CN213420057U - Intelligent double-induction temperature display water economizer - Google Patents

Abstract

The utility model provides a two response temperature of intelligence show water economizer, include: the water circulation control system is started when a user uses a hand to get close to a side induction area or a positive induction area, the electric control system controls the water circulation control system to start, the electromagnetic valve is opened to realize water circulation, water flows into the water circulation control system from the water inlet position and flows out from the water outlet position, when the user uses a hand to get away from the side induction area or the positive induction area, the water stops, the current water temperature is displayed in the temperature display area, and the charging position at the bottom of the side surface can also charge the electromagnetism of the double-induction temperature-display water economizer. The utility model relates to an it is ingenious, realize the induction control boiling water and close water, the convenience is timely, avoids public place germ cross infection's hidden danger, improves security and product life.

Description

Intelligent double-induction temperature display water economizer

Technical Field

The utility model relates to a bathroom field, more specifically say so, relate to two response temperature display water economizer.

Background

The traditional faucet is mainly divided into a basin faucet, a kitchen faucet and a shower faucet in function, but the traditional valve core is controlled by opening and closing an old handle to realize the functions of boiling water and closing water of the faucet, and the functions are manually controlled.

Disclosure of Invention

The utility model provides a two response temperature of intelligence show water economizer can effectively solve above-mentioned problem.

The utility model discloses a realize like this:

an intelligent double-induction temperature display water economizer comprises: the temperature sensing device comprises a protective cover, an electric control system and a waterway control system, wherein the electric control system is connected with the waterway control system through a power line, the waterway control system is arranged in the protective cover, the electric control system is connected with an electromagnetic valve of the waterway control system through the power line, an electric control mainboard of the electric control system is connected with a temperature sensing mainboard through a data line, and a positive induction emitter and a side induction emitter are arranged on the electric control mainboard; the positive induction transmitter and the side induction transmitter receive induction signals and transmit the induction signals back to the temperature sensing mainboard through data lines, and the temperature sensing mainboard sends control instructions to open and close an electromagnetic valve of the water path control system, so that water boiling and water closing are realized.

As a further improvement, the shield comprises a transparent cover, an upper shield, a silica gel protective plug, a lower shield and a shading plate; the transparent cover is arranged on the side surface of the upper shield to form a temperature display area; the upper shield and the lower shield are welded together through ultrasonic waves; the shading plates are respectively arranged on the side surface and the bottom of the lower shield; the silica gel protection plug is connected to the upper shield in one end, and the lower shield is connected to the other end.

As further improvement, the main composition structure of the waterway control system is that a solenoid valve is fixed by the side surface of a three-way valve body through a screw nut component, the upper part of the three-way valve body is used for water inlet, the lower part of the three-way valve body is used for water outlet, the upper part of the three-way valve body is provided with a radial sealing ring, the lower part of the three-way valve body is provided with a radial lower sealing ring, the lower end surface of the three-way valve body is screwed into a net mouth component after the water outlet plane sealing ring is placed on the lower end surface of the.

As further improved, electrical system's automatically controlled mainboard passes through the data line and is connected with the temperature sensing mainboard, and the side lens hood setting is in the side induction transmitter and the side induction receiver side induction position of automatically controlled mainboard, and positive lens hood setting is in the positive induction transmitter and positive induction receiver position of automatically controlled mainboard, and automatically controlled mainboard side sets up tall and erect interface of ann, and storage battery passes through the power cord and is connected with automatically controlled mainboard, gives the power supply of automatically controlled mainboard.

As a further improvement, the temperature sensing mainboard is characterized in that a microprocessor MCU is arranged in the middle of the back surface of the temperature sensing mainboard, a crystal oscillator is arranged on the left side, a wiring terminal is arranged on the right side, a temperature sensor is arranged on the lower side, and a temperature display screen is arranged on the front surface of the temperature sensing mainboard.

