CN210170044U - Electrocardio coat and control module - Google Patents

Abstract

The utility model relates to an electrocardio clothing and control module group. The utility model discloses a main technical scheme does: an electrocardio-garment comprising: the electrocardiosignal acquisition device comprises a body, a plurality of electrode components and a plurality of signal acquisition units, wherein the body is provided with the electrode components, the plurality of electrode components are arranged at a plurality of preset positions of the body, and the electrode components are used for contacting with the skin of a target object to acquire electrocardiosignals; the control module is connected with the body, the electrode part is connected with the control module, and the control module is used for receiving and processing the electrocardiosignals. The utility model discloses an object electrocardiosignal is gathered through a plurality of electrode part collection that set up on the electrocardio clothing to the electrocardiosignal that will gather sends to the control module group in, thereby carries out electrocardio analysis, provides important foundation for prevention, diagnosis and the treatment of heart disease, and protection user is healthy.

Description

Electrocardio coat and control module

Technical Field

The utility model relates to an electrocardio monitoring field especially relates to an electrocardio clothing and control module group.

Background

In recent years, with the continuous development of society, the living standard of people is continuously improved, heart diseases tend to increase rapidly, and the attack age is also improved compared with the prior art, so that the real-time monitoring of the electrocardio changes is particularly important for the prevention, diagnosis and treatment of the heart diseases.

At present, the electrocardio monitoring devices on the market are mainly intelligent bracelets, mobile phones, heart rate sensing ornaments and the like, the devices can only simply reflect data such as heart rate, blood and the like, professional heart rate monitoring cannot be carried out, the measured data precision is low, and the data reference value is not high.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides an electrocardio clothing and control module group helps monitoring user electrocardiosignal accurately in real time.

In order to achieve the above object, the utility model mainly provides the following technical scheme:

on the one hand, the embodiment of the utility model provides an electrocardio clothing, include:

the electrocardiosignal acquisition device comprises a body, wherein a plurality of electrode parts are arranged on the body, the plurality of electrode parts are arranged at a plurality of preset positions of the body, and the electrode parts are used for contacting with the skin of a target object to acquire electrocardiosignals;

a conductive wire having one end connected to the electrode part;

the control module group, the control module group with the body links to each other, the control module group via the conduction line with the electrode part is linked together, the control module group is used for receiving and handling electrocardiosignal.

Specifically, the body includes:

the other end of the conducting wire is connected to the signal connection female end, so that the electrode component is communicated with the control module, and the number of terminals of the signal connection female end is matched with the number of the electrode component.

Specifically, the first surface of the control module is attached to the body so as to be connected with the body; and a second surface of the control module opposite to the first surface is provided with an arc surface.

Specifically, the control module is detachably connected to the body; the control module is detachably connected to the body through at least one connecting button; the connecting button comprises a first connecting piece and a second connecting piece; the first connecting piece is arranged on the body, and the second connecting piece is arranged on the control module; the control module comprises a signal transmission port, the signal transmission port is arranged on the first surface of the control module, and the number of terminals of the signal transmission port is matched with that of the terminals of the signal connection female end; when the number of the connecting buttons is two or more, the signal connecting female end is arranged between at least two first connecting pieces, and the signal transmission port is arranged between at least two second connecting pieces; when the control module is connected with the body, the signal connection female end is communicated with the signal transmission port, so that the control module acquires electrocardiosignals.

Specifically, the control module further includes: the power supply component is used for supplying electric energy to the electrocardio-coat; the charging interface is communicated with the power supply component, and the charging interface is arranged on the first surface of the control module and used for charging the power supply component.

Specifically, the electrocardio-coat further comprises a charging base, and the charging interface is connected with the charging base and used for charging the power supply component;

the charging base includes: the first surface of the control module is placed towards the charging connector of the charging base, so that the charging connector is connected with the charging interface to charge the power supply component.

Specifically, the charging base further includes: the base signal transmission interface is arranged on the same face with the charging connector, when the first face of the control module faces towards the charging connector of the charging base, the signal transmission port of the control module is connected with the base signal transmission interface.

Specifically, the charging base is matched with the first face on the face connected with the control module.

On the other hand, the embodiment of the utility model provides a control module group, include:

the signal receiving port is used for receiving data, the control module processes the data, and/or the signal receiving port is used for transmitting the data processed by the control module;

the control module is provided with a control interface, and the control module is internally provided with a power supply part;

the signal transmission port and the charging interface are arranged on the same surface, so that the control module transmits data to a device for charging the charging interface while charging;

and the surface opposite to the surface provided with the signal transmission port and the charging interface is an arc surface.

