CN216569972U - Portable electrocardio and surface myoelectricity measuring device - Google Patents

Abstract

The utility model discloses a portable electrocardio and surface myoelectricity measuring device, which relates to the field of medical instruments and comprises a first watchband, a second watchband and a dial plate, wherein the dial plate is connected between the first watchband and the second watchband through a rotating component, and a rolling component is arranged inside the dial plate. According to the utility model, the rolling assembly is arranged, the device can freely roll through the plurality of balls, the rubber sleeve can prevent the skin of a user from being abraded, the balls compress the spring and are retracted into the adjusting channel when the device rolls along with the balls, the user can press the device at intervals, the dial plate is directly contacted with the skin of the heart of the user, the electrocardio acquisition chip is used for electrocardio acquisition through the electrode contact, the sweat cannot influence the movement of the device, the acquisition is smoother, and the condition that the user generates the sweat to influence the use is avoided.

Description

Portable electrocardio and surface myoelectricity measuring device

Technical Field

The utility model relates to the field of medical instruments, in particular to a portable electrocardio and surface myoelectricity measuring device.

Background

In each cardiac cycle, the heart is excited by a pacing point, an atrium and a ventricle in succession, along with bioelectricity changes, the bioelectricity changes are called electrocardio, surface electromyogram signals are the combined effect of superficial muscle EMG and nerve trunk electrification activity on the skin surface, the activity of neuromuscular can be reflected to a certain extent, and the patient body needs to be examined in medicine, so that an electrocardio and surface electromyogram measuring device is needed.

Chinese patent with publication number CN207679448U discloses a single/multiple lead quick measurement device for electrocardiograph, which is worn on the wrist of a patient to check the body of the patient, which is convenient, but when the patient wears the device on the wrist, if the position is found not to be good, the position of the whole device needs to be adjusted by the patient, or even needs to be detached again and adjusted, so that the operation is not fast and convenient, and the device is worn at the same time, because the patient's movement or environmental factors can generate sweat, the patient can be attached to the heart to be measured, and the device is inconvenient to move.

SUMMERY OF THE UTILITY MODEL

Based on the above, the utility model aims to provide a portable electrocardio and surface myoelectricity measuring device, which solves the technical problems that the device is inconvenient to adjust after being worn and sweat generated by a user affects the use.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a portable electrocardio and surface flesh electricity measuring device, includes first watchband, second watchband and dial plate, all be connected with the dial plate through rotatory subassembly between first watchband and the second watchband, the inside of dial plate is provided with the roll subassembly.

Furthermore, be provided with anodal magnetic stripe in the middle of one side of first watchband, install the hasp around anodal magnetic stripe, the surface of first watchband has cup jointed the removal cover, be provided with the negative pole magnetic stripe in the middle of one side of second watchband, install the catching groove around the negative pole magnetic stripe, the inside of dial plate is provided with electrocardio acquisition chip, flesh electricity acquisition chip, signal transmission chip and electrode contact respectively.

Through adopting above-mentioned technical scheme, when the device uses, can arrange the wrist suitable position in with the dial plate, later buckle the second watchband downwards, and let first watchband walk around wrist and the contact of second watchband, the anodal magnetic stripe of rethread is laminated in the negative pole magnetic stripe, the hasp is installed in the catching groove, accomplish the installation to the device, electrocardio acquisition chip and the equal accessible electrode contact of flesh electricity acquisition chip gather user health information simultaneously, and pass through the signal transmission chip with data signal through bluetooth output to receiving equipment or through wireless network output to server high in the clouds, convenient to use person operates.

Further, rotating assembly includes fixed frame, annular damping groove and arc damping slider, the fixed frame has been cup jointed to the surface of dial plate, annular damping groove has been seted up around the fixed frame, arc damping slider, two are installed to the both sides in annular damping groove one side that annular damping groove was kept away from to arc damping slider is connected with first watchband and second watchband respectively.

Through adopting above-mentioned technical scheme, when needing adjusting device and user laminating position, the user can adjust first watchband, second watchband and dial plate simultaneously, also can press first watchband and second watchband, rotates dial plate and fixed frame, lets first watchband and second watchband slide in annular damping inslot through arc damping slider to make the direction that the dial plate corresponds change, play the purpose of adjustment.

