CN117694862B - Nursing equipment for monitoring arrhythmia in department of cardiology - Google Patents

Abstract

The invention belongs to the technical field of nursing equipment, and particularly relates to nursing equipment for monitoring cardiac arrhythmia in a department of cardiology, which comprises a heart rate monitoring sensor and patch electrodes connected with two sides of the heart rate monitoring sensor, wherein a transparent adhesive tape is adhered outside the patch electrodes, and two fold generation monitoring mechanisms are symmetrically and fixedly arranged at the upper end of the heart rate monitoring sensor and two ends of the transparent adhesive tape. According to the invention, the situation that the transparent adhesive tape is wrinkled and the installation stability of the heart rate monitoring sensor is affected can be monitored and judged in real time, signal feedback can be carried out after the transparent adhesive tape is wrinkled, the transparent adhesive tape is smoothed and reinforced after a patient turns over and resets, the gluing quality is ensured, the problem that the heart rate monitoring sensor is easy to drop is avoided, the heart rate monitoring sensor is fast reinforced and fixed, the problem that the heart rate monitoring sensor is directly dropped is avoided, and the stability of the heart rate monitoring effect is further ensured.

Description

Nursing equipment for monitoring arrhythmia in department of cardiology

Technical Field

The invention belongs to the technical field of nursing equipment, and particularly relates to nursing equipment for monitoring arrhythmia in a department of cardiology.

Background

The main purpose of the cardiac arrhythmia monitoring in the department of cardiology is to detect and record the electrical activity of the heart so as to evaluate the type, frequency, duration and severity of arrhythmia, continuously monitor whether arrhythmia occurs in human body for a long time, discover cardiovascular diseases in time and play a role in early warning at the beginning of the onset of the disease, thereby greatly reducing the probability of sudden events of cardiovascular diseases.

At present, the accurate monitoring of people's heart rate can be accomplished to this kind of small-size supervisory equipment of heart rate monitoring paster, heart rate detection paster is fixed through the skin contact of sticky mode with human left chest position, but this kind of fixed mode is not firm enough, especially when patient's rest stands up, the action that stands up and produce makes the skin department of heart rate monitoring paster fixed position produce the fold easily, and then make the installation of heart rate monitoring paster produce the fold, make the partial position and the human skin separation of heart rate monitoring paster, very influence sticky stable effect, very cause dropping of heart rate monitoring paster easily, and then result in heart rate monitoring effect to receive very big influence, at present only can pay attention to the control oneself when having a rest through patient oneself and avoid too much action or rely on other people continuous to smooth the heart rate monitoring paster and guarantee fixed fastness, lead to very inconvenient to use.

Disclosure of Invention

The object of the present invention is to address the above problems, and to provide a care device for cardiology arrhythmia monitoring.

In order to achieve the above purpose, the present invention adopts the following technical scheme: a nursing equipment for monitoring of intracardiac branch of academic or vocational study arrhythmia, including heart rate monitoring sensor and the paster electrode of connection heart rate monitoring sensor both sides, the paster electrode still bonds outward has transparent glue to paste, the upper end of heart rate monitoring sensor and transparent glue both ends symmetry fixed mounting of pasting have two fold to take place monitoring mechanism, fold take place and still fixedly install fold degree feedback trigger mechanism in the monitoring mechanism, heart rate monitoring sensor's upper end symmetry fixed mounting has two sets of glue to paste and smooths strengthening mechanism, heart rate monitoring sensor's inside symmetry is installed two sets of temporary strengthening coupling mechanism, glue and smooths strengthening mechanism and temporarily strengthen coupling mechanism and all be connected with fold degree feedback trigger mechanism electricity, still install the PLC controller in the fold takes place monitoring mechanism, fold degree feedback trigger mechanism, glue smooths strengthening mechanism, temporarily strengthen coupling mechanism and all be connected with the PLC controller electricity.

In the nursing equipment for monitoring cardiac arrhythmia, the fold generation monitoring mechanism comprises a monitoring shell fixedly connected with the upper end of the heart rate monitoring sensor, the inner wall of one side, opposite to the upper side and the lower side, of the monitoring shell is rotationally connected with a rotating shaft through a bearing, a winding and unwinding wheel is fixedly sleeved on the shaft wall of the upper end of the rotating shaft, a tensioning rope is wound on the winding and unwinding wheel, one end of the tensioning rope is fixedly connected with one end of a transparent adhesive tape, and the upper end of the winding and unwinding wheel and the top of the inner wall of the monitoring shell are fixedly provided with torsion springs sleeved outside the rotating shaft.

