CN111358616A - Moon cup and plug thereof - Google Patents

Abstract

The invention discloses a moon cup and a plug thereof, wherein the moon cup is provided with a discharge pipe communicated with the bottom of a cup body and a discharge hole arranged on the discharge pipe and communicated with a pipeline of the discharge pipe, the opening and closing state of the discharge hole is controlled by the plug in the pipeline to realize liquid discharge, meanwhile, an intelligent detection component is arranged on the plug, a user does not need to take out, dump and clean the whole moon cup regularly and then put the moon cup into the body again, the liquid discharge can be carried out only by pulling the discharge pipe out of the human body and opening the liquid discharge state of the discharge pipe, and after the liquid discharge is finished, the discharge pipe is closed and then the cup body is pushed into the vagina again; and the accessible blocks up and gathers the menstrual fluid data that moon cup gathered to on accessible data transmission interface transmits the data reading equipment of outside, in order for carrying out the analysis to menstrual fluid data, consequently can enrich the function of moon cup, promote the intellectuality of moon cup, and the satisfaction that the user experienced.

Description

Moon cup and plug thereof

Technical Field

The invention relates to the technical field of physiological articles, in particular to a moon cup and a plug thereof.

Background

In order to solve the problem of menstrual bleeding, women generally select a sanitary towel or a tampon to absorb and isolate menstrual blood, but because the sanitary towel or the tampon is used next to the skin and the user feels sultry and moist after long-term wearing, the prior art has provided a moon cup on the basis. The moon cup is a menstrual product which is placed in a vagina for use, and can be placed in the vagina for collecting menstrual blood during menstrual period. Compared with sanitary towels or tampons, the moon cup has the advantages of practicability, healthier performance, environmental protection and the like. Referring to fig. 1-1 and 1-2, the most widely used moon cup in the prior art comprises a cup body 01 and a pull handle 02 connected to the bottom, wherein the bottom of the cup body 01 is closed, and the pull handle 02 is a solid handle. When the sanitary towel is used, the moon cup is cleaned and disinfected, then the moon cup is placed in an adaptive position in a vagina, after a period of time, the cup body 01 of the moon cup is pulled out of the vagina by pulling the tail end of the pull handle 02, and then liquid such as menstrual blood in the cup body is poured out, cleaned and disinfected, and then the moon cup is placed in the vagina again. Therefore, the current moon cup has the problems that the use is inconvenient, the function is single, the function is only the function of replacing a sanitary towel or a sanitary cotton strip, and the intelligence is not enough.

Disclosure of Invention

The moon cup and the blockage thereof mainly solve the technical problems that: the moon cup solves the problems that the existing moon cup is inconvenient to use, single in function and not intelligent enough.

In order to solve the technical problems, the invention provides a plug for a moon cup, which comprises a cup body for collecting menstrual fluid and a discharge pipe connected with the bottom of the cup body, wherein the side wall of the discharge pipe is provided with a discharge hole communicated with a pipeline of the discharge pipe, a closed area is arranged in the pipeline above the discharge hole, and an open area is arranged in the pipeline below the discharge hole; the blockage comprises a blockage body, the blockage body enters from the bottom of the cup body and is movably clamped in the discharge pipe, when the blockage body is clamped in the closing area, the blockage body is tightly contacted with the inner wall of the discharge pipe so as to isolate menstrual fluid in the cup body from the discharge hole, and when the blockage body enters the opening area from the closing area, the menstrual fluid in the cup body flows out through the discharge hole through the pipeline;

the blocking main body is provided with a sensor module capable of acquiring data of menstrual fluid stored in the moon cup and a power supply circuit connected with the sensor module to supply power to the sensor module;

the sensor module sends the obtained menstrual fluid data to a data reading device outside the blockage main body through the data transmission interface.

Optionally, the blocking main body is a sphere with a diameter matched with the diameter of the pipeline, the surface of the sphere is divided into a plurality of detection areas, and each detection area is correspondingly provided with the sensor module.

Optionally, the sensor modules correspondingly disposed in the detection regions are the same.

Optionally, the area of each detection region satisfies: when the ball body is clamped in the discharge pipe, at least one complete detection area is arranged towards the bottom of the cup body and is in full contact with menses flowing down from the bottom of the cup body.

Optionally, the blocking main body is a cylinder with a diameter matched with that of the pipeline, when the cylinder is clamped in the discharge pipe, the upper end of the cylinder faces the bottom of the cup body, and the sensor module is correspondingly arranged at the upper end of the cylinder;

or the like, or, alternatively,

when the cylinder is clamped in the discharge pipe, the upper end or the lower end of the cylinder faces the bottom of the cup body, and the sensor modules are correspondingly arranged at the upper end and the lower end of the cylinder.

Optionally, the power supply circuit includes a rechargeable battery connected to the sensor module and a charging circuit connected to the rechargeable battery, the plug main body further carries a charging interface connected to the charging circuit, and the rechargeable battery is electrically connected to an external charging device through the charging circuit and the charging interface.

Optionally, the plug body is made of resin, ceramic or glass.

