Background
The bracelet is a decoration in human development history, and has different meanings for different figures in different periods and different occasions. Bracelets made of various materials are on the market and become a fashion element. The intelligent bracelet is a wear-type smart machine. Through this kind of bracelet, the user can take notes real-time data such as exercise, sleep, part still have diet in daily life to with these data with cell-phone, flat board, ipod touch synchronous, play the effect of guiding healthy life through data. At present, the intelligent bracelet on the market is used for assisting people to monitor self healthy equipment, makes things convenient for people to carry out self regulation and control, and does not have effectual real-time and use in medical field, can not satisfy the market demand.
Disclosure of Invention
The purpose of the invention is as follows:
the invention provides a multifunctional medical care monitoring bracelet, aiming at the problem that no effective real-time and use bracelet exists in the medical field.
The technical scheme is as follows:
a multi-functional medical care monitoring bracelet, includes: the hand strap is arranged on the hand strap and penetrates through the first working component and the second working component, the first working component and the second working component are in central symmetry at positions on the hand strap, the hand strap is an inflatable elastic strap, a vibration wave sensor is arranged in the hand strap, the first working component comprises an air valve, a blood pressure chip and a positioning chip, the air valve is connected with the hand strap and communicated with the inside of the hand strap, the air valve is used for inflating or deflating the inside of the hand strap, the blood pressure chip is connected with the vibration wave sensor, the vibration wave sensor and the blood pressure chip are used for detecting blood pressure, and the positioning chip is used for positioning the hand strap; second working member is including induction plate, temperature-sensing chip and pulse response chip, the induction plate set up in first working member up end, the temperature-sensing chip and the pulse is responded to the chip and is connected the induction plate, the temperature-sensing chip is used for responding to patient's temperature, the pulse is responded to the chip and is used for responding to patient's pulse.
As a preferable mode of the present invention, the first working member further includes a notch space, the notch space is disposed at a connection position between the front surface and the bottom surface of the first working member, the notch space is located at a center position of the front surface of the first working member, and the air valve, the blood pressure chip, and the positioning chip are disposed on the same side of the first working member.
As a preferable mode of the present invention, the top surface of the gap space is provided with a working groove, the working groove includes a rotator and a telescopic shaft, the top end of the rotator is disposed at the top end of the working groove, the top end of the telescopic shaft is connected to the bottom end of the rotator, the bottom surface of the telescopic shaft is provided with a needle, and the needle is disposed at the midpoint of any radius of the bottom surface of the telescopic shaft.
In a preferred aspect of the present invention, the first working member further includes a first inclined groove that communicates the space above the first working member and the cutout space, and a second inclined groove that extends into the first working space, and the first inclined groove and the second inclined groove form a figure-eight shape in a side view.
In a preferred aspect of the present invention, the first operating member further includes a blood glucose test device embedded in an upper surface of the first operating member, the second inclined groove is connected to the blood glucose test device, and the first inclined groove and the second inclined groove are used for placing a blood glucose test strip.
In a preferred embodiment of the present invention, the first inclined groove is provided with cylindrical grooves on both sides thereof, a rotating shaft is provided on a center line of each of the cylindrical grooves, the two ends of the cylindrical groove are provided with the transfer wheels, and the rotating directions of the two rotating shafts are opposite.
As a preferable mode of the present invention, the blood glucose meter further comprises a processing device, the processing device is connected to the rotator, the telescopic shaft, the rotating shaft and the blood glucose testing device, the blood glucose testing device sends a test signal when detecting a blood glucose test strip, and the processing device controls the rotator, the telescopic shaft and the rotating shaft to operate according to the test signal.
In a preferred embodiment of the present invention, the processing device is connected to the positioning chip, and the processing device determines the action of the patient according to the positioning of the positioning chip.
As a preferred mode of the present invention, the blood glucose testing device, the blood pressure chip, the positioning chip, the temperature sensing chip and the pulse sensing chip are connected to a medical system, and medical staff monitor the physical state of the patient through the blood glucose testing device, the blood pressure chip, the positioning chip, the temperature sensing chip and the pulse sensing chip.