On the other hand, the embodiment of the utility model provides a charging base, include:

the charging connector is connected with a charged device to charge the charged device;

the base signal transmission interface and the charging connector are arranged on the same surface, so that the data are acquired from the charged device while the charged device is charged;

one surface of the charging connector, which is in contact with the charged device, is matched with the charging surface of the charged device.

The embodiment of the utility model provides an electrocardio clothing, after the electrocardio clothing body was dressed to the target object, through the electrocardio clothing on a plurality of electrode part collection target object electrocardiosignal that set up, and send the electrocardiosignal who gathers to the control module group in, so that on next step to electrocardio signal analysis processes, thereby realize real-time supervision target object rhythm of the heart and electrocardio change's effect, compare in prior art can only simply monitor the not enough of rhythm of the heart blood oxygen data through wearing modes such as intelligent bracelet or rhythm of the heart response ornaments, the utility model discloses an electrocardio clothing monitors target object's electrocardiosignal through a plurality of electrode part real-time professionally, thereby carries out electrocardio analysis, provides important foundation for prevention, diagnosis and the treatment of heart disease, and protection user is healthy.

The above description is only an overview of the technical solution of the present invention, and in order to make the technical means of the present invention clearer and can be implemented according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present invention and accompanying drawings.

Drawings

Fig. 1 is a schematic structural view of an electrocardiograph garment according to an embodiment of the present invention;

fig. 2 is a schematic diagram of an operating principle of a control module according to an embodiment of the present invention;

fig. 3 is a schematic top view of a charging base according to an embodiment of the present invention.

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the intended purpose of the present invention, the following detailed description is given with reference to the accompanying drawings and preferred embodiments, in order to explain the detailed embodiments, structures, features and effects of the present invention. In the following description, different "one embodiment" or "an embodiment" refers to not necessarily the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

Electrocardio-garments according to some embodiments of the present invention are described below in conjunction with fig. 1 and 2.

As shown in fig. 1, an embodiment of the present invention provides an electrocardiograph garment, including: on the one hand, the embodiment of the utility model provides an electrocardio clothing, include:

the electrocardiosignal acquisition device comprises a body 1, wherein a plurality of electrode parts are arranged on the body 1, the plurality of electrode parts are arranged at a plurality of preset positions of the body 1, and the electrode parts are used for contacting with the skin of a target object to acquire electrocardiosignals; one end of the conducting wire is connected with the electrode component; the control module 2, the control module 2 links to each other with body 1, and the control module 2 is linked together with the electrode part through the wire, and the control module 2 is used for receiving and handling electrocardiosignal.

Wherein, as reference numeral 1 in fig. 1 shows a partial schematic view of the electrocardiograph garment body 1, a plurality of electrode components are arranged on the electrocardiograph garment body 1, the plurality of electrode components are arranged at a plurality of preset positions, and the preset positions are the collection positions of the electrocardiograph signals, such as: the electrode part is contacted with the skin of the target object, so that the electrocardiosignals of the target object are acquired; after the electrode component collects electrocardiosignals, the electrocardiosignals are sent to the control module 2, the control module 2 is connected with the electrocardio coat body 1, the control module 2 is used for processing the data obtained by the electrode component, carrying out analog-to-digital conversion on the data and transmitting the obtained data to a display port, the display port can be a user mobile phone, a client used for processing the data is downloaded in the user mobile phone, and the client can carry out trend analysis on the obtained data or carry out other required calculations after summarizing the data, such as functions of arrhythmia analysis, heart rate variability analysis, ST segment analysis, heart rate oscillation analysis, QT interval analysis, T wave alternation analysis, late potential analysis, sleep apnea analysis, pacing electrocardiogram analysis and the like, so that a user can obtain personal health data more intuitively. Specifically, the control module 2 further includes: the signal processing module 21 is used for processing the electrocardiosignals acquired by the electrode component; and the communication module 22 is configured to send the electrocardiographic signal processed by the signal processing module 21. Wherein, the electrocardiosignal processed by the signal processing module 21 is sent to the device with electrocardiosignal analysis function through the communication module 21, the communication module 22 can be a wireless communication module or a wired communication module, the wireless communication can be realized through the modes of Bluetooth, WiFi and the like, the wired communication needs to arrange a transmission interface such as a USB interface and the like on the control module 2 so as to realize the transmission of the electrocardiosignal data, wherein, the control module 2 comprises the signal processing module 21, the signal processing module 21 is used for receiving and processing the electrocardiosignal transmitted by the electrode component through the signal connection mother end 12, after the electrocardiosignal is received by the signal processing module, the signal is processed through differential amplification, filtering and the like, so that the signal is more accurate, and an electrocardiogram capable of reflecting the electrocardiosignal of a user can be generated, particularly, the intelligent device is also used for sending prompt information when the electrocardiosignal is abnormal, when the intelligent device detects that the electrocardiosignals acquired by the electrocardio-coat are abnormal, if the sleep apnea time is long, the intelligent device sends prompt information to remind a target object, a user family or medical care personnel of paying attention to the health condition of the target object. In particular, the body 1 is a flexible material. The electrocardio-coat is implanted with the electrode component through a flexible fabric electrode technology, so that a user can wear the electrocardio-coat more comfortably, and meanwhile, the damage of the electrode component and the friction damage of the electrode component to the skin are avoided.

