CN108443556B - Electronic temperature-regulating water tap - Google Patents

Abstract

The invention belongs to the technical field of kitchens and bathrooms, and discloses an electronic temperature-regulating faucet which comprises a vertical pipe, a transverse pipe and a handle, wherein the vertical pipe is used for being fixedly installed; the water faucet is connected with a heating box through a pipeline; one end of the heating box, which is far away from the water tap, is connected with a filter for filtering tap water and an air blower for generating air flow respectively; the bottom of the heating box is provided with a sector annular induction cooker. The drinking water and the non-drinking water are discharged from the faucet through respective special pipelines, so that the non-drinking water is prevented from polluting the drinking water; the valve pipe of drinking water passes through electromagnet control flexible, makes the valve pipe retract to tap in the user does not need the drinking water, prevents that the external environment from producing the pollution to the valve pipe.

Description

Electronic temperature-regulating water tap

Technical Field

The invention belongs to the technical field of kitchens and bathrooms, and particularly relates to an electronic temperature-regulating water faucet.

Background

At present, some water taps sold in the market can only discharge cold water or hot water, some water taps discharge proper warm water after the cold water and the hot water are mixed by using a temperature regulating valve, a cold water and hot water inlet channel is generally arranged in a main body of the water tap, a household tap water purifier appearing in the market is generally arranged as an independent device, only can directly drink water and cannot be used for washing, and some water taps with a water purifying function are arranged at an outlet of the water tap, so that the attractiveness is influenced and the use of users is influenced.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the defects in the prior art, the electronic temperature-regulating water tap is provided.

In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose: an electronic temperature-regulating faucet comprises a vertical pipe used for fixed installation and a transverse pipe horizontally arranged at the upper part of the vertical pipe; the upper end of the vertical pipe is provided with a rotary rheostat; a handle is fixedly connected to a rotating shaft of the rotary rheostat;

the water faucet is connected with a heating box through a pipeline; one end of the heating box, which is far away from the water tap, is connected with a filter for filtering tap water and an air blower for generating air flow respectively; the bottom of the heating box is provided with a fan-shaped induction cooker;

the heating box is a cylinder with the axis vertically arranged; the inside of the heating box is divided into a non-drinking water tank, a drinking water tank and an air heating box in three equal parts along the circumference; the outer sides of the lower parts of the non-drinking water tank and the drinking water tank are fixedly connected with a water outlet pipe;

a cold water pipe is fixedly connected to the water outlet pipe; a first electromagnetic valve is arranged on the water outlet pipe and close to the heating box; a second electromagnetic valve is arranged on the cold water pipe;

the sector of the induction cooker is concentric with the heating box; the periphery of the lower end of the heating box is fixedly connected with a circular guide rail for the induction cooker to slide; the lower bottom surface of the heating box is fixedly connected with an annular groove; the section of the annular groove is C-shaped; the C-shaped opening of the section of the annular groove faces outwards horizontally; a circular blocking ring is fixedly connected to the position, facing the axis of the heating box, of the electromagnetic oven; the sealing retainer ring is coaxially and rotationally connected in the annular groove in a sealing manner; a closed annular cavity is formed between the sealing retainer ring and the annular groove;

a fixed block is fixedly connected to one side of the joint of the non-drinking water tank and the drinking water tank in the annular cavity; a piston block is formed on the inner wall of the blocking ring of the induction cooker in the annular cavity; two second springs are respectively arranged between the fixed block and the piston block; one ends of the two second springs are respectively and fixedly connected with two ends of the fixed block, and the other ends of the two second springs are abutted against the piston block; two pressure increasing pipes communicated with the annular cavity are formed on the outer wall of the inner ring of the annular groove; the pressure increasing pipe positioned on one side of the drinking water tank is communicated with the water outlet pipe of the non-drinking water tank; the pressure increasing pipe positioned on one side of the non-drinking water tank is communicated with the water outlet pipe of the drinking water tank; each pressurizing pipe is positioned between the piston block and the fixed block and is close to one end of the fixed block; the annular groove is positioned at the lower end of the fixed block and is fixedly connected with two pressure relief pipes; the two pressure relief pipes are respectively communicated with the annular cavity through two ends of the fixing block; the two pressure increasing pipes are respectively provided with a one-way valve; the one-way valve is in one-way communication with the annular cavity from the outside;

a horizontally arranged drinking water pipe is arranged in the transverse pipe of the water tap; the drinking water pipe is communicated with a water outlet pipe corresponding to the drinking water tank; the tail end of the drinking water pipe is closed; a cavity body positioned at the outer side of the drinking water pipe in the transverse pipe forms a non-drinking water cavity; the non-drinking water cavity is communicated with a water outlet pipe of the non-drinking water tank; a drinking water path changing pipe communicated with the drinking water pipe is formed in the inner cavity of the transverse pipe and positioned on one side of the drinking water pipe; a drinking water conversion outlet communicated with the drinking water path changing pipe is formed in the middle of the drinking water pipe; the side surface of the drinking water pipe close to the end part is formed with a non-drinking water inlet; a magnet is connected between the drinking water conversion outlet and the non-drinking water inlet in the drinking water pipe in a sliding manner; the outer diameter of the magnet is the same as the inner diameter of the drinking water pipe; an iron ring is arranged on the periphery of the drinking water pipe corresponding to the magnet; the lower end of the iron ring is fixedly connected with a drinking water conversion pipe arranged along the vertical direction; a drinking water guide port is formed on one side of the drinking water conversion pipe facing the drinking water path conversion pipe; the drinking water conversion pipe is tightly attached to the side surface of the drinking water path switching pipe;

