CN117847308A

CN117847308A - Gradual-change constant-temperature electric heating faucet based on Internet of things and application method of gradual-change constant-temperature electric heating faucet

Info

Publication number: CN117847308A
Application number: CN202310526812.9A
Authority: CN
Inventors: 周宏伟
Original assignee: Anhui Dongfang Baisuiquan Technology Co ltd
Current assignee: Anhui Dongfang Baisuiquan Technology Co ltd
Priority date: 2023-05-11
Filing date: 2023-05-11
Publication date: 2024-04-09

Abstract

The invention discloses a gradual change type constant temperature internet of things electric heating faucet and a use method thereof, wherein the gradual change type constant temperature internet of things electric heating faucet comprises: the water faucet comprises a faucet main body and a heating shell, wherein the heating shell is communicated with a water inlet and a water outlet, a heating channel is arranged between the water inlet and the water outlet, a heating pipe is arranged in the heating channel, a switch of the heating pipe is connected with a switch signal of the faucet main body, and the water outlet is communicated with the faucet main body; the internet of things module is connected with the heating pipe and the switch of the faucet main body through signals. When a user opens the switch of the faucet main body, the switch of the heating pipe is started at the same time, water is heated while water is discharged, and the temperature of the heating pipe is gradually increased to a preset value, so that the temperature of the water is gradually increased to a relatively constant temperature state. And moreover, the heating capacity or the water yield of the faucet can be controlled or remotely controlled through the Internet of things module, or the state of the faucet can be monitored, so that the faucet can be flexibly used.

Description

Gradual-change constant-temperature electric heating faucet based on Internet of things and application method of gradual-change constant-temperature electric heating faucet

Technical Field

The invention belongs to the technical field of electric heating water faucets, and particularly relates to a gradual-change constant-temperature internet of things electric heating water faucet and a use method thereof.

Background

The Internet of things originates in the media field and is the third revolution of the information technology industry. The internet of things refers to connecting any object with a network through information sensing equipment according to a stipulated protocol, and carrying out information exchange and communication on the object through an information transmission medium so as to realize the functions of intelligent identification, positioning, tracking, supervision and the like. Three keys in the application of the internet of things are a perception layer, a network transmission layer and an application layer respectively. The quick-heating type water tap is a high-efficiency and quick water tap, and can be named as hot water can be discharged within 3-5 seconds after the quick-heating type water tap is started.

The heating capacity or the water yield of the existing electric heating faucet is difficult to remotely control through the Internet of things, so that the electric heating faucet is suitable for the fields of intelligent home, automatic water selling, industrial water and the like.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a gradual change type constant temperature electric heating faucet of the internet of things and a use method thereof, which have the advantages of controlling or remotely controlling the heating capacity or the water yield of the faucet through the internet of things module or monitoring the state of the faucet, and solve the problem that the conventional electric heating faucet is difficult to remotely control the heating capacity or the water yield of the faucet through the internet of things.

The invention discloses a gradual-change constant-temperature electric heating faucet of the internet of things, which comprises the following components:

a tap body;

the heating shell is communicated with a water inlet and a water outlet, a heating channel is arranged between the water inlet and the water outlet, a heating pipe is arranged in the heating channel, a switch of the heating pipe is connected with a switch signal of the tap main body, and the water outlet is communicated with the tap main body;

the internet of things module is connected with the heating pipe and the switch of the faucet main body in a signal mode.

Through this setting, when the switch of tap main part is opened to the user, the switch of while start the heating pipe, heat water when the play water to the temperature of heating pipe gradually promotes to the default to make play water temperature gradually promote to relative constant temperature's state. And moreover, the heating capacity or the water yield of the faucet can be controlled or remotely controlled through the Internet of things module, or the state of the faucet can be monitored, so that the faucet can be flexibly used.

