CN114087772A

CN114087772A - Heating tank device

Info

Publication number: CN114087772A
Application number: CN202010789777.6A
Authority: CN
Inventors: 但堂俊; 胡力宏; 陈文兴
Original assignee: Xiamen Solex High Tech Industries Co Ltd
Current assignee: Xiamen Solex High Tech Industries Co Ltd
Priority date: 2020-08-07
Filing date: 2020-08-07
Publication date: 2022-02-25
Anticipated expiration: 2040-08-07
Also published as: CN114087772B

Abstract

The invention discloses a heating tank device, which comprises a heating tank, a waterway mechanism and an expansion cavity, wherein the expansion cavity is fixedly arranged on the heating tank and is additionally provided with an overflow passage communicated with a limber hole and the expansion cavity; the expansion cavity is internally provided with a sealing element and a floating body, the sealing element and the floating body are connected together, the floating body can move up and down relative to the expansion cavity, the sealing element is matched with the overflow way to control the opening and closing of the overflow way through the up and down movement of the floating body, the water flow of the overflow way can impact the sealing element to drive the floating body to move up and open the overflow way, the floating body can maintain the opening of the overflow way under the buoyancy action of the water body in the expansion cavity, and the sealing element and the floating body can move down under the action of self gravity to close the overflow way. It has the following advantages: through sealing member and body cooperation, the body is responsible for the come-up, and the sealing member is responsible for sealed, and the two mutually supports, can improve spillway control accuracy and stability, increase of service life, reduction scald occurence of failure possibility.

Description

Heating tank device

Technical Field

The invention relates to the technical field of water heating, in particular to a heating tank device.

Background

Current heating tank device, which comprises a housin, electronic controller, go up the inner bag, lower inner bag, the temperature controller, backward flow chamber and backward flow chamber leather cup, casing upper portion is provided with hot water export and cold water inlet, it is provided with electronic controller to go up the installation of inner bag upper portion, the casing bottom is provided with the inner bag support through the bolt, the casing middle part is inside to be provided with lower inner bag through the installation of inner bag support, the inside backward flow chamber that is equipped with in casing bottom, lower inner bag bottom is connected with the backward flow chamber through the venturi blender, backward flow chamber internally mounted leather cup. The anti-expansion effect of this heating tank device is not good, has the risk of dripping hot water, has further improved demand.

Disclosure of Invention

The present invention provides a heating tank apparatus that overcomes the deficiencies of the heating tank apparatus of the background art.

The technical scheme adopted by the invention for solving the technical problem is as follows: a heating tank arrangement comprising:

the heating tank is provided with a limber hole;

the waterway mechanism comprises a water inlet passage which is communicated with the heating tank to supply water and a first water outlet passage which is communicated with the heating tank to discharge hot water, and the first water outlet passage is provided with a switch valve; and

the expansion cavity is fixedly arranged on the heating tank, an overflow passage is additionally arranged to be communicated with the limber hole and the expansion cavity, and the overflow passage is communicated with the water inlet passage by the Venturi principle; the expansion cavity is internally provided with a sealing element and a floating body, the sealing element and the floating body are connected together, the floating body can move up and down relative to the expansion cavity, the sealing element is matched with the overflow way to control the opening and closing of the overflow way through the up and down movement of the floating body, the water flow of the overflow way can impact the sealing element to drive the floating body to move up and open the overflow way, the floating body can maintain the opening of the overflow way under the buoyancy action of the water body in the expansion cavity, and the sealing element and the floating body can move down under the action of self gravity to close the overflow way.

In one embodiment: the waterway mechanism also comprises a water inlet joint and a second water outlet passage communicated with the water inlet joint, the water inlet passage is communicated with the water inlet joint and the heating tank, and the second water outlet passage is also provided with a switch valve.

In one embodiment: the expansion cavity is provided with a cavity bottom, the cavity bottom is provided with an access hole, the access hole forms a tail end port of the overflow path, and the sealing piece is matched with the access hole to control the opening and closing of the overflow path.

In one embodiment: the sealing element is of a sheet structure, a fixed joint is convexly arranged at the center of the sealing element, the fixed joint is fixedly connected to the cavity bottom, and the floating body is arranged on the sealing element.

In one embodiment: the sealing piece top surface is convexly provided with a fixed column, the floating body comprises a floating plate, the floating plate is provided with a mounting hole which penetrates through the floating plate from top to bottom, and the fixed column is matched and arranged in the mounting hole so as to connect the sealing piece and the floating body together.