a drinking water outlet head is vertically and slidably connected in the drinking water conversion pipe; the upper end of the drinking water outlet head is fixedly connected with a non-circular bearing plate; a third spring is fixedly connected between the lower part of the pressure bearing plate and the inner cavity of the drinking water conversion pipe; the side wall of the drinking water outlet head is in sealed sliding connection with the lower part of the inner cavity of the drinking water conversion pipe; a vertically arranged water flow guide pipe is fixedly connected to the side surface of the drinking water conversion pipe; the upper end and the lower end of the water flow guide pipe are respectively communicated with the upper part and the lower part of the inner cavity of the drinking water conversion pipe; a side opening is formed at one side of the drinking water outlet head corresponding to the water flow guide pipe; in the initial state, the drinking water outlet head is positioned at the highest position of the stroke, and the water flow guide pipe is not communicated with the side opening;

a pressurizing cavity communicated with the drinking water pipe is fixedly connected below the end part of the drinking water pipe; a second piston rod facing the drinking water conversion pipe is connected in the pressurizing cavity in a sliding manner; one end of the second piston rod, which faces the drinking water conversion pipe, is fixedly connected with an L-shaped sliding block; the lower end of the transverse pipe is provided with a drinking water outlet and a non-drinking water outlet which are respectively formed corresponding to the drinking water outlet head and the lower end of the L-shaped sliding block;

an air outlet connecting pipe communicated with the air heating box is further arranged in the transverse pipe; a lower air outlet communicated with the air outlet connecting pipe is formed at the lower end of the transverse pipe;

the heating box is provided with a controller; each electromagnetic valve, the induction cooker and the rotary rheostat are electrically connected with a controller.

As a preferable scheme: the blower includes a cylindrical housing; a driving motor is arranged outside the shell; an output shaft of the driving motor is concentric with the shell; two fans are arranged on the output shaft of the driving motor and positioned in the shell; the two fans are centrifugal fans; a ratchet wheel is formed in the middle of one side, facing the driving motor, of each of the two fans; the directions of the two ratchet wheels are opposite; a ratchet wheel chuck matched with the ratchet wheel is fixedly connected to an output shaft of the driving motor; a partition plate parallel to the fan is fixedly connected in the shell; the partition plate is positioned between the two fans; a first air outlet and a second air outlet which are horizontally arranged and rectangular are formed at the bottom of the periphery of the shell; the width of the first air outlet is larger than that of the fan; the first air outlet is positioned at one end far away from the driving motor; the first air outlet is divided into an air outlet channel and an air inlet channel by the partition plate; the air outlet channel corresponds to a fan far away from the driving motor; the air outlet channel and the air inlet channel are equal in size; the orientation of the second air outlet is opposite to that of the first air outlet; the width of the second air outlet is the same as that of the fan close to the driving motor; an air inlet is formed in one side, far away from the driving motor, of the shell;

a rectangular rotating baffle is rotatably connected in the first air outlet corresponding to the partition plate; the rotating baffle is vertically arranged; the rotary baffle is larger than the outer frame of the air outlet channel; an incomplete worm gear is fixedly connected to the upper end of the first air outlet, which is positioned on the rotating shaft of the rotating baffle; a worm in meshed transmission connection with the incomplete worm wheel is mounted at the upper end of the first air outlet; the worm is arranged along the axial direction of the driving motor; an output shaft of the driving motor is positioned on the outer side of the shell and is fixedly connected with a driving gear; one end of the worm, which is positioned at the driving gear, is fixedly connected with a driven gear in meshing transmission connection with the driving gear; the two sides of the rotating baffle plates are respectively provided with a fourth spring corresponding to the outer frame of the air outlet channel;

the first air outlet is communicated with the air heating box;

the driving motor is electrically connected with the controller.

As a preferable scheme: iron plates for heating are arranged on the inner bottom surfaces of the non-drinking water tank, the drinking water tank and the air heating tank; and a heat conducting fin for conducting heat on the iron plate into the air heating box is arranged in the air heating box.

As a preferable scheme: an ozone generator is also connected; the outlet of the ozone generator is connected to a pipeline between a water outlet pipe of the non-drinking water tank and the water faucet; the ozone generator is electrically connected with the controller.

Compared with the prior art, the invention has the beneficial effects that: when the water tap is used, drinking water, non-drinking water or air outlet of the water tap is set through the control panel, and the water outlet temperature or the air outlet temperature is set through the handle; when the user needs cold or normal-temperature non-drinking water, the controller controls the second electromagnetic valve on the cold water pipe corresponding to the non-drinking water tank to be opened, and then the tap discharges the cold non-drinking water; when a user needs cold drinking water, the controller controls the second electromagnetic valve on the cold water pipe corresponding to the drinking water tank to be opened, and the drinking water outlet head penetrates out of the drinking water outlet and discharges the cold drinking water; when a user needs to blow cold air, the controller controls the blower to work, and cold air is discharged when the faucet handle is opened.

