CN215305959U - Wearing type electrocardiogram monitoring vest - Google Patents

Wearing type electrocardiogram monitoring vest Download PDF

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Publication number
CN215305959U
CN215305959U CN202121085261.XU CN202121085261U CN215305959U CN 215305959 U CN215305959 U CN 215305959U CN 202121085261 U CN202121085261 U CN 202121085261U CN 215305959 U CN215305959 U CN 215305959U
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China
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shell
vest
wireless
charging
skin
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CN202121085261.XU
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Chinese (zh)
Inventor
苏绍玉
曾琴
张秀娟
黄红玉
胡艳玲
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West China Second University Hospital of Sichuan University
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West China Second University Hospital of Sichuan University
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Abstract

The utility model discloses a wearable electrocardiogram monitoring vest, and relates to the technical field of electrocardiogram monitoring vest devices. The vest comprises a vest body, a wireless electrocardiogram recording box and an electrode device which is arranged on the vest body and is in wireless communication connection with the wireless electrocardiogram recording box; the electrode device comprises a first shell A which is arranged in the vest body and is contacted with the skin of a human body, one side surface of the first shell A, which is tightly attached to the skin of the human body, is provided with an electrode plate, and a signal acquisition circuit and a power supply module A which are connected with the electrode plate are also arranged in the first shell A; the wireless electrocardiogram recording box comprises a second shell, and a power module B, a microprocessor B and a storage module are arranged in the second shell; one side of the second shell is also provided with a charging interface B electrically connected with the power module B. The electrode device is connected with the wireless electrocardiogram recording box through wireless communication, and a lead wire between the existing wireless electrocardiogram recording box and the electrode device is eliminated, so that the use is simpler and more convenient.

