CN116807488A

CN116807488A - Dynamic electrocardiogram monitoring and detecting system

Info

Publication number: CN116807488A
Application number: CN202311100097.9A
Authority: CN
Inventors: 张敏; 杜光会; 詹玉
Original assignee: Sichuan Academy Of Medical Sciences Sichuan Provincial People's Hospital
Current assignee: Sichuan Academy Of Medical Sciences Sichuan Provincial People's Hospital
Priority date: 2023-08-30
Filing date: 2023-08-30
Publication date: 2023-09-29

Abstract

The application relates to the technical field of dynamic electrocardiogram monitoring, in particular to a dynamic electrocardiogram monitoring and detecting system which comprises a dynamic electrocardiogram recording box, electrode plates, a lead assembly and a protective positioning garment, wherein the lead assembly comprises a plug connector, a plurality of connector connectors and lead wires for connecting the connector connectors with the plug connector; the protective positioning clothing is provided with a plurality of positioning holes corresponding to the electrode plates stuck to the detection points, and each connector is correspondingly connected with the electrode plates stuck to the detection points one by one through the corresponding positioning holes; the front side of the protective positioning garment is provided with an electric wire limiting structure; the application is provided with the protective positioning clothing, the protective positioning clothing is provided with the positioning holes corresponding to the electrode plates stuck on each detection point, and each connector of the lead assembly is connected with the electrode plate of each detection point through the corresponding positioning hole, so that the separation of the lead wire and the skin of a human body is realized, and the problem that the lead wire rubs the skin of a patient back and forth to cause discomfort of the patient is avoided.

Description

Dynamic electrocardiogram monitoring and detecting system

Technical Field

The application relates to the technical field of dynamic electrocardiogram monitoring, in particular to a dynamic electrocardiogram monitoring and detecting system.

Background

A dynamic electrocardiogram is a long-range electrocardiogram, which can record all of the electrocardiographic activities for 24 hours or even more, and thus requires a long wearing time. When monitoring the dynamic electrocardiogram, if the patient is still lying on the sickbed, the measurement result will not have great significance, so when monitoring the dynamic electrocardiogram, the patient should be not moving or static and should perform proper amount of exercise. The dynamic electrocardiogram monitoring system comprises a dynamic electrocardiogram recording box, a lead wire and a plurality of electrode plates, wherein each electrode plate is stuck on a proper position in front of the chest of a patient, each electrode plate is connected with the dynamic electrocardiogram recording box through the lead wire, a shoulder belt is arranged on the dynamic electrocardiogram recording box, and the patient can hang the dynamic electrocardiogram recording box on the shoulder obliquely.

At present, in the process of monitoring a dynamic electrocardiogram, the following problems exist: firstly, the lead wire connected with the electrode sheet is usually attached to the skin of a patient, so that the patient feels uncomfortable, especially in the process of ambulatory movement of the patient, the lead wire rubs the skin of the patient back and forth, and the patient is uncomfortable; secondly, the plurality of electrode plates are respectively connected with one lead wire, and the wire harness is messy due to the fact that the number of the lead wires is large; thirdly, the electrode plate is easy to shift due to the fact that the electrode plate is pulled by the lead wire, and therefore monitoring data are invalid. In order to solve the above problems, the applicant proposes a dynamic electrocardiogram monitoring and detecting system.

Disclosure of Invention

The application aims to provide a dynamic electrocardiogram monitoring and detecting system, which aims to solve the problems that lead wires in the existing dynamic electrocardiogram monitoring process are attached to the skin of a patient, so that the patient feels uncomfortable, the number of the lead wires is large, wire harnesses are messy, and electrode plates are easy to shift due to the fact that the lead wires are pulled, and monitoring data are invalid.

