KR102090060B1 - IoT self-hydro power filter shower which is able to confirm temperature, filter and water usage - Google Patents

Abstract

The present invention relates to a shower capable of checking water temperature, a replacement cycle of a filter, and water consumption and, more specifically, to an IoT self-waterpower generation filter shower capable of checking temperature, filter, and water consumption, wherein the temperature and consumption of water can be easily recognized through a display provided in the shower. In addition, a purification filter is installed in the shower to enable the shower to be used safely as well as to obtain high-quality water, and the waste of water can be minimized. Meanwhile, since the shower and a user terminal can communicate with each other through Bluetooth, if filter replacement cycle information in accordance with the consumption of water is inputted through the user terminal, a filter replacement cycle can be easily reocgnized and checked, so the performance of the purification filter can be easily maintained. Moreover, the shower can supply power by itself to operate a display, a sensor and a control part through self-power generation performed by a generation part installed in the shower.

Description

IoT self-hydro power filter shower which is able to confirm temperature, filter and water usage}

The present invention relates to a shower that can check the water temperature and the filter replacement cycle and the amount of water used, and in more detail, it is possible to easily grasp the temperature of the water and the amount of water used through the display provided in the shower, and purify the inside of the shower. The filter is installed to not only safely use the shower, but also to obtain high-quality water and minimize the waste of water, while the shower and the user terminal can communicate via Bluetooth, so that the filter replacement cycle information is different depending on the amount of water used. When inputted through the user terminal, the filter replacement cycle can be easily identified and checked, so it is easy to maintain the performance of the purification filter, and the power to operate the display, sensor, and control unit by itself is generated through the power generation unit provided in the shower itself. Io to check the temperature and filter and water consumption It is a technical field of T self-powered filter shower.

In general, a shower is a sprayer in the form of a sprinkler that sprays cold or hot water, and is mainly used for households such as bathrooms and bathtubs as well as sinks, and is also used for body showers, water poles, and water softeners.

These showers are usually formed with a hollow portion in which raw water is temporarily stored, and the front is opened, and a body having a handle to which a shower hose (water supply pipe) is connected, and a plurality of outlet holes are formed and coupled to the front opening of the body It is composed of a sprinkling plate that sprays raw water through the water outlet hole, and the part excluding the shower hose is integrally referred to as a 'shower head'.

On the other hand, daily tap water is full of pesticides, chemical components, and various impurities due to the lack of environmental protection, as well as rivers contaminated with sewage from industrial and domestic households, waste and livestock due to modern industrialization.

Although tap water as described above is purified by chlorine chlorine treatment in a water supply facility for various purposes, chlorine compound residue remains and harms human health, so consumers often drink water suitable for further purification. It is a situation in which many households are equipped with a purification device installed at home to obtain high-quality bath water during a shower, or use a purification device or a purification filter installed in a shower.

In particular, recently, a method of installing a purifying filter in a shower is mainly used to easily purify water and obtain bath water, but it is difficult to accurately grasp the replacement cycle of the filter, so the filter replacement cycle passes, so that the performance of the filter decreases consumers' There is a problem that satisfaction decreases.

In addition, most of the conventional showers are used in connection with a shower hose (water supply pipe) capable of mixing and supplying hot and cold water in a desired ratio. In order to adjust the temperature of the desired water, hot water and cold water are supplied to supply water to the shower and The user directly determines the temperature of the water sprayed through the shower while operating the lever of the adjustable faucet.

However, in the process of adjusting the water temperature, water is discharged through the shower until the water is adjusted to the desired temperature, and water is wasted or burns may occur if the water temperature is high in the process of directly contacting the skin with water. .

Republic of Korea Registered Patent No. 0912738 (2009.08.11) Republic of Korea Patent Publication No. 2017-0140887 (December 22, 2017)

The present invention is a technique devised to solve the problems according to the above-described prior art, it is not only easy to grasp the temperature of the water supplied to the shower and the amount of water used through the temperature sensor, the flow sensor and the purification filter, but also provides high-quality water If the filter replacement cycle information is input to the amount of water used through the user terminal through a Bluetooth connection between the shower and the user terminal, the filter replacement cycle can be easily identified and checked through the user terminal, thereby maintaining the performance of the purification filter. In addition, it is possible to minimize the waste of water by easily checking the water usage information for the filter replacement and the monthly or yearly water usage information through the user terminal. It saves energy by supplying power to operate the control unit itself. Check the filter and the water temperature and amount can be available IoT parties to the main object of the invention is to provide a hydroelectric power shower filters.

