CN210300995U - Intracardiac branch of academic or vocational study rehabilitation device - Google Patents

Abstract

The utility model relates to a recovered device of intracardiac branch of academic or vocational study includes the chest area at least, the chest area at least include the conductive part and with at least one interface that the conductive part is connected, the conductive part sets up the inboard of chest area and patient skin contact, and the surface of conductive part is provided with at least one adsorption hole, wears at the patient under the condition that the chest area carries out the motion and resumes, the adsorption hole is as can pass through interface exhaust gas produces the negative pressure and makes the conductive part with patient's chest closely laminates in order to avoid the relative patient's of conductive part chest produce the displacement friction the mode with the interface intercommunication. The utility model provides a recovered device of intracardiac branch of academic or vocational study is through adsorbing hole and adsorption disc, can the firm absorption at patient's chest of conductive part, rhythm of the heart detection module and air pump, avoids displacement friction to produce interfering signal.

Description

Intracardiac branch of academic or vocational study rehabilitation device

Technical Field

The utility model relates to the technical field of medical equipment, especially, relate to a recovered device of intracardiac branch of academic or vocational study.

Background

The primary goal of cardiology rehabilitation is to help patients recover self-care and increase regular physical activity. Exercise training is the core content of the rehabilitation of the cardiology department, and reasonably formulating and implementing exercise training schemes is the key of the rehabilitation of the cardiology department. The exercise scheme comprises endurance training and resistance training, but in the exercise rehabilitation process of a patient, different requirements are made on exercise time and intensity corresponding to physiological signs of the patient, if the exercise intensity is too large, the life of the patient can be endangered, and if the exercise intensity is too small, the rehabilitation effect cannot be achieved, so that a rehabilitation device for monitoring the heart rhythm in the exercise process is needed.

Chinese patent (publication number is CN207323459U) discloses a recovered device of intracardiac branch of academic or vocational study, including one can connect in the soft connection piece of chest front end, this soft connection piece both sides are equipped with the connecting band, the inner right side of soft connection piece inlays and is equipped with a rhythm of the heart monitoring module, still including inlaying processing chip, the GPS orientation module of locating the soft connection piece outside and the communication module based on urgent call for help simultaneously, rhythm of the heart monitoring module, GPS orientation module and communication module with processing chip forms electric connection, still includes a real-time pronunciation reminding device, this real-time pronunciation reminding device with rhythm of the heart monitoring module forms electric connection. However, the cardiology rehabilitation device provided in the patent is worn on the chest of the patient in the form of a chest strap, and the rhythm monitoring module is displaced due to the expansion and contraction of the chest of the patient during the exercise, so that a noise signal is generated to interfere with the heart rhythm monitoring module. Moreover, if the chest strap is loosely bound, the chest strap can rub against the skin in the movement process, so that a friction interference signal can be generated, the skin can be damaged due to the friction, and if the chest strap is strongly bound, the chest can be pressed to cause discomfort of a patient, so that the recovery of the patient is not facilitated.

SUMMERY OF THE UTILITY MODEL

To the deficiency that prior art exists, the utility model provides a recovered device of intracardiac branch of academic or vocational study includes the pectoral girdle at least. The chest strap includes at least an electrically conductive portion and at least one interface connected with the electrically conductive portion. The conductive part is arranged on the inner side of the chest belt, which is in contact with the skin of the patient. The surface of the conductive part is provided with at least one adsorption hole. Under the condition that the patient wears the chest strap to recover the movement, the adsorption hole is communicated with the interface in a mode that the negative pressure can be generated by exhausting gas through the interface, so that the conductive part is tightly attached to the chest of the patient, and the conductive part is prevented from generating displacement friction relative to the chest of the patient.

According to a preferred embodiment, the conductive part has a hollow structure therein. The hollow structure in the conductive portion is provided so that the suction holes can communicate with each other. The conductive part is movably connected with the chest strap in a mode that the conductive part and the chest of the patient can keep air tightness so as to avoid the conductive part from moving under the condition that the conductive part is adsorbed on the chest of the patient through the adsorption hole.

According to a preferred embodiment, at least one protrusion is further provided in the conductive portion. When the patient wears the chest strap for exercise recovery and the conductive part is adsorbed on the chest of the patient through the adsorption hole, the convex part is abutted against the inner wall of the conductive part in a manner of avoiding the hollow structure of the conductive part from being blocked.

According to a preferred embodiment, the interfaces comprise at least one first interface and at least one second interface. The first and second interfaces are located on the outside of the chest band. The first interface is electrically connected to the conductive portion so as to be capable of penetrating the chest band. The second interface is connected to the conductive portion so as to be capable of penetrating the chest band and airtightly connected to the conductive portion.

