CN216060537U - Heart protective clothing for real-time acquisition and storage of dynamic electrocardiogram - Google Patents
Heart protective clothing for real-time acquisition and storage of dynamic electrocardiogram Download PDFInfo
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- CN216060537U CN216060537U CN202022097795.6U CN202022097795U CN216060537U CN 216060537 U CN216060537 U CN 216060537U CN 202022097795 U CN202022097795 U CN 202022097795U CN 216060537 U CN216060537 U CN 216060537U
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Abstract
The utility model belongs to the field of acquisition of dynamic electrocardiograms, and particularly discloses a heart-protecting garment for acquiring and storing dynamic electrocardiograms in real time, which comprises an acquisition and storage structure provided with an acquisition box, and is characterized by further comprising a heart-protecting garment body and a detection conductive cloth component; the heart protective clothing body comprises a front piece and a rear piece; the inner side surface of the front piece is distributed with a detection conductive cloth assembly, and the detection conductive cloth assembly comprises ten conductive cloths and a plurality of lead wires; the ten conductive cloths are respectively arranged on the inner sides of the hearts and the chests of the human body, and the ten conductive cloths on the front piece are respectively correspondingly positioned at the ten electrocardio detection points on the body. The electrode plate is changed into the conductive cloth, so that the acquisition requirement can be met, and meanwhile, the electrode plate has the advantages that a professional doctor does not need to attach the electrode plate, the time of the doctor and a patient is saved, and the operation is not influenced after long-time wearing.
Description
Technical Field
The utility model relates to the field of dynamic electrocardiogram acquisition, in particular to a heart protective garment for real-time acquisition and storage of dynamic electrocardiogram.
Background
In clinical treatment, electrocardiography is the most commonly used examination measure, and electrocardiography can detect arrhythmia, myocardial infarction and myocardial ischemia. Currently, electrocardiogram detection monitors the electrocardiogram of a human body through a multi-lead patch type device. When an electrocardiogram examination is carried out, a patient goes to a hospital, a professional doctor attaches electrode plates, then the patient goes home with the mobile equipment, and after 24 or 36 hours, the patient goes back to the hospital, data are derived by the doctor, the electrocardiogram is analyzed, and a report is given.
However, this approach has the following disadvantages:
1. the operation is not convenient enough, the electrodes need to be placed one by one, and the position needs to be selected accurately, so that for a beginner, if the position selection is not accurate, the detection result can be influenced;
2. the traditional electrocardiogram equipment is not real-time, can delay the illness state, cannot solve the problem of untimely treatment time, and meanwhile, the interaction between a doctor and a patient is not real-time, when the patient suffers from the illness, although the abnormality of the electrocardiogram is monitored, the doctor takes the data and analyzes the report until the doctor waits for days;
3. traditional electrocardiograph equipment needs to be pasted with the electrode plate for long-term wearing, easily leads to human skin allergy, needs the doctor to come to paste, needs certain specialty.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a heart protective garment for real-time acquisition and storage of dynamic electrocardiograms, so as to solve the problems in the background technology.
In order to achieve the purpose, the utility model provides the following technical scheme: a heart protective garment for real-time acquisition and storage of dynamic electrocardiograms comprises an acquisition and storage structure provided with an acquisition box, and is characterized by also comprising a heart protective garment body and a detection conductive cloth component; the heart protective clothing body comprises a front piece and a rear piece; the inner side surface of the front piece is distributed with a detection conductive cloth assembly, and the detection conductive cloth assembly comprises ten conductive cloths and a plurality of lead wires; the ten conductive cloths are respectively arranged at the inner sides of the hearts and chests of the human body, the ten conductive cloths on the front piece are respectively correspondingly positioned at the ten electrocardio detection points on the human body, and the ten conductive cloths are respectively and electrically connected with the acquisition and storage structure through the conductive wires to form twelve leads; the peripheral edges and the conducting lines of the conductive cloth are respectively stuck on the front sheet by adopting an anti-slip adhesive tape; the acquisition and storage structure also comprises a clamping groove type base connected with the acquisition box in a clamping and embedding manner, and the clamping groove type base is fixed on the heart-protective clothing body; the draw-in groove formula base includes: the bottom plate and the rectangular clamping edges are respectively arranged at two side edges of the front surface of the bottom plate; one end of the right-angle clamping edge is a closed end, and a main clamping groove is formed between the right-angle clamping edge and the bottom plate; the upper horizontal edge of the right-angle clamping edge is provided with a strip-shaped clamping hole along the length direction of the right-angle clamping edge, and the length of the clamping hole is shorter than that of the main clamping groove; and the opposite sides of the upper horizontal edges of the two right-angle clamping edges are respectively provided with a positioning clamping tooth; the first conductive part is arranged on the front surface of the bottom plate, positioned between the closed ends of the two right-angle clamping edges and electrically connected with the output ends of the plurality of lead wires;
the acquisition and storage structure further comprises an electrocardio acquisition chip, a filtering device, a Bluetooth device, a storage device and a power supply.
