KR102053615B1 - Bottle and apparatus module for displaying electricity generation of electricity generation cosmetics - Google Patents

Abstract

Disclosed is a device for sensing electricity. The device for sensing electricity comprises: an electrode unit measuring that electricity is generated in the device; a control circuit converting measured quantity of electric charge into a voltage signal and amplifying the converted signal when the quantity of electric charge is measured through the electrode unit; and a current carrying display unit controlled by the control circuit and displaying state information of the device based on the measured quantity of electric charge. Accordingly, the user convenience may be improved.

Description

Container and modular device capable of displaying electricity generation of electricity-generating cosmetics {BOTTLE AND APPARATUS MODULE FOR DISPLAYING ELECTRICITY GENERATION OF ELECTRICITY GENERATION COSMETICS}

The present invention relates to a container and a modular device capable of indicating the electricity generation of the cosmetics.

 Recently, the cosmetics industry is in stagnation of new technology development, and cosmetics marketing is mainly through development of new evaluation method rather than new technology development of cosmetics itself. For example, face rollers have appeared to improve skin wrinkles and promote cosmetic absorption through electricity generation.

If electricity is generated from the cosmetic itself when using cosmetics, it may not use a product such as the face roller.

Recently, the efficacy of the generation of cosmetics have been revealed, if the electricity can be generated in the cosmetics itself can be confirmed by the eyes of the consumer will be excellent sales.

On the other hand, the above information is only presented as background information to help the understanding of the present invention. No determination is made as to whether any of the above is applicable as the prior art concerning the present invention, and no claims are made.

Registered Patent Publication No. 10-1777102 (Registration Date: 2017.9.5)

The present invention has been made to solve the above problems, an embodiment of the present invention proposes a pump device for discharging the liquid or viscous material including the piezoelectric material in the container to the outside.

In addition, an embodiment of the present invention proposes a container and a modular device capable of displaying the electricity generation of the cosmetics for generating electricity visually displaying electricity generated in the cosmetics.

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned above will be clearly understood by those skilled in the art from the following description. Could be.

Electrical sensing device according to an embodiment of the present invention, the electrode unit for measuring the generation of electricity in the device; A control circuit for converting and amplifying the measured charge amount into a voltage signal when the amount of charge is measured through the electrode unit; And an energization display unit which is controlled by the control circuit and displays state information of the device based on the measured charge amount.

An electrical sensing device according to an embodiment of the present invention, the electrical sensing device includes a first electrode and a second electrode for measuring the amount of charge of the piezoelectric material contained in the liquid or viscous material; A control circuit converting and amplifying the measured charge amount into a voltage signal when the amount of charge is measured through the first and second electrodes; And an energization display unit which is controlled by the control circuit and displays state information of the energized piezoelectric material, wherein the electric measurement device is connected to the nozzle head end of the pump device for discharging the liquid or viscous material in the container to the outside. Detachable.

Pump apparatus according to an embodiment of the present invention for realizing the above object, the nozzle head to which pressure for discharging the liquid or viscous material in the container to the outside; A first electrode and a second electrode for measuring the amount of charge of the piezoelectric material included in the liquid or viscous material in a predetermined movement path through which the liquid or viscous material moves when the pressure is applied to the nozzle head; A control circuit converting and amplifying the measured charge amount into a voltage signal when the amount of charge is measured through the first and second electrodes; And an energization display unit which is controlled by the control circuit and displays state information of the energized piezoelectric material.

More specifically, the predetermined movement passage is a specific region of the passage pipe disposed under the pump device, the width between the first electrode and the second electrode is formed narrower than the width of the passage pipe, The control circuit may be disposed inside the cylindrical housing disposed to surround the passage tube in a cylindrical shape, and the electricity display may be disposed to surround the cylindrical housing.

More specifically, the predetermined movement passage is a specific region of the nozzle head, and the control circuit and the energization display portion may be disposed in an area other than the lower portion of the nozzle head, but may be disposed in an area lower than the nozzle head. have.

More specifically, the control circuit and the energization display unit may be disposed in one region of the inner surface of the container.

More specifically, the load detection unit for calculating the load applied to the nozzle head; further comprising, the control circuit may calculate the piezoelectric coefficient based on the load and the measured charge amount input from the load detection unit. .

