Medical electronic wrist strap[ technical field ] A method for producing a semiconductor device
The invention relates to the technical field of wristwatches, in particular to the technical field of medical electronic wristbands.
[ background of the invention ]
In busy and complex clinical care tasks, confirming patient identity is critical to ensure that each care task is performed accurately. However, in actual work, some patients have unconsciousness, no self-ability or language expression disorder, so that the medical staff cannot timely and accurately confirm the identity of the patient. Therefore, in a hospital, a medical staff member usually fixes a wrist band printed with patient identification information to the wrist of a patient.
With the existing wrist band, since the related information of the patient is directly printed on the wrist band, it is difficult to change, and the position of the wrist band is limited, so that the condition information such as the diagnosis details and the allergy history of the patient cannot be displayed in detail. In addition, current wrist strap function is comparatively single, does not have functions such as location, rhythm of the heart detection and blood vessel formation of image, is difficult to prevent that the patient from wandering away, and the medical personnel of being not convenient for observe patient's rhythm of the heart change and seek blood vessel position.
[ summary of the invention ]
The invention aims to solve the problems in the prior art and provides a medical electronic wristband, which can automatically display a two-dimensional code or a bar code of a patient and has the functions of positioning, heart rate detection and blood vessel imaging.
In order to achieve the purpose, the invention provides a medical electronic wrist strap which comprises a functional part and a wrist strap body, wherein the functional part comprises a shell fixed on the wrist strap body, a touch screen and a blood vessel imager which are respectively arranged on the top surface and the front side of the shell, and a controller and a power supply which are respectively arranged in the inner cavity of the shell, and the touch screen and the blood vessel imager are respectively electrically connected with the controller and are powered by the power supply.
Preferably, an opening communicated with the inner cavity is formed in the rear side of the shell, the opening is sealed by a sealing plate, the controller is located in the inner cavity, and the controller comprises a processing module, and a storage module, a wireless communication module and a GPS positioning module which are electrically connected with the processing module respectively.
Preferably, a notch is formed in the bottom surface of the shell, and a folding support frame capable of supporting the shell is arranged in the notch.
Preferably, the foldable support frame comprises a rotating rod rotatably connected to the end of the notch and a leg fixed to the side wall of the rotating rod, wherein the leg can be turned downwards along the axis of the rotating rod to raise the shell.
Preferably, the free ends of the legs are fixed with anti-slip sleeves.
Preferably, the front side of the housing is provided with a notch with a slide rail, the blood vessel imager is connected to the slide rail in a sliding manner through a slide block so as to enter and exit the notch along the front-back direction, and the front side of the blood vessel imager is provided with a first handle.
Preferably, the front side of casing just is located and is equipped with the annular groove outside the notch, the annular groove interpolation has the protective sheath, the protective sheath is established outside the vascular imager and the front side is equipped with the second handle, be equipped with a plurality of circles water proof rubber circle after to in the past on the inner wall of protective sheath in proper order.
Preferably, the wrist strap body comprises a strap body and a locking piece connected with the free end of the strap body, the shell is fixed at the middle section of the strap body, and an elastic section is arranged at the position, close to the shell, of the strap body.
Preferably, a heart rate monitor is arranged on the rear side of the shell and electrically connected with the controller.
Preferably, a motion sensor is further arranged in the shell and electrically connected with the controller.
The invention has the beneficial effects that: according to the invention, the two-dimensional code or the bar code is automatically generated through the touch screen, so that medical staff can conveniently check the identity and the diagnosis information of a patient during infusion and treatment; by arranging the motion sensor, when the rotation of the functional part is sensed, the touch screen is automatically lightened, a two-dimensional code or a bar code is displayed, and the convenience is further improved; by arranging the heart rate monitor, the heart rate of the patient is detected in real time and is transmitted to a mobile phone or a computer of medical personnel, so that the medical personnel can observe the heart rate change of the patient conveniently, and the problem that the patient is difficult to check the state of an illness by observing the breath of the patient when the cover is thick at night in winter is solved; by arranging the blood vessel imager, the transfusion puncture of a patient with poor vein condition is facilitated, the pain of the patient is reduced, and the workload of nursing staff is reduced; the blood vessel imager is connected to the front side of the shell in a sliding manner, and the foldable support frame is arranged on the bottom surface of the shell, so that the blood vessel imager can be conveniently arranged on the back of the hand of a patient; the blood vessel imager can be lifted without taking off the wrist strap body by arranging the elastic section on the strap body; through setting up the protective sheath, form the protection to vascular imager in the outside, effectively prolong the life of instrument.
The features and advantages of the present invention will be described in detail by embodiments in conjunction with the accompanying drawings.
[ description of the drawings ]
Fig. 1 is a top view of a medical electronic wristband according to the present invention;
fig. 2 is a top view of a functional member of a medical electronic wristband according to the present invention;
fig. 3 is a front view of a functional member of a medical electronic wristband according to the present invention;
fig. 4 is a front view of a functional member of a medical electronic wristband of the present invention after removing a protective cover and unfolding a folding support;
fig. 5 is a rear view of a protective cover for a medical electronic wristband according to the present invention.
In the figure: 1-functional part, 11-shell, 111-closing plate, 112-notch, 113-folding support frame, 1131-rotating rod, 1132-leg, 1133-antiskid sleeve, 114-annular groove, 12-touch screen, 13-blood vessel imager, 131-first handle, 14-protective sleeve, 141-second handle, 142-waterproof rubber ring, 15-heart rate monitor, 2-wrist strap body, 21-strap body, 211-elastic section and 22-locking piece.
