CN215605776U - Patient's electrocardio guardianship device of coronary artery intervention treatment postoperative - Google Patents
Patient's electrocardio guardianship device of coronary artery intervention treatment postoperative Download PDFInfo
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- CN215605776U CN215605776U CN202121444587.7U CN202121444587U CN215605776U CN 215605776 U CN215605776 U CN 215605776U CN 202121444587 U CN202121444587 U CN 202121444587U CN 215605776 U CN215605776 U CN 215605776U
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- 238000012545 processing Methods 0.000 claims abstract description 60
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Abstract
The utility model belongs to the technical field of coronary intervention treatment, and particularly discloses a patient electrocardiograph monitoring device after coronary intervention treatment, which comprises an electrocardiograph monitoring device main body, a processing mechanism, a monitoring mechanism and a monitoring mechanism, wherein the processing mechanism is embedded and connected in the middle part of the electrocardiograph monitoring device main body, the monitoring mechanism is embedded and connected in the other side of the interior of the processing mechanism, one end of the electrocardiograph monitoring device main body is embedded and connected with the monitoring mechanism, the installation box is embedded and connected in the middle part of the processing mechanism, the monitoring mechanism is beneficial to monitoring patients, and is convenient for operators to know the condition of the patients when the patients get ill, the processing mechanism is composed of the installation box, an alarm, an installation seat, a processing box, a first motor, a winder, a connecting wire, an acquirer and a storage box, the processing mechanism is beneficial to processing and storing the acquired data, thereby reminding the operators to rescue the patients, the practicability of the device is improved, and the device can have wide development prospect in the future.
Description
Technical Field
The utility model belongs to the technical field of coronary intervention treatment, and particularly relates to a patient electrocardio monitoring device after coronary intervention treatment.
Background
The acute coronary syndrome refers to acute ischemic syndrome of heart caused by thrombus formation caused by rupture or erosion of unstable atherosclerotic plaque in coronary artery, including unstable angina, non-ST elevation myocardial infarction and ST elevation myocardial infarction, the death rate of four years after the acute coronary syndrome is about fifty percent, the current main means for treating the acute coronary syndrome comprises percutaneous coronary intervention and antithrombotic drug therapy, and the use of patient electrocardiographic monitoring devices after coronary intervention in hospitals is very common.
At present, the patient's ECG monitoring device after current coronary artery intervention treatment is through the connecting wire transmission data, lead to the connecting wire to twine easily, has restricted patient's activity, also brought inconvenience for treatment and nursing simultaneously, wasted the time of treatment and nursing, lead to the inefficiency of treatment or nursing, the easy rupture, influence the normal transmission of signal, the patient's ECG monitoring device after current coronary artery intervention treatment operation process is loaded down with trivial details moreover, the guardianship effect is poor, degree of automation is low, the function is single.
Therefore, how to design a patient electrocardiographic monitoring device after coronary intervention becomes a problem which needs to be solved currently.
SUMMERY OF THE UTILITY MODEL
The utility model aims to: in order to solve the problems of poor monitoring effect, low automation degree and single function, the patient electrocardiographic monitoring device after coronary intervention treatment is provided.
