CN213850719U - Wearable remote electrocardiogram data monitor - Google Patents

Abstract

The utility model discloses a wearable remote electrocardiogram data monitor, which comprises a cloth cabin; and buckles integrally formed at both sides of the bottom of the cloth bin; and the sheet braces are fixed on the cloth bin; and a lower positioning belt connected with the belt buckle in a penetrating way; and a middle lead electrode arranged in the middle of the front side of the cloth bin; and an upper lead electrode disposed on the front side within the sheet back band; and a lower lead electrode disposed on the lower positioning belt; the lower positioning belt comprises a first thin belt body; two ends of the first thin belt body are provided with magic tape structures; the middle part of the first thin belt body is provided with a first elastic section; the thin sheet braces comprise a second thin strap body and a third thin strap body which are respectively fixed at the top and the bottom of the cloth bin; the utility model discloses a long-range electrocardio data monitor of wearing formula can adjust the monitoring position according to individual situation to guarantee to paste the monitoring position better, avoid the monitoring failure, dress the in-process, can not cause the electrode to break away from the monitoring position because of the health action.

Description

Wearable remote electrocardiogram data monitor

Technical Field

The utility model relates to an electrocardio monitor, concretely relates to long-range electrocardio data monitor of wearing formula belongs to electrocardio monitor technical field.

Background

With the acceleration of life rhythm and the increase of life pressure, more and more heart disease patients are suffered, however, the heart disease is often abnormal only when the heart disease is in attack, and the specific heart disease of the patient can be judged according to the abnormal electrocardio monitoring data information monitored by the electrocardio; because heart diseases have the characteristics of paroxysmal and transient, the wearable electrocardio monitor is required to be adopted to monitor the electrocardio at the affected side for a long time so as to improve the accuracy of diagnosing the heart diseases of patients; as in chinese patent application No.: 201822029691.4, discloses a wearable electrocardiogram monitor based on wireless network, comprising a lead electrode plate, a signal acquisition module and an MCU, wherein the lead electrode plate is electrically connected with the signal acquisition module, and the signal acquisition module is electrically connected with the MCU; but the wearing equipment can not be adjusted according to individuals in the using process; thereby causing a deviation in the monitored location or a failure in the monitoring during use.

Disclosure of Invention

In order to solve the problem, the utility model provides a long-range electrocardio data monitor of wearing formula can adjust the supervision position according to individual situation to guarantee to paste the supervision position better, avoid monitoring failure.

The utility model discloses a wearable remote electrocardiogram data monitor, which comprises a cloth cabin; the cloth bin is used as a monitoring terminal loading carrier and also used as a supporting body of the middle lead electrode; and buckles integrally formed at both sides of the bottom of the cloth bin; and the sheet braces are fixed on the cloth bin; and a lower positioning belt connected with the belt buckle in a penetrating way; and a middle lead electrode arranged in the middle of the front side of the cloth bin; and an upper lead electrode disposed on the front side within the sheet back band; and a lower lead electrode disposed on the lower positioning belt; when the device is used, the device is sleeved with the shoulders of a user through the thin back strap to serve as an upper positioning belt, the cloth cabin serves as a middle connecting body, the lower positioning belt serves as a lower positioning belt, so that the positioning of the upper part, the middle part and the lower part of the whole wearable device is completed, and lead electrodes are arranged at the positioning points of the upper part, the middle part and the lower part of the wearable device; thereby realizing positioning and monitoring; the lower positioning belt comprises a first thin belt body; two ends of the first thin belt body are provided with magic tape structures; the middle part of the first thin belt body is provided with a first elastic section; the first elastic section is used as a tensioning section, and after the wearable device is worn, the first elastic section can press the lower lead electrode to the monitoring position; after the monitoring position is determined, the lower part is positioned by tightly sticking the magic tape, after the positioning and installation, the lower lead electrode is tightly pressed with the monitoring position, and after the human body moves, the first elastic section can continuously tightly press the lower lead electrode to avoid large displacement caused by the lower lead electrode; the thin sheet braces comprise a second thin strap body and a third thin strap body which are respectively fixed at the top and the bottom of the cloth bin; the second thin belt body and the third thin belt body are adhered through a magic tape; a second elastic section is arranged in the middle of the second thin belt body; the joint position of the upper lead electrode and the lower part of the shoulder and the joint position of the middle lead electrode and the chest can be adjusted through the magic tapes on the second thin belt body and the third thin belt body; the upper lead electrode can be continuously pressed through the second elastic section, so that large displacement caused by the upper lead electrode is avoided; the middle lead electrode comprises an electrode body which is bound on the first cloth layer from outside to inside and an elastic gasket which is bonded on the second cloth layer from outside to inside; the first cloth layer and the second cloth layer are sealed and bonded outside the electrode body and the elastic gasket; the electrode body and the elastic gasket are mounted in a pressing mode; the first cloth layer and the second cloth layer are provided with binding holes between the electrode body and the elastic gasket; the first cloth layer and the second cloth layer are fixed on the cloth bin through the binding holes and the binding lines; when the cloth bin is attached to the chest, the electrode body and the elastic gasket are pressed tightly, the first cloth layer and the second cloth layer are pressed tightly for binding, and the electrode body and the monitoring position are pressed tightly by the elasticity of the elastic gasket, so that each electrode on the wearable device is elastically pressed with the human body monitoring position; the inner side of the cloth bin is provided with an electrocardio collector which is electrically connected with the middle lead electrode, the upper lead electrode and the lower lead electrode, the electrocardio collector detects biological signals transmitted by the electrodes and converts the biological signals into digital signals by using a 16-bit high-precision ADC (analog-to-digital converter); the minimum system of singlechip passes through its bluetooth module communication of taking certainly of bluetooth module and mobile terminal to send into the monitoring APP on the mobile terminal with data.