The utility model has the advantages that: the water is opened and closed by adopting side induction and positive induction, and the water temperature used by the current user is displayed in real time. The utility model relates to an ingenious realizes just responding to and the side response dual mode opens and the mode of closing, realizes really liberating both hands, improves security and product life.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a sectional view of the whole assembly provided by the embodiment of the present invention.

Fig. 2 is an exploded view of a protective cover according to an embodiment of the present invention.

Fig. 3 is an exploded view of a waterway control system according to an embodiment of the present invention.

Fig. 4 is an exploded view of an electric control system provided by an embodiment of the present invention.

Fig. 5 is a structural diagram of a temperature sensing motherboard according to an embodiment of the present invention.

Fig. 6 is a structural diagram of an electric control main board provided in an embodiment of the present invention.

Fig. 7 is a functional position layout diagram provided in the embodiment of the present invention.

In the figure: 1. the water path control system comprises a protective cover, 2, an electric control system, 3, a water path control system, 11, a transparent cover, 12, an upper protective cover, 13, a silica gel protective plug, 14, a lower protective cover, 15, a shading plate, 21, a water inlet quick plug assembly, 22, a water inlet plane sealing ring, 23, a radial sealing ring, 24, a three-way valve body, 25, a radial lower sealing ring, 26, a water outlet plane sealing ring, 27, a screen nozzle assembly, 28, a screw nut assembly, 29, an electromagnetic valve, 31, a temperature sensing mainboard, 32, an electric control mainboard, 33, a side shading cover, 34, a positive shading cover, 35, a storage battery, 311, a microprocessor MCU, 312, a crystal oscillator, 313, a temperature sensor, 314, a connecting terminal, 315 a temperature display screen, 321 electric control mainboard connecting terminal, 322 side induction emitter, 323, side induction receiver, 324, electromagnetic valve driving module, 325, positive induction emitter, 326, positive induction receiver, 327, 328. the intelligent temperature control system comprises a main control chip, 329 an android interface, 330 a charging module, 41 a water inlet position, 42 a temperature display area, 43 a side sensing area, 44 a charging position, 45 a positive sensing area, 46 a water outlet position and 50 temperature sensing holes.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

An intelligent double-induction temperature display water economizer comprises the following structural components:

as shown in figure 1, the intelligent double-induction temperature display water economizer mainly comprises the following components: the water control system comprises a shield 1, an electronic control system 2 and a water path control system 3, wherein the water path control system 3 is arranged in the middle of the shield 1, and the electronic control system 2 is arranged in a gap between the side surface of the water path control system 3 and the shield 1.

As shown in fig. 2, the main components of the shield 1 are sequentially a transparent cover 11 disposed at the front end of an upper shield 12, a lower female spigot of the upper shield 12 is engaged with a male spigot of a lower shield 14, a silicone rubber protective plug 13 is disposed at the lower side of the upper shield 12, and two light screens 15 are disposed at the side and bottom of the lower shield 14.

As shown in fig. 3, the waterway control system 3 mainly comprises: the side surface of the three-way valve body 24 is fixed with an electromagnetic valve 29 through a screw and nut assembly 28, the upper part of the three-way valve body 24 is provided with water inlet, the lower part of the three-way valve body 24 is provided with water outlet, the upper part of the three-way valve body 4 is provided with an upper radial sealing ring 23, the lower part of the three-way valve body 4 is provided with a lower radial sealing ring 25, the lower end surface of the three-way valve body 4 is provided with a water outlet plane sealing ring 26 and then is screwed into the mesh nozzle assembly 27, and the middle of.

As shown in fig. 4 and 6, the electric control system 2 is respectively composed of a temperature sensing motherboard 31, an electric control motherboard 32, a side light shield 33, a positive light shield 34, and a storage battery 35, the electric control motherboard 32 is connected with the temperature sensing motherboard 31 through a data line, the side light shield 33 is arranged at the side induction transmitter 322 and the side induction receiver 323 side induction position of the electric control motherboard 32, the positive light shield 34 is arranged at the positive induction transmitter 325 and the positive induction receiver 326 position of the electric control motherboard 32, the side of the electric control motherboard 32 is provided with an android interface 329, and the storage battery 35 is connected with the electric control motherboard 32 through a power line to supply power to the electric control motherboard 32.