In order to achieve the purpose, the utility model provides the following technical scheme:
a patient electrocardiograph monitoring device after coronary intervention surgery comprises an electrocardiograph monitoring device main body, a processing mechanism, a monitoring mechanism and a monitoring mechanism, wherein the middle part of the electrocardiograph monitoring device main body is connected with the processing mechanism in an embedding manner, the other side in the processing mechanism is connected with the monitoring mechanism in an embedding manner, one end of the electrocardiograph monitoring device main body is connected with the monitoring mechanism in an embedding manner, the middle part of the processing mechanism is connected with an installation box in an embedding manner, one side of the top end of the installation box is connected with an alarm in an embedding manner, the bottom end of the installation box is connected with an installation seat in an embedding manner, the bottom end of the installation seat is connected with a rotating base in an embedding manner, the top part on one side in the installation box is connected with a processing box in an embedding manner, the bottom part on one side of the installation box is connected with a first motor in an embedding manner, the top end of the first motor is connected with a winder in an embedding manner, and the surface of the winder is movably connected with a connecting wire, the middle part of one side of the interior of the installation box is connected with a collector in an embedding manner, the bottom of the other side of the interior of the installation box is connected with a storage box in an embedding manner, the bottom of the monitoring mechanism is connected with a shock absorber in an embedding manner, the top end of the shock absorber is connected with a sliding groove in an embedding manner, the top of the sliding groove is movably connected with a mover, one side of the top end of the sliding groove is connected with a second motor in an embedding manner, the other end of the second motor is connected with a connecting lead screw in an embedding manner, the top end of the mover is connected with a hydraulic telescopic column in an embedding manner, the top end of the hydraulic telescopic column is connected with a rotator in an embedding manner, the top end of the rotator is connected with an angle regulator in an embedding manner, the top end of the angle regulator is connected with a monitor in an embedding manner, the middle part of the monitoring mechanism is connected with a connecting bracelet, the top end of the connecting bracelet is connected with an inductor in a penetrating manner, and the bottom end of the inductor is connected with an induction module in an embedding manner, the other end of the installation box is connected with a control panel in an embedded mode, and one side of the top of the interior of the installation box is connected with a drying agent storage in an embedded mode.
Preferably, the monitoring mechanism is composed of a connection bracelet in the middle of the monitoring mechanism, an inductor on the top end of the connection bracelet and an induction module at the bottom end of the inductor.
Preferably, processing mechanism is by the installation box of processing mechanism middle part, the alarm of installation box top one side, the mount pad of installation box bottom, the rotating base of mount pad bottom, the processing box at the inside one side top of installation box, the first motor of installation box one side bottom, the winder on first motor top, the connecting wire on winder surface, the collector of the inside one side middle part of installation box and the bin of the inside other side bottom of installation box constitute jointly, rotating base on the processing mechanism is provided with two sets ofly, and rotating base symmetrical arrangement is on processing mechanism, and the collector of the inside one side middle part of installation box is provided with two sets ofly, and the collector is a word and arranges inside the installation box.
Preferably, the monitoring mechanism comprises a mover at the top of the shock absorber, a sliding groove at the top of the shock absorber, a second motor at one side of the top of the sliding groove, a connecting screw rod at the other end of the second motor, a hydraulic telescopic column at the top of the mover, a rotator at the top of the hydraulic telescopic column, an angle regulator at the top of the rotator and a monitor at the top of the angle regulator, the hydraulic telescopic columns on the monitoring mechanism are provided with two groups, the hydraulic telescopic columns are symmetrically arranged on the monitoring mechanism, the mover at the top of the sliding groove is provided with two groups, and the mover is arranged at the top of the sliding groove in a straight line.
Compared with the prior art, the beneficial effects of the utility model are that:
1. according to the utility model, the processing mechanism is composed of the installation box, the alarm, the installation seat, the rotating base, the processing box, the first motor, the winder, the connecting wire, the collector and the storage box, so that the effect of processing the collected data is achieved, the processing mechanism is beneficial to processing and storing the collected data, so that an operator is reminded to cure and cure a patient, and the practicability of the device is further improved.
2. According to the utility model, the monitoring mechanism is composed of the shock absorber, the sliding groove, the mover, the second motor, the connecting screw rod, the hydraulic telescopic column, the rotator, the angle regulator and the monitor, so that the effect of monitoring the patient is achieved, the monitoring mechanism is beneficial to monitoring the patient, the operator can know the disease condition of the patient conveniently, and the multifunctional performance of the device is further improved.
Drawings
FIG. 1 is a schematic diagram of the overall cross-sectional structure of the present invention;
FIG. 2 is a schematic cross-sectional view of a processing mechanism according to the present invention;
FIG. 3 is a schematic diagram of the cross-sectional structure of the monitoring mechanism of the present invention;
fig. 4 is a schematic diagram of the cross-sectional structure of the monitoring mechanism of the present invention.