When a user needs hot non-drinking water, the controller controls the second electromagnetic valve of the non-drinking water tank to be opened, because the pressure in the water outlet pipe corresponding to the non-drinking water tank is increased, the pressure in the annular cavity is increased through the pressure increasing pipe, the electromagnetic oven is driven to rotate and positioned below the non-drinking water tank, the controller controls the electromagnetic oven to heat, when the temperature in the non-drinking water tank reaches the temperature required by the user, the electromagnetic oven is controlled to stop working, then the controller controls the second electromagnetic valve to be closed, the first electromagnetic valve is opened at the same time, the water faucet outputs hot non-drinking water, after the user uses the water, the controller controls the first electromagnetic valve to be closed, and the electromagnetic oven returns to the initial position; a certain amount of cold service water is consumed in the process, so that the user can preferably use the hot service water after using the cold service water; when the user needs hot drinking water, the operation process is the same as that of non-drinking water; when a user needs to dry, the electromagnetic oven and the blower are directly controlled to work.

When a user needs to use ozone for disinfection or cleaning, the ozone generator is controlled to work, and then the second electromagnetic valve of the cold water pipe corresponding to the non-drinking water tank is opened for use.

The drinking water and the non-drinking water are discharged from the faucet through respective special pipelines, so that the non-drinking water is prevented from polluting the drinking water; the drinking water outlet head extends out from the drinking water outlet when the first electromagnetic valve or the second electromagnetic valve corresponding to the drinking water is opened, and automatically retracts into the water faucet when the drinking water outlet head is closed, so that the valve pipe is prevented from being polluted by the external environment; when the drinking water and the non-drinking water are discharged, the corresponding water outlets are automatically switched through the pipelines; when the drinking water tank, the non-drinking water tank and the air heating tank are heated, the heating can be realized by controlling the movement of the induction cooker without independently arranging an induction cooker or other heating equipment; the position of the induction cooker is positioned by the pressure change generated in the annular cavity when the water outlet pipe is discharged through the communication of the pressure increasing pipe and the water outlet pipe.

Drawings

Fig. 1 is a schematic sectional view of a faucet.

Fig. 2 is a schematic diagram of the piping connection of the present invention.

Fig. 3 is a schematic exploded view of the present invention.

Fig. 4 is a schematic sectional view of the heating box.

Fig. 5 and 6 are schematic views of the installation structure of the induction cooker.

Fig. 7 is a schematic view of the structure of the annular groove.

Fig. 8 is a schematic sectional view of the faucet.

Fig. 9 is an exploded view of the faucet.

Fig. 10 is a schematic sectional structure view of a blower according to embodiment 2.

Fig. 11 is an exploded structural view of the blower of embodiment 2.

Fig. 12 is a schematic structural view of the rotating shutter of embodiment 2.

01. A transverse tube; 011. a non-potable water chamber; 0111. a drinking water outlet; 0112. a non-potable water outlet; 012. a drinking water path changing pipe; 0121. a first opening; 0122. a second opening; 013. a lower air outlet; 014. an air outlet connecting pipe; 02. a drinking water pipe; 021. a potable water conversion outlet; 022. a non-potable water inlet; 023. a pressurizing cavity; 031. a second piston rod; 032. an L-shaped sliding block; 041. an iron ring; 042. a drinking water transfer tube; 0421. a drinking water guide port; 0422. a water flow guide pipe; 05. a riser; 06. a handle; 07. a magnet; 08. a drinking water outlet head; 081. opening the side; 082. a pressure bearing plate; 09. a third spring;

1. a heating box; 11. a non-potable water tank; 12. a drinking water tank; 13. an air heating box; 131. a heat conductive sheet; 14. a water outlet pipe; 141. a cold water pipe; 142. a first solenoid valve; 143. a second solenoid valve; 15. an annular groove; 151. an annular cavity; 152. a fixed block; 153. a pressure relief pipe; 16. a pressure increasing pipe; 17. a second spring; 19. a guide rail;

2. a blower; 21. a housing; 211. a first air outlet; 212. a second air outlet; 213. a partition plate; 214. an air outlet channel; 215. an air inlet channel; 216. an air inlet; 22. a drive motor; 23. a fan; 231. a ratchet wheel; 24. a driving gear; 251. a driven gear; 252. a worm; 26. rotating the baffle; 261. an incomplete worm gear; 262. a fourth spring; 27. a ratchet chuck;

3. a filter;

5. an induction cooker; 51. sealing a retainer ring; 52. a piston block;

8. an ozone generator.

Detailed Description

Example 1

Referring to fig. 1 to 9, an electronic temperature-regulating faucet according to the present embodiment includes a vertical pipe 05 for fixed installation, and a horizontal pipe 01 horizontally disposed at an upper portion of the vertical pipe; the upper end of the vertical pipe is provided with a rotary rheostat; and a handle 06 is fixedly connected to a rotating shaft of the rotary rheostat.