Description

Wearing type electrocardiogram monitoring vest
Technical Field
The utility model belongs to the technical field of electrocardio monitoring vest devices, and particularly relates to a wearable electrocardio monitoring vest.
Background
All patients first manifest themselves with abnormalities in body temperature, heart rate or pulse, respiration, blood oxygen saturation and blood pressure when changes occur. An electrocardiograph monitor (i.e., a vital sign monitor) is an important instrument designed by monitoring the temperature, heart rate or pulse, respiration, blood oxygen saturation and blood pressure of a patient in real time. The patient can be monitored and evaluated for the change of the state of illness by installing the electrocardiogram monitor on the patient, an important basis is provided for diagnosis, treatment and nursing, and the electrocardiogram monitor is used throughout the whole process of treatment and rehabilitation in clinic.
For example, the Chinese publication No. CN206275690U discloses an ECG monitor, which comprises a host, a rotary bracket and a base, wherein the host is provided with a display screen, the outer side of the display screen is provided with a protective cover, the protective cover is connected with the host through a rotating shaft, the outer side of the protective cover is provided with colored lamps arranged in a surrounding way, the inner sides of the colored lamps are provided with a video player, the upper end of the host is provided with a voice player, one end of the host is provided with a case history placing frame, the lower end of the case history placing frame is provided with a power cord hook, the rotary bracket is provided with an adjusting device, the lower end of the base is provided with universal wheels which are uniformly distributed, one side of the base is fixedly provided with a storage cabinet, the rotary bracket realizes the height adjustment through the adjusting device, and can quickly realize the detection of children patients when in use, the detection time is short, the efficiency is high, the detection result is accurate, the detection speed is improved, and the workload of medical staff is reduced.
The electrocardiogram monitor based on the PC platform is expensive, large in size, inconvenient to move, mainly concentrated in a large hospital, and brings great inconvenience to doctors and patients.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a wearable electrocardiogram monitoring vest, which solves the problems.
In order to solve the technical problems, the utility model is realized by the following technical scheme:
the utility model relates to a wearable electrocardiogram monitoring vest, which comprises a vest body, a wireless electrocardiogram recording box and an electrode device, wherein the electrode device is arranged on the vest body and is in wireless communication connection with the wireless electrocardiogram recording box; the electrode device comprises a first shell A which is arranged in the vest body and is contacted with the skin of a human body, one side surface of the first shell A, which is tightly attached to the skin of the human body, is provided with an electrode plate, and a signal acquisition circuit and a power supply module A which are connected with the electrode plate are also arranged in the first shell A; the wireless electrocardiogram recording box comprises a second shell, and a power module B, a microprocessor B and a storage module are arranged in the second shell; and a charging interface B electrically connected with the power module B is also arranged on one side of the second shell.
Further, wireless electrocardio record box includes a watchband, be provided with the dial plate fixing base that is used for installing second casing on the watchband.
Furthermore, the signal acquisition circuit comprises a pre-amplification circuit for amplifying the signal acquired by the electrode plate, a high-pass filter circuit connected with the pre-amplification circuit, a main amplification circuit connected with the high-pass filter circuit, a low-pass filter circuit connected with the main amplification circuit, a wireless transmitting circuit connected with the low-pass filter circuit and a power circuit; the power supply module A is connected with the power supply circuit; the first shell A is provided with a pinhole adapter for connecting the electrode plate with the pre-amplification circuit and a charging interface A electrically connected with the power module A.
Further, the electrode device also comprises a second shell B which is matched with the first shell A and is arranged outside the vest body; an inserting rod penetrating through the vest body is arranged on one side, away from the skin of the human body, of the first shell A; one side of the second shell B, which is close to the first shell A, is provided with a blind hole for inserting an inserted rod.
Furthermore, a through hole is formed in the end part of the inserted rod; a pair of plug holes which are concentric and communicated with the blind holes are formed in the second shell B, a plug rod penetrates through any one plug hole, and the end part of the plug rod penetrates through the through hole; the plug-pull rod is provided with a handle rod, and the plug-pull hole is provided with a step part matched with the handle rod; and a spring is connected between the handle rod and the step part.
Furthermore, the end parts of the two insertion and extraction rods are respectively provided with a positioning insertion hole and a positioning insertion rod which are matched with each other; a plurality of inserting columns which can penetrate through the vest body are arranged on one side surface of the second shell B close to the first shell A; a plurality of insertion holes which can be matched with the insertion columns are formed in one side face, close to the second shell B, of the first shell A, and rubber damping sleeves which are in interference fit with the insertion columns are fixedly arranged on the inner side walls of the insertion holes.
