KR101555634B1 - The cashier-type ovulatory phase test device for a basal body temperature and electrolyte resistance using - Google Patents

Abstract

The present invention relates to a check-out type oviductive testing apparatus using a basic body temperature and an electrolyte resistance value. The apparatus includes a body, a sensing unit disposed inside the body and capable of measuring an electrolyte resistance value contained in the saliva while sensing a human body temperature, A signal processing unit for calculating and processing the information measured by the sensing unit so that the user can visually confirm the information, a communication unit capable of transmitting and receiving information with the external terminal, a power unit for providing power, And a slide unit which is exposed to the outside of the body and connected to the sensing unit to slide the sensing unit into the interior of the body or to expose the sensing unit to the outside.
The sensing unit can be exposed to the outside of the main body or can be positioned inside the main body by sliding the sensing unit through the slide unit connected to the sensing unit while being exposed to the outside of the main body so that the sensing unit can be stored inside the main body when the sensing unit is not used, There is an advantage that the sensing unit can be used in a hygienic manner by preventing foreign substances from being deposited on the sensing unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an ovarian-type ovulatory phase test device using a basal body temperature and an electrolyte resistance value,

More particularly, the present invention relates to an apparatus and a method for testing an ovulation-type ovulatory test apparatus using a basic body temperature and an electrolyte resistance value. More specifically, it can predict the ovulatory phase smoothly through the electrolyte resistance value obtained from the body temperature and saliva of a woman, The present invention relates to an apparatus for testing an ovulation-type ovulatory apparatus using a basic body temperature and an electrolyte resistance value that can be used while keeping a test apparatus sanitarily by allowing the sensing part to be exposed externally only during measurement.

A commonly used ovulatory test apparatus is provided with a unit for detecting the potential difference of temperature and mucus of women as shown in Korean Utility Model Registration No. 20-0250850, and the user's body is contacted to the unit, The ovulation period was predicted.

However, even if the body temperature and various body information of women can be obtained and the ovulation period can be predicted through the above-described structure, a unit capable of acquiring ovulation period information of women is exposed to the outside, and dust or foreign substances are buried in the unit When the unit is not cleaned or cleaned every time when the test apparatus is used, it is possible to suck foreign matter, causing a problem in the sanitary condition, and the unit which is always exposed to the outside and damaged by the impact may be damaged.

In addition, the information obtained from the unit can not be transmitted to another apparatus, and the information can not be systematically managed.

The present invention relates to an apparatus for testing an ovulation-type ovulatory apparatus using a basal body temperature and an electrolyte resistance value. The apparatus comprises a body, a sensing unit positioned inside the body and capable of measuring an electrolyte resistance value contained in the saliva while sensing a human body temperature, A communication unit for transmitting and receiving information to and from an external terminal, a power unit for supplying power, a control unit for controlling each configuration electrically, The sensing part is exposed to the outside of the body, and includes a slide part that is slidable to the inside of the body or exposed to the outside by being connected to the sensing part. The sensing part is slid through the slide part connected to the sensing part while being exposed to the outside of the body. So that the sensing unit can be exposed to the outside of the main body or positioned inside the sensing unit, By making it possible to keep the interior of the body in use, not get foreign matter such as the sensing unit and it is an object to enable detection unit in a sanitary manner.

In addition, the body temperature and the electrolyte value of the saliva can be simultaneously measured through the sensing unit to more accurately predict the ovulation period of the women, and the information measured by the sensing unit can be smoothly transmitted to the external terminal through the communication unit, It is possible to systematically manage the information measured by the sensing unit through the display unit formed in the main body and visually or audibly confirm the operation state of each device, And to smoothly transmit the information obtained through loading or the like, or to charge the power source smoothly from the outside.

The sensing unit can be exposed to the outside of the main body or can be positioned inside the main body by sliding the sensing unit through the slide unit connected to the sensing unit while being exposed to the outside of the main body so that the sensing unit can be stored inside the main body when the sensing unit is not used, There is an advantage that the sensing unit can be used in a hygienic manner by preventing foreign substances from being deposited on the sensing unit.

In addition, the body temperature and the electrolyte value of the saliva can be simultaneously measured through the sensing unit to more accurately predict the ovulation period of the women, and the information measured by the sensing unit can be smoothly transmitted to the external terminal through the communication unit, It is possible to manage the systematically.

In addition, it is possible to smoothly check the information measured by the sensing unit through the display unit formed on the main body, visually or audibly confirm the operation state of each device, Information can be smoothly transmitted, or power can be smoothly received from the outside.