The embodiment of the utility model provides an electrocardio clothing, with the detection rhythm of the heart among the prior art lead the system application to the electrocardio clothing, after the electrocardio clothing body was dressed to the target object, a plurality of electrode part through setting up on the electrocardio clothing gather target object electrocardiosignal, and send the electrocardiosignal who gathers to the control module group 2 in, so that on next step electrocardio signal analysis processes, thereby realize real-time supervision target object rhythm of the heart and electrocardio change's effect, compare in prior art can only simply monitor the not enough of rhythm of the heart blood oxygen data through wearing modes such as intelligent bracelet or rhythm of the heart response ornaments, the utility model discloses an electrocardio clothing monitors target object's electrocardiosignal through a plurality of electrode part real-time professionally, thereby carry out electrocardio analysis, provide important foundation for prevention, diagnosis and the treatment of heart disease, protect that the user is healthy.

Specifically, the body 1 includes: the other end of the conducting wire is connected to the signal connection female end 12, so that the electrode parts are communicated with the control module 2, and the number of the terminals of the signal connection female end 12 is matched with the number of the electrode parts. Data transmission that the conducting wire obtained the electrode part is to female end 12 of signal connection, control module 2 and the female end 12 of signal connection are connected and are obtained data and handle it, because the electrode part will distribute on predetermineeing the position, it is far away to predetermine the distance between the position, collect these points far away apart from together, collect female end 12 of signal connection, all set up female end 12 of signal connection and electrode part on body 1, transmit female end 12 of signal connection to control module 2 as the middle terminal, the part of obtaining data of control module 2 also can concentrate the distribution, it is corresponding, control module 2's size just can reduce as far as possible, it is more convenient that the user carries.

Specifically, the first surface of the control module 2 is attached to the body 1 to be connected with the body 1; the second surface of the control module 2 opposite to the first surface is set to be an arc surface. The arc surface can also be regarded as a combination of a plurality of arches, the arc surface is arched in each direction, any place of the arc surface is stressed, and the force can be uniformly dispersed to the periphery, so that the arc surface is firmer than any shape, an integrated circuit for processing data is arranged in the control module 2, and devices in the control module 2 can be protected to the maximum extent by adopting the arc surface; the first face laminating of control module 2 in body 1, the second face relative with first face contacts with the outer clothing of electrocardio clothing, and the cambered surface does not have edges and corners, prevents that the user from scraping other clothing when wearing, and in order to minimize the protruding height of control module 2 for body 1 simultaneously, the second face shape is a partial preferred of ellipsoid.