As shown in fig. 5, a microprocessor MCU311 is disposed in the middle of the back of the temperature sensing motherboard 31, a crystal oscillator 312 is disposed on the left, a connection terminal 314 is disposed on the right, a temperature sensor 313 is disposed on the lower side, and a temperature display 315 is disposed on the front of the temperature sensing motherboard 31.

The utility model provides a pair of two response temperature of intelligence show water economizer's theory of operation does: as shown in fig. 7, the position of intaking 41 is connected with external water pipe, keep logical water standby state, as shown in fig. 1 fig. 4, battery 35 is connected with automatically controlled mainboard 32, supply power for automatically controlled mainboard 32, temperature sensing mainboard 31 passes through the data line and is connected with automatically controlled mainboard 32, circular telegram and data transmission between the keeping, solenoid valve 29 in fig. 3 passes through the power cord and is connected with automatically controlled mainboard 32, the opening and closing of automatically controlled mainboard 32 control solenoid valve 29, when the electric quantity of battery 35 exhausts, can use the android phone data line of standard to charge, as shown in fig. 7 fig. 2, open silica gel protection plug 13 at charging position 44, insert the android interface 329 of fig. 6 with android phone data line socket, charge battery 35 through charging module 330.

As shown in fig. 7, when a user needs to use water, the hand is in the side sensing area 43, the light wave sent by the side sensing transmitter 322 on the electronic control main board 32 in fig. 6 is reflected when encountering an obstacle of the hand, the reflected light wave is received by the side sensing receiver 323 and processed into a signal to be sent to the sensing signal amplifier 327, the sensing signal amplifier 327 sends the signal to the main control chip 328, the main control chip 328 processes the signal into an instruction for controlling opening and sends the instruction to the electromagnetic valve driving module 324, because the electromagnetic valve 29 is connected with the electronic control main board 32 through a power line, the electromagnetic valve driving module 324 of the electronic control main board 32 directly outputs the opening instruction to the electromagnetic valve 29, at this time, the electromagnetic valve 29 is powered on and opened, water enters from the water inlet position 41, at this time, the electromagnetic valve 29 is in the opened state, the three-way valve body 24 is a passage, water flows out from the, the temperature sensing hole 50 is used for placing the temperature sensor 313 of the temperature sensing mainboard 31 shown in fig. 4 and fig. 5, the temperature sensor 313 transmits the signal of the water temperature at the moment to the microprocessor MCU311 through the crystal oscillator 312, the microprocessor MCU311 converts the signal into the display data of the temperature at the moment and transmits the display data to the temperature display screen 315, the current temperature is displayed on the temperature display screen 315 at the moment, the specific display position is shown in fig. 7, the temperature display area 42 is provided, the connection terminal 314 shown in fig. 5 is connected with the electric control mainboard connection terminal 321 shown in fig. 6 through a data line, the electric control mainboard connection terminal 321 of the electric control mainboard 32 is connected with the connection terminal 314 of the temperature sensing mainboard 31 through a data line for supplying the electric quantity.

As shown in fig. 7, when the user finishes using water and the hand leaves the side sensing area 43, the light wave sent by the side sensing transmitter 322 on the electronic control main board 32 in fig. 6 is not reflected back by the obstacle, the side sensing receiver 323 does not receive the reflected light wave, and is in an open circuit state at this time, the side sensing receiver 323 processes the light wave into an open circuit signal and sends the open circuit signal to the sensing signal amplifier 327, the sensing signal amplifier 327 sends the signal to the main control chip 328, the main control chip 328 processes the signal into an instruction for controlling opening and sends the instruction to the electromagnetic valve driving module 324, the electromagnetic valve driving module 324 of the electronic control main board 32 directly outputs the open circuit instruction to the electromagnetic valve 29, at this time, the electromagnetic valve 29 is powered off and closed, at this time, the three-way valve body.