More specifically, the control circuit may calculate the distribution period of the liquid or viscous material based on the piezoelectric coefficient.

According to various embodiments of the present invention, the following effects may be derived.

First, since the inclusion of the piezoelectric material in the liquid or viscous material can be visually displayed, the display accuracy can be improved.

Second, when the piezoelectric material is included in the cosmetic, the absorption is faster to the skin, which can be confirmed by the user, thereby improving user convenience.

Third, the deterioration of the cosmetics, the shelf life can be confirmed, so that cosmetics can be managed hygienically.

Effects obtained in the present invention are not limited to the above-mentioned effects, and other effects not mentioned above may be clearly understood by those skilled in the art from the following description. will be.

1 shows an electrical sensing device according to an embodiment of the present invention.
2 shows a pump apparatus according to an embodiment of the present invention.
3 and 4 are more detailed representations of the electrical sensing module shown in FIG. 2.
5 is a block diagram showing the electrical configuration of the pump device according to an embodiment of the present invention.
6 to 15 illustrate a pump device according to various embodiments of the present disclosure.
16 to 18 illustrate an electrical sensing device according to another embodiment of the present invention.
As described above, the present invention has been illustrated and described with reference to preferred embodiments, but is not limited to the above-described embodiments, and is provided to those skilled in the art without departing from the spirit of the present invention. Various changes and modifications will be possible.

Hereinafter, various embodiments of the present disclosure will be described in detail with reference to the accompanying drawings. However, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

1 illustrates an electrical sensing device CA according to an embodiment of the present invention.

According to FIG. 1, the electrical sensing device CA may be implemented in a specific container form.

The electrical sensing device CA may detect an amount of charge generated from a material inside the device CA and display it to the outside. If the material inside the device (CA) is a cosmetic, it can be displayed on the device (CA) that the cosmetic has electrical properties, and the expiration date of the cosmetics can be expressed through the LED module.

The electrical sensing device CA may detect electricity generation due to fluid movement of the piezoelectric material, measure electricity by measuring a change in electrical polarity when the liquid crystal in the device CA is broken, and generate electricity inside the microcapsule. If there is material, electricity can be measured at the moment the microcapsules break. However, the electric sensing device CA may measure electricity generated in the device CA as well as the above-described embodiments.

The electrical sensing device CA may be embodied integrally with the container to display electricity generated from the internal material, and may be implemented as a separate module from the container to display electricity in a modular form that can be attached to and detached from the cosmetic container.

The electrical sensing device CA may detect an expiration date of the internal material. For example, when there is an electricity generating material inside the microcapsule, the CA may set the break time of the microcapsules to the expiration date of the internal material, and change the expiration date of the internal material by changing the polarity when the liquid crystal is broken. It can be detected. The deadline of the expiration date can be expressed through the external LED.

At this time, the LED may be set to blink instantaneously, but if the end of the expiration date is detected by having the battery module by the electric sensor (CA) itself, the LED is blinking at a predetermined interval by receiving power through the battery module. LED can be controlled to

The electric sensing device CA is controlled by an electrode unit for measuring the generation of electricity in the device, a control circuit and a control circuit for converting and amplifying the measured charge amount into a voltage signal when the amount of charge is measured through the electrode part It may include a current display (LED) for displaying the status information of the device based on the measured amount of charge.

Hereinafter, referring to FIGS. 2 to 15, a device for displaying electricity generated in cosmetics integrally implemented in a cosmetic container will be described.

2 shows a pump apparatus 100 according to an embodiment of the present invention. The pump device 100 may be combined with a vessel and may be interpolated into the vessel, depending on the implementation.

Referring to FIG. 2, the pump device 100 may include a nozzle head 151 to which pressure is applied to discharge the liquid or viscous material in the container to the outside. In addition, the pump apparatus 100 may include a vertical pipe 153, and may include a structure in which a material disposed below the vertical pipe 153 may be discharged to the end of the nozzle head 151.

In addition, the pump device 100 may further include a module AA for detecting a liquid or viscous material passing through the vertical pipe 153 when it contains an electrical material. The module AA may detect electricity generated in the piezoelectric material with an electrical sensing module, and measure an amount of electricity. Here, the piezoelectric material is a material having electrical properties when a physical force is applied.