Preferably, the bottom surface of the collecting box is provided with a second conductive part for contacting with the first conductive part, corresponding positions on the collecting box are respectively provided with an inserting plate for clamping with the main clamping groove and an auxiliary clamping tooth matched with the positioning clamping tooth, and the upper surface of the inserting plate is provided with a gear shaping for clamping with the clamping hole.
Preferably, the first conductive portion is a plurality of copper contacts.
Preferably, a counter bore is arranged on the bottom plate corresponding to the lower part of the right-angle clamping edge, and an elastic rubber pad is arranged in the counter bore.
Preferably, the electrically conductive cloth outside also is equipped with anti-skidding sticky tape, and this anti-skidding sticky tape sets up around each electrically conductive cloth outside, and anti-skidding sticky tape is made for the silica gel material, and its adhesive surface adopts hot melt adhesive film, and anti-skidding sticky tape is used for avoiding the signal of telecommunication between the adjacent line of leading to influence each other and improve the stability with human skin contact.
Preferably, the lead wire comprises a lead made of silver fibers, a rubber band pipe sleeved outside the lead, and an insulating layer coated outside the rubber band pipe. The conducting wire made of silver fiber can enable the conducting wire to be folded and washed, the rubber tube can enable the clothes to have stretching and extensibility, and then a layer of insulating material is added outside the rubber tube, so that the clothes are insulating, stretchable and good in extensibility, and washing resistance is further guaranteed.
Preferably, the heart protective garment body is provided with a cup corresponding to the chest.
Preferably, the heart-protecting clothes body is vest type, short sleeve type or long sleeve type.
Preferably, the waist side of the heart-protecting coat body is spliced by a zipper. As the clothes are not convenient to wear, the zipper is arranged on one side of the waist, so that the clothes can be conveniently worn and taken off.
Compared with the prior art, the utility model has the beneficial effects that:
1. the utility model can meet the acquisition requirement by changing the electrode plate into the conductive cloth, and simultaneously has the following components: the electrode plate is not required to be pasted by a professional doctor, so that the time of the doctor and a patient is saved, and the operation is not influenced after the electrode plate is worn for a long time.
2. The collecting box is arranged on the clamping groove type base through the positioning clamping teeth and the like, so that the collecting box is convenient to install, and meanwhile, the lead wire adopted by the collecting box can be folded and washed, so that clothes have stretching and extensibility, and the washability is further ensured.
Drawings
FIG. 1 is a schematic structural view of a heart protective garment body according to the present invention;
FIG. 2 is a schematic structural view of the slot-type base of the present invention;
FIG. 3 is a schematic view of the structure of the rubber tube sheathed on the lead wire of the present invention.
In the figure: 1. a heart protective garment body; 2. a conductive cloth; 3. conducting wires; 4. collecting and storing structures; 41. a slot-in type base; 411. a first conductive portion; 412. a main card slot; 413. a clamping hole; 414. positioning latch teeth; 415. A base plate; 416. clamping edges at right angles; 5. an anti-slip tape; 6. a rubber tube.
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 should be noted that the terms "vertical", "upper", "lower", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.