Further, the rolling subassembly is including adjusting passageway, spacing mouth, spring, ball and rubber sleeve, the inside of dial plate is run through and is had a plurality of regulation passageways, and is a plurality of spacing mouths have all been seted up to regulation passageway's top and bottom, and the spring is all installed to a plurality of inside of adjusting the passageway, the ball is all installed to the top and the bottom of spring, the ball is located the inside of spacing mouth, the surface parcel of ball has the rubber sleeve.

Through adopting above-mentioned technical scheme, when the device is laminated in user's heart position and needs to remove, a plurality of balls of device accessible roll freely, and the rubber sleeve can prevent to appear wearing and tearing to user's skin, but and at the device along with ball roll the pressing device of in-process user's intervallity, let ball compression spring and retraction regulation passageway in, let the direct skin contact with user's heart position of dial plate, let the electrocardio gather the chip and carry out the electrocardio through electrode contact and gather, make the sweat can not influence the device and remove, can be more smooth and easy during the feasible collection.

Furthermore, the positive pole magnetic stripe and the negative pole magnetic stripe are adaptive, the hasp and the catching groove are adaptive, the inner diameter thickness of the movable sleeve is the sum of the thicknesses of the first watchband and the second watchband, the electrode contacts are provided with a plurality of electrode contacts, the electrode contacts are electrically connected with the electrocardio acquisition chip and the myoelectricity acquisition chip respectively, and the electrocardio acquisition chip and the myoelectricity acquisition chip are electrically connected with the signal transmission chip.

Through adopting above-mentioned technical scheme to anodal magnetic stripe and the laminating of negative pole magnetic stripe, the hasp is fixed with the catching groove, and restricts first watchband and second watchband through removing the cover, makes more firmly stable after the device installation.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, by arranging the rotating assembly, when the position of the device to be adjusted is attached to a user, the user can press the first watchband and the second watchband, the dial and the fixing frame are rotated, and the first watchband and the second watchband slide in the annular damping groove through the arc-shaped damping sliding block, so that the direction corresponding to the dial is changed, the purpose of adjustment is achieved, and the condition that the device is inconvenient to adjust after being worn is avoided;

2. according to the utility model, the rolling assembly is arranged, the device can freely roll through the plurality of balls, the rubber sleeve can prevent the skin of a user from being abraded, the balls compress the spring and are retracted into the adjusting channel when the device rolls along with the balls, the user can press the device at intervals, the dial plate is directly contacted with the skin of the heart of the user, the electrocardio acquisition chip is used for electrocardio acquisition through the electrode contact, the sweat cannot influence the movement of the device, the acquisition is smoother, and the condition that the user generates the sweat to influence the use is avoided.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view of the dial plate of the present invention;

FIG. 3 is a schematic perspective view of the dial plate of the present invention;

FIG. 4 is a schematic view of the rolling assembly of the present invention.

In the figure: 1. a first band; 101. a positive magnetic strip; 102. a hasp; 2. a second band of watchbands; 201. a negative magnetic stripe; 202. buckling grooves; 3. a dial plate; 4. a rotating assembly; 401. a fixing frame; 402. an annular damping groove; 403. an arc-shaped damping slide block; 5. a rolling component; 501. adjusting the channel; 502. a limiting port; 503. a spring; 504. a ball bearing; 505. a rubber sleeve; 6. an electrocardio acquisition chip; 7. myoelectricity acquisition chip; 8. a signal transmission chip; 9. and an electrode contact.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

The following describes an embodiment of the present invention based on its overall structure.