In the nursing equipment for monitoring cardiac arrhythmia, fold degree feedback trigger mechanism is including installing the trigger shell in the monitoring shell, be connected through magnetism push mechanism between the rear side of trigger shell and the inner wall of monitoring shell, the inner wall one side fixedly connected with many direction slide bars of trigger shell, many the direction slide bar outside slip has cup jointed same extension piece, the one end of extension piece runs through the bar through-hole that the trigger shell lateral wall was offered and stretches out outside the trigger shell, and fixedly connected with transmission rack, the lower extreme axial wall of pivot fixedly cup joint with transmission rack engaged transmission gear, the compensation spring outside the direction slide bar is established to a plurality of cover of extension piece and the opposite side lateral wall fixedly connected with of trigger shell, the inner wall fixedly connected with adjusting resistor stick of trigger shell, the one end fixedly connected with cover of extension piece is overlapped the movable frame outside the adjusting resistor stick, the one side fixedly connected with arc of the movable frame that keeps away from the extension piece presses the protruding head, the inner wall fixedly connected with pressure feedback switch of trigger shell one side.

In the nursing equipment for monitoring cardiac arrhythmia, the glue is smooth the strengthening mechanism and is including the fixed installation shell of setting up heart rate monitoring sensor upper end, the inner wall symmetry fixed mounting of installation shell has two electric putter, the output of electric putter runs through outside stretching out the installation shell, and fixedly connected with locating plate, the downside of locating plate is installed and is smooth the gyro wheel, smooth the upper end symmetry fixedly connected with of gyro wheel two anticreep poles, the upper end of anticreep pole runs through the upper end of locating plate, and fixedly connected with anticreep board, smooth fixedly connected with cover between gyro wheel and the locating plate is established the outer crowding of anticreep pole and is pushed away the spring, the downside fixedly connected with afterburning electromagnetic plate of locating plate, smooth the upper end fixedly connected with atress permanent magnetism board of gyro wheel.

In the nursing equipment for monitoring cardiac arrhythmia, the temporary reinforcing connection mechanism comprises a servo motor fixedly arranged at the inner side of the end part of the heart rate monitoring sensor, the upper end output end of the servo motor is fixedly connected with a supporting shell, the supporting shell is rotationally connected with a rotating screw rod, a movable block is sleeved on the rod wall of the rotating screw rod in a threaded manner, the side wall of the movable block is fixedly connected with a plurality of push-pull rods, one ends of the push-pull rods penetrate through one end of the supporting block, the same fixing plate is fixedly connected with one fixing plate, two micro push rods are fixedly inserted on the surface of the fixing plate, the lower end output end of the micro push rods is fixedly connected with the same assembly plate, one end surface of the assembly plate is fixedly inserted with a negative pressure suction cover, the upper end of the negative pressure suction cover is fixedly inserted with a negative pressure pump, the side wall of the negative pressure suction cover is fixedly provided with a pneumatic sensor, the inside of the heart rate monitoring sensor is in transmission connection with the rotating screw rod through the self-driving mechanism, and the side wall of the heart rate monitoring sensor is provided with an arc-shaped suction cover, and the arc-shaped suction opening for the suction cover is formed.

In the nursing equipment for monitoring cardiac arrhythmia, the magnetic pushing mechanism comprises a plurality of fixed sliding rods fixedly connected to the inner wall of the monitoring shell, the plurality of fixed sliding rods are sleeved with the same driving plate in a sliding manner, the driving plate is fixedly connected to the rear side of the triggering shell, a plurality of pull-back springs sleeved outside the fixed sliding rods are fixedly connected to the side wall of the opposite side of the driving plate and the monitoring shell, the inner wall of the monitoring shell is fixedly connected with a thrust electromagnetic plate, and the side wall of the driving plate is fixedly connected with a thrust permanent magnetic plate.

In the nursing equipment for monitoring cardiac arrhythmia, the self-driving mechanism comprises a transmission shaft rotationally connected to the side wall of the rear end of the supporting shell, one end of the transmission shaft, which is positioned on the inner wall of the supporting shell, is in transmission connection with the rotation screw rod through the bevel gear assembly, the lower end of the transmission shaft extends out of the supporting shell and is fixedly connected with the rotation gear, an arc-shaped rack meshed with the rotation gear is fixedly arranged on the inner wall of the heart rate monitoring sensor, and the circle center of the arc-shaped rack is concentrically arranged with the output end of the servo motor.