In order to achieve the above object, the present application provides the following technical solutions:

a dynamic electrocardiogram monitoring and detecting system, comprising a dynamic electrocardiogram recording box and an electrode slice, and further comprising:

the lead assembly comprises a plurality of connectors, the lead assembly is connected with each electrode plate through each connector, and the lead assembly transmits detection signals of the electrode plates to the dynamic electrocardiogram recording box;

the protective positioning clothing is provided with a plurality of positioning holes corresponding to the electrode plates stuck to the detection points, and each connector is correspondingly connected with the electrode plates stuck to the detection points one by one through the corresponding positioning holes; the front side of the protection positioning clothing is provided with an electric wire limiting structure, and the electric wire limiting structure is used for limiting an electric wire of the lead assembly.

As a preferable technical scheme of the application, the lead assembly further comprises a plug connector which is connected with the dynamic electrocardiogram recording box in a plug-in manner and lead wires which are connected with the connectors and the plug connector; the lead wire is provided with a current sensor, the current sensor is electrically connected with the dynamic electrocardiogram recording box, and the dynamic electrocardiogram recording box is provided with an alarm.

As a preferable technical scheme of the application, the protective positioning clothing is provided with a width adjusting structure and/or a height adjusting structure, so that the protective positioning clothing is suitable for patients with different sizes.

As the preferable technical scheme of the application, the width adjusting structure is an elastic band structure which vertically penetrates through the whole protective positioning clothes, the elastic band structure comprises a front elastic band and a rear elastic band, the front elastic band is arranged in the middle of the front side of the protective positioning clothes, the rear elastic band is arranged in the middle of the rear side of the protective positioning clothes, and the front elastic band and the rear elastic band vertically penetrate through the whole protective positioning clothes.

As the preferable technical scheme of the application, the height adjusting structure is a hanging strip structure with adjustable length, the hanging strip structure comprises a hanging strip and a Chinese character 'ri' shaped buckle, the hanging strip is connected with the upper end of the rear side of the protective positioning garment, and the Chinese character 'ri' shaped buckle is arranged at the upper end of the front side of the protective positioning garment.

As the preferable technical scheme of the application, ten electrode plates are arranged, and the pasting positions of the ten electrode plates are respectively RA position, LA position, LL position, RL position and CM1-CM6 position; ten connectors and lead wires are also arranged, the ten lead wires are correspondingly connected with the connectors one by one, and the ten connectors are correspondingly connected with the electrode plates one by one; the positioning holes comprise five circular positioning holes and a bending positioning hole, and the positions of the five circular positioning holes correspond to RA position, LA position, LL position, RL position and CM1 position respectively; the bending positioning hole comprises an inclined straight strip hole part and a horizontal straight strip hole part, the lower end of the inclined straight strip hole part is communicated with one end of the horizontal straight strip hole part, the included angle between the inclined straight strip hole part and the horizontal straight strip hole part is an obtuse angle, and the position of the bending positioning hole corresponds to CM2-CM6 phase; the sweat-absorbing limiting layers which are respectively wrapped on the round locating holes and the bending locating holes are arranged on the outer sides of the round locating holes and the bending locating holes on the protective locating clothes.

As a preferable technical scheme of the application, the lead assembly further comprises a data collector, and the data collector is connected with the connector in a one-to-one correspondence manner through wires; the data collector is provided with a wireless transmitting module, the dynamic electrocardiogram recording box is provided with a wireless receiving module, the wireless transmitting module is connected with the wireless receiving module through wireless signal communication, and the data collector transmits detection signals of the electrode plates to the dynamic electrocardiogram recording box through the wireless transmitting module; the electric wire limit structure is a magic tape, and the back plate of the data acquisition device is also provided with the magic tape.

As a preferable technical scheme of the application, the dynamic electrocardiogram recording box is provided with a waistband, and the waistband is used for binding the dynamic electrocardiogram recording box at the waist position of a patient.

As a preferable technical scheme of the application, the connector is detachably connected with the electrode plate through a snap-fastener structure, the snap-fastener structure of the connector is a female fastener, and the snap-fastener structure of the electrode plate is a male fastener.

As a preferable technical scheme of the application, the electrode slice comprises an electrode slice body and a male buckle head connected with the connector, and the electrode slice body is connected with the male buckle head through a spring wire.