A portable electrocardio and surface myoelectricity measuring device is disclosed, as shown in figures 1-4, comprising a first watchband 1, a second watchband 2 and a watch face 3, wherein a positive magnetic strip 101 is arranged in the middle of one side of the first watchband 1, the positive magnetic strip 101 is matched with a negative magnetic strip 201 so that the positive magnetic strip 101 is jointed with the negative magnetic strip 201, a hasp 102 is arranged around the positive magnetic strip 101, the hasp 102 is matched with a buckling groove 202 so that the hasp 102 is fixed with the buckling groove 202, a movable sleeve 103 is sleeved on the outer surface of the first watchband 1, the inner diameter thickness of the movable sleeve 103 is the sum of the thicknesses of the first watchband 1 and the second watchband 2 so as to limit the first watch face 1 and the second watchband 2 through the movable sleeve 103, the device is more firm and stable after installation, the negative magnetic strip 201 is arranged in the middle of one side of the second watchband 2, the buckling groove 202 is arranged around the negative magnetic strip 201, when the device is used, the wrist 3 can be arranged at a proper position, then the second watchband 2 is bent downwards, the first watchband 1 is contacted with the second watchband 2 by bypassing the wrist, and is attached to the negative magnetic stripe 201 through the positive magnetic stripe 101, the hasp 102 is installed in the catching groove 202, and the installation of the device is completed, the dial plate 3 is internally provided with an electrocardio-collecting chip 6, a myoelectricity-collecting chip 7, a signal transmission chip 8 and an electrode contact 9 respectively, the electrode contacts 9 are provided with a plurality of electrode contacts 9, the electrode contacts 9 are electrically connected with the electrocardio-collecting chip 6 and the myoelectricity-collecting chip 7 respectively, the electrocardio-collecting chip 6 and the myoelectricity-collecting chip 7 are both electrically connected with the signal transmission chip 8, the electrocardio-collecting chip 6 and the myoelectricity-collecting chip 7 can collect the body information of the user through the electrode contacts 9, and the data signals are output to a receiving device through the Bluetooth through the signal transmission chip 8 or output to a cloud server through a wireless network, the person's of being convenient for operate, all be connected with dial plate 3 through rotating assembly 4 between first watchband 1 and the second watchband 2, but through rotating assembly 4 quick adjustment dial plate 3's direction position, the inside of dial plate 3 is provided with rolling assembly 5, makes the device remove more smoothly through rolling assembly 5.

Referring to fig. 1-4, the rotating assembly 4 includes a fixing frame 401, an annular damping groove 402 and an arc-shaped damping slider 403, the fixing frame 401 is sleeved on the outer surface of the watch dial 3, the annular damping groove 402 is formed around the fixing frame 401, the arc-shaped damping slider 403 is installed on two sides of the annular damping groove 402, one side of each of the two arc-shaped damping sliders 403, which is far away from the annular damping groove 402, is respectively connected with the first watchband 1 and the second watchband 2, when an adjusting device is needed to be attached to a user, the user can adjust the first watchband 1, the second watchband 2 and the watch dial 3 simultaneously, and can also press the first watchband 1 and the second watchband 2, the watch dial 3 and the fixing frame 401 are rotated, the first watchband 1 and the second watchband 2 slide in the annular damping groove 402 through the arc-shaped damping slider, so that the corresponding direction of the watch dial 3 is changed, and the purpose of adjustment is achieved.

Referring to fig. 1-4, the rolling assembly 5 includes a plurality of adjusting channels 501, a limiting opening 502, a spring 503, a ball 504 and a rubber sleeve 505, the adjusting channels 501 penetrate through the dial 3, the limiting openings 502 are formed at the top and bottom of the adjusting channels 501, the spring 503 is installed inside the adjusting channels 501, the ball 504 is installed at the top and bottom of the spring 503, the ball 504 is located inside the limiting opening 502, the rubber sleeve 505 is wrapped on the outer surface of the ball 504, when the device is attached to the heart of a user and needs to be moved, the device can freely roll through the ball 504, the rubber sleeve 505 can prevent the skin of the user from being worn, and the ball 504 can compress the spring 503 and retract into the adjusting channel 501 when the device rolls along with the ball 504, so that the dial 3 directly contacts with the skin of the heart of the user, let electrocardio gather chip 6 and carry out the electrocardio through electrode contact 9 and gather for the sweat can not influence the device and remove, can be more smooth and easy during feasible gathering.