In the figure: 1. an electrocardiographic monitoring device main body; 2. a processing mechanism; 201. installing a box; 202. an alarm; 203. a mounting seat; 204. rotating the base; 205. a control panel; 206. a desiccant reservoir; 207. a treatment tank; 208. a first motor; 209. a winder; 2010. a connecting wire; 2011. a collector; 2012. a storage tank; 3. a monitoring mechanism; 301. a shock absorber; 302. a sliding groove; 303. a mover; 304. a second motor; 305. connecting a screw rod; 306. a hydraulic telescopic column; 307. a rotator; 308. an angle adjuster; 309. a monitor; 4. a monitoring mechanism; 401. connecting a bracelet; 402. an inductor; 403. and a sensing module.
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 embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated, whereby features defined as "first" and "second" may explicitly or implicitly include one or more of such features, in the description of the utility model "plurality" means two or more unless explicitly defined otherwise.
In a first embodiment, referring to fig. 1-4, the present invention provides a technical solution: a patient electrocardiograph monitoring device after coronary intervention comprises an electrocardiograph monitoring device main body 1, a processing mechanism 2, a monitoring mechanism 3 and a monitoring mechanism 4, wherein the middle part of the electrocardiograph monitoring device main body 1 is connected with the processing mechanism 2 in an embedding manner, the other side in the processing mechanism 2 is connected with the monitoring mechanism 3 in an embedding manner, one end of the electrocardiograph monitoring device main body 1 is connected with the monitoring mechanism 4 in an embedding manner, the middle part of the processing mechanism 2 is connected with an installation box 201 in an embedding manner, one side of the top end of the installation box 201 is connected with an alarm 202 in an embedding manner, the bottom end of the installation box 201 is connected with an installation seat 203 in an embedding manner, the bottom end of the installation seat 203 is connected with a rotating base 204 in an embedding manner, the top of one side in the installation box 201 is connected with a processing box 207 in an embedding manner, the bottom of one side of the installation box 201 is connected with a first motor 208 in an embedding manner, the top end of the first motor 208 is connected with a winder 209 in an embedding manner, and the surface of the winder 209 is movably connected with a connecting wire 2010, a collector 2011 is embedded and connected in the middle of one side of the inside of the installation box 201, a storage box 2012 is embedded and connected in the bottom of the other side of the inside of the installation box 201, a damper 301 is embedded and connected in the bottom end of the monitoring mechanism 3, a sliding groove 302 is embedded and connected in the top end of the damper 301, a mover 303 is movably connected in the top end of the sliding groove 302, a second motor 304 is embedded and connected in one side of the top end of the sliding groove 302, a connecting lead screw 305 is embedded and connected in the other end of the second motor 304, a hydraulic telescopic column 306 is embedded and connected in the top end of the mover 303, a rotator 307 is embedded and connected in the top end of the hydraulic telescopic column 306, an angle regulator 308 is embedded and connected in the top end of the angle regulator 308, a monitor 309 is embedded and connected in the middle of the monitoring mechanism 4, a connecting bracelet 401 is embedded and connected in the middle of the connecting bracelet 401, a sensor 402 is connected in the top end of the sensor 402 in an embedded and connected with a sensing module 403, the other end of the installation box 201 is connected with a control panel 205 in an embedded mode, and one side of the top of the interior of the installation box 201 is connected with a drying agent storage 206 in an embedded mode.
Preferably, monitoring mechanism 4 is by the connection bracelet 401 of 4 middle parts of monitoring mechanism, the inductor 402 of connecting the bracelet 401 top and the response module 403 of inductor 402 bottom are constituteed jointly, when operating personnel need use the device, operating personnel fixes the connection bracelet 401 of 4 middle parts of monitoring mechanism on patient's arm, thereby the inductor 402 that operating personnel control connection bracelet 401 top begins to operate, and then inductor 402 control response module 403 moves, thereby response module 403 monitors patient's rhythm of the heart and blood pressure, and then handle information transmission to processing agency 2, monitoring mechanism 4 helps monitoring patient's rhythm of the heart and blood pressure, thereby the intelligence of device has been improved.