The configuration for achieving the present invention as described above is connected to the handle connected to the water supply pipe, the power generation unit 100 for producing electrical energy by the water flowing into the hollow; and the lower portion of the power generation unit 100 The water is supplied in communication with the upper portion, the receiving space 210 is partitioned and formed at the rear, and the head 200 is formed with a plurality of discharge holes through which water is discharged; and detachable inside the head 200 A filter 300 for purifying water that is installed and supplied; and a temperature sensor 400 that is installed inside the head 200 and measures the temperature of the supplied water; and the handle or the power generation unit 100 or the Flow sensor 500 installed inside the head 200 to measure the amount of water supplied; and installed on the front or rear of the head 200 to receive the temperature information of the water from the temperature sensor 400 Display current water temperature Or, receiving the usage information of the water from the flow rate sensor 500, the display unit 600 to display the amount of water used to date; and installed in the accommodation space 210 of the head 200, the user terminal and Bluetooth It is connected to, the temperature sensor 400 and the flow rate sensor 500 receives the temperature information of the water and the amount of water used to receive information from the control unit to be displayed on the user terminal; And it is installed in the accommodation space 210 of the head 200 to store the electrical energy produced by the power generation unit 100, the temperature sensor 400, the flow sensor 500, the display unit 600 , Battery 800 for supplying power to the control unit 700; includes, the head 200 includes a partition plate 220 for partitioning the accommodation space 210 into the upper and lower parts therein, the The partition plate 220 includes a maintenance hole 224 formed through the upper portion and an inflow hole formed by the second hermetic plate 226 and the second hermetic plate 226 coupled to the maintenance hole 224. (222), the temperature sensor 400 includes a first hermetic plate 410 for partitioning the lower portion of the receiving space 210, the control unit 700 of the receiving space 210 It is installed inside the upper portion, the first hermetic plate 410 is installed in the lower portion of the accommodation space 210, the first hermetic plate 410 is the upper outer periphery of the temperature sensor 400 Installed in the kite, the first hermetic plate 410 allows the lower portion of the receiving space 210 to be partitioned from the upper portion of the receiving space 210 so that the upper portion of the receiving space 210 is airtight, The second hermetic plate 226 allows the airtightness of the receiving space 210 to be formed together with the first hermetic plate 410 provided in the temperature sensor 400, and the temperature sensor 400 is the Through the inlet hole 222 is exposed to the hollow upper end side of the power generation unit 100, the upper portion of the power generation unit 100 is narrowed as the inner hollow goes upward, the temperature sensor 400 is the receiving space ( 210, the inlet hole 222 is formed under the second hermetic plate 226 by the second hermetic plate 226, and the inlet hole 222 is the power generation unit ( It is characterized in that it is formed in the direction opposite to the hollow upper end of 100).

In addition, the control unit of the present invention determines the filter replacement time by comparing the filter replacement cycle information according to the amount of water input input by the user through the user terminal and the water usage information received from the flow rate sensor, and determines the filter replacement time. Characterized in that it is displayed to be delivered to the user terminal.

In addition, the control unit of the present invention receives water usage information from the flow rate sensor and generates water usage information or water usage information for the month or year for filter replacement, and the monthly water usage information or water usage information for the user terminal It is characterized in that it is transmitted and displayed, and the user can initialize water usage information for filter replacement, monthly water usage information, and annual water usage information through a user terminal.

In addition, the upper portion of the power generation unit of the present invention is characterized in that the inner hollow becomes narrower toward the upper portion, and the head comprises a partition plate partitioning the receiving space therein, and the partition plate is formed through It comprises a maintenance hole and a second hermetic plate coupled to the maintenance hole and an inlet hole formed by the second hermetic plate, while the temperature sensor is installed in the lower portion of the receiving space, It characterized in that it comprises a first hermetic plate that partitions the lower portion of the receiving space.

The IoT self-hydropower filter shower that can check the temperature, filter, and water usage according to the present invention as presented above detects the temperature of water with a temperature sensor and detects the amount of water with a flow rate sensor to detect the detected water temperature and water usage. By displaying through the display, the user can easily grasp and check the temperature of the water and the amount of water used, so that it is possible to safely use the shower as well as to minimize waste of water.