Optionally, the sensor module includes a sensor acquisition end located on the surface of the plugging body or close to the surface of the plugging body, and a data processing module disposed in the plugging body and connected to the sensor acquisition end, and the data transmission interface is in communication connection with the data processing module.

Optionally, the sensor collecting end includes at least one of a color sensor collecting end, a concentration sensor collecting end, an odor sensor collecting end, a blood glucose sensor collecting end, a PH sensor collecting end, a red blood cell sensor collecting end, a platelet sensor collecting end, a hemoglobin sensor collecting end, and a blood lipid sensor collecting end.

In order to solve the technical problems, the invention also provides a moon cup, which comprises a cup body for collecting menstrual fluid and a discharge pipe connected with the bottom of the cup body, wherein the side wall of the discharge pipe is provided with a discharge hole communicated with a pipeline of the discharge pipe, a closed area is arranged in the pipeline above the discharge hole, and an open area is arranged in the pipeline below the discharge hole; the moon cup also comprises the plug, and the plug main body enters from the bottom of the cup body and is movably clamped in the discharge pipe.

The invention has the beneficial effects that:

the moon cup provided by the invention comprises a cup body for collecting menstrual fluid and a discharge pipe connected with the bottom of the cup body, wherein the side wall of the discharge pipe is provided with a discharge hole communicated with a pipeline of the discharge pipe, a closing area is arranged in an area above the discharge hole in the pipeline, and an opening area is arranged in an area below the discharge hole; the plug comprises a plug main body, the plug main body enters from the bottom of the cup body and is movably clamped in the discharge pipe, when the plug main body is clamped in the closing area, the plug main body is tightly contacted with the inner wall of the discharge pipe so as to isolate menstrual fluid in the cup body from the discharge hole, and when the plug main body enters the opening area from the closing area, the menstrual fluid in the cup body flows out through the discharge hole through the pipeline; the blocking main body is provided with a sensor module which can acquire menstrual fluid stored in the moon cup, a power supply circuit which is connected with the sensor module and supplies power to the sensor module, and a data transmission interface which is in communication connection with the sensor module, wherein the sensor module sends the acquired menstrual fluid data to a data reading device outside the blocking main body through the data transmission interface; therefore, the moon cup provided by the invention at least has the following advantages:

when the moon cup is used, a user does not need to take out, dump and clean the whole moon cup periodically and put the whole moon cup into the body again, the liquid can be drained only by pulling the discharge pipe out of the body and opening the discharge pipe, after the liquid is drained, the discharge pipe is closed, and then the cup body is pushed into the vagina again, so that frequent replacement or cleaning is not needed, the moon cup is simpler and more convenient to use than the existing moon cup, the time is saved, and the satisfaction degree of user experience is better;

the accessible blocks up and gathers the menstrual fluid data that the moon cup gathered to on accessible data transmission interface transmits the data reading equipment of outside, in order for carrying out the analysis to the menstrual fluid data, consequently can enrich the function of moon cup, promote the intelligence of moon cup, and the satisfaction that the user used experience.

Drawings

FIG. 1-1 is a schematic structural view of a conventional moon cup;

1-2 are cross-sectional views of the moon cup shown in FIG. 1-1;

fig. 2 is a schematic structural view of a novel moon cup according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a detection assembly according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of another detecting assembly according to an embodiment of the present invention;

FIG. 5-1 is a schematic view of a cylinder plugging body according to an embodiment of the present invention;

FIG. 5-2 is a first schematic view of a detection assembly disposed on a cylinder plugging body according to an embodiment of the present invention;

5-3 are schematic diagrams of a second arrangement of a detection assembly on a cylinder plugging body according to an embodiment of the present invention;

FIGS. 5-4 are schematic diagrams of a first application of a cylinder plugging body according to an embodiment of the present invention;

FIGS. 5-5 are schematic diagrams of a second application of the cylinder plugging body according to the embodiment of the present invention;

FIGS. 5-6 are schematic diagrams of a third application of a cylinder plugging body according to an embodiment of the present invention;

FIG. 6-1 is a schematic view of a spherical plug body according to an embodiment of the present invention;

FIG. 6-2 is a first schematic view of a detection assembly disposed on the spheroid occlusion body in accordance with an embodiment of the present invention;

FIG. 6-3 is a second schematic view of a detection assembly disposed on the spheroid occlusion body in accordance with an embodiment of the present invention;

FIGS. 6-4 are schematic views of a third exemplary embodiment of a detection assembly for a spheroid occlusion body;

6-5 are schematic views of a fourth exemplary arrangement of a detection assembly on the spheroid occlusion body according to embodiments of the invention;

FIGS. 6-6 are schematic diagrams illustrating the division of the detection region on the surface of the spheroid according to embodiments of the present invention;

FIGS. 6-7 are expanded schematic views of a spherical body surface detection zone according to embodiments of the present invention;

FIG. 7 is a first illustration of an embodiment of a spheroid plugging body;

FIG. 8 is a second illustration of an embodiment of the invention in a spherical plug body application;

FIG. 9 is a third illustration of an embodiment of the invention in a spherical plug body;

FIG. 10-1 is a schematic view of an ellipsoidal plug body provided in accordance with an embodiment of the present invention;

FIG. 10-2 is a first schematic view of a detection assembly disposed on an ellipsoidal plugging body according to an embodiment of the present invention;

FIG. 10-3 is a second schematic view of a detection assembly disposed on the plugging body according to the embodiment of the present invention;

FIGS. 10-4 are schematic illustrations of an ellipsoidal plugging body application provided by an embodiment of the present invention;

fig. 11 is a schematic structural diagram of a system according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings.