In the nursing equipment for monitoring cardiac arrhythmia, the end part of the transparent adhesive tape is of a circular expansion structure, and a plurality of external expansion adhesive tapes are integrally connected.

Compared with the prior art, the invention has the beneficial effects that:

1. Through the heart rate monitoring sensor, fold emergence monitoring mechanism, paster electrode, transparent sticky tape, the outer sticky tape that expands that set up, can lead to the fact transparent sticky tape to take place the fold and then influence the problem of heart rate monitoring sensor installation steadiness to the user's sleep and turn over the in-process to carry out real-time supervision judgement to carry out fast processing with this feedback signal for follow-up processing mechanism, avoid transparent sticky tape synchronous fold's production to influence the problem of connecting the steadiness, carry out effective protection to heart rate monitoring sensor's stability in use.

2. Fold degree feedback trigger mechanism, PLC controller, glue subsides through setting up smooth strengthening mechanism, magnetism pushing mechanism can take place the fold after the transparent glue subsides department of monitoring and carry out signal feedback to smooth strengthening transparent glue subsides department after the patient stands up and resets, guarantee sticky quality, avoid the easy problem that drops of heart rate monitoring sensor.

3. Through the temporary strengthening coupling mechanism of setting, from actuating mechanism, can carry out the quick strengthening of heart rate monitoring sensor after monitoring that transparent glue is pasted and is taken place the fold and fix, avoid heart rate monitoring sensor direct problem that drops, and then guaranteed the stability of heart rate monitoring effect.

To sum up: according to the invention, the problem that the transparent adhesive tape is wrinkled in the sleeping and turning process of a user so as to influence the installation stability of the heart rate monitoring sensor can be monitored and judged in real time, the feedback signal is used for carrying out quick treatment on a subsequent treatment mechanism, the problem that the synchronous wrinkled of the transparent adhesive tape influences the connection stability is avoided, the use stability of the heart rate monitoring sensor is effectively protected, the signal feedback can be carried out after the wrinkling of the transparent adhesive tape is monitored, the transparent adhesive tape is smoothed and reinforced after the turning and resetting of a patient, the gluing quality is ensured, the problem that the heart rate monitoring sensor is easy to drop is avoided, the quick reinforcing and fixing of the heart rate monitoring sensor can be carried out after the wrinkling of the transparent adhesive tape is monitored, the problem that the heart rate monitoring sensor directly drops is avoided, and the stability of the heart rate monitoring effect is ensured.

Drawings

Fig. 1 is a schematic top view of a nursing apparatus for monitoring cardiac arrhythmia in accordance with the present invention;

FIG. 2 is a schematic cross-sectional view of a wrinkle occurrence monitoring mechanism of a care device for cardiology arrhythmia monitoring provided by the present invention;

FIG. 3 is a schematic top view, partially in cross-section, of a wrinkle level feedback trigger mechanism of a care device for cardiology arrhythmia monitoring provided by the present invention;

FIG. 4 is a schematic cross-sectional view of a glue smoothing and strengthening mechanism of a care device for cardiology arrhythmia monitoring provided by the invention;

FIG. 5 is a schematic side elevational view of the positioning plate and smoothing roller mounting of FIG. 4;

FIG. 6 is a schematic cross-sectional view of a temporary stiffening connection of a care appliance for cardiology arrhythmia monitoring provided by the present invention;

FIG. 7 is a schematic view of a portion of the self-driven mechanism of a care apparatus for cardiology arrhythmia monitoring provided by the present invention;

FIG. 8 is a schematic cross-sectional structural view of the negative pressure suction hood installation of FIG. 6;

fig. 9 is a schematic structural view of a magnetic pushing mechanism of a nursing device for monitoring cardiac arrhythmia in the department of cardiology.