The water faucet is connected with a heating box 1 through a pipeline; one end of the heating box, which is far away from the water tap, is connected with a filter 3 for filtering tap water and an air blower 2 for generating air flow respectively; and a fan-ring-shaped induction cooker 5 is arranged at the bottom of the heating box.

The heating box is a cylinder with the axis vertically arranged; the interior of the heating box is divided into a non-drinking water tank 11, a drinking water tank 12 and an air heating box 13 in three equal parts along the circumference; iron plates for heating are arranged on the inner bottom surfaces of the non-drinking water tank, the drinking water tank and the air heating tank; a heat conducting fin 131 for conducting heat on the iron plate to the inside of the air heating box is arranged in the air heating box; a water outlet pipe 14 is fixedly connected with the outer sides of the lower parts of the non-drinking water tank and the drinking water tank; the inlets of the non-potable water heating tank, the potable water heating tank and the air heating tank are positioned at the upper end of the heating tank; the outlet of the air heating box is positioned at the lower part of the side wall of the air heating box.

A cold water pipe 141 is fixedly connected to the water outlet pipe; tap water and filtered drinking water in a normal temperature state are communicated into a water outlet pipe through cold water pipes corresponding to the non-drinking water tank and the drinking water tank respectively; a first electromagnetic valve 142 is arranged on the water outlet pipe and close to the heating box; a second electromagnetic valve 143 is installed on the cold water pipe.

The sector of the induction cooker is concentric with the heating box; the periphery of the lower end of the heating box is fixedly connected with a circular guide rail 19 for the induction cooker to slide; the lower bottom surface of the heating box is fixedly connected with an annular groove 15; the section of the annular groove is C-shaped; the C-shaped opening of the section of the annular groove faces outwards horizontally; a round blocking ring 51 is fixedly connected to the position of the electromagnetic oven facing the axis of the heating box; the sealing retainer ring is coaxially and rotationally connected in the annular groove in a sealing manner, namely the sealing retainer ring blocks the opening of the annular groove; a closed annular cavity 151 is formed between the sealing ring and the annular groove.

A fixed block 152 is fixedly connected to one side of the joint of the non-drinking water tank and the drinking water tank in the annular cavity; a piston block 52 is formed on the inner wall of the blocking ring of the induction cooker in the annular cavity; two second springs 17 are respectively arranged between the fixed block and the piston block; one ends of the two second springs are respectively and fixedly connected with two ends of the fixed block, and the other ends of the two second springs are abutted against the piston block; in the initial state, the induction cooker is positioned below the air heating box, and the piston block is positioned opposite to the joint of the non-drinking water box and the drinking water box; two pressure increasing pipes 16 communicated with the annular cavity are formed on the outer wall of the inner ring of the annular groove; the pressure increasing pipe positioned on one side of the drinking water tank is communicated with the water outlet pipe of the non-drinking water tank; the pressure increasing pipe positioned on one side of the non-drinking water tank is communicated with the water outlet pipe of the drinking water tank; each pressurizing pipe is positioned between the piston block and the fixed block and is close to one end of the fixed block; the annular groove is positioned at the lower end of the fixed block and is fixedly connected with two pressure relief pipes 153; the two pressure relief pipes are respectively communicated with the annular cavity through two ends of the fixing block; one-way valves are respectively arranged at the outlets of the two pressure increasing pipes; the one-way valve is in one-way communication with the annular cavity from the outside. The fixed block limits the rotation range of the piston block, so that the rotation range of the induction cooker is limited; when the water outlet pipe of the non-drinking water tank discharges water, non-drinking water enters the annular cavity through the pressure increasing pipe, the piston block rotates towards the lower part of the non-drinking water tank, and meanwhile, the second spring positioned on one side of the non-drinking water tank contracts to enable the induction cooker to rotate to the lower part of the non-drinking water tank; when the water outlet pipe of the drinking water tank discharges water, the induction cooker rotates to the lower part of the drinking water tank in the same way; when the water outlet pipe stops discharging water, the piston block rotates back to the initial position along the annular cavity due to the recovery deformation of the second spring, namely the induction cooker is positioned below the air heating box.

A horizontally arranged drinking water pipe 02 is arranged in the horizontal pipe of the water faucet; the drinking water pipe is communicated with a water outlet pipe corresponding to the drinking water tank; the tail end of the drinking water pipe is closed; a non-drinking water cavity 011 is formed in the cavity body positioned at the outer side of the drinking water pipe in the transverse pipe; the non-drinking water cavity is communicated with a water outlet pipe of the non-drinking water tank; a drinking water path changing pipe 012 communicated with the drinking water pipe is formed in the inner cavity of the transverse pipe and positioned on one side of the drinking water pipe; the drinking water pipeline changing pipe is arranged towards one side of the drinking water pipe along the vertical direction; a drinking water conversion outlet 021 communicated with the drinking water path changing pipe is formed in the middle of the drinking water pipe; a first opening 0121 connected with the drinking water conversion outlet is formed in the side wall of the path changing cavity; a non-drinking water inlet 022 is formed on the side surface of the drinking water pipe close to the end part; a magnet 07 is connected between the drinking water conversion outlet and the non-drinking water inlet in the drinking water pipe in a sliding manner; the outer diameter of the magnet is the same as the inner diameter of the drinking water pipe; an iron ring 041 is arranged at the periphery of the drinking water pipe corresponding to the magnet; the iron ring is attracted by the magnet for positioning; the lower end of the iron ring is fixedly connected with a drinking water conversion pipe 042 arranged along the vertical direction; a drinking water guide port 0421 is formed on one side of the drinking water conversion pipe facing the drinking water path conversion pipe; the drinking water conversion pipe is tightly attached to the side surface of the drinking water path switching pipe; the side of the drinking water diversion pipe is formed with a second opening 0122 corresponding to the drinking water guiding opening. The drinking water enters the drinking water conversion pipe after passing through the drinking water path changing pipe from the drinking water pipe.