Aiming at the problems of inconvenient use, single function and low intelligence of the existing moon cup which only replaces the existing sanitary towel or sanitary cotton, the embodiment provides a novel moon cup which can enrich the functions of the moon cup and improve the intelligence and the user experience of the moon cup, the moon cup is provided with a discharge pipe communicated with the bottom of the cup body and a discharge hole which is arranged on the discharge pipe and communicated with a pipeline in the discharge pipe, and the moon cup is switched between two states of collecting menstrual fluid and discharging the menstrual fluid by controlling the opening and closing state of the discharge hole through the blockage arranged in the pipeline; meanwhile, the plug is provided with an intelligent detection assembly for collecting the data of the menses liquid stored in the cup body; therefore, when the moon cup is used, a user does not need to take out, pour and clean the whole moon cup regularly and put the whole moon cup into the body again, the liquid can be discharged only by pulling the discharge pipe out of the human body and opening the discharge pipe, and after the liquid is discharged, the discharge pipe is closed and then the cup body is pushed into the vagina again; and in the process of using the moon cup, the menstrual fluid data collected by the moon cup can be collected by the intelligent detection component on the blockage in the discharge pipe and can be transmitted to external data reading equipment through the data transmission interface so as to analyze the menstrual fluid data, so that the convenience and the intelligence of using the moon cup can be improved, and the satisfaction degree of user experience is improved.

For the convenience of understanding, the present embodiment will be exemplified below with reference to the structure of the new moon cup 1 having a liquid discharge structure shown in fig. 2. Referring to fig. 2, the cup body 11 and the discharge pipe 12 are included, the discharge pipe 12 is provided with a pipe 121 communicated with the bottom of the cup body 11, a discharge hole 122 is formed in a side wall of the pipe 121, the discharge hole 122 is communicated with the pipe 121, a closed area (not shown) is formed in an area above the discharge hole 122 in the pipe 121, an open area (not shown) is formed in an area below the discharge hole 122, and the spherical blocking body 2 can move back and forth between the closed area and the open area to switch a menstrual fluid collecting state and a menstrual fluid discharging state of the moon cup; wherein the occluding body 2 is brought into close contact with the side wall of the duct 121 (i.e., the inner wall of the discharge pipe 12) to isolate menstrual fluid in the cup from the discharge hole, i.e., to perform a closing function, when the moon cup is in a state of collecting and storing menstrual fluid; when liquid needs to be drained, the blocking main body can move downwards from the closing area and be clamped in the opening area, and at the moment, the liquid in the cup body flows outwards through the discharge hole through the pipeline, namely, the cup body is in a liquid drainage state. And when the plugging body 2 needs to be taken out, the plugging body 2 can be poured or extruded from the pipeline 121 into the cup body 11, so that the plugging body 2 can be taken out.

Wherein, the blocking main body 2 carries a detection component for collecting the menstrual fluid stored in the moon cup, please refer to fig. 3, and the detection component includes but is not limited to: the sensor module is arranged on the blocking main body and used for carrying out data acquisition on menstrual fluid stored in the moon cup, the power supply circuit is connected with the sensor module and used for supplying power to the sensor module, the data transmission interface is arranged on the blocking main body and is in communication connection with the sensor module, and the sensor module is in communication connection with data reading equipment outside the blocking main body through the data transmission interface. Therefore, the menstrual fluid stored in the moon cup can be subjected to data acquisition through the blockage matched with the moon cup for use, and the menstrual fluid is transmitted to the data reading equipment for analysis according to the acquired menstrual fluid data.

In addition, it should be understood that, in the present embodiment, the sensor module performs data acquisition on the menstrual fluid, and the specifically acquired menstrual fluid data may be flexibly set according to requirements, for example, but not limited to, at least one of the following example data may be acquired:

color of menstrual fluid, concentration of menstrual fluid, smell of menstrual fluid, blood glucose content of menstrual fluid, pH of menstrual fluid, number or proportion of red blood cells in menstrual fluid, number or proportion of platelets in menstrual fluid, number or proportion of red blood eggs in menstrual fluid, and blood lipid concentration of menstrual fluid.

Correspondingly, the specific type of the sensor module and the specific structural arrangement of the sensor module on the plugging main body in the embodiment can also be flexibly arranged according to specific requirements.