As a preferable mode of the invention, the water inlet and the water outlet are arranged on the side wall of the heating shell, the water inlet is positioned on the lower side of the heating shell, and the water outlet is positioned on the upper side of the heating shell;

the end part of one side of the heating shell is provided with an opening, a piston is arranged at the opening, a pushing piece is connected to the outer side of the piston, and the pushing piece is connected with a switch signal of the tap main body; one end of the heating pipe is fixedly connected to the piston.

In the prior art, under the condition of small water flow, the water flow in the heating shell is slower, and under the condition of unchanged volume of the heating shell, the unit flow of water is heated for a long time, and the temperature of the discharged water is higher at the moment; under the condition of large water flow, the water in the heating shell flows faster, and under the condition of unchanged volume of the heating shell, the unit flow of water is heated for a short time, and the temperature of the discharged water is lower; therefore, constant temperature water discharge is inconvenient.

Through this setting, but through the position of adjusting the piston, the volume of adjustable heating shell: when the water yield is detected to be small (for example, the water yield is detected through the opening degree of a switch of the faucet main body), the pushing piece is controlled to drive the piston to move, so that the volume of the heating shell is enlarged, and the water temperature is slightly reduced; similarly, when the large water yield is detected, the pushing piece is controlled to drive the piston to move, so that the volume of the heating shell is reduced, the water temperature is slightly increased, and the temperature of the water can be more balanced through the arrangement.

The volume of the heating shell can be adjusted according to the water yield. It should also be noted that in this embodiment, the water inlet and water outlet are not aligned; the distance between the water inlet and the water outlet is the heating distance.

And moreover, the heating pipe can be detached by pulling out the piston from the opening, so that the scale on the heating pipe can be conveniently cleaned, the scale in the heating shell can be conveniently cleaned, and the heating pipe can be replaced and maintained.

As a preferable mode of the invention, the pushing piece is an electric push rod, a base of the electric push rod is fixedly connected to the outer wall of the heating shell, a moving end of the electric push rod is fixedly connected with a first clamping block, and a first clamping groove is formed in the first clamping block;

the outer end part of the piston is fixedly connected with a second clamping block, and a second clamping groove aligned with the first clamping groove is formed in the second clamping block; the first clamping groove is detachably connected with the second clamping groove through a connecting piece, and the connecting piece can rotate relative to the second clamping groove.

By way of example, the connection piece can be provided as a screw, by means of which the electric push rod can push the piston to move back and forth, and, when the connection piece is detached, the piston can be extracted from the heating shell.

As a preferred mode of the invention, a partition board which is transversely arranged is arranged in the heating shell and divides the interior of the heating shell into an upper subchamber and a lower subchamber, and the end parts of the upper subchamber and the lower subchamber, which are close to the piston, are provided with a first channel;

the partition plate is provided with a second channel, the second channel extends to one side end part of the partition plate, which is close to the piston, and the second channel is positioned in the middle part of the partition plate;

one side of the piston is fixedly connected with a round straight rod-shaped piece, the round straight rod-shaped piece is positioned in the second channel, the side wall of the round straight rod-shaped piece is attached to the side wall of the second channel, and the round straight rod-shaped piece can block at least part of the second channel.

By way of example, the round bar-like member may be provided as a solid round bar, by which arrangement a portion of the water entering at the water inlet enters into the lower subchamber, then passes sequentially through the first passage, the upper subchamber and the water outlet, and finally into the tap body (the heating tube may be provided in the upper subchamber and/or the lower subchamber, this portion of the water being heated); the other part passes directly through the second channel and the water outlet and finally enters the tap body (the part of water is not heated). By moving the piston, the proportion of water passing in the second passage can be adjusted, thereby adjusting the water temperature.

It should be noted that the circular straight rod-shaped member may be directly configured as a heating pipe, so as to heat water in the upper subchamber and the lower subchamber.

As a preferable mode of the invention, the piston is provided with a second baffle, the second baffle is an arc-shaped plate, and the second baffle is attached to the inner wall of the heating shell;

and the second baffle is provided with a through hole, the through hole is at least partially aligned with the water inlet, and when the second baffle moves, at least part of the water inlet can be blocked.