Preferably, the processing mechanism 2 is composed of a mounting box 201 at the middle part of the processing mechanism 2, an alarm 202 at the top end side of the mounting box 201, a mounting seat 203 at the bottom end of the mounting box 201, a rotating base 204 at the bottom end of the mounting seat 203, a processing box 207 at the top part of one side inside the mounting box 201, a first motor 208 at the bottom part of one side of the mounting box 201, a winder 209 at the top end of the first motor 208, a connecting line 2010 on the surface of the winder 209, a collector 2011 at the middle part of one side inside the mounting box 201 and a storage box 2012 at the bottom part of the other side inside the mounting box 201, two sets of rotating bases 204 on the processing mechanism 2 are arranged, the rotating bases 204 are symmetrically arranged on the processing mechanism 2, two sets of collectors 2011 at the middle part of one side inside the mounting box 201 are arranged in a word, when the monitoring mechanism 4 transmits information to the collector 2011 at the middle part inside the mounting box 201 through the connecting line 2010 on the surface of the winder 209, the collector 2011 collects information, and transmits the information to the inside of the processing box 207 at the top of one side inside the installation box 201, the processing box 207 processes and stores the data, when the processing box 207 detects that the data of a patient is abnormal, the processing box 207 controls the alarm 202 at one side of the top end of the installation box 201 to start to operate, and then the alarm 202 starts to alarm to remind an operator to cure the patient, meanwhile, the processing box 207 transmits the information to the control panel 205, a display screen on the control panel 205 presents the data, so that the operator can check the data conveniently, after the device is used, the operator pulls down the connecting wire 2010 on the monitoring mechanism 4, so that the operator controls the first motor 208 at the bottom of one side of the installation box 201 to start to operate, and then the first motor 208 drives the winder 209 to rotate, so as to carry out the connecting wire 2010 on the surface of the winder 209, and then prevent that connecting wire 2010 from taking place the winding to restricted the patient activity, prevented to have brought inconvenience for patient's treatment and nursing, wasted the time of treatment and nursing, bin 2012 of the inside opposite side bottom of install bin 201 helps depositing monitoring mechanism 4, thereby makes things convenient for operating personnel to use, and processing mechanism 2 helps handling and save the data of gathering, thereby reminds operating personnel to rescue the patient, and then has improved the practicality of device.
Preferably, the monitoring mechanism 3 is composed of a shock absorber 301 at the bottom end of the monitoring mechanism 3, a sliding groove 302 at the top end of the shock absorber 301, a mover 303 at the top end of the sliding groove 302, a second motor 304 at one side of the top end of the sliding groove 302, a connecting screw 305 at the other end of the second motor 304, a hydraulic telescopic column 306 at the top end of the mover 303, a rotator 307 at the top end of the hydraulic telescopic column 306, an angle regulator 308 at the top end of the rotator 307 and a monitor 309 at the top end of the angle regulator 308, two sets of hydraulic telescopic columns 306 on the monitoring mechanism 3 are arranged, the hydraulic telescopic columns 306 are symmetrically arranged on the monitoring mechanism 3, two sets of movers 303 at the top end of the sliding groove 302 are arranged on the top end of the sliding groove 302 in a straight line, when an operator uses the device, the operator controls the monitoring mechanism 3 to start to operate through the control panel 205, so that the hydraulic telescopic columns 306 at the top end of the monitoring mechanism 3 controls 303 to start to extend, and then the monitor 309 at the top end of the angle regulator 308 is pushed out of the device, so that the operator controls the rotator 307 at the top end of the hydraulic telescopic column 306 to start running, and then the rotator 307 drives the angle regulator 308 to rotate, thereby changing the angle of the monitor 309 at the top end of the angle regulator 308, and further facilitating the operator to monitor the patient in real time through the monitor 309, thereby facilitating the operator to know the condition of the patient when the patient is attacked in time, and further facilitating the operator to perform timely treatment, the operator drives the mover 303 at the top of the sliding groove 302 to move left and right on the connecting screw rod 305 at the other end of the second motor 304 by controlling the second motor 304 at one side of the top end of the sliding groove 302 to rotate, thereby changing the position of the monitor 309, and further facilitating the operator to use, the shock absorber 301 at the bottom end of the monitoring mechanism 3 helps to slow down the shaking generated when the device is used, and then improved the stability of watch-dog 309, monitoring mechanism 3 helps monitoring the patient to know the condition when the patient morbidity when making things convenient for operating personnel, and then improved the multifunctionality of device.