In this embodiment, the plug is movably disposed in the moon cup to be taken out of the moon cup when necessary, so that the moon cup can be conveniently cleaned and replaced. In some examples of this embodiment, the data transmission interface disposed on the blocking main body may be a data transmission interface for wired transmission, and when data transmission is performed, the blocking main body may be taken out from the moon cup, and then connected with a corresponding data transmission interface on a data reading device outside the blocking main body to establish a wired data transmission channel, and the sensor module may send the acquired data to the data reading device through the wired data transmission channel. The data reading device may be a control device capable of performing data analysis and performing corresponding control according to an analysis result, for example, an intelligent terminal such as a mobile phone; the data reading device may also be a data transfer device for transferring data, and the data transfer device may transmit the menstrual fluid data acquired from the sensor module to an intelligent terminal or a server at the rear end. The data transmission interface for wired transmission can adopt, but is not limited to, a type-c interface, a USB interface, a lightning interface, and the like.

It should be understood that, in this embodiment, the data sent out by the sensor module through the data transmission interface may include the collected source data, and at least one of the result data obtained after the analysis processing is performed according to the collected source data may be flexibly set according to the requirement.

In some examples of this embodiment, the power supply circuit includes a battery connected to the sensor module, and the sensor module may be powered by the battery. In some application scenarios, the battery may be a non-rechargeable battery, and when the battery is used up, the plugging body may be replaced or a battery provided in the plugging body may be replaced. In other application scenarios, the battery may be a rechargeable battery, the power supply circuit may further include a charging circuit connected to the rechargeable battery, the plug main body further carries a charging interface connected to the charging circuit, the rechargeable battery is electrically connected to an external charging device through the charging circuit and the charging interface, and the rechargeable battery in the plug main body is charged through the external charging device. And in the embodiment, the blocking body can be taken out from the moon cup, and then the rechargeable battery can be charged through the charging interface arranged on the blocking body. And in some examples, the external charging device may be provided as a charging dock device having a charging bay. And optionally, the external charging device and the data reading device can be integrated to form a physical device, and the charging and data transmission can be realized when the blocking main body is placed on the physical device.

In some examples of this embodiment, the power supply circuit may include a self-chargeable thermoelectric cell module that may be electrically connected to the sensor module to power it. The thermoelectric cell module comprises at least one thermoelectric couple, and the thermoelectric cell module is used for generating voltage according to the temperature difference of two contact ends of the thermoelectric couple to supply power for the sensor module. The thermoelectric cell module in the present embodiment can generate a thermoelectric force (voltage) based on the "zeebeck" effect. In this embodiment, two different metals or semiconductors may be connected to form a closed circuit, which is also called a thermocouple, and when the temperatures of two connection terminals are different, a thermoelectromotive force (voltage) is generated. Optionally, in this example, the power supply circuit may further include a rechargeable battery, wherein the rechargeable battery is electrically connected to the thermoelectric battery module, and the thermoelectric battery module is configured to charge the rechargeable battery, and the rechargeable battery is electrically connected to the sensor module to supply power to the sensor module. It should be noted that the thermoelectric cell module at this time can also directly supply power to the sensor module according to the requirement.

Optionally, in order to further improve the integration level and the resource utilization rate, reduce the product cost, and improve the convenience of application, the charging interface and the data transmission interface provided on the plug body may multiplex a physical interface, such as a type-c interface, a USB interface, or a lightning interface, that is, the charging and the data transmission are realized through the type-c interface, the USB interface, or the lightning interface.

It should be understood that the shape of the occluding body in the present embodiment can be flexibly set as long as it can satisfy the requirements shown in the above examples. For example, in some examples, the blocking body 2 may be a cylinder, a sphere, an ellipsoid, a square cylinder or other three-dimensional shape, and carries thereon a detection assembly for collecting menstrual fluid in the moon cup when the blocking body is placed in the moon cup.

In addition, it should be understood that the material of the blocking body in this embodiment may also be a flexible material with various insulating properties, such as but not limited to resin, glass, and ceramic. And the material that specifically adopts can adopt printing opacity material according to the demand, also can adopt non-printing opacity material. For example, in some examples, the blocking body may be made of a light-transmitting material, and the sensor module may include a color sensor for detecting a color of menstrual fluid, where the color sensor may be disposed inside the blocking body, and collects color information of menstrual fluid stored in the moon cup by using a light-transmitting property of the blocking body material. For another example, in some application scenarios, when the blocking main body is made of a non-light-transmitting material, the color sensor may be disposed on the surface of the blocking main body and perform a waterproof process to collect color information of menstrual fluid stored in the moon cup.

Therefore, the specific shape, the material adopted and the specific mode of the sensor thereon of the blocking main body in the embodiment can be flexibly set according to the requirements of specific application scenes. For example, as shown in fig. 4, the sensor module may include a sensor collecting end located on or near the surface of the plugging body, and a data processing module disposed in the plugging body and connected to the sensor collecting end, and the data transmission interface is communicatively connected to the data processing module. The sensor acquisition end is used for acquiring menses liquid information of menses liquid stored in the moon cup and transmitting the menses liquid information to the data processing module, the data processing module can be used for generating corresponding menses liquid data according to the received menses liquid information, and optionally, the menses liquid data can be further analyzed according to the obtained menses liquid data and a preset data analysis strategy to obtain a corresponding detection result; after the data transmission channel is established between the data transmission interface on the blocking main body and the data reading device, the data processing module can send at least one of the obtained menses liquid information, menses liquid data and analysis results to the data reading device through the data transmission channel.