In addition, according to the present invention, a purification filter is installed inside the shower to obtain high-quality water, and the shower and the user terminal are capable of Bluetooth communication, thereby inputting filter replacement cycle information according to the amount of water used through the user terminal. If the filter replacement cycle can be easily identified and checked through the user terminal, the performance of the purification filter can be easily maintained, and the water usage information for filter replacement and water usage information for the month or year can be easily checked through the user terminal. The effect of minimizing the waste of water can be obtained.

In addition, the present invention can be self-powered by the water supplied by installing the generator in the shower, it is possible to obtain the effect of saving energy by supplying the power to operate the display, sensor, control unit by itself.

1 is a perspective view showing sour according to a preferred embodiment of the present invention.
Figure 2 is a perspective view of another angle showing a shower according to a preferred embodiment of the present invention.
Figure 3 is an exploded perspective view showing a shower according to a preferred embodiment of the present invention.
Figure 4 is a cross-sectional perspective view showing a shower according to a preferred embodiment of the present invention.
Figure 5 is a side cross-sectional view showing a shower according to a preferred embodiment of the present invention.
Figure 6 is a front view showing the head with the second hermetic plate and the head cover removed according to a preferred embodiment of the present invention.
Figure 7 is a schematic diagram showing the filter replacement time confirmation through a user terminal according to a preferred embodiment of the present invention.
8 is a schematic view showing the amount of water usage through a user terminal according to a preferred embodiment of the present invention.
9 is a schematic diagram showing initialization of water usage information through a user terminal according to a preferred embodiment of the present invention.

The present invention relates to a shower that makes it easy to check the temperature of the water, the filter replacement cycle, and the amount of water used. In more detail, the shower and the user terminal are connected via Bluetooth, and through the display unit 600 provided in the shower. At the same time, it is easy to grasp the temperature of water and the amount of water used, and to grasp the temperature of the water and the amount of water through the user terminal.However, the water usage information for filter replacement and monthly or yearly water usage information can be grasped through the user terminal to ensure safe water temperature. In addition to using a shower, it is possible to minimize waste of water, and when a user inputs filter replacement cycle information according to the amount of water used through the user terminal, the filter replacement cycle information and water usage information for filter replacement are compared and filtered. Filter (300) because replacement cycle can be easily identified and checked Through the purification of water, high-quality water can be stably obtained, while the display unit 600, the temperature sensor 400, the flow sensor 500, and the control unit 700 are self-generated through the power generator 100. It is a technology for IoT self-powered filter shower that can check the temperature, filter, and water usage, which can save energy by supplying the power to operate itself.

The configuration for achieving the present invention as described above is connected to the handle connected to the water supply pipe, the power generation unit 100 for producing electrical energy by the water flowing into the hollow; and the lower portion of the power generation unit 100 The water is supplied in communication with the upper portion, the receiving space 210 is partitioned and formed at the rear, and the head 200 is formed with a plurality of discharge holes through which water is discharged; and detachable inside the head 200 A filter 300 for purifying water that is installed and supplied; and a temperature sensor 400 that is installed inside the head 200 and measures the temperature of the supplied water; and the handle or the power generation unit 100 or the Flow sensor 500 installed inside the head 200 to measure the amount of water supplied; and installed on the front or rear of the head 200 to receive the temperature information of the water from the temperature sensor 400 Display current water temperature Or, receiving the usage information of the water from the flow rate sensor 500, the display unit 600 to display the amount of water used to date; and installed in the accommodation space 210 of the head 200, the user terminal and Bluetooth It is connected to, the temperature sensor 400 and the flow rate sensor 500 receives the temperature information of the water and the amount of water used to receive information from the control unit to be displayed on the user terminal; And it is installed in the accommodation space 210 of the head 200 to store the electrical energy produced by the power generation unit 100, the temperature sensor 400, the flow sensor 500, the display unit 600 , Battery 800 for supplying power to the control unit 700; characterized in that comprises a.

In addition, the control unit 700 of the present invention determines the filter replacement time by comparing the filter replacement cycle information according to the amount of water input input by the user through the user terminal with the usage information of the water received from the flow rate sensor 500 , It is characterized in that the determined filter replacement time is transmitted to the user terminal and displayed.