By this arrangement, when the piston moves outward, the second baffle blocks part of the water inlet, so that the water inflow is reduced, and the water flow can be regulated.

Preferably, two heating pipes are provided, and the two heating pipes are respectively arranged in the upper subchamber and the lower subchamber.

The provision of two heating pipes increases the heating path and thus the water can be heated to a higher temperature. And can be replaced by pulling out the piston.

Preferably, the inner wall of the lower subchamber is provided with a fixed block, the second baffle plate is provided with a diagonal slideway, and the fixed block is positioned in the diagonal slideway when the piston is positioned in the heating shell.

Through this setting, when the piston inwards or outwards remove, because the cooperation of fixed block and inclined slide way, the piston can realize rotating simultaneously, and under the condition that round straight rod spare set up to the heating pipe, round straight rod spare rotates, and the baffle can strike off the incrustation scale of round straight rod spare outer wall to improve heating efficiency, and more power saving.

As a preferable mode of the invention, the internet of things module comprises a central processing module, and the central processing module is in signal connection with the heating pipe and the switch of the faucet main body;

the control end is in signal connection with the central processing module and is used for inputting control commands;

the pushing piece driving module is in signal connection with the central processing module and is used for driving the piston to move to a required position;

the water flow monitoring module is in signal connection with the central processing module, is used for monitoring water flow and controls the piston to move to a required position through the water flow;

the locking module is in signal connection with the central processing module and is used for locking states of the faucet main body, the heating pipe and the piston.

As an preferable mode of the invention, the internet of things module further comprises a power consumption monitoring module which is in signal connection with the central processing module, and if the power consumption exceeds a preset value (indicating that the heating pipe is provided with scale), the scale on the surface of the heating pipe is reminded to be cleaned in time;

and the timing module is in signal connection with the central processing module, and drives the piston to move outwards when the fact that the heating pipe is not started for more than the preset time is detected, so that the heating shell can contain more water, and dry burning is prevented.

The application method of the gradual change type constant temperature internet of things electric heating faucet comprises the following steps:

when a user turns on the switch of the faucet main body, the switch of the heating pipe is started at the same time, water is heated while water is discharged, and the temperature of the heating pipe is gradually increased to a preset value, so that the temperature of the discharged water is gradually increased to a relatively constant temperature state;

when the gradual change type constant temperature internet of things electric heating faucet needs to be monitored, controlled or remotely controlled, the gradual change type constant temperature internet of things electric heating faucet can be monitored, controlled or remotely controlled through the internet of things module

Compared with the prior art, the invention has the following beneficial effects:

in the invention, when a user opens the switch of the faucet main body, the switch of the heating pipe is started at the same time, and water is heated at the same time when water is discharged, and the temperature of the heating pipe is gradually increased to a preset value, so that the temperature of the water is gradually increased to a relatively constant temperature state. And moreover, the heating capacity or the water yield of the faucet can be controlled or remotely controlled through the Internet of things module, or the state of the faucet can be monitored, so that the faucet can be flexibly used.

Drawings

Fig. 1 is a schematic structural diagram of a first view angle of a gradual change type constant temperature internet of things electric heating faucet provided by an embodiment of the invention;

fig. 2 is a schematic side view structure of a gradual change type constant temperature internet of things electric heating faucet provided by the embodiment of the invention;

FIG. 3 is a schematic cross-sectional view of portion A-A of FIG. 2, provided in accordance with an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the portion B in FIG. 3 according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a cross-sectional expanded configuration of portion A-A of FIG. 2 provided by an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a second view angle of a gradual change type constant temperature internet of things electric heating faucet provided by the embodiment of the invention;

fig. 7 is a block diagram of an internet of things module according to an embodiment of the present invention;

fig. 8 is a block diagram of an internet of things module according to another embodiment of the present invention.