The working principle is as follows:
firstly, an operator fixes a connecting bracelet 401 at the middle part of a monitoring mechanism 4 on the arm of a patient, so that the operator controls a sensor 402 at the top end of the connecting bracelet 401 to start to operate, and then the sensor 402 controls a sensing module 403 to operate, so that the sensing module 403 monitors the heart rate and blood pressure of the patient, and then transmits the information to a processing mechanism 2 for processing, a collector 2011 collects the information and transmits the information to the inside of a processing box 207 at the top part of one side inside an installation box 201, the processing box 207 processes and stores the data, when the processing box 207 detects that the data of the patient is abnormal, the processing box 207 controls an alarm 202 at the top end side of the installation box 201 to start to operate, and then the alarm 202 starts to give an alarm to remind the operator to cure the patient, meanwhile, the processing box 207 transmits the information to a control panel 205, and a display screen on the control panel 205 presents the data, thereby facilitating the checking of the operator, the monitoring mechanism 3 controls the hydraulic telescopic column 306 at the top end of the mover 303 to extend, and further pushes the monitor 309 at the top end of the angle adjuster 308 out of the device, so that the operator controls the rotator 307 at the top end of the hydraulic telescopic column 306 to start operating, and further the rotator 307 drives the angle adjuster 308 to rotate, thereby changing the angle of the monitor 309 at the top end of the angle adjuster 308, further facilitating the operator to monitor the patient in real time through the monitor 309, thereby facilitating the operator to know the condition of the patient when the patient is attacked in time, and further facilitating the operator to perform timely treatment, after the device is used, the operator pulls down the connecting wire 2010 on the monitoring mechanism 4, so that the operator controls the first motor 208 at the bottom of one side of the installation box 201 to start operating, and further the first motor 208 drives the winder 209 to rotate, thereby carry out the rolling to the connecting wire 2010 on winder 209 surface, and then prevent that connecting wire 2010 from taking place the winding to restricted patient's activity, this is exactly the theory of operation of patient's ECG monitor device after this kind of coronary intervention treatment.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.
Claims (7)
1. The utility model provides a patient's ECG guardianship device after coronary artery intervention treatment, includes ECG guardianship device main part (1), processing mechanism (2), monitoring mechanism (3) and monitoring mechanism (4), its characterized in that: the middle part embedding of electrocardio monitoring device main part (1) is connected with processing mechanism (2), the inside opposite side embedding of processing mechanism (2) is connected with monitoring mechanism (3), the one end embedding of electrocardio monitoring device main part (1) is connected with monitoring mechanism (4), the middle part embedding of processing mechanism (2) is connected with install bin (201), the top one side embedding of install bin (201) is connected with alarm (202), the bottom embedding of install bin (201) is connected with mount pad (203), the bottom embedding of mount pad (203) is connected with rotating base (204), the inside one side top embedding of install bin (201) is connected with processing bin (207), the one side bottom embedding of install bin (201) is connected with first motor (208), the top embedding of first motor (208) is connected with coiler (209), the surface of the winder (209) is movably connected with a connecting wire (2010), the middle part of one side in the installation box (201) is connected with a collector (2011) in an embedded manner, the bottom of the other side in the installation box (201) is connected with a storage box (2012) in an embedded manner, the bottom of the monitoring mechanism (3) is connected with a shock absorber (301) in an embedded manner, the top end of the shock absorber (301) is connected with a sliding groove (302) in an embedded manner, the top of the sliding groove (302) is movably connected with a mover (303), one side of the top end of the sliding groove (302) is connected with a second motor (304) in an embedded manner, the other end of the second motor (304) is connected with a connecting screw rod (305) in an embedded manner, the top end of the mover (303) is connected with a hydraulic telescopic column (306) in an embedded manner, the top end of the hydraulic telescopic column (306) is connected with a rotator (307), and the top end of the rotator (307) is connected with an angle adjuster (308) in an embedded manner, the top embedding of angle regulator (308) is connected with watch-dog (309), the middle part embedding of monitoring mechanism (4) is connected with connects bracelet (401), the top through connection who connects bracelet (401) has inductor (402), the bottom embedding of inductor (402) is connected with response module (403).