Further, the vest body comprises a front piece and a rear piece which are connected by sewing; a receiving edge A is arranged on one side of the front piece connected with the rear piece, and a receiving edge B is arranged on one side of the rear piece connected with the front piece; a first zipper tape and a second zipper tape which are matched with each other are respectively fixed on the edge folding B and the edge folding A; zipper teeth are arranged on the first zipper tape and the second zipper tape; and the zipper further comprises a slider which is arranged on the first zipper strip and the second zipper strip and is used for controlling the zipper teeth to be meshed or separated.
Furthermore, the front piece and the back piece are both made of pure cotton soft skin-friendly fabric.
Further, the pure cotton soft skin-friendly fabric sequentially comprises a skin-friendly inner layer, a coral fleece outer layer and an elastic middle layer from inside to outside; the pure cotton plain weave fabric of the skin-friendly inner layer; the outer layer of the coral fleece is made of a novel antistatic bacteriostatic coral fleece fabric; the elastic middle layer is made of elastic natural fibers or artificial fiber cloth which does not have harmful stimulation to human skin.
Furthermore, the device also comprises a charging device used for charging the electrode device and the wireless electrocardiogram recording box; the charging device comprises a base, wherein a first support box for placing the wireless electrocardiogram recording box is arranged on the base; one side of the base is also provided with a pillar, and one side of the pillar is provided with at least one second supporting box for placing an electrode device along the length of the pillar; one side of each of the first support box and the second support box penetrates through a first pipe body, and the end part of the first pipe body is communicated with a second pipe body; the charging data line sequentially penetrates through the second tube body and the first tube body; one end of the charging data line is provided with a charging output interface connected with the electrode device and/or the wireless electrocardiogram recording box; the other end of the charging data line is provided with a charging input interface connected with a charging head; and the inner diameter of the second pipe body is smaller than that of the first pipe body.
The utility model has the following beneficial effects:
according to the utility model, the electrode device is detachably mounted, and meanwhile, the electrode device is connected with the wireless electrocardiogram recording box through wireless communication, so that a lead wire between the existing wireless electrocardiogram recording box and the electrode device is eliminated, the electrode device is more easily accepted by patients, especially pediatric patients, and meanwhile, the requirements of getting off the bed, walking and going to the toilet of the patients can be met, the winding of a wired line, easy pollution, disinfection and the like can be avoided, the nursing workload can be reduced, and the safety of the patients can be ensured.
Of course, it is not necessary for any product in which the utility model is practiced to achieve all of the above-described advantages at the same time.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.
FIG. 1 is a schematic view of an electrode assembly according to the present invention;
FIG. 2 is a schematic front view of the structure of FIG. 1 according to the present invention;
FIG. 3 is a schematic view of a first housing structure according to the present invention;
FIG. 4 is a schematic structural view of a second housing according to the present invention;
FIG. 5 is a cross-sectional view taken along line A-A of FIG. 2 in accordance with the present invention;
FIG. 6 is a schematic view of a wireless ECG recording box according to the present invention;
FIG. 7 is a schematic structural view of the vest body of the present invention;
fig. 8 is a schematic structural diagram of a charging device according to the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.
Referring to fig. 1-8, the present invention is a wearable electrocardiographic monitoring vest, which comprises a vest body 1, a wireless electrocardiographic recording box 2, and an electrode device mounted on the vest body 1 and connected to the wireless electrocardiographic recording box 2 in a wireless communication manner; the electrode device comprises a first shell A31 which is arranged in the vest body 1 and is contacted with the skin of a human body, one side surface of the first shell A31, which is tightly attached to the skin of the human body, is provided with an electrode plate, and a signal acquisition circuit and a power supply module A which are connected with the electrode plate are also arranged in the first shell A31; the wireless electrocardiogram recording box 2 comprises a second shell 21, and a power module B, a microprocessor B and a storage module are arranged in the second shell 21; one side of the second casing 21 is further provided with a charging interface B electrically connected with the power module B.
The wireless electrocardiograph recording box 2 comprises a watchband 22, and the watchband 22 is provided with a dial plate fixing seat 23 for installing the second shell 21.
The signal acquisition circuit comprises a pre-amplification circuit for amplifying signals acquired by the electrode plates, a high-pass filter circuit connected with the pre-amplification circuit, a main amplification circuit connected with the high-pass filter circuit, a low-pass filter circuit connected with the main amplification circuit, a wireless transmitting circuit connected with the low-pass filter circuit and a power circuit; the power supply module A is connected with a power supply circuit; the first shell A31 is provided with a pinhole adapter for connecting the electrode plate with the pre-amplification circuit and a charging interface A electrically connected with the power module A.
Wherein the electrode device further comprises a second shell B32 which is matched with the first shell A31 and is arranged outside the vest body 1; the side of the first shell A31 far away from the skin of the human body is provided with an inserted bar 311 which penetrates through the vest body 1; one side of the second shell B32 close to the first shell A31 is provided with a blind hole 321 for inserting the inserted rod 311; the end of the insertion rod 311 is provided with a through hole 312; a pair of plug holes 322 which are concentric and communicated with the blind hole 321 are arranged on the second shell B32, a plug rod 324 is arranged in any plug hole 322 in a penetrating way, and the end part of the plug rod 324 penetrates through the penetrating hole 312; the plugging and unplugging rod 324 is provided with a handle rod 325, and the plugging and unplugging hole 322 is provided with a step part 326 matched with the handle rod 325; a spring 327 is connected between the handle bar 325 and the step 326.