Specifically, the control module 2 is detachably connected to the body 1; the control module 2 is detachably connected to the body 1 through a connecting button 1; the connecting button 13 comprises a first connecting piece and a second connecting piece, wherein the first connecting piece is arranged on the body 1, and the second connecting piece is arranged on the control module 2; the control module 2 comprises signal transmission ports, the signal transmission ports are arranged on the first surface of the control module 2, and the number of terminals of the signal transmission ports is matched with the number of terminals of the signal connection female end 12; when the number of the connecting buttons is two or more, the signal connecting female end 12 is arranged between at least two first connecting pieces, and the signal transmission port is arranged between at least two second connecting pieces; when the control module 2 is connected with the body 1, the signal connection female end 12 is communicated with the signal transmission port, so that the control module 2 can obtain electrocardiosignals. The control module 2 and the body 1 can be detachably connected through other modes such as button connection, zipper connection, clamping connection and the like, when the control module 2 and the body 1 are connected to the body 1 through the connecting button 13, the connecting buttons 13 are generally arranged in two, so that the control module 2 is fixed on the signal connection female end 12 through the connecting buttons 13, redundant weight is not added to the electrocardio-coat, the signal connection female end 12 is arranged between the two first connecting pieces, when the first connecting pieces are connected with the second connecting pieces, the position between the two first connecting pieces is most stable, and the signal connection female end 12 is arranged at the position to protect the signal connection female end 12; there is the signal reception port with female end of signal connection 12 looks adaptation on the control module 2, the signal reception port receives electrocardiosignal, and control module 2 is detachable, the arrow in fig. 2 indicates the direction of connection of control module 2 and body 1, can dismantle the connection and can not want to remove control module 2 when using data analysis when the user is inconvenient to take off the electrocardio-coat, it is for more convenient user to obtain data or charge control module 2 to set up signal transmission port on control module 2 instead of directly handling the data that body 1 obtained directly through female end of signal connection 12, detachable connected mode and signal transmission port are mutually supported, when control module 2 can not dismantle, also can not set up signal transmission port, control module 2 directly handles the data that female end of signal connection 12 obtained.

Specifically, the control module 2 further includes:

the power supply part 23 is used for supplying electric energy to the electrocardio-coat; interface 24 charges, and interface 24 charges is linked together with power supply unit 23, and interface 24 charges sets up the first face at control module group 2 for charge for power supply unit 23. When 23 electric quantities of power supply unit are not enough, can dismantle control module 2 through connecting button 13 to supply continuation of the journey for its charging through the interface 24 that charges, will charge interface 24 and signal reception port and set up in same face, make control module 2 when charging, the data transmission that control module 2 had also can be handled is gone out to the signal reception port.

Specifically, the electrocardio-coat further comprises a charging base 3, and the charging interface 24 is connected with the charging base 3 and used for charging the power supply component 23; the charging base 3 includes: a charging connector 31, wherein the first surface of the control module 2 is placed toward the charging connector 31 of the charging base 3, so that the charging connector 31 is connected with the charging interface 24 to charge the power supply part 23. As shown in fig. 3, when the power supply part 23 is charged, the charging interface 24 is connected to the charging base 3, and the charging base 3 can bear the control module 2; when charging is not required, the control module 2 is placed on the charging base 3, and dust pollution of parts of the control module 2 can be prevented.

Specifically, the charging base 3 further includes: base signal transmission interface 33, base signal transmission interface 33 and the joint 31 setting that charges are in the same face, and when control module group 2's first face orientation charging base 3's the joint 31 that charges placed, control module group 2 is connected with base signal transmission interface 33. Data processed by the control module 2 can be transmitted to the charging base 3 through the base signal transmission interface 33, a display screen for displaying is arranged in the charging base 3 or the charging base 3 can be connected with a mobile phone or a computer and other user terminals, the data can be further processed in the charging base 3 and then uploaded to the user terminals, or the charging base 3 directly displays the data, or the charging base 3 directly uploads the data to the user terminals for further analysis by the user terminals, so that users can obtain the analyzed electrocardiogram data and visually know the health conditions of the users; can set up the pilot lamp on the base 3 that charges and be used for showing the condition of charging of control module group 2, the red light is bright when charging, and the green light is bright after the end of charging, can set up data transmission condition pilot lamp simultaneously, and the yellow light is bright or the pilot lamp glimmers when transmitting data, prevents that the user from removing control module group 2 in data transmission process, influences the accuracy and the integrality of data.

Optionally, the charging base 3 does not include the base signal transmission interface 33 for transmitting data, the charging base 3 is only used for charging the control module 2, and the charging base 3 is provided with an indicator light for displaying the charging condition of the control module 2.

Specifically, the face that charging base 3 and control module 2 are connected is with first face looks adaptation. The surfaces of the control module 2 and the charging base 3 which are connected with each other can be completely contacted, so that the charging base 3 and the control module 2 are prevented from being polluted by dust and artificial damage is also prevented, specifically, at least one protrusion 32 for accommodating a second connecting piece is arranged on the surface of the charging base 3 connected with the control module 2, and a base signal transmission interface 33 is arranged between the protrusions 32; the charging base 3 corresponds to the control module 2, and the base signal transmission interface 33 is arranged between the two protrusions 32.