In this embodiment, the sensor collecting end provided on the plugging body can satisfy, but is not limited to, the following rules:

a sensor acquisition end is arranged in at least one area corresponding to the contact surface of the blocking main body and the menstrual fluid, so that reliable acquisition of the menstrual fluid stored in the moon cup is realized;

the sensor acquisition end which needs to be in direct contact with the menses to finish menses information acquisition can be arranged on the surface of the blockage body; the sensor acquisition end which can also complete the menstrual fluid information acquisition without directly contacting with the menstrual fluid can be arranged in the blocking main body, optionally can be arranged close to the surface of the blocking main body, and can be flexibly set according to the specific type of the sensor.

The cup body and the discharge pipe in this embodiment can be made of elastic material, such as but not limited to silica gel; and the cup body and the discharge pipe can be of an integrated structure or a non-integrated structure.

For ease of understanding, the plug is described below as being cylindrical and spherical.

In some examples, when the blocking main body is a cylinder, when the cylinder is clamped in the pipeline, the upper end of the cylinder is ensured to face the bottom of the cup body, and the sensor module is correspondingly arranged at the upper end of the cylinder. In other examples, when the cylinder is clamped in the discharge pipe, the upper end or the lower end of the cylinder faces the bottom of the cup body, and the sensor modules are correspondingly arranged on the upper end and the lower end of the cylinder.

In some examples, when the blocking body is a sphere, the center of gravity of the sphere may be set to be an eccentric sphere, so as to ensure that the fixed surface of the sphere is contacted with menses toward the bottom of the cup body, and a corresponding sensor module is arranged in a corresponding area of the surface. The surface of the sphere can be divided into a plurality of detection areas, each detection area is correspondingly provided with a sensor module, and when the sphere is arranged in the moon cup, at least one detection area is contacted with menstrual fluid in the moon cup, so that the sensor module corresponding to at least one detection area is ensured to realize the acquisition of the menstrual fluid information. That is, the area of each detection region satisfies: when the ball body is clamped in the pipeline, at least one complete detection area is arranged towards the bottom of the cup body and is fully contacted with menses flowing down from the bottom of the cup body. For example, the surface area of the detection area may be set to be equal to or less than one third, one fourth, one fifth, or the like of the surface area of the entire surface facing the bottom of the cup body when the ball is engaged with the pipe. And it should be understood that, in some application scenarios in this example, the sensor modules correspondingly disposed in the respective detection areas may be the same, for example, all of them are disposed with color sensors, odor sensors, etc.; in other application scenarios of this example, the sensor modules correspondingly arranged in each detection area may be different, or the sensor modules correspondingly arranged in some detection areas may be the same, and the sensor modules correspondingly arranged in some detection areas are different, and specifically, the sensor modules may be flexibly set according to requirements.

In some examples of this embodiment, when there are at least some detection regions provided with the same sensor module, and at least two detection regions provided with the same sensor module are in contact with menstrual fluid to acquire menstrual fluid information, the data processing module of the sensor module may flexibly process the menstrual fluid information acquired from at least two acquisition ends of the same type of sensor, for example, averaging or peaking or selecting one of the menstrual fluid information according to a set rule. The processing can be flexibly performed according to application requirements, and details are not repeated herein.

In order to facilitate understanding, the present embodiment further exemplifies the present invention, in combination with several specific structural examples shown in the drawings, based on the above examples.

Example one: please refer to fig. 5-1 to 5-6:

in this example, referring to fig. 5-1, the plug body 2 is a cylinder, which is sized to fit the moon cup, and which may be made of resin, ceramic, glass, or the like.

In an application scenario of this example, please refer to fig. 5-2, a sensor acquisition end 22 is disposed in a region corresponding to an end surface of an upper end of a cylinder, a data processing module 21 is located in the cylinder, and a data transmission interface 24 is disposed in a region corresponding to an end surface of a lower end of the cylinder (optionally, the data transmission interface may be reused as a charging interface, although the charging interface may also be separately and additionally disposed, which is not described herein again), and a battery 23 is also disposed inside the cylinder, wherein the battery 23 may be a thin film battery and is attached to and electrically connected to the data processing module 21 to supply power to the sensor acquisition end (and the corresponding sensor acquisition end 22). In the application scene, when the cylinder is placed in the moon cup, the upper end of the cylinder is ensured to be upward and contacted with menstrual fluid in the moon cup. The specific functional circuits of the data processing module 21 and the sensor acquisition terminal 22 may be integrated circuits and integrated chips of the existing corresponding sensors, which are not described herein again.

In an application scenario of this example, please refer to fig. 5-3, the sensor acquisition ends 22 are disposed in an area corresponding to an end face at the upper end of the cylinder and an area corresponding to an end face at the lower end of the cylinder, the data processing module 21 is located in the cylinder, and the data transmission interface 24 is disposed in an area corresponding to a side face of the cylinder (optionally, the data transmission interface may be reused as a charging interface, and certainly, the charging interface may also be separately and additionally disposed, which is not described herein again), and the battery 23 is also disposed inside the cylinder, wherein the battery 23 may also be a thin film battery, and is attached to and electrically connected with the data processing module 21 to supply power to the sensor acquisition end (and the corresponding sensor acquisition end 22. In this application scenario, when the cylinder is placed in the moon cup, it is sufficient to ensure that at least one of the upper end and the lower end of the cylinder is in contact with menstrual fluid in the moon cup.