In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
Referring to fig. 1-3, the present invention provides a technical solution: a heart protective garment for real-time acquisition and storage of dynamic electrocardiograms comprises an acquisition and storage structure 4 provided with an acquisition box, and is characterized by also comprising a heart protective garment body 1 and a detection conductive cloth component; the heart protective clothing body 1 comprises a front piece and a rear piece; the inner side surface of the front piece is distributed with a detection conductive cloth assembly, and the detection conductive cloth assembly comprises ten conductive cloths 2 and a plurality of lead wires 3; the ten conductive cloths 2 are respectively arranged on the inner sides of the hearts and chests of the human body, the ten conductive cloths 2 on the front piece are respectively correspondingly positioned at ten electrocardio detection points on the body, RA, LA, LL, RL, V1, V2, V3, V4, V5 and V6 are respectively marked on the ten conductive cloths 2, and the ten conductive cloths 2 are respectively electrically connected with the acquisition and storage structure 4 through lead wires 3 to form twelve leads; the peripheral edges of the conductive cloth and the conducting wires 3 are respectively stuck on the front sheet by adopting anti-skid adhesive tapes 5; the acquisition storage structure 4 further comprises a clamping groove type base 41 connected with the acquisition box in a clamping and embedding manner, and the clamping groove type base 41 is fixed on the heart-protective clothing body 1; the slot-type base 41 includes: a bottom plate 415, and rectangular right-angle clamping edges 416 respectively arranged at two side edges of the front surface of the bottom plate 415; one end of the right-angle clamping edge 416 is a closed end, and a main clamping groove 412 is formed between the right-angle clamping edge 416 and the bottom plate 415; a strip-shaped clamping hole 413 is formed in the upper horizontal edge of the right-angle clamping edge 416 along the length direction of the right-angle clamping edge, and the length of the clamping hole 413 is shorter than that of the main clamping groove 412; and the opposite sides of the upper horizontal sides of the two right-angle clamping sides 416 are respectively provided with a positioning clamping tooth 414; and a first conductive part 411 which is arranged on the front surface of the bottom plate 415, is positioned between the closed ends of the two right-angle clamping edges 416 and is electrically connected with the output ends of the plurality of lead wires 3.
In this embodiment, the bottom surface of the collection box is provided with a second conductive portion for contacting with the first conductive portion 411, and the collection box is provided with an insert plate for engaging with the main slot 412 and a sub-slot for engaging with the positioning slot 414, respectively, and the upper surface of the insert plate is provided with a gear (not shown) for engaging with the engaging hole 413.
In the present embodiment, the first conductive portions 411 are copper contacts.
In this embodiment, a counter bore is formed in the bottom plate 415 below the right-angle clamping edge 416, and an elastic rubber pad is arranged in the counter bore.
In this embodiment, through changing the electrode slice into electrically conductive cloth 2, can satisfy the collection requirement, have simultaneously: 1. the electrode slice is not required to be pasted by a professional doctor, so that the time of the doctor and a patient is saved; 2. can not cause allergy, and can not affect the operation after long-term wearing.
In this embodiment, the acquisition and storage structure includes an ecg acquisition chip, a filter device, a bluetooth device, a storage device, and a power supply, specifically, a human body sinus node generates electricity, human body skin, a conductive fabric 2, a lead wire 3, an acquisition and storage structure, an ADS ecg acquisition chip: the real-time detection of the electrocardio can be realized by operations such as amplification, high-pass filtering, low-pass filtering, a Bluetooth module and a user mobile phone.
In this embodiment, the outside of the conductive cloth 2 is also provided with the anti-slip tape 5, the anti-slip tape 5 is arranged around the outside of each conductive cloth 2, the anti-slip tape 5 is made of silica gel material, the anti-slip tape 5 is used for avoiding the mutual influence of the electric signals between the adjacent conductive wires 3 and improving the stability of contacting with the skin of the human body, and meanwhile, noise can not be generated due to sliding.
In this embodiment, the lead wire 3 includes a lead made of silver fiber, a rubber tube 6 sleeved outside the lead, and an insulating layer covering the rubber tube 6. The lead wire 3 made of silver fiber can make the lead wire foldable and washable, the rubber tube 6 can make the clothes have stretching and extensibility, and then an insulating layer is added outside, so that the clothes are insulating, stretchable and extensible, and the clothes are further washable.
In this embodiment, the heart protective garment body 1 is provided with cups corresponding to the breasts.
In this embodiment, the heart protective garment body 1 is vest type, short sleeve type, or long sleeve type.
In this embodiment, the waistline side of the heart protective clothing body 1 is formed by splicing a zipper.
In this embodiment, the heart protective clothing body 1 of the present invention is designed to be tight in order to prevent displacement, and since it is considered that the wearing is inconvenient, a zipper is provided on the waist side to facilitate the wearing and the taking off.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.