1 is a block diagram showing a carry-on type ovulatory test apparatus using a basic body temperature and an electrolyte resistance value according to the present invention.

In order to achieve the above object, the present invention is as follows.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

The apparatus 100 for testing an ovarian ovarian using the basic body temperature and the electrolyte resistance of the present invention includes a main body 10 formed in various shapes and materials as shown in FIG. And a sensing unit 20 which is located inside the body 10 and slides inside and outside the body 10 and can measure the body temperature of the person and the electrolyte resistance value contained in the saliva.

Here, the sensing unit 20 may be formed in various shapes and materials according to the purpose of the user, and is formed in a shape similar to a currently used sensor (not shown).

In other words, the sensing unit 20 may be formed in a single shape so that the body temperature and the electrolyte can be measured at the same time, or they can be formed separately so that the body temperature and the electrolyte can be separately measured.

A signal processing unit 30 is disposed at an arbitrary point in the main body 10 and calculates and manages corresponding information so that the user can easily visually check the measured value at the sensing unit 20.

In addition, a communication unit 40 capable of transmitting and receiving information with an external terminal (not shown) such as a computer or a portable terminal is formed at an arbitrary point in the main body 10.

Here, it is obvious that the communication unit 40 can use any communication method that is generally used at present.

The communication unit 40 may include a method such as encryption to enable the data generated by the sensing unit 20, the signal processing unit 30, the control unit 60 and the like to be smoothly transmitted to a remote mobile phone or a computer, (Not shown) or a switch (not shown) of the transceiver (not shown) so that the data generated by the transmission module 41 can be transmitted only when the user needs it, (Not shown).

Meanwhile, a power supply unit 50, which is provided inside the main body 10 and is provided in the main body 10 and supplies power to the main body 10, is formed.

It is a matter of course that the power supply unit 50 uses any method which is generally used in the present invention.

Meanwhile, a control unit 60, which is located inside the main body 10 and is electrically connected to the respective components formed inside the main body 10, controls the configuration of the main body 10 is formed.

Here, the control unit 60 acts as a controller (not shown) of a computer which is generally used at present.

The sensing unit 20 is coupled to the main body 10 and exposed to the outside and connected to the sensing unit 20 so that the sensing unit 20 is exposed to the outside of the main body 10, And a slide portion 70 which can be positioned inside is formed.

Therefore, only when the user senses the body temperature or the saliva of the user through the sensing unit 20 using the slide unit 70, the sensing unit 20 connected to the slide unit 70 by moving the slide unit 70 The body part 10 can be exposed to the outside of the body 10 to obtain the body information of the user and when the sensing part 20 is not used, the sensing part 20 can be inserted into the body 10 using the slide part 70 So that the sensing unit 20 can be more hygienically stored, managed, and used.

In addition, the sensing unit 20 is slidable in the main body 10 by the slide unit 70 so that the sensing unit 20 can be exposed to the outside and can be positioned inside the main body 10 It is self-evident that space is formed.

The main body 10 is provided with information processed by the signal processing unit 30 for calculating and processing the information measured by the sensing unit 20 and the information and information processed by the communication unit 40, And a display unit s formed in the form of a liquid crystal displayer (lcd) or a light emitting diode (LED) lamp or a speaker that can confirm the operating state of the display unit 100 by a visual or audible method.

Also, it is possible to charge the power source while being connected to the power source unit 50 to the inside of the main body 10, and it is also possible to use the battery-powered ovarian test apparatus 100 using the basic body temperature and the electrolyte resistance value, (b) may be further formed.

Here, it is obvious that the auxiliary battery (b) can use any type of battery which is generally used at present.

The main body 10 may further include an interface i connected to an external terminal by wire to send and receive information or to provide power to the power source 50 and the auxiliary battery b.

The sensing unit 20, the signal processing unit 30, the communication unit 40, the power supply unit 50, and the control unit 60 are electrically connected to each other. (Not shown in the drawing) and the like are used.

The sensing unit 20 and the slide unit 70 are mechanically coupled to each other. The sensing unit 20 and the slide unit 70 are mechanically coupled to each other by a combination of a groove (not shown) and a projection (not shown) (Not shown in the drawing) or an adhesive member (not shown in the drawing) such as an adhesive.

When the display unit s, the auxiliary battery b, and the interface i are additionally formed on the main body 10, it is obvious that the main body 10 is electrically connected while being controlled by the control unit 60 .

In addition, the main body 10 is provided with various types of switches that are currently in common use, such as a power source and an operating switch that can operate or control the carry-on type ovulatory test apparatus 100 using the basic body temperature and the electrolyte resistance value It is self-evident.