When a user needs to use water, the hand is close to the positive sensing area 45, similarly, in fig. 6, the light wave sent by the positive sensing transmitter 325 on the electronic control main board 32 is reflected when encountering an obstacle of the hand, the reflected light wave is received by the positive sensing receiver 326 and is processed into a signal to be sent to the sensing signal amplifier 327, the sensing signal amplifier 327 sends the signal to the main control chip 328, the main control chip 328 processes the signal into an instruction for controlling opening and sends the instruction to the electromagnetic valve driving module 324, because the electromagnetic valve 29 is linked with the electronic control main board 32 through a power line, the electromagnetic valve driving module 324 of the electronic control main board 32 directly outputs the opening instruction to the electromagnetic valve 29, at this time, the electromagnetic valve 29 is powered on and opened, water enters from the water inlet position 41, at this time, the electromagnetic valve 29 is in the opened state, the three-way valve body 24 is a passage, the electromagnetic valve driving module 324 of the electronic control main board 32 directly outputs the instruction of the open circuit to the electromagnetic valve 29, at this time, the electromagnetic valve 29 is powered off and closed, at this time, the electromagnetic valve 29 is in a closed state, the three-way valve body 24 is in the open circuit state, and the water flowing stops at the water outlet position 46.

If the user needs to continue using the system, the required instruction can be input again.

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

Claims (5)

1. The utility model provides a two response temperature display water economizer of intelligence which characterized in that includes: the temperature sensing device comprises a protective cover, an electric control system and a waterway control system, wherein the electric control system is connected with the waterway control system through a power line, the waterway control system is arranged in the protective cover, the electric control system is connected with an electromagnetic valve of the waterway control system through the power line, an electric control mainboard of the electric control system is connected with a temperature sensing mainboard through a data line, and a positive induction emitter and a side induction emitter are arranged on the electric control mainboard; the positive induction transmitter and the side induction transmitter receive induction signals and transmit the induction signals back to the temperature sensing mainboard through data lines, and the temperature sensing mainboard sends control instructions to open and close an electromagnetic valve of the water path control system, so that water boiling and water closing are realized.

2. The intelligent double-induction temperature-display water economizer of claim 1, wherein the shield comprises a transparent cover, an upper shield, a silica gel protective plug, a lower shield and a light screen; the transparent cover is arranged on the side surface of the upper shield to form a temperature display area; the upper shield and the lower shield are welded together through ultrasonic waves; the shading plates are respectively arranged on the side surface and the bottom of the lower shield; the silica gel protection plug is connected to the upper shield in one end, and the lower shield is connected to the other end.

3. The intelligent double-induction temperature-display water economizer of claim 1 is characterized in that the main composition structure of the waterway control system is that a solenoid valve is fixed on the side surface of a three-way valve body through a screw and nut assembly, the upper part of the three-way valve body is used for water inlet, the lower part of the three-way valve body is used for water outlet, a radial sealing ring is arranged on the upper part of the three-way valve body, a radial lower sealing ring is arranged on the lower part of the three-way valve body, a water outlet plane sealing ring is placed on the lower end surface of the three-way valve body and then screwed into a net mouth assembly, and a water inlet plane.

4. The intelligent double-induction temperature-display water economizer of claim 1, wherein an electric control main board of the electric control system is connected with the temperature sensing main board through a data line, a side light shield is arranged at side induction positions of a side induction transmitter and a side induction receiver of the electric control main board, a positive light shield is arranged at positions of a positive induction transmitter and a positive induction receiver of the electric control main board, an android interface is arranged at the side of the electric control main board, and a storage battery is connected with the electric control main board through a power line to supply power to the electric control main board.

5. The intelligent double-induction temperature-display water economizer of claim 4, wherein the temperature sensing mainboard is a temperature sensing mainboard, the middle of the back surface of which is provided with a microprocessor MCU, the left side of which is provided with a crystal oscillator, the right side of which is provided with a wiring terminal, the lower side of which is provided with a temperature sensor, and the front surface of which is provided with a temperature display screen.

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