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

1. the application is provided with the protective positioning clothing, the protective positioning clothing is provided with the positioning holes corresponding to the electrode plates stuck on each detection point, and each connector of the lead assembly is connected with the electrode plate of each detection point through the corresponding positioning hole, so that the separation of the lead wire and the skin of a human body is realized, and the problem that the lead wire rubs the skin of the patient back and forth in the process of walking movement of the patient, thereby causing discomfort of the patient is avoided.

2. The lead wires are simultaneously and intensively connected with one plug, so that the mess degree of the lead wires is reduced, and the protective positioning garment is also provided with the wire limiting structure, so that the lead wires of the lead assembly can be limited through the wire limiting structure, and the mess degree of the lead wires is further reduced.

3. The electrode plate is provided with the spring wire, when the electrode plate is pulled by the lead wire under the action of external force, the electrode plate body is not easy to be pulled by the lead wire due to the buffer action of the spring wire, so that the firmness of the electrode plate body adhesion can be effectively ensured, the electrode plate is not easy to shift, and the accuracy of a dynamic electrocardiogram measurement result is effectively ensured.

4. The lead wire is provided with a current sensor, the current sensor is electrically connected with a dynamic electrocardiogram recording box, and the dynamic electrocardiogram recording box is provided with an alarm. The current sensor is used for detecting the on-off state of the current in the lead wire and feeding back the detection result to the dynamic electrocardiogram recording box. When the lead wire breaks and other faults can cause current interruption, the dynamic electrocardiogram recording box sends out an alarm signal through the alarm, and a user is reminded to timely conduct fault investigation and replacement on the lead wire.

5. The lead assembly is provided with the data acquisition device, the data acquisition device can transmit the detection signals of the electrode plates to the dynamic electrocardiogram recording box in a wireless signal mode, so that the electric wires of the lead assembly are very short, the data acquisition device can be stuck on the protective positioning clothing through the magic tape, the electric wires of the lead assembly cannot be worn and wound, the lead assembly and the electrode plates are stably arranged, and the detection stability is effectively improved.

Drawings

FIG. 1 is a schematic structural diagram of embodiment 1 of the present application;

fig. 2 is a schematic diagram of the position structure between the electrode pad and the protective positioning garment according to embodiment 1 of the present application;

FIG. 3 is a schematic structural view of a protective positioning garment according to embodiment 1 of the present application;

FIG. 4 is a schematic structural diagram of embodiment 2 of the present application;

fig. 5 is a schematic diagram of the position structure between the electrode pad and the protective positioning garment according to embodiment 2 of the present application;

FIG. 6 is a schematic structural view of a protective positioning garment according to embodiment 2 of the present application;

FIG. 7 is a schematic structural diagram of embodiment 3 of the present application;

FIG. 8 is a schematic view of the front inner wall of the protective positioning garment according to embodiment 3 of the present application;

FIG. 9 is a schematic diagram of the structure of embodiment 4 of the present application;

fig. 10 is a schematic view of the position structure between the electrode pad and the protective positioning garment in embodiment 4 of the present application;

FIG. 11 is a block diagram showing the communication connection between the data collector and the dynamic electrocardiogram recording cassette of the lead assembly of embodiment 4 of the present application;

fig. 12 is a schematic structural view of a lead assembly of embodiment 1 and embodiment 2 of the present application;

fig. 13 is a schematic perspective view of an electrode sheet according to the present application.

The figures indicate: 1. a dynamic electrocardiogram recording box; 2. A lead assembly; 201. a plug; 202. a lead wire; 203. a connector; 204. a current sensor; 205. a data collector; 3. an electrode sheet; 301. an electrode sheet body; 302. a spring wire; 303. a male buckle head; 4. protective positioning clothing; 401. a circular positioning hole; 402. a front elastic; 403. a rear elastic band; 404. a hanging belt; 405. a Chinese character 'ri' shaped button; 406. bending the positioning hole; 407. binding cloth belts; 408. a sweat-absorbing limiting layer; 409. a magic tape; 5. a waistband.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings. It will be apparent that the described embodiments are some, but not all, embodiments of the application.