In one embodiment: the position of the mounting hole and the position of the access hole are vertically aligned.

In one embodiment: the sealing element comprises a sealing head, and the position of the sealing head corresponds to the position of the access hole.

In one embodiment: the periphery of the sealing element is concavely provided with a ring groove, the floating body comprises a floating plate, the floating plate is sleeved outside the sealing element and clamped into the ring groove, and the part of the sealing element, which is positioned below the ring groove, forms the sealing head.

In one embodiment: the expansion cavity comprises a first shell and a cavity bottom, the first shell comprises a shell bottom and a peripheral wall formed by upward extending of the outer periphery of the shell bottom, the shell bottom is concavely provided with a lower groove, the first shell is provided with a through groove penetrating through the inner part and the outer part of the lower groove, the cavity bottom is fixedly arranged at the notch of the lower groove in a sealing manner, and the cavity bottom is provided with an access hole; the overflow path comprises the through groove, the lower groove and the access hole.

In one embodiment: the outer slot of the through slot is communicated with a Venturi joint which can play the role of Venturi principle and forms part of the water inlet channel.

In one embodiment: further comprising:

the heating tank, the waterway mechanism and the expansion cavity are fixedly arranged in the shell part, the heating tank comprises a heater, a circuit board is fixedly arranged in the shell part, the circuit board is electrically connected with the heater and the switch valve, and the circuit board is provided with a wireless power supply part;

and the remote controller is in signal connection with the circuit board so as to control the heater and the switch valve through the remote controller, a wireless charging component is also arranged in the remote controller, and the wireless charging component is matched with the wireless power supply component so as to realize wireless charging.

In one embodiment: the housing part comprises a second housing and an upper cover fixedly arranged on the second housing, the circuit board is positioned below the upper cover, the upper cover is concavely provided with a placement groove, and the remote controller can be adapted to be placed in the placement groove and the upper and lower positions of the wireless charging part and the wireless power supply part correspond to each other.

In one embodiment: the remote controller comprises a base, a battery, a signal transmission component, a Hall switch component, a panel and a rotating wheel, wherein the wireless charging component is electrically connected with the battery, and the battery is electrically connected with the signal transmission component and the Hall switch component; the battery and the wireless charging component are fixedly installed in the base, the rotating wheel can be rotatably connected outside the base, the Hall switch component can be rotatably connected in the base, the rotating wheel and the Hall switch component are connected together to synchronously rotate, and the panel is covered on the base.

In one embodiment: the Hall switch component comprises a Hall switch and a magnet, the Hall switch and the rotating wheel are connected together in an assembling mode, the magnet is fixedly arranged in the base, the Hall switch and the signal transmission component are integrated together and are also provided with a liquid crystal display component in an integrated mode, and the panel is made of light-transmitting materials so that the liquid crystal display component can display outwards through the panel.

In one embodiment: the upper part of the base protrudes outwards to form an outer convex part, the lower part of the base is in threaded connection with a fixed sleeve, and the rotating wheel can be rotatably connected outside the base through the outer convex part and the fixed sleeve.

Compared with the background technology, the technical scheme has the following advantages:

the expansion cavity is internally provided with a sealing element and a floating body, the sealing element, the floating body and the overflow way are matched, when the overflow way overflows, water flow impacts the sealing element to drive the floating body to move upwards and open the overflow way, scalding accidents caused by overflow leakage are avoided, after the overflow enters the expansion cavity, the floating body can float upwards to drive the sealing element to move or deform to enable the overflow way to be in an open state, when the water enters the water inlet way, the water in the expansion cavity can be sucked into the heating tank through a Venturi principle, the sealing element and the floating body can move downwards under the action of self gravity to close the overflow way after being sucked, and air in the overflow cavity is prevented from entering the heating tank. Through sealing member and body cooperation, the body is responsible for the come-up, and the sealing member is responsible for sealed, and the two mutually supports, can improve spillway control accuracy and stability, increase of service life, reduction scald occurence of failure possibility.

The cavity bottom is provided with an access hole which forms a tail end port of the overflow path, and the sealing element is matched with the access hole to control the switch of the overflow path, so that the control precision and stability of the overflow path are improved.

The center of the sealing element is convexly provided with a fixed joint which is fixedly connected with the cavity bottom, the switch of the overflow path is controlled by the deformation of the sealing element, the floating body is arranged on the sealing element, and the sealing element is driven to deform by the floating body.