Claims (10)
1. A heart protective garment for real-time acquisition and storage of dynamic electrocardiograms comprises an acquisition and storage structure (4) provided with an acquisition box, and is characterized by further comprising a heart protective garment body (1) and a detection conductive cloth component;
the heart protective clothing body (1) comprises a front piece and a rear piece; the inner side surface of the front piece is distributed with a detection conductive cloth assembly, and the detection conductive cloth assembly comprises ten conductive cloths (2) and a plurality of lead wires (3); the ten conductive cloths (2) are respectively arranged at the inner sides of the hearts and chests of the human body, the ten conductive cloths (2) on the front piece are respectively correspondingly positioned at the ten electrocardio detection points on the human body, and the ten conductive cloths (2) are respectively and electrically connected with the acquisition and storage structure (4) through the lead wires (3) to form twelve leads; the peripheral edges of the conductive cloth and the conducting wires (3) are respectively stuck on the front sheet by adopting anti-skid adhesive tapes (5);
the acquisition and storage structure (4) further comprises a clamping groove type base (41) connected with the acquisition box in a clamping and embedding manner, and the clamping groove type base (41) is fixed on the heart-protective clothing body (1); the slot-in base (41) comprises: a bottom plate (415), and rectangular right-angle clamping edges (416) which are respectively arranged at two side edges of the front surface of the bottom plate (415); one end of the right-angle clamping edge (416) is a closed end, and a main clamping groove (412) is formed between the right-angle clamping edge (416) and the bottom plate (415); a strip-shaped clamping hole (413) is formed in the upper horizontal edge of the right-angle clamping edge (416) along the length direction of the right-angle clamping edge, and the length of the clamping hole (413) is shorter than that of the main clamping groove (412); and the opposite sides of the upper horizontal sides of the two right-angle clamping sides (416) are respectively provided with a positioning clamping tooth (414); a first conductive part (411) which is arranged on the front surface of the bottom plate (415), is positioned between the closed ends of the two right-angle clamping edges (416) and is electrically connected with the output ends of the plurality of lead wires (3);
the acquisition and storage structure further comprises an electrocardio acquisition chip, a filtering device, a Bluetooth device, a storage device and a power supply.
2. A heart protective garment for real-time acquisition and storage of holter grams according to claim 1, characterized in that: the bottom surface of the collection box is provided with a second conductive part for contacting with the first conductive part (411), corresponding positions on the collection box are respectively provided with an inserting plate for clamping with the main clamping groove (412) and an auxiliary clamping tooth matched with the positioning clamping tooth (414), and the upper surface of the inserting plate is provided with a gear shaping for clamping with the clamping hole (413).
3. A heart protective garment for real-time acquisition and storage of holter grams according to claim 1, characterized in that: the first conductive parts (411) are a plurality of copper contacts.
4. A heart protective garment for real-time acquisition and storage of holter grams according to claim 1, characterized in that: a counter bore is arranged on the bottom plate (415) corresponding to the lower part of the right-angle clamping edge (416), and an elastic rubber pad is arranged in the counter bore.
5. A heart protective garment for real-time acquisition and storage of holter grams according to claim 1, characterized in that: the anti-skid adhesive tape (5) is made of silica gel, and the adhesive surface of the anti-skid adhesive tape is a hot melt adhesive film.
6. A heart protective garment for real-time acquisition and storage of holter grams according to claim 1, characterized in that: the lead wire (3) comprises a lead wire made of silver fiber, a rubber band tube (6) sleeved outside the lead wire and an insulating layer coated outside the rubber band tube (6).
7. The heart protective garment for real-time acquisition and storage of holter grams according to claim 6, characterized in that: the insulating layer is made of polyester yarns.
8. A heart protective garment for real-time acquisition and storage of holter grams according to claim 1, characterized in that: one side of the waist of the heart-protecting coat body (1) is spliced by a zipper.
9. A heart protective garment for real-time acquisition and storage of holter grams according to claim 1, characterized in that: the heart protective clothing body (1) is provided with cups corresponding to the chest.
10. A heart protective garment for real-time acquisition and storage of holter grams according to claim 1, characterized in that: the heart-protecting coat body (1) is vest type, short sleeve type or long sleeve type.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022097795.6U CN216060537U (en) | 2020-09-22 | 2020-09-22 | Heart protective clothing for real-time acquisition and storage of dynamic electrocardiogram |
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CN202022097795.6U CN216060537U (en) | 2020-09-22 | 2020-09-22 | Heart protective clothing for real-time acquisition and storage of dynamic electrocardiogram |
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CN216060537U true CN216060537U (en) | 2022-03-18 |
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CN202022097795.6U Active CN216060537U (en) | 2020-09-22 | 2020-09-22 | Heart protective clothing for real-time acquisition and storage of dynamic electrocardiogram |
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