Thus, the following detailed description of the embodiments of the application is not intended to limit the scope of the application, as claimed, but is merely representative of some embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Example 1

A dynamic electrocardiogram monitoring and detecting system, as shown in fig. 1 and 12, comprises a dynamic electrocardiogram recording box 1, a lead assembly 2, an electrode slice 3 and a protective positioning garment 4. The dynamic electrocardiogram recording box 1 is provided with a waistband 5, and the dynamic electrocardiogram recording box 1 can be bound and fixed at the waist position of a patient through the waistband 5. The lead assembly 2 includes one connector 201, ten lead wires 202, and ten connectors 203. Ten lead wires 202 are respectively connected with a connector 203, and the ten lead wires 202 are connected with a plug connector 201, and the plug connector 201 is connected with the dynamic electrocardiogram recording box 1 in a plug-in manner.

As shown in fig. 1 and 13, the electrode pads 3 are provided in ten positions, and the pasting positions of the ten electrode pads 3 are RA, LA, LL, RL and CM1 to CM6, respectively. In the case of dynamic electrocardiographic examination, ten connectors 203 of the lead assembly 2 are each connected to one electrode sheet 3. The electrode plate 3 comprises an electrode plate body 301, a spring wire 302 and a pin 303, and the electrode plate body 301 and the pin 303 are connected through the spring wire 302. The connector 203 is detachably connected with the electrode plate 3 through a snap fastener structure, the snap fastener structure of the electrode plate 3 is a male fastener 303, and the snap fastener structure of the connector 203 is a female fastener. Because the electrode plate 3 is provided with the spring wire 302, when the electrode plate 3 is pulled by the lead wire 202 under the action of external force, the electrode plate body 301 is not easy to be pulled by the lead wire 202 due to the buffer effect of the spring wire 302, so that the firmness of the adhesion of the electrode plate body 301 can be effectively ensured, namely the accuracy of a dynamic electrocardiogram measurement result is effectively ensured.

As shown in fig. 1, 2 and 3, the protective positioning garment 4 is provided with a plurality of positioning holes corresponding to the electrode plates 3 adhered to each detection point, each positioning hole comprises five circular positioning holes 401 and a bending positioning hole 406, the positions of the five circular positioning holes 401 respectively correspond to the RA position, the LA position, the LL position, the RL position and the CM1 position, and the size of the circular positioning holes 401 is larger than the size of the connecting positions of the corresponding connectors 203 and the electrode plates 3. The bending positioning hole 406 comprises an inclined straight hole part and a horizontal straight hole part, the lower end of the inclined straight hole part is communicated with one end of the horizontal straight hole part, an included angle between the inclined straight hole part and the horizontal straight hole part is an obtuse angle, and the position of the bending positioning hole 406 corresponds to CM2-CM6 phase. The width of the bending positioning hole, the length of the inclined straight hole part and the length of the horizontal straight hole part are also larger than the size of the connecting part of the corresponding connector 203 and the electrode plate 3. Through the arrangement, when people with different body shapes wear the protective positioning clothes 4 in a certain range, each connector 203 can be correspondingly connected with the electrode plates 3 stuck at each detection point one by one through the corresponding positioning holes.