The mounting hole that runs through from top to bottom is equipped with to the kickboard, and the mounting hole is packed into in order to link together gasket and body in the solid post adaptation, can improve control accuracy and stability.

The position of the mounting hole and the position of the access hole are arranged in an up-down alignment manner, so that the control precision and stability of the sealing element can be improved.

The periphery of the sealing element is concavely provided with a ring groove, and the floating plate is sleeved outside the sealing element and clamped into the ring groove, so that the structure is simple and the assembly is convenient.

The overflow path comprises the through grooves, the lower grooves and the through holes, and is reasonable in layout and compact in structure.

The circuit board is equipped with wireless power supply part, and remote controller and circuit board signal connection still are equipped with wireless charging part in order to be able to realize wireless charging in order to realize wireless charging with remote controller control heater and ooff valve, wireless charging part and wireless power supply part cooperate, can realize the remote control, can realize wireless charging again, combine together the portability of remote controller and wireless charging, improve the convenience of use.

The remote controller can be adapted to be placed in the placement groove, the wireless charging component corresponds to the wireless power supply component in the vertical position, and wireless charging precision and convenience are improved.

The rotating wheel and the Hall switch component are connected together to synchronously rotate, and the water temperature control precision is high by rotating the control switch and the water temperature.

The Hall switch and the signal transmission component are integrated together and are also integrally provided with a liquid crystal display component, and the panel is made of a light-transmitting material so that the liquid crystal display component can display outwards through the panel, can realize a display control state and is convenient to control.

The rotating wheel is rotatably connected outside the base through the outer convex part and the fixed sleeve, and the structure is compact and the assembly is convenient.

Drawings

The invention is further described with reference to the following figures and detailed description.

FIG. 1 is a perspective view of a heating tank device according to an embodiment.

FIG. 2 is a schematic sectional view of a heating tank device according to an embodiment.

FIG. 3 is a partially exploded perspective view of a heating tank assembly according to one embodiment.

FIG. 4 is a second partially exploded perspective view of a heating tank assembly according to a second embodiment of the present invention.

FIG. 5 is a perspective view of a remote controller according to an embodiment.

FIG. 6 is a cross-sectional view of a remote control according to an embodiment.

FIG. 7 is a schematic top view of a remote control according to an embodiment.

FIG. 8 is an exploded perspective view of a remote control according to an embodiment.

FIG. 9 is a schematic perspective view of an expansion chamber according to an embodiment.

FIG. 10 is a schematic cross-sectional view of a venturi according to an embodiment.

FIG. 11 is a schematic exploded perspective view of an expansion chamber according to an embodiment.

FIG. 12 is a schematic cross-sectional view of an expansion chamber according to one embodiment.

FIG. 13 is a second cross-sectional view of an expansion chamber according to an embodiment.

FIG. 14 is a schematic cross-sectional view of a second expansion chamber according to an embodiment.

FIG. 15 is a second cross-sectional view of the expansion chamber of the second embodiment.

Description of reference numerals: the device comprises a shell part 1, a heating tank 2, a waterway mechanism 3, an expansion cavity 4 and a remote controller 5; the second shell 11, the upper cover 12, the placing groove 121, the power socket 15, the data line port 13, the circuit board 14, and the wireless power supply part 141; insulation cotton 21 and a fixing frame 22; a water inlet joint 31, a water inlet channel 32, a first water outlet channel 33, a second water outlet channel 34 and a switch valve 35; an overflow path 41, a seal member 42, a float 43, a seal cover 44, a first housing 45, a housing bottom 451, a peripheral wall 452, a lower groove 453, a through groove 454, a chamber bottom 46, an inlet hole 461, a venturi 47, a front section 471, a rear section 472, and a water passage 473; the fixing connector 421, the fixing column 422, the floating plate 431, the mounting hole 432, the ring groove 423 and the sealing head 424; the liquid crystal display device includes a base 51, an external protrusion 511, a fixing sleeve 512, a battery 52, a wireless charging member 53, a hall switch member 54, a hall switch 541, a magnet 542, a liquid crystal display member 543, a panel 55, a runner 56, and a light guide plate 57.

Detailed Description

Example one

Referring to fig. 1 to 13, the heating tank device includes a housing portion 1, a heating tank 2, a waterway mechanism 3, an expansion chamber 4, and a remote controller 5.

