer 8, accords with ergonomics more. The rack 17 is fixedly arranged at the front end of the vertical frame 5, and the first driving wheel 16 is connected with the rack 17 in a matching way. The rear side fixed mounting of box 6 has second motor 18, second motor 18's front side rotation is installed second action wheel 19, second action wheel 19's downside rotation is installed and is followed driving wheel 20, the front side fixed mounting who follows driving wheel 20 has dwang 21, photoelectricity heart rate ware 7 and electronic thermometer 8 fixed mounting are in the outside of dwang 21, second action wheel 19 with follow driving wheel 20 cooperation and be connected, second motor 18 starts the back, second motor 18 drives second action wheel 19 and rotates to make dwang 21 can drive the heart rate monitor and electronic thermometer 8 in the outside realize rotating, when needs monitor, rotate heart rate monitor and electronic thermometer 8 to patient's body surface, when need not measuring, can return heart rate monitor and electronic thermometer 8 and retrieve, better carry out the protection of equipment, preventing the equipment from being damaged.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.