As shown in fig. 1, 2 and 3, the protective positioning garment 4 has a width adjusting structure, the width adjusting structure is an elastic structure, the elastic structure includes a front elastic 402 and a rear elastic 403, the front elastic 402 is disposed in the middle of the front side of the protective positioning garment 4, the rear elastic 403 is disposed in the middle of the rear side of the protective positioning garment 4, and the front elastic 402 and the rear elastic 403 vertically penetrate through the protective positioning garment 4. Through the setting of width adjustment structure for protection positioning clothing 4 is fit for the patient of different fat thin and uses. Meanwhile, the width adjusting structure also has the function of adjusting the relative positions of the positioning holes at the left side and the right side, so that after patients with different body types wear the electrode plate, the positioning holes can correspond to the positions of the electrode plates. The left half part and the right half part of the front side of the protective positioning clothing 4 are respectively provided with an electric wire limiting structure, in this embodiment, the electric wire limiting structure is a binding cloth belt 407 used for limiting the lead wires 202 of the lead assembly 2, a stretchable gap is formed between the binding cloth belt 407 and the front side of the protective positioning clothing 4, the binding cloth belt 407 can use an elastic belt structure, and fixing structures such as lacing belts used for one-to-one correspondence with the lead wires 202 can also be arranged on the inner wall or the outer wall of the binding cloth belt 407 and used for fixing the lead wires 202.

Example 2

A dynamic electrocardiogram monitoring and detecting system, as shown in fig. 4 and 12, comprises a dynamic electrocardiogram recording box 1, a lead assembly 2, an electrode slice 3 and a protective positioning garment 4. The dynamic electrocardiogram recording box 1 is provided with a waistband 5, and the dynamic electrocardiogram recording box 1 can be bound and fixed at the waist position of a patient through the waistband 5. The lead assembly 2 includes one connector 201, ten lead wires 202, and ten connectors 203. Ten lead wires 202 are respectively connected with a connector 203, and the ten lead wires 202 are connected with a plug connector 201, and the plug connector 201 is connected with the dynamic electrocardiogram recording box 1 in a plug-in manner.

As shown in fig. 4 and 13, the electrode pads 3 are provided in ten positions, and the pasting positions of the ten electrode pads 3 are RA, LA, LL, RL and CM1 to CM6, respectively. In the case of dynamic electrocardiographic examination, ten connectors 203 of the lead assembly 2 are each connected to one electrode sheet 3. The electrode plate 3 comprises an electrode plate body 301, a spring wire 302 and a pin 303, and the electrode plate body 301 and the pin 303 are connected through the spring wire 302. The connector 203 is detachably connected with the electrode plate 3 through a snap fastener structure, the snap fastener structure of the electrode plate 3 is a male fastener 303, and the snap fastener structure of the connector 203 is a female fastener. Because the electrode plate 3 is provided with the spring wire 302, when the electrode plate 3 is pulled by the lead wire 202 under the action of external force, the electrode plate body 301 is not easy to be pulled by the lead wire 202 due to the buffer effect of the spring wire 302, so that the firmness of the adhesion of the electrode plate body 301 can be effectively ensured, namely the accuracy of a dynamic electrocardiogram measurement result is effectively ensured.

As shown in fig. 4, 5 and 6, the protective positioning garment 4 is provided with a plurality of positioning holes corresponding to the electrode plates 3 adhered to each detection point, each positioning hole comprises five circular positioning holes 401 and a bending positioning hole 406, the positions of the five circular positioning holes 401 respectively correspond to the RA position, the LA position, the LL position, the RL position and the CM1 position, and the size of the circular positioning holes 401 is larger than the size of the connecting positions of the corresponding connectors 203 and the electrode plates 3. The bending positioning hole 406 comprises an inclined straight hole part and a horizontal straight hole part, the lower end of the inclined straight hole part is communicated with one end of the horizontal straight hole part, an included angle between the inclined straight hole part and the horizontal straight hole part is an obtuse angle, and the position of the bending positioning hole 406 corresponds to CM2-CM6 phase. The width of the bending positioning hole, the length of the inclined straight hole part and the length of the horizontal straight hole part are also larger than the size of the connecting part of the corresponding connector 203 and the electrode plate 3. Through the arrangement, when people with different body shapes wear the protective positioning clothes 4 in a certain range, each connector 203 can be correspondingly connected with the electrode plates 3 stuck at each detection point one by one through the corresponding positioning holes.