The invention realizes the following beneficial effects:
through the sign that detects the patient who wears the bracelet to learn the health and the current motion situation of patient this moment, the sign of the patient who detects out is combined again, and further judgement patient needs medical personnel's help at present, thereby has played the effect that detects the disease constantly.
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.
The first embodiment is as follows:
the reference figures are figures 1-3. A multi-functional medical care monitoring bracelet, includes: a hand ring belt 1, a first working member 2 and a second working member 3, the hand ring belt 1 passes through the first working member 2 and the second working member 3, the first working component 2 and the second working component 3 are arranged on the hand ring belt 1 in a central symmetry mode, the hand girdle 1 is an inflatable elastic band, a vibration wave sensor 4 is arranged in the hand girdle 1, the first working component 2 comprises an air valve 5, a blood pressure chip 6 and a positioning chip 7, the air valve 5 is connected with the hand girdle 1 and communicated with the inside of the hand girdle 1, the air valve 5 is used for inflating or deflating the interior of the hand girdle 1, the blood pressure chip 6 is connected with the vibration wave sensor 4, the vibration wave sensor 4 and the blood pressure chip 6 are used for detecting blood pressure, and the positioning chip 7 is used for positioning the bracelet; second working component 3 is including induction board 8, temperature-sensing chip 9 and pulse induction chip 10, induction board 8 set up in 2 up end of first working component, temperature-sensing chip 9 and pulse induction chip 10 is connected induction board 8, temperature-sensing chip 9 is used for responding to patient's temperature, pulse induction chip 10 is used for responding to patient's pulse.
In a preferred embodiment of the present invention, the first working member 2 further includes a gap space 11, the gap space 11 is disposed at a connecting position between the front surface and the bottom surface of the first working member 2, the gap space 11 is located at a center position of the front surface of the first working member 2, and the air valve, the blood pressure chip 6, and the positioning chip 7 are disposed on the same side of the first working member 2.
As a preferable mode of the present invention, a working groove is disposed on the top surface of the gap space 11, the working groove includes a rotator 12 and a telescopic shaft 13, the top end of the rotator 12 is disposed on the top end of the working groove, the top end of the telescopic shaft 13 is connected to the bottom end of the rotator 12, a needle 14 is disposed on the bottom surface of the telescopic shaft 13, and the needle 14 is disposed at a midpoint of any radius of the bottom surface of the telescopic shaft 13.
In a preferred aspect of the present invention, the first working member 2 further includes a first inclined groove 15 and a second inclined groove 16, the first inclined groove 15 communicates with the space above the first working member 2 and the cutout space 11, the second inclined groove 16 extends into the first working space, and the first inclined groove 15 and the second inclined groove 16 form a figure-eight shape in a side view.
In a preferred embodiment of the present invention, the first working member 2 further includes a blood glucose test device 17, the blood glucose test device 17 is mounted on the upper surface of the first working member 2, the second inclined groove 16 is connected to the blood glucose test device 17, and the first inclined groove 15 and the second inclined groove 16 are used for placing a blood glucose test strip.
In a preferred embodiment of the present invention, the first inclined grooves 15 are provided with cylindrical grooves 18 on both sides, a rotating shaft 19 is provided on the center line of each of the cylindrical grooves 18, the conveying wheels 20 are provided on both ends of the cylindrical grooves 18, and the rotating directions of the two rotating shafts 19 are opposite.
In a preferred embodiment of the present invention, the blood glucose meter further comprises a processing device 21, wherein the processing device 21 is connected to the rotator 12, the telescopic shaft 13, the rotating shaft 19 and the blood glucose meter 17, the blood glucose meter 17 generates a test signal when detecting a blood glucose test strip, and the processing device 21 controls the rotator 12, the telescopic shaft 13 and the rotating shaft 19 to operate according to the test signal.
In a preferred embodiment of the present invention, the processing device 21 is connected to the positioning chip 7, and the processing device 21 determines the action of the patient according to the positioning of the positioning chip 7.