The module AA shown in FIG. 2 will be described in more detail with reference to FIGS. 3 and 4.

According to FIGS. 3 and 4, the pump device 100 may include an energization display unit 130 that displays the liquid or viscous material to the outside when the liquid or viscous material has an electrical characteristic in a predetermined passage of the vertical pipe 153. . The predetermined passage may be inside the vertical pipe 153 and may be an area inside the nozzle head 151.

In addition, the pump device 100 may include a first electrode 110A and a second electrode 110B for detecting an electrical property of a liquid or viscous material in a predetermined passage of the vertical pipe 153. The electrode 110A and the second electrode 110B may be disposed to face each other, and may detect electrical characteristics.

An interval (width) between the first electrode 110A and the second electrode 110B may be narrower than the width of the vertical pipe 153. This means that the narrower the width, the higher the pressure can be measured, thereby generating a larger amount of charge.

In addition, the pump device 100 includes a control circuit 120 that measures the charge amount of the piezoelectric material sensed by the first electrode 110A and the second electrode 110B, and converts and amplifies the measured charge amount into a voltage signal. can do. The control circuit 120 may include an analog-to-digital converter (ADC) for converting an analog signal into a digital signal, and may include an amplifier circuit for amplifying the digital signal.

Hereinafter, the configuration of the pump device 100 will be described with reference to FIG. 5. 5 is a block diagram showing the electrical configuration of the pump device 100 according to an embodiment of the present invention. The pump device 100 may include an electrode unit 110, a control circuit 120, an energization display unit 130, and a load sensing unit 140. The configurations shown in FIG. 5 are not essential to implementing the pump device 100, so the pump device 100 described herein may have more or fewer components than those listed above. In addition, while referring to Figure 5 will be described with reference to the reference numerals of FIGS.

Before describing in detail, the pump device 100 according to an embodiment of the present invention may be coupled to a container to discharge the liquid or viscous material inside the container to the outside.

Among the components of the pump device 100, the electrode unit 110 may include a first electrode 110A and a second electrode 110B. The first electrode 110A and the second electrode 110B may be disposed in the vertical tube 153 and used to measure the amount of charge flowing between the two electrodes 110A and 110B while facing each other.

Here, the electrode unit 110 may include more electrodes than the two electrodes 110A and 110B. In this case, the electrode pairs may be implemented to face each other.

The electrode unit 110 detects electricity generated by the piezoelectric material passing momentarily through the vertical pipe 153 when the piezoelectric material contained in the liquid or viscous material inside the container is applied with external pressure through the nozzle head 151. It is possible to measure the amount of electricity.

The control circuit 120 is a module for controlling the pump device 100 as a whole. When the charge amount is measured through the first electrode 110A and the second electrode 110B, the measured charge amount is converted into a voltage signal and amplified. can do. The control circuit 120 may measure the amount of charge generated on the specific region (eg, the vertical tube 153).

The control circuit 120 may be disposed at adjacent portions of the two electrodes 110A and 110B, and may be formed to surround a passage tube through which liquid crystal or viscous material passes (eg, a cylindrical housing), and may be formed on one surface of the container inner surface. It can also be placed in the area.

The energization display unit 130 may be controlled by the control circuit 120 and display state information of the energized piezoelectric material. For example, the energization display unit 130 may emit light when the amount of charge exceeding a specific threshold value is detected in the piezoelectric material. The energization display unit 130 may be displayed as a light emitting diode (LED), may include a light emitting unit displaying a different color according to the amount of charge, and may display a charge amount including a display unit which may display a specific value.

The energization display unit 130 may be disposed in various areas including the outside of the nozzle head 151 and the outside of the container, and may be formed to surround the control circuit 120 when the control circuit 120 is disposed in a specific housing. have.

In addition, when the liquid or viscous material is a substance having an expiration date such as cosmetics, the pump device 100 may determine the expiration date of the cosmetic product using the measured charge amount. In addition, the shelf life of the liquid or viscous material may be determined based on the brightness intensity of the piezoelectric material.

In addition, the load detector 140 may detect and measure the pressure applied to the nozzle head 151. The control circuit 120 may measure the pressure applied to the nozzle head 151.

The load sensing unit 140 may be disposed in an area adjacent to the two electrodes 110A and 110B, and in some embodiments, may be disposed at an end portion of the vertical pipe 153.