As shown in fig. 4, 5 and 6, the protective positioning garment 4 has a width adjusting structure and a height adjusting structure, the width adjusting structure is an elastic structure, the elastic structure includes a front elastic 402 and a rear elastic 403, the front elastic 402 is disposed in the middle of the front side of the protective positioning garment 4, the rear elastic 403 is disposed in the middle of the rear side of the protective positioning garment 4, and the front elastic 402 and the rear elastic 403 penetrate the whole protective positioning garment 4. Through the setting of width adjustment structure for protection locating clothing 4 is fit for the fat thin patient of difference and uses, and width adjustment structure also has the function of adjusting left and right sides locating hole relative position simultaneously, makes after the patient of different sizes wears, can all make each locating hole correspond with the position that each electrode slice set up. The height-adjusting structure is a hanging strip structure with adjustable length, and comprises a hanging strip 404 and a Chinese character 'ri' shaped buckle 405, wherein the hanging strip 404 is connected with the upper end of the rear side of the protective positioning garment 4, and the Chinese character 'ri' shaped buckle 405 is arranged at the upper end of the front side of the protective positioning garment 4. Through the setting of high adjustment structure, can adjust the relative position of each locating hole from top to bottom, also have the function that makes the position that each locating hole and each electrode slice set up can correspond after the patient of different body types wears. The left half and the right half of the front side of the protective positioning garment 4 are both provided with an electric wire limiting structure, in this embodiment, the electric wire limiting structure is a binding cloth belt 407 for limiting the lead wire 202 of the lead assembly 2, a stretchable gap is formed between the binding cloth belt 407 and the front side of the protective positioning garment 4, and an elastic band structure can be used for the binding cloth belt 407.

Working principles of examples 1 and 2: the application is provided with the protective positioning clothing 4, the protective positioning clothing 4 is provided with the positioning holes corresponding to the electrode plates 3 stuck to each detection point, and each connector 203 of the lead assembly 2 is connected with the electrode plate 3 of each detection point through the corresponding positioning hole, so that the separation of the lead wire 202 from the skin of a human body is realized, and the problem that the lead wire 202 rubs the skin of the patient back and forth in the process of walking movement of the patient, thereby causing discomfort of the patient is avoided. Each lead wire 202 is simultaneously and intensively connected with one plug 201, so that the mess degree of the lead wires 202 is reduced, and the protective positioning garment 4 is also provided with an electric wire limiting structure, so that each lead wire 202 of the lead assembly 2 can be limited through the electric wire limiting structure, and the mess degree of the lead wires 202 is further reduced. The electrode plate 3 is provided with the spring wire 302, when the electrode plate 3 is pulled by the lead wire 202 under the action of external force, the electrode plate body 301 is not easy to be pulled by the lead wire 202 due to the buffer effect of the spring wire 302, so that the firmness of the adhesion of the electrode plate body 301 can be effectively ensured, the electrode plate 3 is not easy to shift, and the accuracy of a dynamic electrocardiogram measurement result is effectively ensured.

Example 3

As shown in fig. 7, in this embodiment, compared with embodiment 1, a current sensor 204 is additionally arranged on a lead wire 202, the current sensor 204 is electrically connected with a dynamic electrocardiogram recording box 1, and an alarm is arranged on the dynamic electrocardiogram recording box 1. The current sensor 204 is used for detecting the on-off state of the current in the lead wire 202 and feeding back the detection result to the dynamic electrocardiogram recording box 1. When the lead wire 202 breaks and other faults can cause current interruption, the dynamic electrocardiogram recording box 1 sends out alarm signals such as alarm sounds or alarm lights through an alarm device, and the like, so that a user is reminded of timely conducting fault investigation and replacement on the lead wire 202.

As shown in fig. 8, the inner wall of the front side of the protective positioning garment 4 is provided with a sweat-absorbing limiting layer 408 on the outer sides of the circular positioning holes 401 and the bending positioning holes 406, which are respectively wrapped by the circular positioning holes 401 and the bending positioning holes 406, and the sweat-absorbing limiting layer 408 is made of bamboo charcoal fibers. The sweat-absorbing limiting layer 408 is used for absorbing sweat near the skin of the electrode sheet 3, so that the problems of insufficient measurement accuracy and the like caused by the wetting of the electrode sheet 3 can be effectively avoided. The sweat-absorbing stopper layer 408 also has a certain stopper function and positioning function.