A drinking water outlet head 08 is vertically and slidably connected in the drinking water conversion pipe; the upper end of the drinking water outlet head is fixedly connected with a non-circular pressure bearing plate 082; a third spring 09 is fixedly connected between the lower part of the pressure bearing plate and the inner cavity of the drinking water conversion pipe; the side wall of the drinking water outlet head is in sealed sliding connection with the lower part of the inner cavity of the drinking water conversion pipe; a vertically arranged water flow guide pipe 0422 is fixedly connected to the side surface of the drinking water conversion pipe; the upper end and the lower end of the water flow guide pipe are respectively communicated with the upper part and the lower part of the inner cavity of the drinking water conversion pipe; a side opening 081 is formed on one side of the drinking water outlet head corresponding to the water flow guide pipe; and in the initial state, the drinking water outlet head is positioned at the highest position of the stroke, and the water flow guide pipe is not communicated with the side opening. After the drinking water is introduced into the drinking water pipe, the pressure in the drinking water pipe is increased, so that the magnet moves towards the end part, and the drinking water conversion pipe moves to the position with the stroke closest to the end part of the drinking water pipe; the drinking water enters the drinking water conversion pipe from the drinking water pipe through the drinking water path changing pipe, and the drinking water outlet head moves downwards due to the increase of water pressure in the drinking water conversion pipe, so that the drinking water enters the side opening through the water flow guide pipe and is discharged.

A pressure increasing cavity 023 communicated with the drinking water pipe is fixedly connected below the end part of the drinking water pipe; a second piston rod 031 facing the drinking water conversion pipe is connected in the pressurizing cavity in a sliding manner; one end of the second piston rod facing the drinking water conversion pipe is fixedly connected with an L-shaped sliding block 032; the lower end of the transverse pipe is provided with a drinking water outlet 0111 and a non-drinking water outlet 0112 which are formed corresponding to the drinking water outlet head and the lower end of the L-shaped sliding block respectively; the drinking water outlet is positioned below the drinking water outlet head when the drinking water conversion pipe moves to the end closest to the drinking water pipe; the non-drinking water outlet is positioned below the L-shaped sliding block when the L-shaped sliding block is positioned at the end closest to the drinking water pipe; the lower end of the L-shaped sliding block is tightly attached to the inner bottom surface where the drinking water outlet and the non-drinking water outlet are located; the side of L type sliding block hugs closely the lateral wall of drinking water diversion pipe. When a user needs drinking water, the drinking water outlet head penetrates out of the drinking water outlet, and after the drinking water outlet head is finished, the drinking water outlet head is contracted back into the drinking water conversion pipe under the action of the third spring; when the user needs the non-drinking water, the non-drinking water partly gets into the tip of drinking water pipe from the non-drinking water chamber, promotes magnet and moves towards the direction of keeping away from the drinking water tip, simultaneously, makes through the pressure boost chamber L type sliding block moves towards the direction of keeping away from the tip of drinking water pipe, makes the bottom of L type sliding block leaves the non-drinking water delivery port and blocks the drinking water delivery port, and the side of L type sliding block blocks the second opening, and then the non-drinking water passes through the non-drinking water delivery port and discharges this moment.

An air outlet connecting pipe 014 communicated with the air heating box is further arranged in the transverse pipe; and a lower air outlet 013 communicated with the air outlet connecting pipe is formed at the lower end of the transverse pipe. And air in the air heating box is exhausted from the lower air outlet through the air outlet connecting pipe under the action of the air blower.

The invention is also connected with an ozone generator 8; the heating box is provided with a controller; the outlet of the ozone generator is connected to a pipeline between a water outlet pipe of the non-drinking water tank and the water faucet; the water faucet is provided with a control panel electrically connected with the controller; the ozone generator, the first electromagnetic valve, the second electromagnetic valve, the electromagnetic oven and the rotary rheostat are electrically connected with a controller.

The temperature of the water or the air is set through the handle, and the electromagnetic oven is controlled by the controller to heat the heating box. Setting the temperature by means of a handle or knob is state of the art.

The water inlet pipelines of the non-drinking water tank and the drinking water tank are provided with safety valves; and temperature sensors electrically connected with the controller are arranged in the non-drinking water tank, the drinking water tank and the air heating tank.

