CN215605772U - Paster type electrocardiogram detector - Google Patents

Abstract

The application discloses a patch type electrocardiogram detector, wherein a battery jar cavity and a host machine cavity are respectively arranged in sealed cavities at two ends of a waterproof shell and a patch bottom film, a shell of the waterproof shell positioned at the upper part of a battery jar is provided with a raised semi-inclined plane, the area of the semi-inclined plane is about half of the area of the battery, and the semi-inclined plane has pressing flexibility; before the electrocardio detector works, the battery is placed in the battery jar in a semi-insertion mode, one end of the battery protrudes out of the battery jar, the tilting part is positioned in the semi-inclined plane, and the battery is not communicated with the battery jar at the moment; the structure can realize zero standby power consumption of the pre-installed battery and ensure the consistency of the power supply before the product is used. The battery is not needed to be installed by a user, the user can realize the power-on work of the equipment only by simply pressing, the integral waterproof characteristic of the equipment is not influenced, the power-on starting of the equipment is conveniently realized, and the additional cost is not needed.

Description

Paster type electrocardiogram detector

Technical Field

The application relates to the technical field of medical equipment, in particular to a patch type electrocardiogram detector.

Background

The electrocardiograph is a device which contacts with human skin through an electrode plate to obtain electrocardiographic information of the human body, and in the related art, the electrocardiograph generally comprises a patch for fixing the electrode plate on the human skin, a host for recording the electrocardiographic information obtained by the electrode plate, and a battery for supplying power to the host. Because the electrocardio detector needs to be worn on a human body for a long time, the tightness, the flexibility and the comfort degree of the electrocardio detector are very important. In the prior art, components such as a host, a battery and the like in the electrocardiogram detector are sealed in a shell, so that the battery is always in a standby state. Even if the electrocardiogram detector does not reach the hand of the user, the battery still consumes power in a standby state. Because the battery is always in a standby power consumption state, when the electrocardiograph detector is finally sent to different users from manufacturing to storage and transportation through different regions and different distribution channels, the actual remaining electric quantity of the battery in each device cannot be controlled and inconsistent, so that the actual wearing days cannot be controlled and inconsistent, and the medical health examination is finally influenced. In addition, if the battery is not pre-installed in advance, it needs to be purchased and operated separately at the user end, increasing the user operation steps and complexity.

SUMMERY OF THE UTILITY MODEL

The main aim at of this application provides a SMD electrocardio detector, realizes that the battery is pre-installed but not have battery electric quantity standby loss in order to reduce battery unnecessary standby power consumptive, when the electric quantity uniformity of guarantee equipment when normal use, guarantee to use convenience and the full waterproof performance of equipment can prolong the battery live time.

In order to achieve the purpose, the application provides a patch type electrocardiogram detector, a battery jar and a host are arranged in a sealed cavity between a waterproof shell and a patch bottom film, a tilted semi-inclined plane is arranged on the shell of the waterproof shell, which is positioned at the upper part of the battery jar, the area of the semi-inclined plane is about half of the area of the battery, and the semi-inclined plane has pressing flexibility; before the electrocardio detector works, a battery is arranged in a battery jar in a semi-inserted mode, one end of the battery protrudes out of the battery jar, and a tilting part is positioned in a semi-inclined plane; when the battery is in work, the battery can be pressed into the battery jar to normally supply power by pressing the semi-inclined plane.

The pressing flexible finger of the waterproof shell is thin-walled and has certain elasticity, and the pressing flexible finger can recover after being deformed. A flexible waterproof shell and a double-sided adhesive film are adopted to form a sealed cavity, and a flexible circuit board, a battery and the like are positioned in the sealed cavity; through adopting half the insertion to place the battery in the battery jar, realize non-contact structure, make the lid of looks adaptation on waterproof casing and fix the state of placing of battery. When a user needs to use the battery, the battery is completely installed in the battery jar in a mode of pressing the battery inclined cover body through external force to realize contact electrification.

The structure can realize zero standby power consumption of the pre-installed battery and ensure the consistency of the power supply before the product is used. The battery is not required to be installed by a user, the user can realize the power-on work of the equipment only by simply pressing, the integral waterproof property of the equipment is not influenced, the power-on starting of the equipment is conveniently realized, and the additional cost is not required.

Preferably, the waterproof shell is hermetically connected with the periphery of the double-sided adhesive film to form a sealed cavity, the flexible circuit board is positioned in the waterproof shell and is adhered to one surface of the double-sided adhesive film, and the other surface of the double-sided adhesive film is adhered to the bottom film of the patch.

Preferably, the waterproof shell, the flexible circuit board, the double-sided adhesive film and the patch base film are in a shape of an hourglass with two large ends and a narrow middle part, the battery jar and the host are respectively positioned at two ends of the flexible circuit board, and the battery is communicated with the host through the flexible circuit board to supply power to the host.