In the figure: 1. a tap body; 2. heating the shell; 3. a water inlet; 4. a water outlet; 5. a heating channel; 6. heating pipes; 7. the Internet of things module; 8. an opening; 9. a piston; 10. a pushing member; 11. a first clamping block; 12. a first clamping groove; 13. a second clamping block; 14. a second clamping groove; 15. a connecting piece; 16. a partition plate; 161. an upper subchamber; 162. a lower subchamber; 17. a first channel; 18. a second channel; 19. a round straight rod-shaped member; 20. a second baffle; 21. a through hole; 22. a fixed block; 23. an inclined slideway; 71. a central processing module; 72. a control end; 73. a pusher drive module; 74. a water flow monitoring module; 75. a locking module; 76. an electric quantity monitoring module; 77. and a timing module.

Detailed Description

For a further understanding of the invention, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings.

The structure of the present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1-3, a gradual-change constant-temperature electric heating faucet of internet of things provided by an embodiment of the invention includes:

a tap body 1;

the heating shell 2 is communicated with the water inlet 3 and the water outlet 4, a heating channel 5 is arranged between the water inlet 3 and the water outlet 4, a heating pipe 6 is arranged in the heating channel 5, a switch of the heating pipe 6 is connected with a switch signal of the tap main body 1, and the water outlet 4 is communicated with the tap main body 1;

the internet of things module 7 is in signal connection with the heating pipe 6 and the switch of the faucet main body 1.

With this arrangement, when the user turns on the switch of the tap body 1, the switch of the heating pipe 6 is simultaneously started, water is heated while water is discharged, and the temperature of the heating pipe 6 is gradually raised to a preset value, so that the temperature of the discharged water is gradually raised to a relatively constant temperature state. And, heating capacity or water yield of the faucet can be controlled or remotely controlled through the internet of things module 7, or the state of the faucet can be monitored, so that the faucet can be flexibly used.

Referring to fig. 1-3, the water inlet 3 and the water outlet 4 are both disposed on a side wall of the heating shell 2, the water inlet 3 is disposed on a lower side of the heating shell 2, and the water outlet 4 is disposed on an upper side of the heating shell 2;

an opening 8 is formed in one side end part of the heating shell 2, a piston 9 is arranged at the opening 8, a pushing piece 10 is connected to the outer side of the piston 9, and the pushing piece 10 is connected with a switch signal of the faucet main body 1; one end of the heating pipe 6 is fixedly connected to the piston 9.

In the prior art, under the condition of small water flow, the water flow in the heating shell 2 is slower, and under the condition of unchanged volume of the heating shell 2, the water with unit flow is heated for a long time, and the temperature of the discharged water is higher at the moment; under the condition of large water flow, the water in the heating shell 2 flows faster, and under the condition of unchanged volume of the heating shell 2, the unit flow of water is heated for a short time, and the temperature of the discharged water is lower; therefore, constant temperature water discharge is inconvenient.

By this arrangement, the volume of the heating shell 2 can be adjusted by adjusting the position of the piston 9: when the water yield is detected to be small (for example, the water yield is detected by the opening degree of a switch of the tap main body 1), the pushing piece 10 is controlled to drive the piston 9 to move, so that the volume of the heating shell 2 is enlarged, and the water temperature is slightly reduced; similarly, when the water yield is detected to be large, the pushing piece 10 is controlled to drive the piston 9 to move, so that the volume of the heating shell 2 is reduced, the water temperature is slightly increased, and the temperature of the water can be more balanced through the arrangement.

The volume of the heating shell 2 may be adjusted according to the amount of water output. It should also be noted that in this embodiment, the water inlet 3 and the water outlet 4 are not aligned; the distance between the water inlet 3 and the water outlet 4 is the heating distance.

And moreover, the heating pipe 6 can be detached by pulling the piston 9 out of the opening 8, so that the scale on the heating pipe 6 can be conveniently cleaned, the scale in the heating shell 2 can be conveniently cleaned, and the heating pipe 6 can be replaced and maintained.