The housing part 1 comprises a second housing 11 and an upper cover 12 fixedly arranged on the second housing 11 and provided with an opening, and a power socket 15 and a data line port 13 are fixedly arranged on the second housing 11; a circuit board 14 is fixedly arranged in the shell part 1, and the circuit board 14 is provided with a wireless power supply part 141; the circuit board 14 is located under the upper cover 12, the upper cover 12 is concavely provided with a placement groove 121, and the placement groove 121 is located at a position vertically aligned with the position of the wireless power supply part 141. The heating tank 2, the waterway mechanism 3 and the expansion chamber 4 are all mounted in the housing portion 1, and the circuit board 14, such as a model SL-QI-RXTX circuit board manufactured by anhao core, is electrically connected to the heater of the heating tank 2 and the switching valve 35 to control them.

This heating tank 2 sets firmly in second shell 11, in the concrete structure: the heating tank 2 is fixedly provided with heat preservation cotton 21 outside, the heating tank 2 is fixedly arranged on the bottom wall of the second shell 11 through a fixing frame 22, the heating tank 2 is integrated with a heater, and the heating tank 2 is also provided with a limber hole.

The waterway mechanism 3 includes a water inlet connector 31, a water inlet path 32 connected to the heating tank 2 to supply water, a first water outlet path 33 connected to the heating tank 2 to discharge hot water, and a second water outlet path 34 connected to the water inlet connector 31 to discharge cold water, the water inlet path 32 is connected to the water inlet connector 31 and the heating tank 2, and the first water outlet path 33 and the second water outlet path 34 are provided with switch valves 35.

The expansion cavity 4 is fixedly arranged on the heating tank 2, an overflow path 41 is additionally arranged to be communicated with the limber hole and the expansion cavity 4, and the overflow path 41 is communicated with the water inlet path 32 by the Venturi principle; the expansion chamber 4 is provided with a sealing member 42 and a floating body 43, the sealing member 42 and the floating body 43 are connected together, the floating body 43 can move up and down relative to the expansion chamber 4, the sealing member 42 and the overflow path 41 are matched to control the opening and closing of the overflow path 41 through the up and down movement of the floating body 43, the water flow of the overflow path 41 can impact the sealing member 42 to drive the floating body 43 to move up and open the overflow path 41, the floating body 43 can maintain the overflow path 41 to be opened under the action of the floating force of the water body in the expansion chamber 4, and the sealing member 42 and the floating body 43 can move down under the action of the self gravity to close the overflow path 41.

The specific structure of the expansion cavity 4 is as follows: the first casing 45 comprises a casing bottom 451 and a peripheral wall 452 formed by extending the outer periphery of the casing bottom 451 upwards, a sealing cover 44 is fixedly connected to the peripheral wall 452 in a sealing manner, a lower groove 453 is concavely arranged on the casing bottom 451, a through groove 454 penetrating through the inner side and the outer side of the lower groove 453 is arranged on the first casing 45, the chamber bottom 46 is fixedly arranged at the notch of the lower groove 453 in a sealing manner, and a plurality of through holes 461 are arranged on the chamber bottom 46; the venturi 47 functioning as venturi principle is connected to the outer opening of the through groove 455, the venturi 47 forms part of the water inlet passage 32, the water inlet passage in the venturi 47 is divided into a front section 471 and a rear section 472, the rear section 472 has a large cross section, the peripheral wall of the rear section 472 is connected to the overflow passage 41 through the water passage 473, so that when water enters the water inlet passage, negative pressure is generated at the rear section due to the sudden change in area, and water in the overflow passage and the expansion chamber is sucked out by the negative pressure and enters the heating tank through the water passage 473 and the water inlet passage 32. The overflow 41 includes the rear section 472, the water passage 473, the through groove 455, the lower groove 453, and the inlet 461, the rear section 472 constitutes a part of the water inlet passage and a part of the overflow, the water passage hole of the overflow is a water inlet of the water inlet passage, and the inlet constitutes a distal end of the overflow.