Further, the elastic gasket is an annular air-packing body or an annular thin foam gasket.

Further, the middle lead electrode is in a Z-shaped structure.

Furthermore, the lower lead electrodes are arranged at two ends of the first elastic section of the first thin belt body.

Furthermore, the electrocardio collector consists of a BMD101 module, and a serial output port of the electrocardio collector and the BMD101 module is connected to a minimum system of the singlechip; the minimum system of the single chip microcomputer is internally provided with a mobile terminal for monitoring the APP through a Bluetooth or nRF module; the electrocardio collector detects biological signals transmitted by the electrodes and converts the biological signals into digital signals by using a 16-bit high-precision ADC (analog-to-digital converter); the minimum system of singlechip passes through its bluetooth module communication of taking certainly of bluetooth module and mobile terminal to send into the monitoring APP on the mobile terminal with data.

The utility model is compared with the prior art, the utility model discloses a long-range electrocardio data monitor of wearing formula can adjust the prison position according to individual situation to guarantee to paste the prison position better, avoid the monitoring failure, dress the in-process, can not cause the electrode to break away from the prison position because of the health action.

Drawings

Fig. 1 is a schematic view of the front overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the back of the present invention.

Fig. 3 is a schematic diagram of the overall structure of the intermediate lead electrode of the present invention.

Detailed Description

Example 1:

as shown in fig. 1 to 3, the wearable remote electrocardiographic data monitor comprises a cloth cabin 1; the cloth bin is used as a monitoring terminal loading carrier and also used as a supporting body of the middle lead electrode; and buckles 2 integrally formed at both sides of the bottom of the cloth chamber; and a sheet strap 3 fixed on the cloth cabin; and a lower positioning belt 4 connected with the belt buckle in a penetrating way; and a middle lead electrode 5 arranged in the middle of the front side of the cloth bin; and an upper lead electrode 6 disposed on the front side in the back band of the sheet; and a lower lead electrode 7 arranged on the lower positioning belt; when the device is used, the device is sleeved with the shoulders of a user through the thin back strap to serve as an upper positioning belt, the cloth cabin serves as a middle connecting body, the lower positioning belt serves as a lower positioning belt, so that the positioning of the upper part, the middle part and the lower part of the whole wearable device is completed, and lead electrodes are arranged at the positioning points of the upper part, the middle part and the lower part of the wearable device; thereby realizing positioning and monitoring; the lower positioning belt 4 comprises a first thin belt body 41; the two ends of the first thin strip body are provided with magic tape structures 42; the middle part of the first thin belt body is provided with a first elastic section 43; the first elastic section is used as a tensioning section, and after the wearable device is worn, the first elastic section can press the lower lead electrode to the monitoring position; after the monitoring position is determined, the lower part is positioned by tightly sticking the magic tape, after the positioning and installation, the lower lead electrode is tightly pressed with the monitoring position, and after the human body moves, the first elastic section can continuously tightly press the lower lead electrode to avoid large displacement caused by the lower lead electrode; the thin sheet back belt 3 comprises a second thin belt body 31 and a third thin belt body 32 which are respectively fixed at the top and the bottom of the cloth bin; the second thin tape body 31 and the third thin tape body 32 are adhered by means of a hook and loop fastener; a second elastic section 33 is arranged in the middle of the second thin belt body 31; the joint position of the upper lead electrode and the lower part of the shoulder and the joint position of the middle lead electrode and the chest can be adjusted through the magic tapes on the second thin belt body and the third thin belt body; the upper lead electrode can be continuously pressed through the second elastic section, so that large displacement caused by the upper lead electrode is avoided; the middle lead electrode 5 comprises an electrode body 52 bound on the first cloth layer 51 from outside to inside, and an elastic gasket 54 bonded on the second cloth layer 53 from outside to inside; the first cloth layer 51 and the second cloth layer 53 are sealed and bonded outside the electrode body 52 and the elastic gasket 54; the electrode body 52 and the elastic gasket 54 are mounted in a pressing manner; the first cloth layer 51 and the second cloth layer 53 are provided with binding holes 55 between the electrode body and the elastic gasket; the first cloth layer 51 and the second cloth layer 53 are fixed on the cloth bin 1 through binding holes and binding lines; when the cloth bin is attached to the chest, the electrode body and the elastic gasket are pressed tightly, the first cloth layer and the second cloth layer are pressed tightly for binding, and the electrode body and the monitoring position are pressed tightly by the elasticity of the elastic gasket, so that each electrode on the wearable device is elastically pressed with the human body monitoring position; the inner side of the cloth bin 1 is provided with an electrocardio collector which is electrically connected with a middle lead electrode 5, an upper lead electrode 6 and a lower lead electrode 7, the electrocardio collector detects biological signals transmitted by the electrodes and converts the biological signals into digital signals by using a 16-bit high-precision ADC analog-to-digital converter; the minimum system of singlechip passes through its bluetooth module communication of taking certainly of bluetooth module and mobile terminal to send into the monitoring APP on the mobile terminal with data.