When the water tap is used, drinking water, non-drinking water or air outlet of the water tap is set through the control panel, and the water outlet temperature or the air outlet temperature is set through the handle; when the user needs cold or normal-temperature non-drinking water, the controller controls the second electromagnetic valve on the cold water pipe corresponding to the non-drinking water tank to be opened, and then the tap discharges the cold non-drinking water; when a user needs cold drinking water, the controller controls the second electromagnetic valve on the cold water pipe corresponding to the drinking water tank to be opened, and the drinking water outlet head penetrates out of the drinking water outlet and discharges the cold drinking water; when a user needs to blow cold air, the controller controls the blower to work, and cold air is discharged when the faucet handle is opened.

When a user needs hot non-drinking water, the controller controls the second electromagnetic valve of the non-drinking water tank to be opened, because the pressure in the water outlet pipe corresponding to the non-drinking water tank is increased, the pressure in the annular cavity is increased through the pressure increasing pipe, the electromagnetic oven is driven to rotate and positioned below the non-drinking water tank, the controller controls the electromagnetic oven to heat, when the temperature in the non-drinking water tank reaches the temperature required by the user, the electromagnetic oven is controlled to stop working, then the controller controls the second electromagnetic valve to be closed, the first electromagnetic valve is opened at the same time, the water faucet outputs hot non-drinking water, after the user uses the water, the controller controls the first electromagnetic valve to be closed, and the electromagnetic oven returns to the initial position; a certain amount of cold service water is consumed in the process, so that the user can preferably use the hot service water after using the cold service water; when the user needs hot drinking water, the operation process is the same as that of non-drinking water; when a user needs to dry, the induction cooker and the blower are directly controlled to work; when the drinking water tank, the non-drinking water tank and the air heating tank are heated, the heating can be realized by controlling the movement of the induction cooker without separately arranging an induction cooker or other heating equipment.

When a user needs to use ozone for disinfection or cleaning, the ozone generator is controlled to work, and then the second electromagnetic valve of the cold water pipe corresponding to the non-drinking water tank is opened for use.

The drinking water and the non-drinking water are discharged from the faucet through respective special pipelines, so that the non-drinking water is prevented from polluting the drinking water; the drinking water outlet head extends out from the drinking water outlet when the first electromagnetic valve or the second electromagnetic valve corresponding to the drinking water is opened, and automatically retracts into the water faucet when the drinking water outlet head is closed, so that the valve pipe is prevented from being polluted by the external environment; when the drinking water and the non-drinking water are discharged, the corresponding water outlets are automatically switched through the pipelines; the position of the induction cooker is positioned by the pressure change generated in the annular cavity when the water outlet pipe is discharged through the communication of the pressure increasing pipe and the water outlet pipe.

Example 2

As shown in fig. 10 to 12, this embodiment is modified from embodiment 1 as follows: the blower includes a cylindrical housing 21; a driving motor 22 is arranged outside the shell; an output shaft of the driving motor is concentric with the shell; two fans 23 are arranged on the output shaft of the driving motor and positioned in the shell; the two fans are centrifugal fans; a ratchet wheel 231 is formed in the middle of one side of each fan facing the driving motor; the directions of the two ratchet wheels are opposite; a ratchet chuck 27 matched with the ratchet is fixedly connected to an output shaft of the driving motor; a partition plate 213 parallel to the fan is fixedly connected in the housing; the partition plate is positioned between the two fans; a first air outlet 211 and a second air outlet 212 which are horizontally arranged and rectangular are formed at the bottom of the periphery of the shell; the width of the first air outlet is larger than that of the fan; the first air outlet is positioned at one end far away from the driving motor; the first air outlet is divided into an air outlet channel 214 and an air inlet channel 215 by the partition plate; the air outlet channel corresponds to a fan far away from the driving motor; the air outlet channel and the air inlet channel are equal in size; the orientation of the second air outlet is opposite to that of the first air outlet; the width of the second air outlet is the same as that of the fan close to the driving motor; an air inlet 216 is formed on one side of the shell far away from the driving motor. When the driving motor rotates forwards, the ratchet chuck drives the fan far away from the driving motor to rotate, and when the other fan is static, airflow enters through the air inlet and is discharged through the air outlet channel; when the driving motor rotates reversely, the fan close to the driving motor rotates, the other fan is static, and then airflow enters from the air inlet channel and is discharged out of the room from the second air outlet through the fan.