Wherein, the ends of the two plugging and unplugging rods 324 are respectively provided with a positioning plug 328 and a positioning plug 329 which are mutually matched; a plurality of inserting columns 320 which can penetrate through the vest body 1 are arranged on one side face of the second shell B32 close to the first shell A31; one side of the first casing a31 close to the second casing B32 is provided with a plurality of insertion holes 310 which can be matched with the insertion posts 320, and the inner side wall of the insertion holes 310 is fixedly provided with a rubber damping sleeve which is in interference fit with the insertion posts 320.
Wherein the vest body 1 comprises a front piece 10 and a rear piece 11, and the front piece 10 and the rear piece 11 are connected by sewing; a receiving edge A101 is arranged at one side of the front piece 10 connected with the rear piece 11, and a receiving edge B111 is arranged at one side of the rear piece 11 connected with the front piece 10; a first zipper tape and a second zipper tape which are matched with each other are respectively fixed on the edge B111 and the edge A101; zipper teeth are arranged on the first zipper tape and the second zipper tape; and a slider 13 provided on the first fastener tape and the second fastener tape and controlling the coupling or the separation of the fastener elements.
Wherein, the front piece 10 and the back piece 11 are both made of pure cotton soft skin-friendly fabric; the pure cotton soft skin-friendly fabric sequentially comprises a skin-friendly inner layer, a coral fleece outer layer and an elastic middle layer from inside to outside; pure cotton plain woven fabric for the skin-friendly inner layer; the outer layer of the coral fleece is made of novel antistatic bacteriostatic coral fleece fabric; the elastic middle layer is made of elastic natural fiber or artificial fiber cloth which has no harmful stimulation to human skin.
The device also comprises a charging device for charging the electrode device and the wireless electrocardiogram recording box 2; the charging device comprises a base 4, wherein a first support box 41 for placing the wireless electrocardiogram recording box 2 is arranged on the base 4; a pillar 42 is also arranged on one side of the base 4, and at least one second supporting box 43 for placing the electrode device is arranged on one side of the pillar 42 along the length of the pillar; one side of each of the first support box 41 and the second support box 43 penetrates through a first pipe body 44, and the end part of the first pipe body 44 is communicated with a second pipe body 45; the charging device also comprises a charging data line which sequentially penetrates through the second tube body 45 and the first tube body 44; one end of the charging data line is provided with a charging output interface connected with the electrode device and/or the wireless electrocardiogram recording box 2; the other end of the charging data line is provided with a charging input interface connected with the charging head; and the inner diameter of the second tube 45 is smaller than the inner diameter of the first tube 44.
When in use, the patient wears the vest body 1 on the body; the puller 13 at the joint of the two sides of the front piece 10 and the back piece 11 is selectively pulled up or down according to the body type of the patient so as to be suitable for patients with different body types to wear;
according to the position to be detected, the first shell A31 is firstly placed into the vest body 1, and the inserted rod 311 and the inserted post 320 are controlled to penetrate through the vest body 1; then, the inserting rod 311 is controlled to be inserted into the blind hole 321 through the matching of the inserting column 320 and the inserting hole 310, and the inserting rod 324 is pulled to the front and the outer side; after the insertion rod 311 is inserted into the blind hole 321, the force of the control insertion rod 324 is removed, and at this time, the insertion rod 324 connects the first casing a31 and the second casing B32 through the positioning insertion hole 328 and the positioning insertion rod 329.
When charging is needed, the electrode device to be charged and the wireless electrocardiogram recording box 2 are respectively placed on the first support box 41 and the second support box 43, the second tube 45 and the first tube 44 are controlled to stretch, the charging data line is drawn out from the second tube 45, and the charging output interface is controlled to be connected with the electrode device and/or the wireless electrocardiogram recording box 2.
In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
The preferred embodiments of the utility model disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the utility model to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best utilize the utility model. The utility model is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The utility model provides a wearing formula ECG guardianship undershirt which characterized in that: comprises a vest body (1), a wireless electrocardiogram recording box (2) and an electrode device which is arranged on the vest body (1) and is in wireless communication connection with the wireless electrocardiogram recording box (2);
the electrode device comprises a first shell A (31) which is arranged in the vest body (1) and is in contact with the skin of a human body, one side surface of the first shell A (31) close to the skin of the human body is provided with an electrode plate, and a signal acquisition circuit and a power supply module A which are connected with the electrode plate are also arranged in the first shell A (31);
the wireless electrocardiogram recording box (2) comprises a second shell (21), and a power module B, a microprocessor B and a storage module are arranged in the second shell (21); and a charging interface B electrically connected with the power module B is further arranged on one side of the second shell (21).