Referring to fig. 3 and 4, the pushing member 10 is an electric push rod, a base of the electric push rod is fixedly connected to an outer wall of the heating shell 2, a moving end of the electric push rod is fixedly connected with a first clamping block 11, and a first clamping groove 12 is formed in the first clamping block 11; the outer end part of the piston 9 is fixedly connected with a second clamping block 13, and the second clamping block 13 is provided with a second clamping groove 14 aligned with the first clamping groove 12; the first clamping groove 12 and the second clamping groove 14 are detachably connected through a connecting piece 15, and the connecting piece 15 can rotate relative to the second clamping groove 14.

By way of example, the connection 15 may be provided as a screw, by means of which the electric push rod can push the piston 9 to move back and forth, and when the connection 15 is detached, the piston 9 can be extracted from the heating housing 2.

Referring to fig. 3, 5 and 6, the heating shell 2 has a partition plate 16 disposed transversely therein, the partition plate 16 divides the interior of the heating shell 2 into an upper subchamber 161 and a lower subchamber 162, and the ends of the upper subchamber 161 and the lower subchamber 162 near the piston 9 have a first channel 17; the partition plate 16 is provided with a second channel 18, the second channel 18 extends to one side end part of the partition plate 16 near the piston 9, and the second channel 18 is positioned in the middle part of the partition plate 16; one side of the piston 9 is fixedly connected with a round straight rod-shaped member 19, the round straight rod-shaped member 19 is located in the second channel 18, the side wall of the round straight rod-shaped member 19 is attached to the side wall of the second channel 18, and the round straight rod-shaped member 19 can block at least part of the second channel 18.

By way of example, the round bar-shaped member 19 may be provided as a solid round bar, by which arrangement a portion of the water entering the water inlet 3 enters the lower subchamber 162 and then passes sequentially through the first channel 17, the upper subchamber 161 and the water outlet 4, and finally into the tap body 1 (the heating tube 6 may be provided in the upper subchamber 161 and/or the lower subchamber 162, this portion of the water being heated); the other part passes directly through the second channel 18 and the water outlet 4 and finally into the tap body 1 (this part of the water is not heated). By moving the piston 9, the proportion of water passing in the second passage 18 can be adjusted, thereby adjusting the water temperature.

It should be noted that the round bar-shaped member 19 may be directly configured as the heating pipe 6, so as to heat the water in the upper sub-chamber 161 and the lower sub-chamber 162.

Referring to fig. 3, the piston 9 has a second baffle 20, the second baffle 20 is an arc plate, and the second baffle 20 is attached to the inner wall of the heating shell 2; the second baffle 20 is provided with a through hole 21, the through hole 21 is at least partially aligned with the water inlet 3, and when the second baffle 20 moves, at least part of the water inlet 3 can be blocked.

With this arrangement, when the piston 9 moves outward, the second baffle 20 blocks part of the water inlet 3, reducing the inflow amount, so that the water flow rate can be regulated in gear.

Illustratively, two heating pipes 6 are provided, and two heating pipes 6 are respectively disposed in the upper subchamber 161 and the lower subchamber 162. The provision of two heating pipes 6 increases the heating path and thus the water to a higher temperature. And can be replaced by pulling out the piston 9.

Referring to fig. 5, the inner wall of the lower subchamber 162 has a fixing block 22, the second baffle 20 has a diagonal slide 23, and the fixing block 22 is located in the diagonal slide 23 when the piston 9 is located in the heating shell 2. With this arrangement, when the piston 9 moves inward or outward, the piston 9 is simultaneously rotated due to the cooperation of the fixing block 22 and the inclined slide 23, and in the case where the round bar-shaped member 19 is provided as the heating pipe 6, the round bar-shaped member 19 is rotated, and the partition 16 can scrape scale on the outer wall of the round bar-shaped member 19, thereby improving heating efficiency and saving more electricity.