Hereinafter, the operation according to the preferred embodiment of the present invention will be described.

First, the sensing unit 20 of the carry-on type ovulatory test apparatus 100 using the initial basal body temperature and the electrolyte resistance value is located inside the main body 10. [

Then, the user pushes the slide unit 70 exposed to the outside while being coupled to the body 10 to measure the body temperature of the user, and the sensing unit 20, which is located in the body 1, 10).

Then, the sensing unit 20 exposed to the outside of the main body 10 is inserted under the tongue of the user (female).

When the sensing unit 20 is operated by pressing a switch formed on the main body 10 and a predetermined time is elapsed, the sensing unit 20 measures the electrolyte resistance value of the body temperature of the user and the components contained in the saliva, , And transmits the corresponding information to the signal processing unit (30).

Then, the signal processing unit 30 processes the information measured by the sensing unit 20 and converts the information into a form that can be confirmed by the user.

Here, the way in which the signal processing unit 30 operates is generally performed by various methods used in a computer or a digital apparatus.

Then, on the display unit s, information such as a body temperature of a user (woman) and a date on which the ovulation period is estimated based on the information is displayed.

In addition, the signal processed by the signal processing unit 30 is displayed on the display unit s, and the corresponding information is moved to the communication unit 40.

The communication unit 40 converts the data generated by the sensing unit 20, the signal processing unit 30, and the controller 60 to transmit the data wirelessly through the transmission module 41.

In other words, data is converted to facilitate transmission, such as encrypting data transmitted to the outside or converting an analog signal to a digital signal, so as to prevent data errors from occurring.

Then, the wireless transmitting part 42 formed in the form of a switch or a button is touched in the main body 10, and the information generated in the receptacle-type ovulatory testing device 100 using the basic body temperature and the electrolyte resistance value is transmitted to the user To the desired external terminal.

Here, the wireless transmitting unit 42 is used only when the user transmits the corresponding information to another place, such as a switch of a wireless transceiver.

Also, in order to transmit the information generated by the receptacle-type ovulatory test apparatus 100 using the basic body temperature and the electrolyte resistance value through a switch or the like formed in the main body 10 to an external terminal such as a mobile phone or a computer, Or IP address can be set in the check-out type ovulatory test apparatus 100 using the basic body temperature and the electrolyte resistance value.

It is a matter of course that the user can proceed to measure the information on the body through the display unit s or the like in sequence.

For example, a method of measuring the infant's body temperature through a digital thermometer.

Meanwhile, information transmitted to an external terminal such as a computer or a mobile phone through the communication unit 40 is accumulated and arranged, so that information on the user's ovulation period can be managed.

As described above, the sensing unit 20, which can measure the body temperature of the user and the electrolyte of the saliva, can be stored or used in the body 10 through the slide unit 70, So that the user can hygienically use the carry-on type ovulation test apparatus 100 using the basic body temperature and the electrolyte resistance value.

The measured information is transmitted to a mobile phone or a computer through the communication unit 40 and is measured by a check-out type oviductive test apparatus 100 using a basic body temperature and an electrolyte resistance value. By systematically managing the information, The information can be managed more efficiently.

Although the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have knowledge of.

10: Body
20:
30: Signal processor
40:
50:
60:
70:
s: Display
b: auxiliary battery
i: Interface
100: Countertop type ovulatory test device using basic body temperature and electrolyte resistance value

Claims (3)

A main body 10;
A sensing unit 20 located inside the body and capable of measuring an electrolyte resistance value contained in saliva while sensing the temperature of a person;
A signal processing unit 30 for computing and processing information measured by the sensing unit 20 so that the user can visually confirm the information;
A communication unit 40 capable of transmitting and receiving information with an external terminal;
A power supply unit 50 for supplying power;
A control unit (60) for electrically controlling each configuration;
A slide unit 70 exposed to the outside of the main body 10 and connected to the sensing unit 20 to slide the sensing unit 20 into the interior of the main body 10 or to expose the sensing unit 20 to the outside;
The communication unit 40 formed in the main body 10 includes a sensing unit 20, a signal processing unit 30, a transmission module 41 for converting data so as to transmit information generated by the control unit 60, And a wireless transmission unit 42 which can transmit only the information converted by the transmission module 41,
The main body 10 is provided with a display unit s (n) for visually or audibly checking the information measured by the sensing unit 20 and the operation state of the signal processing unit 30, the communication unit 40, the power supply unit 50, An auxiliary battery b connected to the power source unit 50 for charging the power source and an interface i connected to an external terminal through a wired connection so as to transmit and receive power or information, Which is based on the basic body temperature and the electrolyte resistance value.
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