2. The post-coronary intervention patient electrocardiac monitoring device of claim 1, wherein: the other end of the installation box (201) is connected with a control panel (205) in an embedded mode, and one side of the top of the interior of the installation box (201) is connected with a drying agent storage device (206) in an embedded mode.
3. The post-coronary intervention patient electrocardiac monitoring device of claim 1, wherein: the monitoring mechanism (4) is composed of a connecting bracelet (401) in the middle of the monitoring mechanism (4), an inductor (402) at the top end of the connecting bracelet (401) and an induction module (403) at the bottom end of the inductor (402).
4. The post-coronary intervention patient electrocardiac monitoring device of claim 1, wherein: processing mechanism (2) are by install bin (201) of processing mechanism (2) middle part, alarm (202) of install bin (201) top one side, mount pad (203) of install bin (201) bottom, rotating base (204) of mount pad (203) bottom, processing case (207) at the inside one side top of install bin (201), first motor (208) of install bin (201) one side bottom, winder (209) on first motor (208) top, connecting wire (2010) on winder (209) surface, collector (2011) of the inside one side middle part of install bin (201) and bin (2012) of the inside other side bottom of install bin (201) constitute jointly.
5. The post-coronary intervention patient electrocardiac monitoring device of claim 1, wherein: the processing mechanism is characterized in that two sets of rotating bases (204) are arranged on the processing mechanism (2), the rotating bases (204) are symmetrically arranged on the processing mechanism (2), two sets of collectors (2011) are arranged in the middle of one side inside the installation box (201), and the collectors (2011) are arranged inside the installation box (201) in a straight line.
6. The post-coronary intervention patient electrocardiac monitoring device of claim 1, wherein: the monitoring mechanism (3) is composed of a shock absorber (301) at the bottom end of the monitoring mechanism (3), a sliding groove (302) at the top end of the shock absorber (301), a moving device (303) at the top of the sliding groove (302), a second motor (304) on one side of the top end of the sliding groove (302), a connecting screw rod (305) at the other end of the second motor (304), a hydraulic telescopic column (306) at the top end of the moving device (303), a rotator (307) at the top end of the hydraulic telescopic column (306), an angle regulator (308) at the top end of the rotator (307) and a monitor (309) at the top end of the angle regulator (308).
7. The post-coronary intervention patient electrocardiac monitoring device of claim 1, wherein: the hydraulic telescopic columns (306) on the monitoring mechanism (3) are arranged in two groups, the hydraulic telescopic columns (306) are symmetrically arranged on the monitoring mechanism (3), the moving devices (303) at the top of the sliding groove (302) are arranged in two groups, and the moving devices (303) are arranged at the top of the sliding groove (302) in a straight line.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202121444587.7U CN215605776U (en) | 2021-06-28 | 2021-06-28 | Patient's electrocardio guardianship device of coronary artery intervention treatment postoperative |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202121444587.7U CN215605776U (en) | 2021-06-28 | 2021-06-28 | Patient's electrocardio guardianship device of coronary artery intervention treatment postoperative |
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| Publication Number | Publication Date |
|---|---|
| CN215605776U true CN215605776U (en) | 2022-01-25 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202121444587.7U Expired - Fee Related CN215605776U (en) | 2021-06-28 | 2021-06-28 | Patient's electrocardio guardianship device of coronary artery intervention treatment postoperative |
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2021
- 2021-06-28 CN CN202121444587.7U patent/CN215605776U/en not_active Expired - Fee Related
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