In the figure: 1 heart rate monitoring sensor, 2 fold occurrence monitoring mechanism, 21 monitoring shell, 22 rotating shaft, 23 winding and unwinding wheel, 24 tension rope, 25 torsion spring, 3 fold degree feedback triggering mechanism, 31 triggering shell, 32 guiding slide bar, 33 extending block, 34 transmission rack, 35 transmission gear, 36 compensation spring, 37 adjusting resistance bar, 38 moving frame, 39 adjusting conductive tab, 310 arc pressing convex head, 311 pressure feedback switch, 4 glue flattening reinforcing mechanism, 41 installing shell, 42 electric push rod, 43 positioning plate, 44 flattening roller, 45 anti-releasing rod, 46 anti-releasing plate, 47 push spring, 48 force electromagnetic plate, 49 force permanent magnet plate, 5 temporary strengthening connecting mechanism, 51 servo motor, 52 supporting shell, 53 rotation screw rod, 54 moving block, 55 push-pull rod, 56 fixed plate, 57 miniature push rod, 58 plate, 59 negative pressure suction cover, 510 negative pressure pump, 511 air pressure sensor, 6 magnetic push mechanism, 61 fixed, 62 driving plate, 63 pull spring, 64 thrust permanent magnet plate, 65 thrust permanent magnet plate, 7 self-driving mechanism, 71 transmission shaft, 73, 72 gear, 74, 8 arc electrode assembly transparent electrode assembly, 11 PLC.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

As shown in fig. 1-9, a nursing device for monitoring cardiac arrhythmia in department of cardiology comprises a heart rate monitoring sensor 1 and patch electrodes 8 connected to two sides of the heart rate monitoring sensor 1, wherein a transparent adhesive tape 9 is adhered outside the patch electrodes 8, the end part of the transparent adhesive tape 9 is of a round expanding structure and is integrally connected with a plurality of external expanding adhesive tapes 11, two fold generation monitoring mechanisms 2 are symmetrically and fixedly arranged at the upper end of the heart rate monitoring sensor 1 and the two ends of the transparent adhesive tape 9, each fold generation monitoring mechanism 2 comprises a monitoring shell 21 fixedly connected to the upper end of the heart rate monitoring sensor 1, rotating shafts 22 are rotatably connected to the inner walls of one side, which are opposite to each other, of the upper end of the monitoring shell 21 through bearings, a winding and unwinding wheel 23 is fixedly sleeved on the shaft wall of the upper end of the rotating shaft 22, a tensioning rope 24 is fixedly connected with one end of the transparent adhesive tape 9, and the upper end of the winding and unwinding wheel 23 and the top of the inner wall of the monitoring shell 21 are fixedly provided with torsion springs 25 sleeved outside the rotating shafts 22.

The wrinkle occurrence monitoring mechanism 2 is internally and fixedly provided with a wrinkle degree feedback triggering mechanism 3, the wrinkle degree feedback triggering mechanism 3 comprises a triggering shell 31 arranged in a monitoring shell 21, the rear side of the triggering shell 31 is connected with the inner wall of the monitoring shell 21 through a magnetic pushing mechanism 6, one side of the inner wall of the triggering shell 31 is fixedly connected with a plurality of guide slide bars 32, the plurality of guide slide bars 32 are externally and slidingly sleeved with the same extension block 33, one end of the extension block 33 penetrates out of the triggering shell 31 through a strip-shaped through hole formed in the side wall of the triggering shell 31 and is fixedly connected with a transmission rack 34, the lower end shaft wall of a rotating shaft 22 is fixedly sleeved with a transmission gear 35 meshed with the transmission rack 34, the side wall of the opposite side of the extension block 33 and the triggering shell 31 is fixedly connected with a plurality of compensation springs 36 sleeved outside the guide slide bars 32, the inner wall of the triggering shell 31 is fixedly connected with an adjusting resistor rod 37, one end of the extension block 33 is fixedly connected with a movable frame 38 sleeved outside the adjusting resistor rod 37, one side of the movable frame 38 is fixedly connected with an adjusting conductive 39 electrically connected with the adjusting resistor rod 37, one side of the movable frame 38 is far away from the side of the extension block 33 is fixedly connected with a pressing a convex switch 310, and the side of the pressure feedback tab 31 is fixedly connected with the arc-shaped joint piece 311.