In addition, the control unit 700 of the present invention receives water usage information from the flow rate sensor 500 to generate water usage information or water usage information for a month or year for filter replacement, and monthly water usage information or years It is characterized in that the water usage information is transmitted to the user terminal for display, and the user is able to initialize the water usage information for the filter replacement, the monthly water usage information and the annual water usage information through the user terminal.

In addition, the upper portion of the power generation unit 100 of the present invention is characterized in that the inner hollow is narrowed toward the top, the head 200 is a partition plate 220 for partitioning the receiving space 210 therein; It is configured to include, the partition plate 220 is formed through the upper maintenance hole 224; and the second hermetic plate 226 coupled to the maintenance hole 224; And the inflow hole 222 formed by the second hermetic plate 226, while the temperature sensor 400 is installed under the accommodation space 210, and the accommodation space ( It characterized in that it is configured to include a; first hermetic plate (410) for partitioning the lower portion of 210).

Hereinafter, the present invention will be described in detail with reference to FIGS. 1 to 7 showing an embodiment of the present invention.

First, the shower of the present invention comprises a handle (not shown) connected to a water supply pipe (not shown), and the lower portion of the power generation unit 100 to be described in detail later is coupled to the handle and supplied from the water supply pipe The water to be moved is moved to the head 200 through which the water is injected and discharged through the power generation unit 100.

At this time, the handle may be formed integrally with the power generation unit 100, and when formed integrally with the power generation unit 100, internal components of the power generation unit 100 may be installed in the hollow.

Next, the main component for achieving the present invention, the power generation unit 100 is

It is connected to the handle connected to the water supply pipe described above, and produces electrical energy by water flowing into the hollow, as a propeller (not shown) rotated by water supplied from the water supply pipe and the propeller and the rotating shaft. It is connected, and comprises a generator (not shown) in which electrical energy is produced by rotation of the propeller.

At this time, the power generation unit 100 of the present invention, the generator 800 is connected to the battery 800 to be described later in detail so that the electric energy produced can be stored in the battery 800, that is, the battery 800 is charged The display unit 600, the temperature sensor 400, the flow sensor 500, and the control unit 700, which will be described in detail later, are operated.

In addition, the power generation unit 100 of the present invention is formed with a hollow inside, the water is moved along the hollow, the propeller is rotated, the generator is installed inside the hollow, the water is moved along the hollow So that it is smaller than the diameter of the hollow or is formed in a different shape from the hollow.

In addition, the power generation unit 100 of the present invention is characterized in that the hollow inside the upper portion of the upper portion, that is, the upper portion of the power generation portion 100 of the present invention becomes narrower toward the upper portion, the inner hollow portion of the upper portion of the power generation unit 100 supplied. Through the vicinity of the temperature sensor 400 to be described in detail after being installed so as to face the inner hollow of the upper portion of the power generation unit 100 to increase the flow rate when moving to the interior of the head 200 to be described later through It is possible to more accurately grasp the temperature of the supplied water by inducing it to move to.

In addition, the power generation unit 100 of the present invention may be configured to further include a microbubble generating unit 900 for supplying fine air bubbles to the water supplied and installed in the lower hollow, the microbubble generating unit 900 By supplying oxygen to the water supplied through, the water is firstly purified by the oxygen before purification of the water by the filter 300 to be described in detail later, so that higher quality water can be obtained.

Next, the main component 200 for achieving the present invention is a head

As the lower portion communicates with the upper portion of the power generation unit 100, water is supplied, and the receiving space 210 is partitioned and formed at the rear, and a plurality of discharge holes (not shown) through which water is discharged are formed. The filter 300 to be described in detail is installed therein, and after the water that has passed through the power generation unit 100 flows into the inside, water is purified by the filter 300 and is formed by being partitioned at the rear. A control unit 700 and a battery 800, which will be described in detail later, are installed in the receiving space 210 where the airtight water is blocked and kept confidential.

Specifically, the head 200 of the present invention is coupled to the front of the head base (not shown), the lower portion of which communicates with the upper portion of the power generation unit 100, the head cover is formed a plurality of discharge holes (not shown) ), And includes a partition plate 220 partitioning the accommodation space 210 therein.

The partition plate 220 is formed by a maintenance hole 224 formed through the upper portion, a second hermetic plate 226 and the second hermetic plate 226 coupled to the maintenance hole 224. It characterized in that it is configured to include an inlet hole (222).