According to a preferred embodiment, the chest strap is further provided with at least one suction cup. The sucking disc is positioned on the inner side of the chest belt contacted with the skin. The suction cup is connected with the chest strap in a manner that enables the chest strap to be absorbed on the chest of the patient to avoid the chest strap from compressing the chest of the patient.

According to a preferred embodiment, a through hole is provided in the suction cup. Under the condition that the chest strap is adsorbed on the chest of a patient through the sucking disc, the through hole is in airtight communication with the chest strap in a mode that the sucking disc can be continuously kept in a vacuum state so that the adsorption force of the sucking disc is increased to avoid the chest strap from moving.

According to a preferred embodiment, an airway is provided in the chest strap. The air passage is communicated with the through hole. Under the condition that the air passage stretches along with the chest strap, the air passage is arranged in the chest strap in a mode that the air blockage can be avoided and the air tightness can be kept.

According to a preferred embodiment, the air passage is in communication with the electrically conductive portion. Under the condition that the patient wears the chest strap to recover the movement, the second interface is arranged in a mode that the gas in the sucker can be transmitted to the outside of the chest strap through the through hole, the air passage and the second interface in sequence.

According to a preferred embodiment, the cardiology rehabilitation device further comprises a heart rate detection module. The heart rate detection module is electrically connected with the conductive part through the first interface.

According to a preferred embodiment, the cardiology rehabilitation device further comprises an air pump. The air pump is communicated with the conductive part through the second interface.

The beneficial effects of the utility model are that following one or more:

1. the utility model provides a rehabilitation device for cardiology department, which can firmly adsorb a conductive part, a heart rate detection module and an air pump on the chest of a patient through an adsorption hole and an adsorption disc, so as to avoid the displacement friction to generate interference signals;

2. the utility model provides a recovered device of intracardiac branch of academic or vocational study adsorbs at patient's chest through adsorbing the dish, also can adsorb steadily at patient's chest under the more pine condition of chest area constraint, avoids oppressing the chest and arouses patient's discomfort.

Drawings

Fig. 1 is a schematic structural view of a preferred embodiment of the present invention; and

fig. 2 is a schematic structural diagram of a preferred conductive portion of the present invention.

List of reference numerals

1: and 2, chest strap 2: conductive section 3: interface

4: adsorption holes 5: projection 6: first interface

7: second interface 8: and (4) a sucker 9: through hole

10: an air passage 11: heart rate detection module 12: air pump

13: fixing device

Detailed Description

In the description of the present invention, it should be understood that if the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. are used in the orientation or positional relationship indicated on the basis of the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

In the description of the present invention, it should also be understood that unless otherwise explicitly specified or limited, "over" or "under" a first feature may include the first and second features being in direct contact, and may also include the first and second features not being in direct contact but being in contact with each other through another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The following detailed description is made with reference to the accompanying drawings.

As shown in fig. 1, the utility model provides a rehabilitation device for cardiology department, which at least comprises a chest belt 1. The chest strap 1 comprises at least an electrically conductive part 2 and at least one interface 3 connected to the electrically conductive part 2. The conductive part 2 is provided inside the chest band 1 in contact with the skin of the patient. The surface of the conductive part 2 is provided with at least one suction hole 4. When the patient wears the chest strap 1 to perform exercise recovery, the adsorption hole 4 is communicated with the interface 3 in a mode that gas can be exhausted through the interface 3 to generate negative pressure so that the conductive part 2 is tightly attached to the chest of the patient to avoid the conductive part 2 from generating displacement friction relative to the chest of the patient. Preferably, the conductive part 2 is made of an elastic conductive material, such as conductive rubber. Preferably, the conductive part 2 is fixed to the chest strap 1 by means of a seamless weaving. Preferably, the chest strap 1 is made of an elastic medical material. Preferably, the chest strap 1 is further provided with fastening means 13, which fastening means 13 are arranged at the ends of the chest strap 1. The other end of the chest strap 1 can be passed through the fixing device 13 and fixed by engagement, so that the chest strap 1 can be fixed to the chest of the patient. Preferably, interface 3 is the button interface, can match with air pump 12 and the 11 block of rhythm of the heart detection module respectively to fix air pump 12 and rhythm of the heart detection module 11 on chest area 1. Preferably, the heart rate detection module may be a heart rate detection module supporting bluetooth transmission and having a model of geoneaute, or may be an anti + transmission and having a model of HRM-Swim heart rate detection module. Preferably, the air pump 12 may be a miniature air pump, such as a K30 miniature air pump.