The upper end symmetry fixed mounting of heart rate monitoring sensor 1 has two sets of glues to smooth strengthening mechanism 4, glue to smooth strengthening mechanism 4 including the fixed installation shell 41 of installing in heart rate monitoring sensor 1 upper end, the inner wall symmetry fixed mounting of installation shell 41 has two electric putter 42, the output of electric putter 42 runs through outside stretching out installation shell 41, and fixedly connected with locating plate 43, smooth gyro wheel 44 has been installed to the downside of locating plate 43, smooth the upper end symmetry fixedly connected with of gyro wheel 44 two anticreep poles 45, the upper end of anticreep pole 45 runs through the upper end of locating plate 43, and fixedly connected with anticreep board 46, smooth fixedly connected with sleeve between gyro wheel 44 and the locating plate 43 and establish the push spring 47 outside anticreep pole 45, the downside fixedly connected with afterburning electromagnetic plate 48 of locating plate 43, smooth the upper end fixedly connected with atress permanent magnetism plate 49 of gyro wheel 44.

The heart rate monitoring sensor 1 is internally and symmetrically provided with two groups of temporary reinforcing connection mechanisms 5, each temporary reinforcing connection mechanism 5 comprises a servo motor 51 fixedly arranged at the inner side of the end part of the heart rate monitoring sensor 1, the output end of the upper end of each servo motor 51 is fixedly connected with a supporting shell 52, each supporting shell 52 is rotationally connected with a rotating screw 53, the rod wall of each rotating screw 53 is in threaded sleeve joint with a moving block 54, the side wall of each moving block 54 is fixedly connected with a plurality of push-pull rods 55, one ends of the plurality of push-pull rods 55 penetrate through one ends of the extending supporting blocks and are fixedly connected with the same fixing plate 56, two micro push rods 57 are fixedly inserted on the surface of the fixing plate 56, the output ends of the lower ends of the two micro push rods 57 are fixedly connected with the same assembly plate 58, one end surface of each micro push rod 57 is fixedly inserted with a negative pressure suction cover 59, the upper end of each negative pressure suction cover 59 is fixedly inserted with a negative pressure pump 510, the side wall of each negative pressure suction cover 59 is fixedly provided with a pneumatic sensor 511, the inside the heart rate monitoring sensor 1 is in transmission connection with the rotating screw 53 through the self-driving mechanism 7, and the side wall of the monitoring sensor 1 is provided with a negative pressure suction cover 59 extending out of the arc-shaped opening.

The glue leveling and reinforcing mechanism 4 and the temporary reinforcing and connecting mechanism 5 are electrically connected with the fold degree feedback trigger mechanism 3, the PLC controller 10 is further arranged in the fold occurrence monitoring mechanism 2, and the fold degree feedback trigger mechanism 3, the glue leveling and reinforcing mechanism 4 and the temporary reinforcing and connecting mechanism 5 are electrically connected with the PLC controller 10.

The magnetic pushing mechanism 6 comprises a plurality of fixed slide bars 61 fixedly connected to the inner wall of the monitoring shell 21, the same driving plate 62 is sleeved outside the plurality of fixed slide bars 61 in a sliding manner, the driving plate 62 is fixedly connected to the rear side of the triggering shell 31, a plurality of pull-back springs 63 sleeved outside the fixed slide bars 61 are fixedly connected to the side wall of the opposite side of the driving plate 62 and the monitoring shell 21, a thrust electromagnetic plate 64 is fixedly connected to the inner wall of the monitoring shell 21, and a thrust permanent magnetic plate 65 is fixedly connected to the side wall of the driving plate 62.

The self-driving mechanism 7 comprises a transmission shaft 71 rotatably connected to the side wall of the rear end of the supporting shell 52, one end of the transmission shaft 71, which is positioned on the inner wall of the supporting shell 52, is in transmission connection with the autorotation screw 53 through a bevel gear assembly 72, the lower end of the transmission shaft 71 extends out of the supporting shell 52 and is fixedly connected with an autorotation gear 73, an arc-shaped rack 74 meshed with the autorotation gear 73 is fixedly arranged on the inner wall of the heart rate monitoring sensor 1, and the circle center of the arc-shaped rack 74 is concentrically arranged with the output end of the servo motor 51.