2. The wearable ECG monitoring vest according to claim 1, wherein the wireless ECG recording box (2) comprises a watchband (22), and the watchband (22) is provided with a dial plate holder (23) for mounting the second case (21).
3. The wearable electrocardiograph monitoring vest according to claim 1, wherein the signal acquisition circuit comprises a preamplifier circuit for amplifying the signal acquired by the electrode plate, a high-pass filter circuit connected with the preamplifier circuit, a main amplifier circuit connected with the high-pass filter circuit, a low-pass filter circuit connected with the main amplifier circuit, a wireless transmitter circuit connected with the low-pass filter circuit, and a power supply circuit; the power supply module A is connected with the power supply circuit;
the first shell A (31) is provided with a pinhole adapter for connecting the electrode plate with the pre-amplification circuit and a charging interface A electrically connected with the power module A.
4. The wearable electrocardiac monitoring vest of claim 1, wherein said electrode means further comprises a second shell B (32) cooperating with the first shell a (31) and arranged outside the vest body (1);
an inserting rod (311) penetrating through the vest body (1) is arranged on one side of the first shell A (31) far away from the skin of the human body;
one side of the second shell B (32) close to the first shell A (31) is provided with a blind hole (321) for inserting the inserting rod (311).
5. The wearable ECG monitoring vest of claim 4, wherein the end of the insert rod (311) is provided with a through hole (312);
a pair of plug holes (322) which are concentric and communicated with the blind hole (321) are formed in the second shell B (32), a plug rod (324) penetrates through any one plug hole (322), and the end part of the plug rod (324) penetrates through the through hole (312); a handle rod (325) is arranged on the plugging and unplugging rod (324), and a step part (326) matched with the handle rod (325) is arranged on the plugging and unplugging hole (322); a spring (327) is connected between the handle rod (325) and the step part (326).
6. The wearable ECG monitoring vest of claim 5, wherein the ends of the two plug-pull rods (324) are respectively provided with a positioning plug-in hole (328) and a positioning plug-in rod (329) which are mutually matched;
a plurality of inserting columns (320) which can penetrate through the vest body (1) are arranged on one side surface of the second shell B (32) close to the first shell A (31); a plurality of inserting holes (310) which can be matched with the inserting columns (320) are formed in one side face, close to the second shell B (32), of the first shell A (31), and rubber damping sleeves which are in interference fit with the inserting columns (320) are fixedly arranged on the inner side walls of the inserting holes (310).
7. The wearable electrocardiac monitoring vest of claim 1, wherein said vest body (1) comprises a front piece (10) and a back piece (11), said front piece (10) and back piece (11) being sewn together;
a trimming A (101) is arranged on one side of the front sheet (10) connected with the rear sheet (11), and a trimming B (111) is arranged on one side of the rear sheet (11) connected with the front sheet (10); a first zipper tape and a second zipper tape which are matched with each other are respectively fixed on the edge B (111) and the edge A (101); zipper teeth are arranged on the first zipper tape and the second zipper tape; and a slider (13) provided on the first fastener tape and the second fastener tape and controlling the coupling or the separation of the fastener elements.
8. The wearable ECG monitoring vest of claim 7, wherein the front and back sheets (10, 11) are made of cotton soft skin-friendly fabric.
9. The wearable electrocardiographic monitoring vest of claim 8, wherein the pure cotton soft skin-friendly fabric comprises a skin-friendly inner layer, a coral fleece outer layer and an elastic middle layer in sequence from inside to outside; the pure cotton plain weave fabric of the skin-friendly inner layer; the outer layer of the coral fleece is made of a novel antistatic bacteriostatic coral fleece fabric; the elastic middle layer is made of elastic natural fibers or artificial fiber cloth which does not have harmful stimulation to human skin.
10. The wearable electrocardiographic monitoring vest according to claim 1, further comprising a charging device for charging the electrode device and the wireless electrocardiographic recording box (2);
the charging device comprises a base (4), wherein a first supporting box (41) for placing the wireless electrocardiogram recording box (2) is arranged on the base (4); a pillar (42) is further arranged on one side of the base (4), and at least one second support box (43) for placing an electrode device is arranged on one side of the pillar (42) along the length of the pillar;
one side of each of the first support box (41) and the second support box (43) penetrates through a first pipe body (44), and the end part of the first pipe body (44) is communicated with a second pipe body (45); the charging data line sequentially penetrates through the second tube body (45) and the first tube body (44); one end of the charging data line is provided with a charging output interface connected with the electrode device and/or the wireless electrocardiogram recording box (2); the other end of the charging data line is provided with a charging input interface connected with a charging head;
and the inner diameter of the second pipe (45) is smaller than that of the first pipe (44).
CN202121085261.XU 2021-05-20 2021-05-20 Wearing type electrocardiogram monitoring vest Active CN215305959U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202121085261.XU CN215305959U (en) 2021-05-20 2021-05-20 Wearing type electrocardiogram monitoring vest

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202121085261.XU CN215305959U (en) 2021-05-20 2021-05-20 Wearing type electrocardiogram monitoring vest

Publications (1)

Publication Number Publication Date
CN215305959U true CN215305959U (en) 2021-12-28

Family

ID=79547086

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202121085261.XU Active CN215305959U (en) 2021-05-20 2021-05-20 Wearing type electrocardiogram monitoring vest

Country Status (1)

Country Link
CN (1) CN215305959U (en)

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