The working principle is as follows: firstly, when the device is used, a user can place the dial 3 at a proper position on the wrist, then the second watchband 2 is bent downwards, the first watchband 1 is enabled to contact with the second watchband 2 by bypassing the wrist, then the positive magnetic strip 101 is attached to the negative magnetic strip 201, the hasp 102 is installed on the buckling groove 202, the installation of the device is completed, when the device is required to be adjusted to be attached to the user, the user can adjust the first watchband 1, the second watchband 2 and the dial 3 simultaneously, and also can press the first watchband 1 and the second watchband 2, the dial 3 and the fixing frame 401 are rotated, the first watchband 1 and the second watchband 2 slide in the annular damping groove 402 through the arc-shaped damping slider 403, so that the corresponding direction of the dial 3 is changed, the adjustment purpose is achieved, in the process that the device is worn by the user, the dial 3 can keep ventilation with the contact position of the user through a plurality of balls, prevent sweat from causing discomfort, and a user can press the device when needing to measure surface myoelectricity, the ball 504 compresses the spring 503 and retracts into the adjusting channel 501, the dial 3 is directly contacted with the skin of the wrist of the user, the myoelectricity collecting chip 7 collects surface myoelectricity through the electrode contact 9, and outputs data signals to a receiving device through Bluetooth or a server cloud end through a wireless network through the signal transmission chip 8, and when needing to measure the myoelectricity, the user can attach the device to the heart of the user and move the device, the device can freely roll through the plurality of balls 504, the rubber sleeve 505 can prevent the skin of the user from being worn, and the ball 504 compresses the spring 503 and retracts into the adjusting channel 501, the dial 3 is directly contacted with the skin of the heart of the user, let electrocardio gather chip 6 and carry out the electrocardio through electrode contact 9 and gather to through signal transmission chip 8 with data signal through bluetooth output to receiving equipment or through wireless network output to the server high in the clouds, make the sweat can not influence the device and remove, can be more smooth and easy to handle during feasible the collection, portable.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (5)

1. The utility model provides a portable electrocardio and surface flesh electricity measuring device, includes first watchband (1), second watchband (2) and dial plate (3), its characterized in that: the watch is characterized in that a watch dial (3) is connected between the first watch band (1) and the second watch band (2) through a rotating assembly (4), and a rolling assembly (5) is arranged inside the watch dial (3).

2. The portable electrocardio and surface myoelectricity measuring device according to claim 1, wherein: be provided with anodal magnetic stripe (101) in the middle of one side of first watchband (1), install hasp (102) around anodal magnetic stripe (101), the surface of first watchband (1) has cup jointed removal cover (103), be provided with negative pole magnetic stripe (201) in the middle of one side of second watchband (2), install catching groove (202) around negative pole magnetic stripe (201), the inside of dial plate (3) is provided with electrocardio respectively and gathers chip (6), flesh electricity and gathers chip (7), signal transmission chip (8) and electrode contact (9).

3. The portable electrocardio and surface myoelectricity measuring device according to claim 1, wherein: rotating assembly (4) are including fixed frame (401), annular damping groove (402) and arc damping slider (403), fixed frame (401) have been cup jointed to the surface of dial plate (3), annular damping groove (402) have been seted up all around of fixed frame (401), arc damping slider (403), two arc damping slider (403) are installed to the both sides of annular damping groove (402) one side that annular damping groove (402) were kept away from in arc damping slider (403) is connected with first watchband (1) and second watchband (2) respectively.

4. The portable electrocardio and surface myoelectricity measuring device according to claim 1, wherein: roll subassembly (5) including adjusting passageway (501), spacing mouthful (502), spring (503), ball (504) and rubber sleeve (505), the inside of dial plate (3) is run through and is had a plurality of regulation passageways (501), and is a plurality of spacing mouthful (502) have all been seted up to the top and the bottom of adjusting passageway (501), and spring (503) are all installed to the inside of a plurality of regulation passageways (501), ball (504) are all installed to the top and the bottom of spring (503), ball (504) are located the inside of spacing mouthful (502), the surface parcel of ball (504) has rubber sleeve (505).

5. The portable electrocardio and surface myoelectricity measuring device according to claim 2, wherein: the utility model discloses a myoelectricity collection device, including anodal magnetic stripe (101) and negative pole magnetic stripe (201) looks adaptation, hasp (102) and catching groove (202) looks adaptation, the internal diameter thickness of removing cover (103) is the sum of the thickness of first watchband (1) and second watchband (2), electrode contact (9) are provided with a plurality ofly, and is a plurality of electrode contact (9) are respectively with electrocardio acquisition chip (6) and myoelectricity acquisition chip (7) electric connection, electrocardio acquisition chip (6) and myoelectricity acquisition chip (7) all with signal transmission chip (8) electric connection.

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