Preferably, metal electrodes are arranged at two ends of the flexible circuit board, through holes exposing the metal electrodes are arranged at two ends of the double-sided mucosa and the two ends of the paster basement membrane, the shapes and the positions of the through holes of the double-sided mucosa and the through holes of the paster basement membrane coincide with each other, and the metal electrodes are in contact with the skin of a human body through conductive colloid at the bottom of the paster. The human body bioelectricity signals are obtained by sticking the adhesive on the bottom layer of the patch and the conductive colloid and fixing the conductive colloid on the skin.

Preferably, the conductive colloid is made of hydrogel.

Preferably, the waterproof housing is of an integrally molded structure.

Preferably, the battery cover further comprises a key, the key is located at one end of the battery jar, a key part is arranged at a position corresponding to the battery cover body, and the key is electrically connected with the host through a flexible circuit board.

The key is separated from the host machine and is independently placed on the patch, and is connected with the host machine and the power supply through the flexible circuit belt; the external setting mode of button has reduced the area and the thickness's of host computer design requirement, can reduce the area of host computer and reduce the thickness of host computer. The position of the key is not arranged on the electrode any more, so that the influence of the pressure of the key on the electrode signal can be reduced to the maximum extent when the key is pressed.

Preferably, the battery cover body, the battery jar cover body and the key cover body are of an integrally formed structure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, serve to provide a further understanding of the application and to enable other features, objects, and advantages of the application to be more apparent. The drawings and their description illustrate the embodiments of the utility model and do not limit it. In the drawings:

FIG. 1 is a front view of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a schematic view of the waterproof housing of the present invention;

fig. 4 is a state diagram in which the battery is placed in the battery container.

In the figure: 1. a waterproof housing; 2. a flexible circuit board; 3. double-sided mucosa; 4. pasting a bottom film; 5. a conductive colloid; 11. a battery case; 12. a middle section; 13. pressing a key; 14. a battery; 15. a host; 16. a main body cover; 17. a battery cover body; 1701. a battery well cover; 1702. a battery bevel cover body; 19. a key section; 21. a metal electrode; 31. a through hole; 41. and a through hole.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all 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 application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the present application and its embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in this application will be understood by those of ordinary skill in the art as appropriate.

In addition, the term "plurality" shall mean two as well as more than two.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Example 1

As shown in fig. 1 and 2, the application provides a patch type electrocardiograph detector, which comprises a waterproof shell 1, a flexible circuit board 2, a battery 14, a double-sided adhesive film 3 and a patch bottom film 4, wherein the waterproof shell 1 and the periphery of the double-sided adhesive film 3 are hermetically connected to form a sealed cavity, and two sides of the double-sided adhesive film 3 are both sticky. The flexible circuit board 2 is positioned in the waterproof shell 1 and is adhered to one surface of the double-sided adhesive film 3, and the other surface of the double-sided adhesive film 3 is adhered to the paster basement membrane 4. The both ends of flexible circuit board 2 are equipped with metal electrode 21, and the both ends of two-sided mucosa 3, paster basement membrane 4 all are equipped with the through-hole that exposes metal electrode 21, the through-hole 31 of two-sided mucosa 3 and the through-hole 41 shape, the position of paster basement membrane 4 coincide mutually, that one side that metal electrode 21 contact human skin is equipped with conductive colloid 5, and conductive colloid 5 is the aquogel material. The bioelectrical signal of the human body is obtained by sticking the conductive colloid 5 on the skin. And the fixing is realized by pasting the bottom film of the patch with the skin.

As shown in fig. 3 and 4, a battery jar 11 and a host 15 are disposed on the flexible circuit board 2, the host 15 is soldered on the flexible circuit board, the battery 14 is disposed in the battery jar 11 in a half-inserted manner, one end of the battery 14 protrudes out of the battery jar 11, and the waterproof housing 1 is fastened on the flexible circuit board 2. A battery cover 17 for accommodating the battery jar 11 and the battery 14 and a host cover 16 for accommodating a host are arranged at corresponding positions of the waterproof shell 1; the battery cover 17 comprises a battery case cover 1701 which is matched with the battery case 11 in shape, and the top of the battery case cover 1701 is provided with a battery inclined cover 1702 matched with the part of the battery which protrudes out of the battery case 11. The outer surface of the battery bevel cover 1702 is formed in a shape of a bevel thumb to facilitate finger contact and pressing. Some identification marks may be provided on the outer surface of the bezel 1702 to indicate to the user where the user can press it.

The battery cover 1701 is provided with a key 13, the key 13 is positioned at one end of the battery jar 11, a key part 19 is arranged at the corresponding position of the battery cover 1701, and the key 13 is electrically connected with the host 15 through a flexible circuit board 2. The key 13 is not disposed above the metal electrode 21, nor on the main body 15. The battery cover 17, the battery case cover 1701, and the key cover 19 are integrally formed, and seal the battery case 11, the battery 14, and the key 13 in a single space.