The control circuit 120 may calculate the piezoelectric coefficient D of the piezoelectric material based on the following equation. Here, the charge amount is a value of the measured charge amount between the two electrodes 110A and 110B, and the load indicates the pressure applied to the nozzle head 151, and the load may be sensed / measured through the load detector 140.

D = charge / load

6 to 15 illustrate a pump device 100 according to various embodiments of the present disclosure. Reference is made to the above-mentioned reference numerals.

6 to 8, all of the electrode unit 110, the control circuit 120, and the energization display unit 130 of the pump device 100 may be disposed in the nozzle head 151.

In this case, since only the nozzle head 151 can be replaced when only the nozzle head 151 is separately formed, the replacement convenience can be improved.

9 to 11, the electrode unit 110 is disposed in the vertical tube 153, the energization display unit 130 is disposed in the nozzle head 151, and the control circuit 120 includes the nozzle head 151 or the vertical tube. 153 may be disposed inside.

12 to 15, the electrode unit 110, the control circuit 120, and the energization display unit 130 may be disposed inside or outside the container CA.

Hereinafter, referring to FIGS. 16 to 18, a modular electricity generation display device capable of displaying electricity generation will be described.

16 to 18 illustrate an electrical sensing device 100 according to another embodiment of the present invention.

The electrical sensing device 100 may be implemented separately from the vessel and the pump device, and the electrical sensing device 100 may be detachably formed in the distal region of the nozzle head to detect and measure the amount of charge in the distal region.

The electrical sensing device 100 includes a first electrode 110A and a second electrode 110B for measuring the amount of charge of a piezoelectric material included in a liquid or viscous material, and measures the amount of charge through the first and second electrodes. In this case, the control circuit 120 converts and amplifies the measured charge amount into a voltage signal, and is controlled by the control circuit 120 and includes an energization display unit 130 displaying state information of the piezoelectric material.

The electrical sensing device 100 may be implemented detachably under the vertical pipe. In addition, the electrical sensing device 100 may be disposed in a predetermined area inside the container to detect electricity generation generated in the container, and may visually display this.

In addition, although the drawings depict operations in a particular order, it is to be understood that such operations must be performed in the specific order or sequential order shown in order to obtain desirable results, or that all illustrated acts must be performed. Can not be done. In certain cases, multitasking and parallel processing may be advantageous. Moreover, the separation of the various system components of the above-described embodiments should not be understood as requiring such separation in all embodiments, and the described program components and systems will generally be integrated together into a single software product or packaged into multiple software products. It should be understood that it can.

As such, this specification is not intended to limit the invention to the specific terms presented. Thus, although the present invention has been described in detail with reference to the above examples, those skilled in the art can make modifications, changes and variations to the examples without departing from the scope of the invention. The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

Claims (8)

delete delete A nozzle head to which pressure for discharging the liquid or viscous material in the container to the outside is applied;
A first electrode and a second electrode for measuring the amount of charge of the piezoelectric material included in the liquid or viscous material in a predetermined movement path through which the liquid or viscous material moves when the pressure is applied to the nozzle head;
A control circuit converting and amplifying the measured charge amount into a voltage signal when the amount of charge is measured through the first and second electrodes; And
And an energization display unit which is controlled by the control circuit and displays state information of the energized piezoelectric material. The method of claim 3,
The predetermined movement passage is a specific region of the passage pipe disposed under the pump device, the width between the first electrode and the second electrode is formed to be narrower than the width of the passage pipe,
The control circuit is disposed inside the cylindrical housing disposed to surround the passage tube in a cylindrical shape,
And the energization display portion is arranged to surround the cylindrical housing. The method of claim 3,
The predetermined movement passage is a specific region of the nozzle head,
And the control circuit and the energization display portion are disposed in an area not below the nozzle head, but in an area below the nozzle head. The method of claim 3,
The control circuit and the energization display unit,
A pump device disposed in an area of the inner surface of the vessel. The method of claim 3,
And a load sensing unit for calculating a load applied to the nozzle head.
The control circuit,
And a piezoelectric coefficient is calculated based on the load input from the load sensing unit and the measured charge amount. The method of claim 7, wherein
The control circuit,
A pump device for calculating the shelf life of the liquid or viscous material based on the piezoelectric coefficient.

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