The sensor acquisition end 22 provided in this example may select, but is not limited to, at least one of the following according to requirements:

the color sensor acquisition end is used for acquiring and identifying the color of menstrual blood in the moon cup main body;

a PH (hydrogen ion concentration index) value sensor acquisition end for measuring the pH value of menstrual blood in the moon cup main body;

the odor sensor acquisition end is used for acquiring and identifying the odor type of menstrual blood in the moon cup main body;

the concentration sensor acquisition end is used for acquiring the bacterial concentration of menstrual blood in the moon cup main body;

the blood sugar sensor acquisition end is used for acquiring and measuring the blood sugar concentration of menstrual blood in the moon cup main body;

the red blood cell sensor acquisition end is used for acquiring and measuring the quantity or content of red blood cells of menstrual blood in the moon cup main body;

the platelet sensor acquisition end is used for acquiring and measuring the number or content of platelets of menstrual blood in the moon cup main body;

the collection end of the hemoglobin sensor is used for collecting and measuring the amount or content of hemoglobin of menstrual blood in the main body of the moon cup;

and the blood fat sensor acquisition end is used for acquiring and measuring the blood fat content (or blood fat concentration) of menstrual blood in the moon cup main body.

For the sake of understanding, a specific arrangement structure of the PH sensor in the accessory main body is explained as an example; for the setting of other types of sensors, reference may be made to the setting of the PH sensor, and details thereof are not repeated.

In an example of this embodiment, the acquisition end of the PH sensor may also be referred to as a PH meter probe, and specifically may be a three-electrode composite electrode, which is composed of a glass electrode, a reference electrode, and a temperature electrode; in one example, the glass electrode is composed of a glass support rod, a glass film, an internal reference solution, an internal reference electrode, an electrode cap, an electric wire and the like. The reference electrode has a known and constant electrode potential, for example, but not limited to, a calomel electrode or a silver/silver chloride electrode may be employed. Because the PH value is related to the temperature, a temperature electrode can be added for temperature compensation in order to improve the accuracy, and a three-pole composite electrode is formed. The PH meter probe can be integrally arranged on the surface of the accessory main body and is in contact with external menstrual fluid, a galvanic cell is formed by the hydrogen ion glass electrode and the reference electrode, and the concentration of hydrogen ions in the solution is detected by measuring the potential difference between the electrodes in the ion exchange process of the hydrogen ions in the glass membrane and the measured menstrual fluid, so that the PH value of the measured liquid is measured. The PH meter probe can realize the functions of detecting the PH value of the menstrual fluid and outputting corresponding signals by matching with a data processing circuit (which can be integrated into a processing chip) which is arranged inside the accessory main body in a matching way by the sensor.

For the occluding body 2 shown in fig. 5-1 to 5-3, an application example is shown in fig. 5-4 to 5-5. The blocking main body 2 which is cylindrical can move back and forth between the closing area and the opening area to realize the switching of the menstrual fluid collecting state and the menstrual fluid discharging state of the moon cup, and the blocking main body 2 which is cylindrical can carry out data acquisition on the menstrual fluid stored in the moon cup; when it is desired to remove the occluding body 2, the occluding body 2 may be poured or extruded from the tube 121 into the cup.

It should be understood that the plugging body 2 in this embodiment may also be used not as a plug of a moon cup, but as an intelligent accessory of a moon cup specially used for detecting menstrual fluid data, in which case it can be applied to a conventional moon cup shown in fig. 1-1 (only the plugging body 2 needs to be put into a cup body of the conventional moon cup), and also to a moon cup with other liquid discharge structures. For example, referring to fig. 5-6, a moon cup 1 is shown, which also includes a cup body 11 and a discharge pipe 12, the discharge pipe 12 has a pipe 121 communicating with the bottom of the cup body 11, the bottom of the pipe 121 is provided with a liquid discharge hole 124, a liquid discharge switch valve 123 is arranged above the liquid discharge hole 124, the blocking body 2 can be arranged in the pipe 121, and when the blocking body 2 needs to be taken out, the blocking body 2 can be poured or squeezed out from the pipe 121 into the cup body.

Example two: please refer to fig. 6-1 to fig. 9:

in this example, referring to fig. 6-1, the blocking body 2 is in the shape of a sphere, which is sized to fit the moon cup, and which may be made of resin, ceramic, glass, or the like.

In one application scenario of the present example, please refer to fig. 6-2, the center of gravity of the ball may be offset to ensure that the area of the surface where the ball is fixed always exceeds the bottom of the corresponding cup body to contact the menses; the sensor acquisition end 22 is correspondingly arranged in the surface area, the data processing module 21 is located in the sphere, a data transmission interface (not shown in the figure and optionally reusable as a charging interface can be correspondingly arranged on the sphere, the charging interface can be separately and additionally arranged, and is not described herein any more), and the battery is also arranged inside the sphere (not shown in the figure, and it should be understood that the sphere can be a solid sphere or a hollow sphere according to the requirement), wherein the battery can be a thin film battery, and is attached to and electrically connected with the data processing module 21 so as to supply power to the sensor acquisition end 22 (and the corresponding sensor acquisition end 22). In this application scenario, the specific functional circuits of the data processing module 21 and the sensor acquisition end 22 may also adopt an integrated circuit and an integrated chip of the existing corresponding sensor, which are not described herein again.