The sealing member 42 is fitted into the access hole 461 to control the opening and closing of the overflow path 41. In the concrete structure: the sealing member 42 is a sheet structure, and the center of the sealing member 42 is protruded with a fixed joint 421, the fixed joint 421 is fixed on the cavity bottom 46, the floating body 43 is installed on the sealing member 42, and the plurality of access holes 461 surround the fixed joint 421; the sealing sheet 42 is provided with a fixed column 422 in a protruding way on the top surface, the floating body 43 comprises a floating plate 431, the floating plate 431 is provided with a mounting hole 432 which penetrates up and down, the fixed column 422 is fitted into the mounting hole 432 to connect the sealing sheet 42 and the floating body 43 together, if the tail end of the fixed column 422 is provided with a bulb in a protruding way, the bulb limits the separation of the two; the mounting hole 432 and the access hole 461 are aligned with each other.

The remote controller 5 includes a base 51, a battery 52, a wireless charging part 53, a signal transmission part, a hall switch part 54, a panel 55, and a jog dial 56, the hall switch part 54 includes a hall switch 541 and a magnet 542, the wireless charging part 53 is electrically connected to the battery 52, the battery 52 is electrically connected to the signal transmission part and the hall switch 541; the battery 52 and the wireless charging part 53 are both fixed in the base 51, the magnet 542 is also fixed in the base 51, the runner 56 can be rotatably connected outside the base 51, the hall switch 541 can be rotatably connected in the base 51, the runner 56 and the hall switch 541 are connected together to be capable of synchronously rotating, and the panel 55 is covered on the base 51. The remote controller 5 is connected with the circuit board 14 through signals so as to control the heater and the switch valve through the remote controller 5, the remote controller 5 can be adapted to be placed in the placing groove 121, and the wireless charging part 51 corresponds to the wireless power supply part 141 in the upper and lower positions so as to realize wireless charging. In the concrete structure: the hall switch 541 and the signal transmission part are integrated together and are also provided with a liquid crystal display part 543, the panel 55 is made of light-transmitting material, and a light guide plate 57 is arranged between the panel 55 and the hall switch 541, so that the liquid crystal display part can display outwards through the light guide plate 57 and the panel 55; the upper part of the base 51 is protruded to form an outer convex part 511, the lower part of the base 51 is connected with a fixed sleeve 512 in a threaded mode, and the rotating wheel 56 can be rotatably connected outside the base through the outer convex part and the fixed sleeve. The hall switch 541 is a component manufactured by SDK company with model number ST 2102; the liquid crystal display part is made of liquid crystal LTB-3417WP and backlight LTBDB-0786BR-3 produced by Lytex Bao. In this embodiment: the remote controller can control the heating action of the heating tank, the cold water outlet, the boiling water outlet, the unlocking temperature and the unlocking boiling water outlet in a touching way; the configured liquid crystal screen is used for displaying heating temperature, water outlet temperature, battery electric quantity state, charging state and the like; the rotating wheel can rotate for 360 degrees to set the heating temperature, the temperature of the heating tank can be set from 60 ℃ to 99 ℃, the water outlet temperature is set in a rotating mode, the rotating operation is light in hand feeling and free of jamming; the remote controller is arranged in the concave part of the heating tank body for wireless automatic charging during charging, the remote controller can be arranged on a kitchen table for operation at ordinary times, the remote control box and the heating tank are arranged in a separated mode, and the control box can be arranged at any position of the kitchen table; the remote control box adopts a wireless charging technology, so that the appearance is attractive and simple; the water is discharged by rotating and accurately adjusting the temperature.

Wherein: expansion cavity structure principle: 1. as shown in fig. 13, when the expansion chamber 4 is filled with water, the floating plate 431 floats upwards, the sealing member 42 deforms under the buoyancy of the floating plate 431, the sealing member is isolated from the inlet hole 461 of the chamber bottom 46 to keep the overflow path in an open state, and when the venturi connector has water flow, the water in the expansion chamber is sucked away under the siphon action; 2. as shown in fig. 12, when the water in the expansion chamber 4 is completely sucked, the floating plate is sunk under the action of gravity, and the sealing member is reset to be close to the inlet hole 461 of the chamber bottom 46 to close the overflow path, so as to prevent the water flow from sucking air into the heating tank; 3. When the front end switch valve is closed and the heating tank is heated, the water in the tank is heated to expand, the expanded water impacts the sealing element along the overflow way, so that the floating plate moves upwards to open the overflow way and flows back to the expansion cavity, and the boiled water is prevented from being sprayed out of the water outlet to scald people.

Example two

It differs from the first embodiment in that: referring to fig. 14 and 15, the sealing element 42 is recessed with a groove 423 in the outer periphery, and the portion of the sealing element 42 under the groove 423 forms the sealing head 424, which is located at a position corresponding to the position of the access hole. The floating plate 431 is sleeved outside the sealing element and clamped into the annular groove.