The principle of operation of the present invention will now be described as follows: the heart rate monitoring sensor 1 is placed at the left chest position of a patient, is arranged in a downward inclined mode by 45 degrees, the transparent adhesive tape 9 is unfolded and stuck on the patient, the end parts of the transparent adhesive tape 9 are reinforced and fixed by being matched with a plurality of external expansion adhesive tapes 11, the heart rate monitoring sensor 1 is firmly fixed, the patch electrodes 8 are synchronously fixed, when the patient takes rest, the patient carelessly turns over to cause the skin of the installation position part of the heart rate monitoring sensor 1 to be wrinkled, the transparent adhesive tape 9 is synchronously driven to be wrinkled, the traction force borne by the tensioning rope 24 is reduced, the tensioning rope 24 is matched with the rotation of the winding and unwinding wheel 23 under the action of the torsion spring 25 to enable the tensioning rope 24 to be recycled, the problem that the transparent adhesive tape 9 is wrinkled in the sleeping and turning process of a user so as to influence the installation stability of the heart rate monitoring sensor 1 can be monitored and judged in real time, the rotating shaft 22 drives the transmission gear 35 to synchronously rotate in the rotating process, the transmission rack 34 is driven to synchronously move through the extension block 33 by the meshing action of the transmission gear 35 and the transmission rack 34, the adjusting conductive tab 39 synchronously moves on the adjusting resistor rod 37, the greater the degree of the wrinkling of the transparent adhesive tape 9 is, the greater the moving distance between the moving frame 38 and the adjusting conductive tab 39 is, when the moving frame 38 drives the arc-shaped pressing raised head 310 to leave the pressure feedback switch 311, the pressure feedback switch 311 feeds back a signal to the PLC 10, the PLC 10 firstly starts the servo motor 51, the servo motor 51 drives the support shell 52 to rotate, so that the negative pressure suction hood 59 extends out of the heart rate monitoring sensor 1, the rotation gear 73 synchronously bears force and rotates on the arc-shaped rack 74 along with the movement of the support shell 52, the transmission shaft 71 is driven to rotate, the transmission shaft 71 drives the rotation screw 53 to synchronously rotate through the bevel gear assembly 72, the movable block 54 is matched with the push-pull rod 55 to enable the negative pressure suction hood 59 to extend outwards through the threaded sleeve joint action of the rotation screw 53 and the movable block 54, when the support shell 52 rotates to the proper position, the negative pressure suction cover 59 also extends to the maximum position, at this time, the PLC controller 10 controls the micro push rod 57 to move again, so that the micro push rod 57 presses the negative pressure suction cover 59 towards the skin of the human body, the negative pressure pump 510 is started, the negative pressure pump 510 forms negative pressure suction force in the negative pressure suction cover 59, the negative pressure suction cover 59 is monitored in real time through the air pressure sensor 511, when the air pressure in the negative pressure suction cover 59 starts to decrease, the negative pressure suction cover 59 is indicated to be in contact with the skin of the human body, at this time, the PLC controller 10 controls the micro push rod 57 to stop moving, and the degree of wrinkles of the transparent adhesive tape 9 is larger, the greater the distance that the adjusting conductive tab 39 moves on the adjusting resistor rod 37, the smaller the access resistance of the adjusting resistor rod 37, the larger the current signal is generated, at this time, the greater the influence on the installation stability of the heart rate monitoring sensor 1 is explained, and the PLC controller 10 stops the operation of the negative pressure pump 510 when the air pressure sensor 511 monitors a smaller air pressure value, the stable adsorption force is ensured, and the problem that the fold Cheng Duguo has a smaller influence on the installation and fixation of the heart rate monitoring sensor 1, the larger the acting force caused by the larger negative pressure suction fixation on the human body is avoided, the larger influence on the rest of the patient is explained additionally, when the patient turns over and resets rapidly in the process of causing the wrinkles, the transparent adhesive tape 9 is leveled again and the negative pressure suction cover 59 is not moved in place, the arc-shaped pressing raised head 310 acts on the pressure feedback switch 311 again, the PLC controller 10 directly enables the servo motor 51 to rotate reversely at the moment, the negative pressure suction cover 59 is retracted into the heart rate monitoring sensor 1, the heart rate monitoring sensor 1 can be quickly reinforced and fixed after the transparent adhesive tape 9 is monitored to be wrinkled, the problem that the heart rate monitoring sensor 1 falls directly is avoided, and the stability of the heart rate monitoring effect is further ensured;