[ detailed description ] embodiments
Referring to fig. 1 to 5, the medical electronic wristband of the present invention includes afunctional element 1 and a wristband body 2, where thefunctional element 1 includes ahousing 11 fixed on the wristband body 2, atouch screen 12 and ablood vessel imager 13 respectively disposed on the top surface and the front side of thehousing 11, and a controller and a power supply respectively mounted in an inner cavity of thehousing 11, and thetouch screen 12 and theblood vessel imager 13 are respectively electrically connected with the controller and powered by the power supply.
The rear side of theshell 11 is provided with an opening communicated with the inner cavity, the opening is sealed by asealing plate 111, the controller is located in the inner cavity, and the controller comprises a processing module, and a storage module, a wireless communication module and a GPS positioning module which are respectively electrically connected with the processing module.
Anotch 112 is arranged on the bottom surface of thehousing 11, and a foldingsupport frame 113 capable of supporting thehousing 11 is arranged in thenotch 112.
Thefoldable support 113 comprises a rotatingbar 1131 rotatably connected to the end of thenotch 112 and aleg 1132 fixed to the side wall of therotating bar 1131, wherein theleg 1132 can be turned downwards along the axis of therotating bar 1131 to raise thehousing 11.
Anti-slip sleeves 1133 are fixed at the free ends of thelegs 1132.
The front side of thehousing 11 is provided with a notch with a slide rail, theblood vessel imager 13 is slidably connected to the slide rail through a slide block so as to enter and exit the notch along the front-back direction, and the front side of theblood vessel imager 13 is provided with afirst handle 131.
The front side ofcasing 11 just is located and is equipped withannular groove 114 outside the notch,annular groove 114 interpolation hasprotective sheath 14,protective sheath 14 cover is established outsidevascular imager 13 and the front side is equipped withsecond handle 141, be equipped with a plurality of circles waterproof rubber circle 142 after to in the past on the inner wall ofprotective sheath 14 in proper order.
The wrist strap body 2 comprises astrap body 21 and a locking piece 22 connected with the free end of thestrap body 21, the middle section of thestrap body 21 is fixed on theshell 11, and anelastic section 211 is arranged at the position, close to theshell 11, of thestrap body 21.
The rear side of theshell 11 is provided with aheart rate monitor 15, and theheart rate monitor 15 is electrically connected with the controller.
A motion sensor is further arranged in theshell 11 and electrically connected with the controller.
The working process of the invention is as follows:
in use,band 21 is wrapped directly around the patient's wrist and the free end ofband 21 is attached using retaining member 22.
During wear, theheart rate monitor 15 monitors the patient's heart rate in real time and the GPS location module monitors the patient's position in real time. The processing module remotely sends the related information to the terminal of the medical care personnel, such as a computer, a mobile phone and the like, through the wireless communication module so as to be processed by the medical care personnel in time.
When the identity information or medical history and the like of the patient need to be acquired, the arm of the patient wearing the wristwatch is directly rotated. When the motion sensor senses the rotation motion of the arm, thetouch screen 12 is automatically lightened, and the two-dimensional code/bar code of the patient is displayed for the medical staff to scan the code, so that the checking work during the infusion and treatment is facilitated.
When the patient needs to be punctured by infusion, thefunctional part 1 is pulled upwards, and theelastic section 211 of the belt body is stretched. Thelegs 1132 are then pivoted downward along theirrespective pivots 1131 to extend out of thenotches 112 and press against the back of the patient's wrist, thereby supporting and raising thefunctional element 1. Subsequently, thesecond handle 141 is held, theprotective sheath 14 is pulled out of theannular groove 114, thefirst handle 131 is held again, and theblood vessel imager 13 is pulled out of the notch, so that the imaging head of theblood vessel imager 13 is positioned on the back of the patient's hand, and the position of the blood vessel on the back of the patient's hand is indicated. Wherein the blood vessel imager is an infrared blood vessel imaging instrument.
According to the invention, the two-dimensional code or the bar code is automatically generated through the touch screen, so that medical staff can conveniently check the identity and the diagnosis information of a patient during infusion and treatment; by arranging the motion sensor, when the rotation of the functional part is sensed, the touch screen is automatically lightened, a two-dimensional code or a bar code is displayed, and the convenience is further improved; by arranging the heart rate monitor, the heart rate of the patient is detected in real time and is transmitted to a mobile phone or a computer of medical personnel, so that the medical personnel can observe the heart rate change of the patient conveniently, and the problem that the patient is difficult to check the state of an illness by observing the breath of the patient when the cover is thick at night in winter is solved; by arranging the blood vessel imager, the transfusion puncture of a patient with poor vein condition is facilitated, the pain of the patient is reduced, and the workload of nursing staff is reduced; the blood vessel imager is connected to the front side of the shell in a sliding manner, and the foldable support frame is arranged on the bottom surface of the shell, so that the blood vessel imager can be conveniently arranged on the back of the hand of a patient; the blood vessel imager can be lifted without taking off the wrist strap body by arranging the elastic section on the strap body; through setting up the protective sheath, form the protection to vascular imager in the outside, effectively prolong the life of instrument.
The above embodiments are illustrative of the present invention, and are not intended to limit the present invention, and any simple modifications of the present invention are within the scope of the present invention.