The embodiment of the utility model provides an electrocardio clothing, after the electrocardio clothing body was dressed to the target object, through the electrocardio signal of the target object of a plurality of electrode part collection that set up on the electrocardio clothing, and send the electrocardio signal who gathers to the control module group in, so that smart machine is to electrocardio signal analysis process, thereby realize the effect of real-time supervision target object rhythm of the heart and electrocardio change, compare in prior art through wearing intelligent bracelet or rhythm of the heart response ornaments etc. mode can only simply monitor the not enough of rhythm of the heart blood oxygen class data, the utility model discloses an electrocardio clothing monitors the electrocardio signal of target object through a plurality of electrode part real-time professionally, thereby carries out electrocardio analysis, provides important foundation for prevention, diagnosis and the treatment of heart disease, and protects that the user.

On the other hand, the embodiment of the utility model provides a control module group 2, include:

the signal transmission port is used for receiving data, the control module 2 processes the data, and/or the signal receiving port is used for transmitting the data processed by the control module 2; the control module 2 is internally provided with a power supply part 23, and the charging interface 24 is communicated with the power supply part 23 and used for charging the power supply part 23; the signal transmission port and the charging port 24 are arranged on the same plane, so that the control module 2 transmits data to a device for charging the charging port 24 while charging; the surface opposite to the surface provided with the signal transmission port and the charging interface 24 is an arc surface.

The control module 2 and the signal connection female terminal 12 are connected through a signal receiving port to acquire data and process the data; meanwhile, the processed data can be transmitted out through a signal receiving port, or the control module 2 transmits the processed data out through a wireless network, and the control module 2 is provided with a signal transmission port; the opposite surface of the charging interface 24 is an arc surface, the arc surface can be regarded as a combination of a plurality of arcs, the arc surface is arc-shaped in all directions, any place of the arc surface is stressed, and the force can be uniformly dispersed to the periphery, so that the arc surface is firmer than any shape, an integrated circuit for processing data is arranged in the control module 2, and devices in the control module 2 can be protected to the maximum extent by adopting the arc surface; the second face of control module group 2 exposes outside when using, and the cambered surface does not have the edges and corners, prevents that the user from scraping other clothing when wearing, simultaneously for the bellied height of minimize control module group 2, the second face shape is partly preferred of ellipsoid.

On the other hand, the embodiment of the utility model provides a charging base 3, as fig. 3, include: a charging connector 31, wherein the charging connector 31 is connected with the charged device to charge the charged device; the base signal transmission interface 33, the base signal transmission interface 33 and the charging connector 31 are arranged on the same plane, so that the charged device is charged, and the base signal transmission interface 33 acquires data from the charged device; the surface of the charging connector 31, which is in contact with the device to be charged, is matched with the charging surface of the device to be charged.

The base signal transmission interface 33 and the charging connector 31 are arranged on the same surface, and when the charged part is charged, the charged part is connected with the base signal transmission interface 33; data of a charged part can be transmitted to the charging base 3 through the base signal transmission interface 33, a display screen for displaying is arranged in the charging base 3 or the charging base 3 can be connected with a user terminal such as a mobile phone or a computer, the data can be further processed in the charging base 3 and then uploaded to the user terminal, or the charging base 3 directly displays the data, or the charging base 3 directly uploads the data to the user terminal; charging base 3 sets up the pilot lamp and is used for showing the condition of charging by the part that charges, and the red light is bright when charging, and the green light is bright after the end of charging, can set up data transmission condition pilot lamp simultaneously, and the yellow light is bright or the pilot lamp scintillation when transmitting data prevents that the user from removing by the part that charges in data transmission process, influences the accuracy and the integrality of data. As shown in fig. 3, the charging base 3 is integrally shaped like a bowl, protruding baffles are arranged on the edges of the periphery of the charging base 3, the protruding baffles are used for limiting the position of a charged component, the top surface of the charging base 3 is concave and is matched with the charging surface of the charged component, when the charged component is charged, the charged component can be stably placed on the charging base 3 through a concave-convex matching structure, the surfaces of the charged component and the charging base 3 which are connected with each other can be completely contacted, dust pollution is prevented, and artificial damage to parts of the charging base 3 and the control module 2 is also prevented; there is the buffering packing ring bottom of charging base 3, and the buffering packing ring can be the rubber material, has certain frictional force when rubber material contacts with other materials, can make charging base 3 place more stable when playing the cushioning effect.