As a preferred mode of the present invention, the blood glucose testing device 17, the blood pressure chip 6, the positioning chip 7, the temperature sensing chip 9 and the pulse sensing chip 10 are connected to a medical system, and a medical staff monitors the physical state of a patient through the blood glucose testing device 17, the blood pressure chip 6, the positioning chip 7, the temperature sensing chip 9 and the pulse sensing chip 10.
In the specific implementation process, after the patient wears the bracelet, the bracelet begins to monitor the patient. At ordinary times, temperature-sensing chip 9 and pulse induction chip 10 pass through induction plate 8 induction patient's body temperature and pulse, and when great fluctuation appeared in temperature or pulse, medical system can receive the signal, and medical personnel can arrive the patient department that the undulant bracelet of signal corresponds, treats patient.
Air valve 5 is fixed time to inflate adversary's clitellum 1, make the expansion of clitellum 1, thereby tighten user's wrist, and then air valve 5 is to clitellum 1 gassing, thereby make the contraction of clitellum 1, in-process at the 1 gassing of clitellum, produce the vibration, thereby produce the vibration wave, 4 response vibration waves of vibration wave inductor, and to vibrate wave information transmission to blood pressure chip 6 in, blood pressure chip 6 is handled vibration wave information, thereby detect out patient's blood pressure height, when blood pressure appears obviously increasing or reducing, medical personnel can arrive the patient department that the blood pressure goes out the problem, perhaps find the patient position that the blood extruded the problem according to location chip 7.
It is worth mentioning that the current area of the patient can be judged through the position of the positioning chip 7, for example, in a park, it can be known that the park may only have a rest or may exercise, therefore, the pulse sensing chip 10 judges the current state of the patient, when the pulse is normal, the patient is judged to have a rest, when the pulse of the patient is increased, the body temperature of the patient is judged, when the body temperature is increased, the patient is judged to be moving, and when the body temperature is almost unchanged, the patient is judged to need to be nursed; and then, blood pressure chip 6, vibration wave inductor 4 and air valve 5 begin work, detect patient's blood pressure, when judging that patient's blood pressure does not match with the amount of exercise that current pulse corresponds, the bracelet sends out the police dispatch report to medical personnel of nearest neighbor go to patient's side.
When the blood glucose test is carried out, a patient only needs to stretch two ends of a blood glucose test paper into the first inclined groove 15 and the second inclined groove 16, the blood glucose test device 17 judges that the blood glucose test is needed after detecting that the enzyme exists on the blood glucose test paper, so that a signal of the blood glucose test is sent to the processing device 21, the processing device 21 controls the telescopic shaft 13 to stretch, the telescopic shaft 13 drives the needle 14 to prick fine marks on the skin of the patient, then the processing device 21 controls the telescopic shaft 13 to withdraw, controls the rotator 12 to rotate for a certain angle, controls the telescopic shaft 13 to stretch again, prick the fine marks at different positions of the skin, and further repeats the steps until the blood glucose test is rotated for 180 degrees; furthermore, the processing device 21 controls the rotation of the rotating shafts 19, the directions of rotation of the two rotating shafts 19 are opposite, wherein, with the right side as a standard, the rotating shaft 19 positioned at the left side of the first inclined groove 15 rotates clockwise, thereby driving the transfer wheel 20 connected thereto to rotate clockwise, the rotating shaft 19 positioned at the right side of the first inclined groove 15 to rotate counterclockwise, thereby driving the transmission wheel 20 connected with the transmission wheel to rotate anticlockwise, so that the transmission wheels 20 at the two sides provide forward friction force for the blood glucose test paper, thereby driving the blood sugar test paper to move towards the gap space 11 until the blood sugar test paper enters the gap space 11 and contacts the skin of the patient, at the moment, the air valve 5 inflates the hand ring belt 1 again, the hand ring belt 1 expands to tighten the hand of the patient, so that the patient is engorged with blood and gradually permeates blood from the fine trace, and the blood glucose test paper is stained with blood, and the blood glucose test can be carried out.
The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.