When transparent sticky note 9 takes place the fold and then makes the arc press protruding head 310 leave pressure feedback switch 311, reset and make transparent sticky note 9 level back once more in patient's standing up, the arc presses protruding head 310 again to act on pressure feedback switch 311 this moment after, PLC controller 10 drives the electric putter 42 action of corresponding direction, electric putter 42 promotes and smoothes gyro wheel 44 and remove on transparent sticky note 9, strengthen smooth fixedly to transparent sticky note 9 after producing the fold before, and adjust conducting tab 39 and regulation resistance rod 37 establish ties on the power supply circuit of afterburning electromagnetic plate 48, the minimum resistance feedback that will adjust resistance rod 37 access before is on the power supply circuit of afterburning electromagnetic plate 48, that is, the greater the access resistance value of regulation resistance rod 37 is the fold is the smaller, and then make the power supply current to afterburning electromagnetic plate 48 be greater when smoothering gyro wheel 44 action, afterburning electromagnetic plate 48 cooperates atress permanent magnetism plate 49 so that transparent sticky note 9 produces bigger extrusion force on transparent sticky note 9, guarantee that transparent sticky note 9 that takes place can stabilize with human skin again and carry out the stability and monitor the back at transparent sticky note 9, monitor the problem that the transparent sticky note is taken place after the place of monitoring and the back to transparent sticky note 9, monitor 1 is easy, the problem is avoided to take place, the back to the monitor and reset and take place, monitor the quality of the transparent sticky note 9 is easy.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (3)