According to a preferred embodiment, the conductive part 2 has a hollow structure inside. The hollow structure in the conductive part 2 is provided so that the suction holes 4 can communicate with each other. In the case where the conductive part 2 is sucked to the chest of the patient through the suction hole 4, the conductive part 2 is movably connected to the chest band 1 in such a manner that the conductive part 2 can maintain airtightness with the chest of the patient to avoid movement of the conductive part 2.

According to a preferred embodiment, at least one protrusion 5 is also provided inside the conductive portion 2. When the patient wears the chest band 1 to perform exercise recovery and the conductive portion 2 is sucked to the chest of the patient through the suction hole 4, the convex portion 5 abuts against the inner wall of the conductive portion 2 so as to prevent the hollow structure of the conductive portion 2 from being clogged. Preferably, the structure of the convex portion 5 and the conductive portion 2 is as shown in fig. 2, and the convex portion 5 can avoid the conductive portion 2 having a hollow structure from being closed, thereby avoiding the suction hole 4 from being clogged.

According to a preferred embodiment, the interface 3 comprises at least one first interface 6 and at least one second interface 7. The first interface 6 and the second interface 7 are located on the outside of the chest strap 1. The first interface 6 is electrically connected to the conductive portion 2 so as to be capable of penetrating the chest band 1. The second port 7 is connected to the conductive part 2 so as to be capable of penetrating the chest band 1 and airtight with the conductive part 2.

According to a preferred embodiment, the cardiology rehabilitation device further comprises a heart rate detection module 11. The heart rate detection module 11 is electrically connected to the conductive part 2 via the first interface 6.

According to a preferred embodiment, the cardiology rehabilitation device further comprises an air pump 12. The air pump 12 communicates with the electrically conductive portion 2 through the second port 6.

Preferably, first interface 6 can be metal material's button interface, not only can fix heart rate detection module 11, avoids heart rate detection module 11 to slide and produces interference signal, can also be connected with the heart rate detection module 11 electricity with the heart rate signal of transmission patient. Preferably, the second port 7 is an airtight port, and can be connected with the air pump 12 by means of a screw connection.

According to a preferred embodiment, the chest strap 1 is further provided with at least one suction cup 8. The suction cups 8 are located on the inner side of the chest strap 1 in contact with the skin. The suction cups 8 are connected to the chest strap 1 in such a way that the chest strap 1 can be sucked against the chest of the patient in order to avoid the chest strap 1 from compressing the chest of the patient.

According to a preferred embodiment, a through hole 9 is provided in the suction cup 8. Under the condition that the chest strap 1 is adsorbed on the chest of the patient through the suction cups 8, the through holes 9 are in airtight communication with the chest strap 1 in a manner that the suction cups 8 can be continuously kept in a vacuum state so that the adsorption force of the suction cups 8 is increased to avoid the movement of the chest strap 1.

According to a preferred embodiment, air passages 10 are provided in the chest strap 1. The air passage 10 communicates with the through hole 9. In the case where the airway 10 is telescopic with the chest strap 1, the airway 10 is arranged within the chest strap 1 in such a way that gas blockage is avoided and gas tightness is maintained. Preferably, the air duct 10 may be a silicone hose, which can be disposed inside the chest strap 1.

According to a preferred embodiment, the air duct 10 communicates with the electrically conductive portion 2. When the patient wears the chest strap 1 for exercise recovery, the second interface 7 is arranged in a manner that the air in the suction cup 8 can be transmitted to the outside of the chest strap 1 through the through hole 9, the air passage 10 and the second interface 7 in sequence.

In order to facilitate understanding, the use of the examination device for emergency internal medicine of the present invention will be discussed.

Use the utility model discloses the time, at first fix chest strap 1 through fixing device 13 and enclose under patient's chest, then through first interface 6 and the fixed rhythm of the heart detection module 11 of second interface 7 and air pump 12, wherein, first interface 6 is connected with rhythm of the heart detection module 11 electricity, and patient's chest heart is regional to conductive part 2 hugging closely, can transmit the signal of telecommunication of rhythm of the heart to rhythm of the heart detection module 11 through first interface 6. In the process of the rehabilitation exercise of the patient, the second interface 7 is connected with the air pump 12 in an air-tight manner, and the air pump 12 can continuously pump air so as to pump away the air in the conductive part 2 with a hollow structure and the air passage 10, so that the conductive part 2 and the air passage 10 are in a vacuum state, so that the conductive part 2 is adsorbed on the chest of the patient through the adsorption holes 4, and the chest strap 1 is adsorbed on the chest of the patient through the suction cup 8. Through the adsorption fixing mode, the conductive part 2 and the chest belt 1 can be prevented from generating friction displacement, so that interference signals are prevented from being generated, and the accuracy of a heart rate detection result is prevented from being influenced. Because chest strap 1 uses 8 absorption fixed modes of sucking disc, can also can firmly adsorb in patient's chest under the loose condition of chest strap constraint, avoid oppressing the chest and arouse patient's discomfort. In addition, the air pump 12 continuously pumps air, so that the suction cup 8 is always in a vacuum state, and the phenomenon that the suction cup 8 cannot be adsorbed on the skin of the chest of the patient due to the texture of the skin is avoided.