Example 4

As shown in fig. 9, 10 and 11, the present embodiment provides a dynamic electrocardiogram monitoring and detecting system, and the structure of the lead assembly 2 is different from that of embodiment 1. In this embodiment, the lead assembly 2 includes ten connectors 203 and ten data collectors 205, the data collectors 205 and the connectors 203 are connected in a one-to-one correspondence through wires, and the connectors 203 can be connected with the electrode sheet 3. The data collector 205 has a power module that may employ a battery and a wireless transmission module that provides electrical power for operation of the data collector 205. The dynamic electrocardiogram recording box 1 is provided with a wireless receiving module, the wireless transmitting module of the data collector 205 is connected with the wireless receiving module of the dynamic electrocardiogram recording box 1 through wireless signal communication, and the data collector 205 transmits the detection signal of the electrode slice 3 to the dynamic electrocardiogram recording box 1 through the wireless transmitting module. The wireless signal may be any one of a 4G signal, a 5G signal, a bluetooth signal, and a WiFi signal. The front side of the protective positioning garment 4 is provided with 10 velcro patches 409, wherein five of the 10 velcro patches 409 are respectively arranged close to the five circular positioning holes 401, and the other five are arranged close to the bending positioning holes 406. The back plate of the data collector 205 is also provided with a magic tape 409, and the data collector 205 is stuck on the protective positioning garment 4 through the magic tape 409, and can be conveniently taken down after the use is finished.

In this embodiment, the lead assembly 2 can transmit the detection signal of the electrode plate 3 to the dynamic electrocardiogram recording box 1 in a wireless signal mode, the electric wire between the connector 203 and the data collector 205 is very short, and the data collector 205 can be stuck on the protective positioning garment 4 through the hook and loop fastener 409, so that the electric wire of the lead assembly 2 cannot wear and wind, and the lead assembly 2 and the electrode plate 3 are firmly arranged, thereby effectively improving the detection stability.

The above embodiments are only for illustrating the present application and not for limiting the technical solutions described in the present application, and although the present application has been described in detail in the present specification with reference to the above embodiments, the present application is not limited to the above specific embodiments, and thus any modifications or equivalent substitutions are made to the present application; all technical solutions and modifications thereof that do not depart from the spirit and scope of the application are intended to be included in the scope of the appended claims.

Claims

1. The utility model provides a dynamic electrocardiogram monitoring and detecting system, includes dynamic electrocardiogram record box (1) and electrode slice (3), its characterized in that: further comprises:

the lead assembly (2), the lead assembly (2) comprises a plurality of connectors (203), the lead assembly (2) is connected with each electrode plate (3) through each connector (203), and the lead assembly (2) transmits detection signals of the electrode plates (3) to the dynamic electrocardiogram recording box (1);

the protective positioning clothes (4), wherein the protective positioning clothes (4) are provided with a plurality of positioning holes corresponding to the electrode plates (3) stuck to each detection point, and each connector (203) is correspondingly connected with the electrode plates (3) stuck to each detection point one by one through the corresponding positioning holes; the front side of the protection positioning clothes (4) is provided with an electric wire limiting structure, and the electric wire limiting structure is used for limiting an electric wire of the lead assembly (2).

2. A dynamic electrocardiogram monitoring and detecting system as claimed in claim 1, wherein: the lead assembly (2) further comprises plug connectors (201) which are connected with the dynamic electrocardiogram recording box (1) in a plug-in mode, and lead wires (202) which are connected with the connectors (203) and the plug connectors (201); the lead wire (202) is provided with a current sensor (204), the current sensor (204) is electrically connected with the dynamic electrocardiogram recording box (1), and the dynamic electrocardiogram recording box (1) is provided with an alarm.