The maintenance hole 224 not only allows the control unit 700 to be described in detail later, the temperature sensor 400 and the battery 800 to be easily installed in the accommodation space 210, but also facilitates maintenance. To be made, an installation groove (not shown) in which a temperature sensor 400 to be described later is installed is formed in the downward direction, and the installation groove is introduced into the lower hole by the second hermetic plate 226 ( 222) is formed.

At this time, the second hermetic plate 226 is controlled by controlling the airtightness of the receiving space 210 together with the first hermetic plate 410 provided in the temperature sensor 400 to be described in detail later. , Prevents the battery 800 from being damaged by water.

The inflow hole 222 is formed in the lower portion of the installation groove by the second hermetic plate 226, which is opposite to the hollow upper end of the power generation unit 100, that is, the hollow upper portion of the power generation unit 100 It is formed in the direction in which the water flowing into the interior of the head 200 from the end is discharged to realize the effect of accurately measuring the temperature of the water flowing into the head 200.

In other words, the inflow hole 222 is a temperature sensing sensor 400 to be described in detail later is installed in the receiving space 210 of the head 200, that is, installed in the installation groove described above, the power generation unit 100 ) By allowing the water discharged from the hollow upper end to flow, the temperature of the water is measured by the temperature sensor 400.

At this time, the inlet hole 222 is the upper portion of the receiving space 210 by the first hermetic plate 410 provided on the upper portion of the temperature sensor 400 to be described in detail later, the receiving space 210 The lower portion, that is, the installation groove is partitioned so that the control unit 700 and the battery 800 installed in the accommodation space 210 are stably installed in the accommodation space 210 in which airtightness is maintained.

Next, the main component for achieving the present invention, the filter 300 is

The inside of the head 200, that is installed to be detachably attached to the front inside of the head 200 to purify the water supplied from the power generation unit 100, mainly to remove chlorine to obtain high-quality water do.

At this time, the filter 300 of the present invention may use any of the chlorine removal filters generally used in the related art, and the head 200 may be firmly coupled to the inside of the head 200 of the present invention. It has the same diameter as the inner diameter and is fitted into the inside of the head 200, and the front side is supported on the rear side of the head cover described above.

In addition, when the replacement cycle arrives, the filter 300 of the present invention can be easily replaced by the user removing the head cover of the head 200 and then easily removing it and replacing it with a new filter 300. One effect is realized.

Next, the temperature sensing sensor 400, which is a main component for achieving the present invention,

As measuring the temperature of the water installed and supplied to the inside of the head 200, as described above, the lower portion of the receiving space 210, that is, installed in the installation groove, the lower portion of the partition plate 220 It is exposed to the inside of the head 200 by the inlet hole 222 formed in, and the user measures the temperature of the water flowing into the inlet hole 222 so that the user can easily measure the temperature of the water through the display unit 600 to be described later. Check to make sure you can safely use the shower.

In addition, the temperature sensor 400 of the present invention delivers the temperature information of the water to the control unit 700 to be described in detail later, and the control unit 700 displays the temperature of the water so that the user can display the temperature information of the water. By transmitting the information, when the elderly or young children use the shower alone, it is possible to check the temperature of the water through the user terminal, so it can be monitored to safely use the shower outside.

In addition, although the temperature sensor 400 of the present invention has been briefly described above, the first hermetic plate is installed below the accommodation space 210, that is, the lower portion of the accommodation space 210, that is, the installation groove. It is configured to include 410, by blocking the flow of water flowing into the inlet hole 222 of the partition plate 220 by the first hermetic plate 410 to the upper portion of the receiving space 210, The control unit 700 and the battery 800 installed on the upper portion of the accommodation space 210 are prevented from being damaged by water.

In other words, the first hermetic plate 410 is installed in the lower portion of the receiving space 210, that is, in the installation groove, and is installed on the upper outer periphery of the temperature sensing sensor 400, so that the receiving space 210 The lower portion is partitioned from the upper portion of the receiving space 210 so that the upper portion of the receiving space 210 is airtight.

Next, the main component for achieving the present invention, the flow rate sensor 500 is

Measuring the amount of water installed and supplied in the handle or the power generation unit 100 or the head 200, preferably measuring the amount of water installed and supplied to the handle or the power generation unit 100 Therefore, the usage amount of water is transmitted to the display unit 600, which will be described in detail later, so that the user minimizes waste of water.