A rectangular rotary baffle 26 is rotatably connected in the first air outlet corresponding to the partition plate; the rotating baffle is vertically arranged; the rotary baffle is larger than the outer frame of the air outlet channel, and the rotary baffle is larger than the outer frame of the air inlet channel because the air inlet channel and the air outlet channel are equal in size; an incomplete worm gear 261 is fixedly connected to the upper end of the first air outlet through a rotating shaft of the rotating baffle; a worm 252 in meshed transmission connection with the incomplete worm wheel is mounted at the upper end of the first air outlet; the worm is arranged along the axial direction of the driving motor; an output shaft of the driving motor is positioned on the outer side of the shell and is fixedly connected with a driving gear 24; one end of the worm, which is positioned at the driving gear, is fixedly connected with a driven gear 251 which is in meshing transmission connection with the driving gear; and fourth springs 262 are respectively arranged at the two sides of the rotating baffle corresponding to the outer frame of the air outlet channel. When the driving motor rotates forwards, the driving gear drives the worm to rotate through the driven gear, the rotating baffle rotates to block the air inlet channel through incomplete worm wheel rotation, and then air flow generated by a fan far away from the driving motor cannot pass through the air inlet channel; when the driving motor rotates reversely, the driving gear drives the worm to rotate through the driven gear, the rotating baffle rotates to block the air outlet channel through incomplete worm wheel rotation, and air in the air outlet channel cannot flow in when a fan close to the driving motor generates negative pressure; when the rotary baffle blocks the air inlet channel, the worm is disengaged from the incomplete worm wheel, meanwhile, the fourth spring is extruded by the frame body of the air inlet channel to generate elastic potential energy, and when the driving motor stops rotating, the incomplete worm wheel is meshed with the worm again through the potential energy of the fourth spring for restoring deformation.

The first air outlet is communicated with the air heating box; the other end of the air heating box is communicated with the water faucet. When the driving motor rotates forwards, airflow enters through the air inlet, enters the heating box through the air outlet channel and is finally discharged through the water faucet; when the driving motor rotates reversely, the airflow enters through the faucet, reversely enters the heating box, and is discharged from the second air outlet through the air inlet channel.

The driving motor is electrically connected with the controller.

When the ozone concentration in the external environment of the faucet is too high or peculiar smell is contained, the controller controls the air blower to rotate reversely, so that the air in the external environment is exhausted from the second air outlet.

The air blower makes the water outlet of the water faucet to blow air or suck air through positive and negative rotation, so that the drying or odor removing effect is achieved; controlling the blower to reverse when ozone is used can simultaneously expel ozone from the air during use.

Claims (4)

1. An electronic temperature-regulating faucet comprises a vertical pipe used for fixed installation and a transverse pipe horizontally arranged at the upper part of the vertical pipe; the upper end of the vertical pipe is provided with a rotary rheostat; a handle is fixedly connected to a rotating shaft of the rotary rheostat; the method is characterized in that:

the water faucet is connected with a heating box through a pipeline; one end of the heating box, which is far away from the water tap, is connected with a filter for filtering tap water and an air blower for generating air flow respectively; the bottom of the heating box is provided with a fan-shaped induction cooker;

the heating box is a cylinder with the axis vertically arranged; the inside of the heating box is divided into a non-drinking water tank, a drinking water tank and an air heating box in three equal parts along the circumference; the outer sides of the lower parts of the non-drinking water tank and the drinking water tank are fixedly connected with a water outlet pipe;

a cold water pipe is fixedly connected to the water outlet pipe; a first electromagnetic valve is arranged on the water outlet pipe and close to the heating box; a second electromagnetic valve is arranged on the cold water pipe;

the sector of the induction cooker is concentric with the heating box; the periphery of the lower end of the heating box is fixedly connected with a circular guide rail for the induction cooker to slide; the lower bottom surface of the heating box is fixedly connected with an annular groove; the section of the annular groove is C-shaped; the C-shaped opening of the section of the annular groove faces outwards horizontally; a circular blocking ring is fixedly connected to the position, facing the axis of the heating box, of the electromagnetic oven; the sealing retainer ring is coaxially and rotationally connected in the annular groove in a sealing manner; a closed annular cavity is formed between the sealing retainer ring and the annular groove;

a fixed block is fixedly connected to one side of the joint of the non-drinking water tank and the drinking water tank in the annular cavity; a piston block is formed on the inner wall of the blocking ring of the induction cooker in the annular cavity; two second springs are respectively arranged between the fixed block and the piston block; one ends of the two second springs are respectively and fixedly connected with two ends of the fixed block, and the other ends of the two second springs are abutted against the piston block; two pressure increasing pipes communicated with the annular cavity are formed on the outer wall of the inner ring of the annular groove; the pressure increasing pipe positioned on one side of the drinking water tank is communicated with the water outlet pipe of the non-drinking water tank; the pressure increasing pipe positioned on one side of the non-drinking water tank is communicated with the water outlet pipe of the drinking water tank; each pressurizing pipe is positioned between the piston block and the fixed block and is close to one end of the fixed block; the annular groove is positioned at the lower end of the fixed block and is fixedly connected with two pressure relief pipes; the two pressure relief pipes are respectively communicated with the annular cavity through two ends of the fixing block; one-way valves are respectively arranged at the outlets of the two pressure increasing pipes; the one-way valve is in one-way communication with the annular cavity from the outside;