Referring to fig. 7, the internet of things module 7 includes a central processing module 71, and the central processing module 71 is connected with the heating pipe 6 and the switch of the faucet main body 1 by signals;

the control end 72 is in signal connection with the central processing module 71, and the control end 72 is used for inputting control commands;

a pusher driving module 73, in signal connection with the central processing module 71, for driving the piston 9 to move to a desired position;

a water flow monitoring module 74 in signal connection with the central processing module 71 for monitoring the water flow and moving to a desired position by the water flow control piston 9;

a locking module 75, which is in signal connection with the central processing module 71, is used for locking the states of the tap main body 1, the heating pipe 6 and the piston 9.

Referring to fig. 8, the internet of things module 7 further includes a power consumption monitoring module 76, which is in signal connection with the central processing module 71, and reminds of timely cleaning of scale on the surface of the heating pipe 6 if the power consumption exceeds a preset value (indicating that the heating pipe 6 has scale);

the timing module 77 is in signal connection with the central processing module 71, and drives the piston 9 to move outwards when the heating pipe 6 is detected to be not started beyond the preset time, so that the heating shell 2 can contain more water, and dry burning is prevented.

when a user turns on the switch of the tap main body 1, the switch of the heating pipe 6 is started at the same time, water is heated while water is discharged, and the temperature of the heating pipe 6 is gradually increased to a preset value, so that the temperature of the discharged water is gradually increased to a relatively constant temperature state;

when the gradual change type constant temperature internet of things electric heating faucet needs to be monitored, controlled or remotely controlled, the gradual change type constant temperature internet of things electric heating faucet can be monitored, controlled or remotely controlled through the internet of things module 7.

The working principle of the invention is as follows:

when in use, when a user turns on the switch of the tap main body 1, the switch of the heating pipe 6 is started at the same time, water is heated while water is discharged, and the temperature of the heating pipe 6 is gradually increased to a preset value, so that the temperature of the discharged water is gradually increased to a relatively constant temperature state. And, heating capacity or water yield of the faucet can be controlled or remotely controlled through the internet of things module 7, or the state of the faucet can be monitored, so that the faucet can be flexibly used.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Gradual change type constant temperature thing networking electric heating faucet, its characterized in that includes:

a tap body (1);

the heating device comprises a heating shell (2), wherein a water inlet (3) and a water outlet (4) are communicated with the heating shell (2), a heating channel (5) is arranged between the water inlet (3) and the water outlet (4), a heating pipe (6) is arranged in the heating channel (5), a switch of the heating pipe (6) is connected with a switch signal of a tap main body (1), and the water outlet (4) is communicated with the tap main body (1);

the internet of things module (7) is in signal connection with the heating pipe (6) and the switch of the faucet main body (1).

2. The gradual change type constant temperature internet of things electric heating faucet as claimed in claim 1, wherein:

the water inlet (3) and the water outlet (4) are both arranged on the side wall of the heating shell (2), the water inlet (3) is positioned on the lower side of the heating shell (2), and the water outlet (4) is positioned on the upper side of the heating shell (2);

an opening (8) is formed in one side end part of the heating shell (2), a piston (9) is arranged at the opening (8), a pushing piece (10) is connected to the outer side of the piston (9), and the pushing piece (10) is connected with a switch signal of the faucet main body (1); one end of the heating pipe (6) is fixedly connected to the piston (9).

3. The gradual change type constant temperature internet of things electric heating faucet as claimed in claim 2, wherein:

the pushing piece (10) is an electric push rod, a base of the electric push rod is fixedly connected to the outer wall of the heating shell (2), a moving end of the electric push rod is fixedly connected with a first clamping block (11), and a first clamping groove (12) is formed in the first clamping block (11);

the outer end part of the piston (9) is fixedly connected with a second clamping block (13), and a second clamping groove (14) aligned with the first clamping groove (12) is formed in the second clamping block (13); the first clamping groove (12) and the second clamping groove (14) are detachably connected through a connecting piece (15), and the connecting piece (15) can rotate relative to the second clamping groove (14).