In addition, the flow rate sensor 500 of the present invention transmits water usage information to the control unit 700 to be described in detail later, and the control unit 700 uses the water usage amount to display the water usage information on the user terminal. By passing the information, the user can easily grasp the amount of water used so far, and accordingly, the user can check the amount of water used and save water according to the amount of water used.

Next, the main component for achieving the present invention, the display unit 600 is

Water temperature information is received from the temperature sensor 400 on the front or rear of the head 200 and the current temperature of the water is displayed, or water consumption information is received from the flow rate sensor 500 to the present. As to display, when the user uses the shower, it is possible to immediately check the temperature and usage of the water, so that it is possible to minimize the safe use and waste of water according to the temperature of the water.

At this time, the display unit 600 of the present invention may directly receive the water temperature information and the water usage information of the water from the temperature sensor 400 and the flow sensor 500, but the controller 700 to be described in detail later. It is preferable to receive the water temperature information and the water usage information through the control unit 700, and after the water temperature information and the water usage information are transmitted to the control unit 700, the temperature information of the water from the control unit 700 to the display unit 600 and the user terminal. This is because it is efficient to transmit the usage information of and water together.

In addition, the display unit 600 of the present invention is preferably installed on the rear of the front and rear of the head 200, which is described later in detail the control unit 700 is formed on the rear of the head 200 This is because it is easy to connect the control unit 700 and the display unit 600 because it is installed in the accommodation space 210.

Next, the main component 700 for achieving the present invention is a control unit 700

For example, it may be a PCB substrate, and is divided by the receiving space 210 of the head 200, that is, the partition plate 220 and the first hermetic plate 410 and the second hermetic plate 226 described above. It is installed on the upper part of the accommodation space 210, is equipped with a Bluetooth communication unit is connected to the user terminal and Bluetooth, and delivers the water temperature information and the water usage information from the temperature sensor 400 and the flow sensor 500 described above It is received and delivered to the display unit 600 and the user terminal for display.

At this time, the user can input filter replacement cycle information according to the amount of water used through the user terminal, and the control unit 700 of the present invention detects the filter replacement cycle information and the flow rate according to the amount of water input by the user through the user terminal. By comparing the water usage information received from the sensor 500, the filter replacement time is determined, and the determined filter replacement time is delivered to the user terminal and displayed, thereby displaying the performance of the filter 300 through replacement of the appropriate filter 300. It is possible to minimize the use of contaminated water due to degradation.

In addition, the user can initialize the water usage information for filter replacement through the user terminal. Accordingly, the control unit 700 of the present invention initializes the water usage information measured by the flow rate sensor 500 to generate a new filter 300 ), It is possible to easily grasp and confirm the amount of water used after mounting, thereby accurately determining the filter replacement time of the new filter 300.

In addition, the control unit 700 of the present invention receives water usage information from the flow rate sensor 500, generates water usage information for filter replacement, transmits it to a user terminal, and generates water usage information for months or years. By displaying the monthly water usage information or the annual water usage information to the user terminal to be displayed, the user can easily grasp and check the amount of water used for the monthly or year, thereby obtaining an effect of further minimizing the waste of water.

At this time, the user can also reset the monthly water usage information and the annual water usage information through the user terminal, and accordingly, the control unit 700 of the present invention accumulates the monthly usage information received from the flow rate sensor 500 By initializing the water usage information and the water usage information for a year and then transferring it to the user terminal, the effect of allowing the user to more easily manage the consumption of water is realized.

Next, the main component for achieving the present invention, the battery 800 is

It is installed in the receiving space 210 of the head 200, that is, the upper portion where the airtightness of the receiving space 210 is maintained, and is connected to the power generation unit 100 to connect the electric energy produced by the power generation unit 100. Save and supply power to the above-described control unit 700, the display unit 600, the temperature sensor 400, and the flow rate sensor 500, and self-generate power to self-power to save energy. In addition, it is possible to use the showerhead of the present invention as it is not necessary to use an electric wire for supplying power to the control unit 700, the display unit 600, the temperature sensor 400, and the flow sensor 500. It makes it possible to realize the effect.