a horizontally arranged drinking water pipe is arranged in the transverse pipe of the water tap; the drinking water pipe is communicated with a water outlet pipe corresponding to the drinking water tank; the tail end of the drinking water pipe is closed; a cavity body positioned at the outer side of the drinking water pipe in the transverse pipe forms a non-drinking water cavity; the non-drinking water cavity is communicated with a water outlet pipe of the non-drinking water tank; a drinking water path changing pipe communicated with the drinking water pipe is formed in the inner cavity of the transverse pipe and positioned on one side of the drinking water pipe; a drinking water conversion outlet communicated with the drinking water path changing pipe is formed in the middle of the drinking water pipe; the side surface of the drinking water pipe close to the end part is formed with a non-drinking water inlet; a magnet is connected between the drinking water conversion outlet and the non-drinking water inlet in the drinking water pipe in a sliding manner; the outer diameter of the magnet is the same as the inner diameter of the drinking water pipe; an iron ring is arranged on the periphery of the drinking water pipe corresponding to the magnet; the lower end of the iron ring is fixedly connected with a drinking water conversion pipe arranged along the vertical direction; a drinking water guide port is formed on one side of the drinking water conversion pipe facing the drinking water path conversion pipe; the drinking water conversion pipe is tightly attached to the side surface of the drinking water path switching pipe;

a drinking water outlet head is vertically and slidably connected in the drinking water conversion pipe; the upper end of the drinking water outlet head is fixedly connected with a non-circular bearing plate; a third spring is fixedly connected between the lower part of the pressure bearing plate and the inner cavity of the drinking water conversion pipe; the side wall of the drinking water outlet head is in sealed sliding connection with the lower part of the inner cavity of the drinking water conversion pipe; a vertically arranged water flow guide pipe is fixedly connected to the side surface of the drinking water conversion pipe; the upper end and the lower end of the water flow guide pipe are respectively communicated with the upper part and the lower part of the inner cavity of the drinking water conversion pipe; a side opening is formed at one side of the drinking water outlet head corresponding to the water flow guide pipe; in the initial state, the drinking water outlet head is positioned at the highest position of the stroke, and the water flow guide pipe is not communicated with the side opening;

a pressurizing cavity communicated with the drinking water pipe is fixedly connected below the end part of the drinking water pipe; a second piston rod facing the drinking water conversion pipe is connected in the pressurizing cavity in a sliding manner; one end of the second piston rod, which faces the drinking water conversion pipe, is fixedly connected with an L-shaped sliding block; the lower end of the transverse pipe is provided with a drinking water outlet and a non-drinking water outlet which are respectively formed corresponding to the drinking water outlet head and the lower end of the L-shaped sliding block;

an air outlet connecting pipe communicated with the air heating box is further arranged in the transverse pipe; a lower air outlet communicated with the air outlet connecting pipe is formed at the lower end of the transverse pipe;

the heating box is provided with a controller; the first electromagnetic valve, the second electromagnetic valve, the electromagnetic oven and the rotary rheostat are electrically connected with a controller.

2. An electronic tempering faucet as recited in claim 1 wherein: the blower includes a cylindrical housing; a driving motor is arranged outside the shell; an output shaft of the driving motor is concentric with the shell; two fans are arranged on the output shaft of the driving motor and positioned in the shell; the two fans are centrifugal fans; a ratchet wheel is formed in the middle of one side, facing the driving motor, of each of the two fans; the directions of the two ratchet wheels are opposite; a ratchet wheel chuck matched with the ratchet wheel is fixedly connected to an output shaft of the driving motor; a partition plate parallel to the fan is fixedly connected in the shell; the partition plate is positioned between the two fans; a first air outlet and a second air outlet which are horizontally arranged and rectangular are formed at the bottom of the periphery of the shell; the width of the first air outlet is larger than that of the fan; the first air outlet is positioned at one end far away from the driving motor; the first air outlet is divided into an air outlet channel and an air inlet channel by the partition plate; the air outlet channel corresponds to a fan far away from the driving motor; the air outlet channel and the air inlet channel are equal in size; the orientation of the second air outlet is opposite to that of the first air outlet; the width of the second air outlet is the same as that of the fan close to the driving motor; an air inlet is formed in one side, far away from the driving motor, of the shell;

a rectangular rotating baffle is rotatably connected in the first air outlet corresponding to the partition plate; the rotating baffle is vertically arranged; the rotary baffle is larger than the outer frame of the air outlet channel; an incomplete worm gear is fixedly connected to the upper end of the first air outlet, which is positioned on the rotating shaft of the rotating baffle; a worm in meshed transmission connection with the incomplete worm wheel is mounted at the upper end of the first air outlet; the worm is arranged along the axial direction of the driving motor; an output shaft of the driving motor is positioned on the outer side of the shell and is fixedly connected with a driving gear; one end of the worm, which is positioned at the driving gear, is fixedly connected with a driven gear in meshing transmission connection with the driving gear; the two sides of the rotating baffle plates are respectively provided with a fourth spring corresponding to the outer frame of the air outlet channel;

the first air outlet is communicated with the air heating box;

the driving motor is electrically connected with the controller.

3. An electronic tempering faucet as recited in claim 1 wherein: iron plates for heating are arranged on the inner bottom surfaces of the non-drinking water tank, the drinking water tank and the air heating tank; and a heat conducting fin for conducting heat on the iron plate into the air heating box is arranged in the air heating box.

4. An electronic tempering faucet as recited in claim 1 wherein: an ozone generator is also connected; the outlet of the ozone generator is connected to a pipeline between a water outlet pipe of the non-drinking water tank and the water faucet; the ozone generator is electrically connected with the controller.

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