4. A gradual change constant temperature internet of things electric heating faucet as recited in claim 3, wherein:

the heating shell (2) is internally provided with a partition plate (16) which is transversely arranged, the partition plate (16) divides the interior of the heating shell (2) into an upper subchamber (161) and a lower subchamber (162), and the ends of the upper subchamber (161) and the lower subchamber (162) which are close to the piston (9) are provided with a first channel (17);

the partition plate (16) is provided with a second channel (18), the second channel (18) extends to one side end part of the partition plate (16) close to the piston (9), and the second channel (18) is positioned in the middle of the partition plate (16);

one side of the piston (9) is fixedly connected with a round straight rod-shaped piece (19), the round straight rod-shaped piece (19) is located in the second channel (18), the side wall of the round straight rod-shaped piece (19) is attached to the side wall of the second channel (18), and the round straight rod-shaped piece (19) can block at least part of the second channel (18).

5. The gradual change type constant temperature thing networking electric heating faucet of claim 4, wherein:

the piston (9) is provided with a second baffle plate (20), the second baffle plate (20) is an arc-shaped plate, and the second baffle plate (20) is attached to the inner wall of the heating shell (2);

the second baffle (20) is provided with a through hole (21), the through hole (21) is at least partially aligned with the water inlet (3), and when the second baffle (20) moves, at least part of the water inlet (3) can be blocked.

6. The gradual change type constant temperature thing networking electric heating faucet of claim 4, wherein:

the heating pipes (6) are arranged in two, and the two heating pipes (6) are respectively arranged in the upper subchamber (161) and the lower subchamber (162).

7. The gradual change type constant temperature thing networking electric heating faucet of claim 5, wherein:

the inner wall of the lower subchamber (162) is provided with a fixed block (22), the second baffle plate (20) is provided with an inclined slide way (23), and when the piston (9) is positioned in the heating shell (2), the fixed block (22) is positioned in the inclined slide way (23).

8. The gradual change type constant temperature internet of things electric heating faucet as claimed in claim 1, wherein:

the Internet of things module (7) comprises a central processing module (71), and the central processing module (71) is in signal connection with the heating pipe (6) and the switch of the faucet main body (1);

the control end (72) is in signal connection with the central processing module (71), and the control end (72) is used for inputting control commands;

the pushing piece driving module (73) is in signal connection with the central processing module (71) and is used for driving the piston (9) to move to a required position;

the water flow monitoring module (74) is in signal connection with the central processing module (71) and is used for monitoring water flow and moving to a required position through the water flow control piston (9);

and the locking module (75) is in signal connection with the central processing module (71) and is used for locking the states of the faucet main body (1), the heating pipe (6) and the piston (9).

9. The gradual change type constant temperature internet of things electric heating faucet as set forth in claim 8, wherein:

the internet of things module (7) further comprises a power consumption monitoring module (76) which is in signal connection with the central processing module (71), and if the power consumption exceeds a preset value, the scale on the surface of the heating pipe (6) is reminded to be cleaned in time;

and the timing module (77) is in signal connection with the central processing module (71), and drives the piston (9) to move outwards when the fact that the heating pipe (6) is not started for more than the preset time is detected, so that the heating shell (2) can contain more water, and dry burning is prevented.

10. A method for using the gradual change type constant temperature internet of things electric heating faucet as claimed in claims 1-9, comprising the following steps:

when a user opens the switch of the faucet main body (1), the switch of the heating pipe (6) is started at the same time, water is heated while water is discharged, and the temperature of the heating pipe (6) is gradually increased to a preset value, so that the temperature of the discharged water is gradually increased to a relatively constant temperature state;

when the gradual change type constant temperature internet of things electric heating faucet needs to be monitored, controlled or remotely controlled, the gradual change type constant temperature internet of things electric heating faucet can be monitored, controlled or remotely controlled through the internet of things module (7).