In an application scenario of this example, please refer to fig. 6-3, when a surface area fixed by the spherical ball always exceeds the bottom of the corresponding cup body to contact menses, the surface area may also be divided into a plurality of detection areas, and a sensor collecting end 22 is arranged corresponding to each detection area (the sensor collecting ends 22 arranged in each detection area may be the same or different or partially the same or partially different), and the data processing module 21 is located in the cylinder. The sensor acquisition end 22 provided in this example may be selected according to requirements, but is not limited to at least one of the acquisition ends shown in the first example, and will not be described herein again.

In another application scenario of the present example, please refer to fig. 6-4, the sphere may also be divided into a plurality of detection areas from each dimension of the three-dimensional space, and each detection area is correspondingly provided with the sensor acquisition end 22, so as to ensure that when the sphere is placed in the moon cup, one complete detection area is contacted with the menstrual fluid toward the bottom of the cup body, so as to realize acquisition of the menstrual fluid information. Similarly, in another application scenario of the embodiment, the sphere may be divided into a plurality of detection areas with smaller surface areas than those shown in fig. 6-4 from each dimension of the three-dimensional space, as shown in fig. 6-5 to 6-7, wherein the sphere surface shown in fig. 6-6 is formed by a plurality of area blocks 25 similar to the surface of a soccer ball, each area block 25 is a detection area, and after being unfolded into two-dimensional planes, as shown in fig. 6-7, a sensor collecting end 22 is correspondingly disposed on each area block 25, and one of the cross-sectional views is shown in fig. 6-5, so as to ensure that at least two complete detection areas are contacted with menses liquid toward the bottom of the cup body when the sphere is placed in the moon cup, so as to collect menses information.

For the occluding body 2 shown in fig. 6-1 to 6-7, an application example is shown in fig. 7 to 8. The spherical plugging body 2 may be disposed in the pipe 121, and when it is desired to remove the plugging body 2, the plugging body 2 may be poured or extruded from the pipe 121 into the cup.

Similarly, the spherical plugging body 2 in this example may not be used as a plug of the moon cup, but may be used as an intelligent accessory of the moon cup specially used for detecting menses data, and in this case, the plugging body is applicable to the conventional moon cup shown in fig. 1-1 (only the plugging body 2 needs to be put into the cup body of the conventional moon cup), and may also be applicable to moon cups with other liquid discharge structures. For example, referring to fig. 9, a moon cup 1 is shown, which also includes a cup body 11 and a discharge pipe 12, the discharge pipe 12 has a pipe 121 communicating with the bottom of the cup body 11, the bottom of the pipe 121 is provided with a liquid discharge hole 124, a liquid discharge switch valve 123 is arranged above the liquid discharge hole 124, a spherical blocking body 2 can be arranged in the pipe 121, and when the blocking body 2 needs to be taken out, the spherical blocking body 2 can be poured or squeezed out from the pipe 121 into the cup body.

Example three: please refer to fig. 10-1 to fig. 10-4:

in this example, as shown in fig. 10-1, the plugging body 2 has an elliptical sphere shape, the size of which is adapted to the moon cup, and the elliptical sphere may be made of resin, ceramic, glass, or the like. The sensor acquisition end 21 and the data processing module 22 are arranged on the ellipsoidal plugging body 2 in a manner similar to that of the cylindrical plugging body 2, as shown in fig. 10-2 and 10-3; of course, the manner of arranging the sensor acquisition end 21 and the data processing module 22 on the oval spherical plugging main body 2 may also be the same as the manner of arranging the spherical plugging main body 2, and will not be described herein again. Wherein the ellipsoidal plug body 2 is configured in the closed region of the discharge pipe conduit as shown in fig. 10-4, the ellipsoidal plug body 2 can be poured or squeezed out of the conduit 121 into the cup when it is desired to remove the plug body 2.

It should be understood that, when the blocking main body in this embodiment is a square main body (the corresponding pipe is also a square pipe) or other three-dimensional shape, the manner of arranging the sensor module thereon may refer to the manner shown in the above example, and will not be described herein again.