3. A dynamic electrocardiogram monitoring and detecting system as claimed in claim 1, wherein: the protective positioning garment (4) is provided with a width adjusting structure and/or a height adjusting structure, so that the protective positioning garment (4) is suitable for patients with different body types.

4. A dynamic electrocardiogram monitoring and detecting system as claimed in claim 3 wherein: the width adjusting structure is an elastic structure which vertically penetrates through the whole protective positioning clothes (4), the elastic structure comprises a front elastic band (402) and a rear elastic band (403), the front elastic band (402) is arranged in the middle of the front side of the protective positioning clothes (4), the rear elastic band (403) is arranged in the middle of the rear side of the protective positioning clothes (4), and the front elastic band (402) and the rear elastic band (403) vertically penetrate through the whole protective positioning clothes (4).

5. A dynamic electrocardiogram monitoring and detecting system as claimed in claim 3 wherein: the height-adjusting structure is a hanging strip structure with adjustable length, the hanging strip structure comprises a hanging strip (404) and a Chinese character 'ri' shaped buckle (405), the hanging strip (404) is connected with the upper end of the rear side of the protective positioning garment (4), and the Chinese character 'ri' shaped buckle (405) is arranged at the upper end of the front side of the protective positioning garment (4).

6. A dynamic electrocardiogram monitoring and detecting system as claimed in claim 1, wherein: ten electrode plates (3) are arranged, and the pasting positions of the ten electrode plates (3) are respectively RA position, LA position, LL position, RL position and CM1-CM6 position; ten connectors (203) and lead wires (202) are also arranged, ten lead wires (202) are correspondingly connected with the connectors (203), and ten connectors (203) are correspondingly connected with the electrode plates (3); the positioning holes comprise five circular positioning holes (401) and a bending positioning hole (406), and the positions of the five circular positioning holes (401) are respectively corresponding to RA position, LA position, LL position, RL position and CM1 position; the bending positioning hole (406) comprises an inclined straight strip hole part and a horizontal straight strip hole part, the lower end of the inclined straight strip hole part is communicated with one end of the horizontal straight strip hole part, an included angle between the inclined straight strip hole part and the horizontal straight strip hole part is an obtuse angle, and the position of the bending positioning hole (406) corresponds to CM2-CM 6; the sweat-absorbing limiting layers (408) which are respectively wrapped on the round locating holes (401) and the bending locating holes (406) are arranged on the outer sides of the round locating holes (401) and the bending locating holes (406) on the protective locating clothes (4).

7. A dynamic electrocardiogram monitoring and detecting system as claimed in claim 1, wherein: the lead assembly (2) further comprises a data collector (205), and the data collector (205) and the connector (203) are connected in one-to-one correspondence through wires; the data collector (205) is provided with a wireless transmitting module, the dynamic electrocardiogram recording box (1) is provided with a wireless receiving module, the wireless transmitting module is connected with the wireless receiving module through wireless signal communication, and the data collector (205) transmits detection signals of the electrode plate (3) to the dynamic electrocardiogram recording box (1) through the wireless transmitting module; the electric wire limit structure is a magic tape (409), and the back plate of the data collector (205) is also provided with the magic tape (409).

8. A dynamic electrocardiogram monitoring and detecting system as claimed in claim 1, wherein: the dynamic electrocardiogram recording box (1) is provided with a waistband (5), and the waistband (5) is used for binding the dynamic electrocardiogram recording box (1) at the waist position of a patient.

9. A dynamic electrocardiogram monitoring and detecting system according to any one of claims 1-8, wherein: the connector (203) is detachably connected with the electrode plate (3) through a snap-fastener structure, the snap-fastener structure of the connector (203) is a female fastener, and the snap-fastener structure of the electrode plate (3) is a male fastener.

10. A dynamic electrocardiogram monitoring and detecting system according to claim 9, wherein: the electrode plate (3) comprises an electrode plate body (301) and a male buckle head (303) connected with the connector (203), and the electrode plate body (301) is connected with the male buckle head (303) through a spring wire (302).