It should be noted that the above-mentioned embodiments are exemplary, and those skilled in the art can devise various solutions in light of the present disclosure, which are also within the scope of the present disclosure and fall within the scope of the present disclosure. It should be understood by those skilled in the art that the present specification and drawings are illustrative only and are not limiting upon the claims. The scope of the invention is defined by the claims and their equivalents.

Claims (10)

1. A rehabilitation device for cardiology department, at least comprising a chest strap (1), characterized in that the chest strap (1) at least comprises a conductive part (2) and at least one interface (3) connected with the conductive part (2), the conductive part (2) is arranged on the inner side of the chest strap (1) contacting with the skin of a patient, and the surface of the conductive part (2) is provided with at least one suction hole (4),

under the condition that the patient wears the chest strap (1) to perform exercise recovery, the adsorption hole (4) is communicated with the interface (3) in a mode that the conductive part (2) is tightly attached to the chest of the patient by generating negative pressure through gas exhausted by the interface (3) so as to avoid displacement friction of the conductive part (2) relative to the chest of the patient.

2. The rehabilitation device for cardiology department according to claim 1, wherein the conductive part (2) has a hollow structure therein, and the hollow structure in the conductive part (2) is disposed in such a manner that the adsorption holes (4) can communicate with each other,

when the conductive part (2) is sucked on the chest of a patient through the suction hole (4), the conductive part (2) is movably connected with the chest belt (1) in a manner that the conductive part (2) can keep air tightness with the chest of the patient so as to avoid the movement of the conductive part (2).

3. The cardiology rehabilitation device according to claim 1 or 2, wherein at least one protrusion (5) is further provided in the conductive portion (2),

when the patient wears the chest strap (1) for exercise recovery and the conductive part (2) is adsorbed on the chest of the patient through the adsorption hole (4), the convex part (5) is abutted against the inner wall of the conductive part (2) in a manner that the hollow structure of the conductive part (2) can be prevented from being blocked.

4. The cardiology rehabilitation device according to claim 3, wherein the interface (3) comprises at least one first interface (6) and at least one second interface (7), the first interface (6) and the second interface (7) being located on the outside of the chest strap (1), wherein,

the first interface (6) is electrically connected to the conductive part (2) so as to be insertable through the chest strap (1), and the second interface (7) is connected to the conductive part (2) so as to be insertable through the chest strap (1) and airtight to the conductive part (2).

5. The cardiology rehabilitation device according to claim 4, wherein the chest strap (1) is further provided with at least one suction cup (8), the suction cup (8) being located inside the chest strap (1) in contact with the skin, the suction cup (8) being connected to the chest strap (1) in such a way that the chest strap (1) can be sucked against the patient's chest to avoid the chest strap (1) compressing the patient's chest.

6. The cardiology rehabilitation device according to claim 5, wherein a through hole (9) is provided in the suction cup (8), and wherein the through hole (9) is in airtight communication with the chest strap (1) in a manner that can continuously keep the suction cup (8) in a vacuum state such that a suction force of the suction cup (8) is increased to avoid movement of the chest strap (1) in a case where the chest strap (1) is sucked on the chest of the patient by the suction cup (8).

7. The cardiology rehabilitation device according to claim 6, wherein an air passage (10) is provided in the chest strap (1), wherein the air passage (10) communicates with the through hole (9), and wherein the air passage (10) is provided in the chest strap (1) in such a way that the air blockage is avoided and the air tightness is maintained in case the air passage (10) is telescopic with the chest strap (1).

8. The cardiology rehabilitation device of claim 7, wherein the airway (10) is in communication with the electrically conductive portion (2),

under the condition that the patient wears the chest strap (1) for exercise recovery, the second interface (7) is arranged in a mode that the gas in the sucking disc (8) can be transmitted to the outside of the chest strap (1) through the through hole (9), the air passage (10) and the second interface (7) in sequence.

9. The cardiology rehabilitation device of claim 8, further comprising a heart rate detection module (11), the heart rate detection module (11) being electrically connected with the conductive portion (2) through the first interface (6).

10. The cardiology rehabilitation device according to claim 9, further comprising an air pump (12), the air pump (12) being in communication with the electrically conductive portion (2) through the second interface (7).

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