1. A nursing device for monitoring arrhythmias in a cardiology department, comprising a heart rate monitoring sensor (1) and patch electrodes (8) connected to both sides of the heart rate monitoring sensor (1), wherein the patch electrodes (8) are further bonded with transparent adhesive tapes (9), and characterized in that two wrinkle occurrence monitoring mechanisms (2) are symmetrically fixedly mounted on the upper end of the heart rate monitoring sensor (1) and the two ends of the transparent adhesive tapes (9), and a wrinkle degree feedback trigger mechanism (3) is further fixedly mounted inside the wrinkle occurrence monitoring mechanism (2), and the upper end of the heart rate monitoring sensor (1) is symmetrically fixedly mounted with two wrinkle occurrence monitoring mechanisms (2) and a wrinkle degree feedback trigger mechanism (3) is further fixedly mounted inside the wrinkle occurrence monitoring mechanism (2). Two groups of adhesive smoothing and reinforcing mechanisms (4) are symmetrically fixedly installed; two groups of temporary reinforcing connection mechanisms (5) are symmetrically installed inside the heart rate monitoring sensor (1); the adhesive smoothing and reinforcing mechanisms (4) and the temporary reinforcing connection mechanisms (5) are both electrically connected to the wrinkle degree feedback trigger mechanism (3); a PLC controller (10) is also installed inside the wrinkle occurrence monitoring mechanism (2); the wrinkle degree feedback trigger mechanism (3), the adhesive smoothing and reinforcing mechanisms (4), and the temporary reinforcing connection mechanisms (5) are all electrically connected to the PLC controller (10); The wrinkle generation monitoring mechanism (2) comprises a monitoring shell (21) fixedly connected to the upper end of the heart rate monitoring sensor (1); the inner walls of the upper and lower opposite sides of the monitoring shell (21) are rotatably connected to a rotating shaft (22) via a bearing; the upper end of the rotating shaft (22) is fixedly sleeved with a retractable wheel (23); a tensioning rope (24) is wound around the retractable wheel (23); one end of the tensioning rope (24) is fixedly connected to one end of a transparent adhesive tape (9); and a torsion spring (25) sleeved outside the rotating shaft (22) is fixedly mounted at the upper end of the retractable wheel (23) and the top of the inner wall of the monitoring shell (21); The wrinkle degree feedback trigger mechanism (3) comprises a trigger shell (31) arranged in the monitoring shell (21); the rear side of the trigger shell (31) is connected to the inner wall of the monitoring shell (21) via a magnetic push mechanism (6); a plurality of guide slide bars (32) are fixedly connected to one side of the inner wall of the trigger shell (31); the plurality of guide slide bars (32) are slidably sleeved with a same extension block (33) outside; one end of the extension block (33) extends out of the trigger shell (31) through a strip-shaped opening provided in the side wall of the trigger shell (31) and is fixedly connected to a transmission rack (34); a transmission gear (35) meshing with the transmission rack (34) is fixedly sleeved on the lower end shaft wall of the rotating shaft (22); A plurality of compensation springs (36) sleeved outside the guide slide rod (32) are fixedly connected to the side wall of the extension block (33) and the trigger shell (31) on the opposite side; an adjustment resistor rod (37) is fixedly connected to the inner wall of the trigger shell (31); one end of the extension block (33) is fixedly connected to a movable frame (38) sleeved outside the adjustment resistor rod (37); one side of the inner wall of the movable frame (38) is fixedly connected to an adjustment conductive contact piece (39) electrically connected to the adjustment resistor rod (37); a side of the movable frame (38) away from the extension block (33) is fixedly connected to an arc-shaped pressing protrusion (310); and one side of the inner wall of the trigger shell (31) is fixedly connected to a pressure feedback switch (311); The adhesive smoothing and reinforcing mechanism (4) comprises a mounting shell (41) fixedly mounted on the upper end of the heart rate monitoring sensor (1), two electric push rods (42) being symmetrically fixedly mounted on the inner wall of the mounting shell (41), the output end of the electric push rod (42) extending through the mounting shell (41) and fixedly connected to a positioning plate (43), a smoothing roller (44) being mounted on the lower side of the positioning plate (43), two anti-slip rods (45) being symmetrically fixedly connected to the upper end of the smoothing roller (44), the upper end of the anti-slip rod (45) passing through the upper end of the positioning plate (43) and fixedly connected to an anti-slip plate (46), a squeezing spring (47) sleeved on the outside of the anti-slip rod (45) being fixedly connected between the smoothing roller (44) and the positioning plate (43), a force-applying electromagnetic plate (48) being fixedly connected to the lower side of the positioning plate (43), and a force-bearing permanent magnetic plate (49) being fixedly connected to the upper end of the smoothing roller (44); The temporary reinforcement connection mechanism (5) comprises a servo motor (51) fixedly mounted on the inner side of the end of the heart rate monitoring sensor (1); the upper output end of the servo motor (51) is fixedly connected to a support shell (52); a self-rotating screw rod (53) is rotatably connected inside the support shell (52); a moving block (54) is threadedly sleeved on the rod wall of the self-rotating screw rod (53); a plurality of push-pull rods (55) are fixedly connected to the side wall of the moving block (54); one end of the plurality of push-pull rods (55) penetrates through one end of the support block and is fixedly connected to the same fixing plate (56); the surface of the fixing plate (56) is fixedly sleeved with two A micro push rod (57), the lower output ends of the two micro push rods (57) are fixedly connected to the same assembly plate (58), a negative pressure suction hood (59) is fixedly sleeved on one end surface of the assembly plate (58), a negative pressure pump (510) is fixedly sleeved on the upper end of the negative pressure suction hood (59), and a pressure sensor (511) is fixedly mounted on the side wall of the negative pressure suction hood (59), the interior of the heart rate monitoring sensor (1) is connected to the self-rotating screw (53) through a self-driving mechanism (7), and the side wall of the heart rate monitoring sensor (1) is provided with an arc-shaped opening for the negative pressure suction hood (59) to extend out; The self-driving mechanism (7) comprises a transmission shaft (71) rotatably connected to the rear end side wall of the support shell (52); one end of the transmission shaft (71) is located on the inner wall of the support shell (52) and is transmission-connected to the self-rotating screw (53) via a bevel gear assembly (72); the lower end of the transmission shaft (71) extends out of the support shell (52) and is fixedly connected to the self-rotating gear (73); an arc-shaped rack (74) meshing with the self-rotating gear (73) is fixedly mounted on the inner wall of the heart rate monitoring sensor (1); the center of the arc-shaped rack (74) is arranged concentrically with the output end of the servo motor (51). 2. A nursing device for monitoring arrhythmias in cardiology according to claim 1, characterized in that the magnetic push mechanism (6) comprises a plurality of fixed slide bars (61) fixedly connected to the inner wall of the monitoring shell (21), the plurality of fixed slide bars (61) are slidably sleeved with the same driving plate (62) outside, the driving plate (62) is fixedly connected to the rear side of the trigger shell (31), the side wall of the driving plate (62) and the monitoring shell (21) on the opposite side is fixedly connected with a plurality of return springs (63) sleeved outside the fixed slide bars (61), the inner wall of the monitoring shell (21) is fixedly connected with a thrust electromagnetic plate (64), and the side wall of the driving plate (62) is fixedly connected with a thrust permanent magnetic plate (65). 3. A nursing device for monitoring arrhythmias in cardiology according to claim 2, characterized in that the end of the transparent adhesive tape (9) is configured as a circular expansion structure and is integrally connected with a plurality of outward expansion tapes (11).