As a result, the IoT self-powered filter shower that can check the temperature, filter, and water usage of the present invention allows quality water to be used through the filter 300, and can easily grasp the temperature of the water to use safe water. It is easy to manage so that the temperature of water and the amount of water can be easily identified and checked by the user's terminal so that it can be safely used when the elderly or children use it. It can be induced to replace the (300), it is possible to continuously use high-quality water, as well as to grasp and check the amount of water used monthly or yearly, it is possible to obtain an effect to minimize the waste of water.

The above has been described with reference to the preferred embodiment of the present invention, and is not limited to the above embodiment, and the person having ordinary knowledge in the technical field to which the present invention belongs through the above embodiment does not depart from the gist of the present invention It can be implemented with various changes in.

100: power generation unit 200: head
210: accommodation space 220: partition plate
222: inlet hole 224: maintenance hole
226: second hermetic plate 300: filter
400: temperature sensor 410: first hermetic plate
500: flow sensor 600: display unit
700: control unit 800: battery
900: micro bubble generator

Claims (3)

A power generation unit 100 connected to a handle connected to a water supply pipe and producing electric energy by water flowing into the hollow;
The lower part is in communication with the upper portion of the power generation unit 100 is supplied with water, the receiving space 210 is partitioned and formed in the rear, the head 200 is formed with a plurality of discharge holes for discharging water on the front; and
A filter 300 installed to be detachably attached to the inside of the head 200 to purify the supplied water; and
A temperature sensor 400 installed inside the head 200 to measure the temperature of the supplied water; and
A flow rate sensor 500 installed inside the handle or the power generation unit 100 or the head 200 and measuring the amount of water supplied; and
It is installed on the front or rear of the head 200 to receive the temperature information of the water from the temperature sensor 400 and displays the current temperature of the water, or by receiving the water usage information from the flow sensor 500 to the present A display unit 600 for displaying water usage; and
It is installed in the accommodation space 210 of the head 200, is connected to the user terminal via Bluetooth, the temperature sensor 400 and the flow sensor 500 receives water temperature information and water usage information from the user A control unit 700 that is transmitted to the terminal for display; And
It is installed in the accommodation space 210 of the head 200 to store the electrical energy produced by the power generation unit 100, the temperature sensor 400, flow sensor 500, display unit 600, Includes; battery 800 for supplying power to the control unit 700;
The head 200 includes a partition plate 220 for partitioning the accommodation space 210 into upper and lower portions therein,
The partition plate 220 is formed through the maintenance hole 224 formed through the upper portion and the second hermetic plate 226 and the second hermetic plate 226 coupled to the maintenance hole 224. Includes a hole 222,
The temperature sensor 400 includes a first hermetic plate 410 partitioning the lower portion of the accommodation space 210,
The control unit 700 is installed inside the upper portion of the accommodation space 210,
The first hermetic plate 410 is installed under the accommodation space 210,
The first hermetic plate 410 is installed on the upper outer periphery of the temperature sensor 400
The first hermetic plate 410 allows the lower portion of the receiving space 210 to be partitioned from the upper portion of the receiving space 210 so that the upper portion of the receiving space 210 is airtight,
The second hermetic plate 226 allows the airtightness of the receiving space 210 to be formed together with the first hermetic plate 410 provided in the temperature sensor 400,
The temperature sensor 400 is exposed to the hollow upper end side of the power generation unit 100 through the inlet hole 222
The upper portion of the power generation unit 100 becomes narrower as the inner hollow goes upward,
The temperature sensor 400 is installed in the lower portion of the accommodation space 210,
The inflow hole 222 is formed under the second hermetic plate 226 by the second hermetic plate 226,
The inlet hole 222 is formed in a direction opposite to the hollow upper end of the power generation unit 100, the IoT self-hydropower filter shower that can check the temperature and filter and water usage.
According to claim 1,
The control unit 700
The filter replacement period is determined by comparing the filter replacement period information according to the amount of water input entered by the user through the user terminal and the amount of water usage received from the flow rate sensor 500, and the determined filter replacement time is transmitted to the user terminal. IoT self-hydropower filter shower that can check the temperature, filter, and water usage, characterized by being displayed.
According to claim 2,
The control unit 700
Receives water usage information from the flow rate sensor 500 to generate water usage information for filter replacement or monthly or yearly water usage information, and delivers the monthly water usage information or annual water usage information to a user terminal for display IoT self-hydropower filter shower that can check the temperature and filter and water usage, characterized in that.

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