A sealed cavity is formed by adopting a flexible waterproof shell 1 and a double-sided adhesive film 3, and the flexible circuit board 2, the host 15, the battery 14 and the like are positioned in the sealed cavity; the battery 14 is half inserted into the battery groove 11 to realize a non-contact structure, and the cover body matched with the waterproof shell 1 fixes the placing state of the battery. When a user needs to use the battery, the battery 14 is completely installed in the battery slot 11 by pressing the battery inclined cover 1702 with an external force, so as to realize contact energization.

The structure can realize zero standby power consumption of the pre-installed battery, ensure the consistency of the power supply before the product is used, and simultaneously, the product can not consume any electric quantity in the stock. The battery is not required to be installed by a user, the user can realize the power-on work of the equipment only by simply pressing, the integral waterproof property of the equipment is not influenced, the power-on starting of the equipment is conveniently realized, and the additional cost is not required.

Waterproof casing 1, flexible circuit board 2, two-sided mucosa 3 and paster basement membrane 4 all are the big, long and narrow "hourglass" shape in centre in both ends, battery jar 11, host computer 15 are located respectively the both ends of flexible circuit board 2, battery 14 feeds through the power supply to host computer 15 through flexible circuit board 2.

The two ends of the electrocardiogram detector are preferably in a circular or oval shape, so that the electrocardiogram detector is prevented from being provided with sharp edges, and the sharp edges can cause discomfort to a user when contacting the skin for a long time.

The host 15 and the battery 14 may be separately disposed at two ends of the flexible circuit board 2, or may be disposed at the same end of the flexible circuit board.

The waterproof shell 1 can be a flexible waterproof shell made of environment-friendly polyethylene material, and the patch base film 4 can be made of medical film or non-woven fabric material. The flexible waterproof shell is adopted, components such as a host computer 15 and a battery 14 for measuring data are installed in advance, and the host computer 15 is not powered before the battery 14 is not completely pressed into a battery groove; the power-on and power-on are realized through a mechanical force pressing mode, and the operation is extremely convenient. The battery 14 and the host 15 are arranged in a separable structure, so that the battery model can be conveniently replaced, and different working time requirements can be met. The key is separated from the host machine and is independently placed on the patch, and is connected with the host machine and the power supply through the flexible circuit belt; the external setting mode of button has reduced the area and the thickness's of host computer design requirement, can reduce the area of host computer and reduce the thickness of host computer. The position of the key is not arranged on the electrode any more, so that the influence of the pressure of the key on an electrode plate (electrode signal) can be reduced to the maximum extent when the key is pressed; in this case, the keys are placed beside the battery structure, but may be placed elsewhere.

After the device is used up, the waterproof shell 1 can be torn open, the host computer 15 is taken out, and the measurement data recorded in the host computer 15 can be read or the recovery of the host computer 15 is realized. The data in the host 15 may be transmitted directly by wireless communication without taking out the host 15, and may be recovered after reading the data.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (7)

1. A patch type electrocardiogram detector is characterized in that: a battery jar and a host are arranged in a sealed cavity of the waterproof shell and the patch bottom film, a shell of the waterproof shell, which is positioned at the upper part of the battery jar, is provided with a raised half inclined plane, the area of the half inclined plane is about half of the area of the battery, and the waterproof shell has pressing flexibility; before the electrocardio detector works, a battery is placed in a battery jar in a semi-insertion mode, one end of the battery protrudes out of the battery jar, the tilting part is positioned in the semi-inclined plane, and the battery can be pressed into the battery jar by pressing the semi-inclined plane to realize complete conduction and electrification with a host.

2. The patch type electrocardiograph detector according to claim 1, wherein: the waterproof shell, the flexible circuit board, the double-sided adhesive film and the paster basement membrane are all in a shape of an hourglass with two large ends and a narrow middle part.

3. The surface mount electrocardiograph measurement instrument according to claim 2, wherein: the battery jar and the host are respectively positioned in the closed cavities at the two ends of the flexible circuit board, and the battery supplies power to the host through the flexible circuit board.

4. The surface mount electrocardiograph measurement instrument according to claim 3, wherein: the two ends of the flexible circuit board are provided with metal electrodes, the two ends of the double-sided mucosa and the two ends of the paster basement membrane are provided with through holes exposing the metal electrodes, the shapes and the positions of the through holes of the double-sided mucosa and the through holes of the paster basement membrane are coincided, and one surface of the metal electrode, which is contacted with the skin of a human body, is provided with conductive colloid.

5. The surface mount electrocardiograph measurement instrument according to claim 4, wherein: the battery cover is characterized by further comprising a key, wherein the key is located at one end of the battery jar, a key part is arranged at the position corresponding to the battery cover body, and the key is electrically connected with the host through a flexible circuit board.

6. The surface mount electrocardiograph measurement instrument according to claim 5, wherein: the conductive colloid is made of hydrogel materials.

7. The patch type electrocardiograph detector according to claim 1, wherein: the waterproof shell is of an integrally formed structure.

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