Referring to fig. 11, an application scenario of the present embodiment is that a data reading device and a charging device are made into a charging bin device 3, the charging bin device 3 has a base 32 and an upper cover 31, and the upper cover 31 and the base 32 can be connected by, but not limited to, a snap-fit manner; a charging bin for accommodating the plugging main body 2 is arranged on the base 32, a physical interface for combined use of charging and communication is arranged at the bottom of the charging bin, a corresponding physical interface for combined use of charging and communication is also arranged on the plugging main body 2, when the plugging main body 2 is placed in the charging bin, the two physical interfaces are butted to establish a charging and data transmission channel, so that the plugging main body 2 is charged through the charging bin device 3, and meanwhile, a sensor module in the plugging main body 2 can also transmit collected menstrual fluid data to the charging bin device; the specific charging state and the data transmission state may be displayed and prompted by, but not limited to, the charging state indicator lamp 33 and the communication connection indicator lamp 34, respectively. Meanwhile, a communication module can be arranged in the charging bin device and used for establishing wired or wireless communication connection with the intelligent terminal 4 and/or the server, and then data acquired from the blocking main body 2 are sent to the intelligent terminal 4 or the server 5 through communication connection; when the data is sent to the intelligent terminal 4, the intelligent terminal 4 can also send the obtained data and/or the result obtained according to the data to the server 5; therefore, the server 5 can acquire menses monitoring data of a large number of users, and provides a basis for continuously monitoring various diseases and physiological health states according to the menses data. Therefore, the functions of the moon cup can be further dug deeply, so that the moon cup replaces the functions of sanitary towels and sanitary cotton, and meanwhile, the menstrual fluid data of a user is monitored and analyzed by utilizing the blockage of the moon cup, the moon cup becomes a careful assistant for physiological health monitoring of the user, and the moon cup is more favorable for improving the competitiveness and popularization of moon cup products.

The foregoing is a more detailed description of embodiments of the present invention, and the present invention is not to be considered limited to such descriptions. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.

Claims (10)

1. A plug of a moon cup is characterized in that the moon cup comprises a cup body for collecting menstrual fluid and a discharge pipe connected with the bottom of the cup body, the side wall of the discharge pipe is provided with a discharge hole communicated with a pipeline of the discharge pipe, a closed area is arranged in the pipeline above the discharge hole, and an open area is arranged in the pipeline below the discharge hole; the blockage comprises a blockage body, the blockage body enters from the bottom of the cup body and is movably clamped in the discharge pipe, when the blockage body is clamped in the closing area, the blockage body is tightly contacted with the inner wall of the discharge pipe so as to isolate menstrual fluid in the cup body from the discharge hole, and when the blockage body enters the opening area from the closing area, the menstrual fluid in the cup body flows out through the discharge hole through the pipeline;

the blocking main body is provided with a sensor module capable of acquiring data of menstrual fluid stored in the moon cup and a power supply circuit connected with the sensor module to supply power to the sensor module;

the sensor module sends the obtained menstrual fluid data to a data reading device outside the blockage main body through the data transmission interface.

2. The plug for a moon cup according to claim 1, wherein the plug body is a sphere having a diameter matching the diameter of the pipe, and the surface of the sphere is divided into a plurality of detection areas, and the sensor module is disposed in each detection area.

3. The moon cup blockage according to claim 2, wherein the sensor modules provided for each of the detection zones are identical.

4. A plug for a moon cup according to claim 2, wherein each of said detection zones has an area satisfying: when the ball body is clamped in the discharge pipe, at least one complete detection area is arranged towards the bottom of the cup body and is in full contact with menses flowing down from the bottom of the cup body.

5. The plug of the moon cup according to claim 1, wherein the plug body is a cylinder with a diameter matching with the diameter of the pipeline, when the cylinder is clamped in the discharge pipe, the upper end of the cylinder faces the bottom of the cup body, and the sensor module is correspondingly arranged at the upper end of the cylinder;

or the like, or, alternatively,

when the cylinder is clamped in the discharge pipe, the upper end or the lower end of the cylinder faces the bottom of the cup body, and the sensor modules are correspondingly arranged at the upper end and the lower end of the cylinder.

6. A plug for a moon cup according to any one of claims 1 to 5, wherein the power supply circuit comprises a rechargeable battery connected to the sensor module, and a charging circuit connected to the rechargeable battery, the plug body further carrying a charging interface connected to the charging circuit, the rechargeable battery being electrically connected to an external charging device via the charging circuit and the charging interface.

7. A plug for a moon cup according to any one of claims 1 to 5, wherein the plug body is of resin, ceramic or glass.

8. A plug for a moon cup according to any one of claims 1 to 5, wherein the sensor module comprises a sensor collecting terminal located at or near a surface of the plug body, and a data processing module disposed in the plug body and connected to the sensor collecting terminal, the data transmission interface being in communication with the data processing module.

9. The moon cup blockage according to any one of claims 1 to 5, wherein the sensor collection port comprises at least one of a color sensor collection port, a concentration sensor collection port, an odor sensor collection port, a blood glucose sensor collection port, a pH sensor collection port, a red blood cell sensor collection port, a platelet sensor collection port, a hemoglobin sensor collection port, and a blood lipid sensor collection port.

10. A moon cup is characterized by comprising a cup body for collecting menstrual fluid and a discharge pipe connected with the bottom of the cup body, wherein the side wall of the discharge pipe is provided with a discharge hole communicated with a pipeline of the discharge pipe, a closing area is arranged in the pipeline at the area above the discharge hole, and an opening area is arranged in the pipeline at the area below the discharge hole; the moon cup further comprises the stopper according to any one of claims 1 to 9, wherein the stopper body enters from the bottom of the cup body and is movably engaged in the discharge pipe.

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