The optional charging base 3 comprises a charging connector 31; the surface of the charging connector 31, which is in contact with the device to be charged, is matched with the charging surface of the device to be charged. The charging base 3 is integrally shaped like a bowl, protruding baffles are arranged on the peripheral edges of the charging base 3 and used for limiting the position of a part to be charged, the top surface of the charging base 3 is concave downwards and is matched with the charging surface of the part to be charged, when the part to be charged is charged, the part to be charged can be stably placed on the charging base 3 through the concave-convex matching structure, the surfaces of the part to be charged and the charging base 3 which are connected with each other can be in contact with each other completely, dust pollution is prevented, and artificial damage to the part of the charging base 3 and the part of the control module 2 is also prevented; there is the buffering packing ring bottom of charging base 3, and the buffering packing ring can be the rubber material, has certain frictional force when rubber material contacts with other materials, can make charging base 3 place more stable when playing the cushioning effect.

The embodiment of the utility model provides an electrocardio clothing and control module group, after the electrocardio clothing body was dressed to the target object, through the electrocardio signal of the target object of a plurality of electrode part collection that set up on the electrocardio clothing, and send the electrocardio signal who gathers to the control module group in, so that smart machine is to electrocardio signal analysis processes, thereby realize real-time supervision target object rhythm of the heart and electrocardio change's effect, compare in prior art can only simply monitor the not enough of rhythm of the heart blood oxygen data through wearing modes such as intelligent bracelet or rhythm of the heart response ornaments, the utility model discloses an electrocardio clothing monitors the electrocardio signal of target object professionally in real time through a plurality of electrode part, thereby carries out electrocardio analysis, provides important foundation for prevention, diagnosis and the treatment of heart disease, and protection user is healthy.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and any simple modification, equivalent change and modification made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (9)

1. An electrocardio-coat, comprising:

the electrocardiosignal acquisition device comprises a body, wherein a plurality of electrode parts are arranged on the body, the plurality of electrode parts are arranged at a plurality of preset positions of the body, and the electrode parts are used for contacting with the skin of a target object to acquire electrocardiosignals;

a conductive wire having one end connected to the electrode part;

the control module group, the control module group with the body links to each other, the control module group via the conduction line with the electrode part is linked together, the control module group is used for receiving and handling electrocardiosignal.

2. The electrocardiac garment of claim 1, wherein said body comprises:

the other end of the conducting wire is connected to the signal connection female end, so that the electrode component is communicated with the control module, and the number of terminals of the signal connection female end is matched with the number of the electrode component.

3. The ECG jacket of claim 2,

the first surface of the control module is attached to the body so as to be connected with the body; and a second surface of the control module opposite to the first surface is provided with an arc surface.

4. The electrocardiogram cover according to claim 2, wherein:

the control module is detachably connected to the body;

the control module is detachably connected to the body through at least one connecting button;

the connecting button comprises a first connecting piece and a second connecting piece;

the first connecting piece is arranged on the body, and the second connecting piece is arranged on the control module;

the control module comprises a signal transmission port, the signal transmission port is arranged on the first surface of the control module, and the number of terminals of the signal transmission port is matched with that of the terminals of the signal connection female end;

when the number of the connecting buttons is two or more, the signal connecting female end is arranged between at least two first connecting pieces, and the signal transmission port is arranged between at least two second connecting pieces;

when the control module is connected with the body, the signal connection female end is communicated with the signal transmission port, so that the control module acquires electrocardiosignals.

5. The ecg jacket of claim 4, wherein the control module further comprises:

the power supply component is used for supplying electric energy to the electrocardio-coat;

the charging interface is communicated with the power supply component, and the charging interface is arranged on the first surface of the control module and used for charging the power supply component.

6. The ECG jacket of claim 5,

the electrocardio-coat further comprises a charging base, and the charging interface is connected with the charging base and used for charging the power supply component;

the charging base includes:

the first surface of the control module is placed towards the charging connector of the charging base, so that the charging connector is connected with the charging interface to charge the power supply component.

7. The ecg garment of claim 6, wherein the charging base further comprises:

the base signal transmission interface is arranged on the same face with the charging connector, when the first face of the control module faces towards the charging connector of the charging base, the signal transmission port of the control module is connected with the base signal transmission interface.

8. The ECG jacket of claim 7,

the charging base is matched with the first face on the face connected with the control module.

9. A control module, comprising:

the signal receiving port is used for receiving data, the control module processes the data, and/or the signal receiving port is used for transmitting the data processed by the control module;

the control module is provided with a control interface, and the control module is internally provided with a power supply part;

the signal transmission port and the charging interface are arranged on the same surface, so that the control module transmits data to a device for charging the charging interface while charging;

and the surface opposite to the surface provided with the signal transmission port and the charging interface is an arc surface.

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