Wherein the elastic pad 54 is an annular air packing body or an annular thin foam pad. The middle lead electrode 5 is of a Z-shaped structure. The lower lead electrodes 7 are disposed at two ends of the first elastic section 43 of the first thin-film strip 41. The electrocardio collector consists of a BMD101 module, and a serial output port of the BMD101 module is connected to a minimum system of the singlechip; the minimum system of the single chip microcomputer is internally provided with a mobile terminal for monitoring the APP through a Bluetooth or nRF module; the electrocardio collector detects biological signals transmitted by the electrodes and converts the biological signals into digital signals by using a 16-bit high-precision ADC (analog-to-digital converter); the minimum system of singlechip passes through its bluetooth module communication of taking certainly of bluetooth module and mobile terminal to send into the monitoring APP on the mobile terminal with data.

The above-mentioned embodiment is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles of the present invention are included in the claims of the present invention.

Claims (5)

1. The utility model provides a long-range electrocardio data monitor of wearing formula which characterized in that: comprises a cloth bin; and buckles integrally formed at both sides of the bottom of the cloth bin; and the sheet braces are fixed on the cloth bin; and a lower positioning belt connected with the belt buckle in a penetrating way; and a middle lead electrode arranged in the middle of the front side of the cloth bin; and an upper lead electrode disposed on the front side within the sheet back band; and a lower lead electrode disposed on the lower positioning belt; the lower positioning belt comprises a first thin belt body; two ends of the first thin belt body are provided with magic tape structures; the middle part of the first thin belt body is provided with a first elastic section; the thin sheet braces comprise a second thin strap body and a third thin strap body which are respectively fixed at the top and the bottom of the cloth bin; the second thin belt body and the third thin belt body are adhered through a magic tape; a second elastic section is arranged in the middle of the second thin belt body; the middle lead electrode comprises an electrode body which is bound on the first cloth layer from outside to inside and an elastic gasket which is bonded on the second cloth layer from outside to inside; the first cloth layer and the second cloth layer are sealed and bonded outside the electrode body and the elastic gasket; the electrode body and the elastic gasket are mounted in a pressing mode; the first cloth layer and the second cloth layer are provided with binding holes between the electrode body and the elastic gasket; the first cloth layer and the second cloth layer are fixed on the cloth bin through the binding holes and the binding lines; the inner side of the cloth bin is provided with an electrocardio collector which is electrically connected with the middle lead electrode, the upper lead electrode and the lower lead electrode.

2. The wearable remote electrocardiographic data monitor according to claim 1, wherein: the elastic gasket is an annular inflatable packaging body or an annular thin foam gasket.

3. The wearable remote electrocardiographic data monitor according to claim 1, wherein: the middle lead electrode is in a Z-shaped structure.

4. The wearable remote electrocardiographic data monitor according to claim 1, wherein: the lower lead electrodes are arranged at two ends of the first elastic section of the first thin belt body.

5. The wearable remote electrocardiographic data monitor according to claim 1, wherein: the electrocardio collector consists of a BMD101 module, and a serial output port of the BMD101 module is connected to a minimum system of the singlechip; the minimum system of the single chip microcomputer is communicated with a mobile terminal which is internally provided with the monitoring APP through a Bluetooth or nRF module.

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