Wherein: expansion cavity structure principle: 1. as shown in fig. 14, when the expansion chamber is filled with water, the floating plate floats upwards, the sealing member 42 floats upwards together with the floating plate 431, the sealing member is isolated from the inlet hole 461 of the chamber bottom 46 to keep the overflow path in an open state, and when the venturi connector has water flow, the water in the expansion chamber is sucked away under the action of siphon; 2. as shown in fig. 15, when the water in the expansion chamber 4 is completely sucked, the floating plate and the sealing member sink together under the action of gravity, and the sealing head 424 blocks the through hole 461 of the chamber bottom 46 to close the overflow path, so as to prevent the water flow from sucking air into the heating tank; 3. when the front end switch valve is closed and the heating tank is heated, the water in the tank is heated to expand, the expanded water impacts the sealing head 424 along the overflow way, so that the floating plate moves upwards to open the overflow way, and flows back to the expansion cavity to avoid the boiling water from being sprayed out of the water outlet to scald people.

The above description is only a preferred embodiment of the present invention, and therefore should not be taken as limiting the scope of the invention, which is defined by the appended claims and their equivalents.

Claims

1. Heating jar device, its characterized in that: the method comprises the following steps:

the heating tank is provided with a limber hole;

2. A heated tank apparatus as claimed in claim 1, wherein: the waterway mechanism also comprises a water inlet joint and a second water outlet passage communicated with the water inlet joint, the water inlet passage is communicated with the water inlet joint and the heating tank, and the second water outlet passage is also provided with a switch valve.

3. A heating tank arrangement according to claim 1 or 2, characterized in that: the expansion cavity is provided with a cavity bottom, the cavity bottom is provided with an access hole, the access hole forms a tail end port of the overflow path, and the sealing piece is matched with the access hole to control the opening and closing of the overflow path.

4. The heating tank arrangement of claim 3, wherein: the sealing element is of a sheet structure, a fixed joint is convexly arranged at the center of the sealing element, the fixed joint is fixedly connected to the cavity bottom, and the floating body is arranged on the sealing element.

5. The heating tank arrangement of claim 4, wherein: the sealing piece top surface is convexly provided with a fixed column, the floating body comprises a floating plate, the floating plate is provided with a mounting hole which penetrates through the floating plate from top to bottom, and the fixed column is matched and arranged in the mounting hole so as to connect the sealing piece and the floating body together.

6. The heating tank arrangement of claim 5, wherein: the position of the mounting hole and the position of the access hole are vertically aligned.

7. The heating tank arrangement of claim 3, wherein: the sealing element comprises a sealing head, and the position of the sealing head corresponds to the position of the access hole.

8. The heating tank arrangement of claim 7, wherein: the periphery of the sealing element is concavely provided with a ring groove, the floating body comprises a floating plate, the floating plate is sleeved outside the sealing element and clamped into the ring groove, and the part of the sealing element, which is positioned below the ring groove, forms the sealing head.

9. A heating tank arrangement according to claim 1 or 2, characterized in that: the expansion cavity comprises a first shell and a cavity bottom, the first shell comprises a shell bottom and a peripheral wall formed by upward extending of the outer periphery of the shell bottom, the shell bottom is concavely provided with a lower groove, the first shell is provided with a through groove penetrating through the inner part and the outer part of the lower groove, the cavity bottom is fixedly arranged at the notch of the lower groove in a sealing manner, and the cavity bottom is provided with an access hole; the overflow path comprises the through groove, the lower groove and the access hole.

10. A heated tank apparatus as claimed in claim 9, wherein: the outer slot of the through slot is communicated with a Venturi joint which can play the role of Venturi principle and forms part of the water inlet channel.

11. A heating tank arrangement according to claim 1 or 2, characterized in that: further comprising:

12. A heated tank apparatus as claimed in claim 11, wherein: the housing part comprises a second housing and an upper cover fixedly arranged on the second housing, the circuit board is positioned below the upper cover, the upper cover is concavely provided with a placement groove, and the remote controller can be adapted to be placed in the placement groove and the upper and lower positions of the wireless charging part and the wireless power supply part correspond to each other.

13. A heated tank apparatus as claimed in claim 11, wherein: the remote controller comprises a base, a battery, a signal transmission component, a Hall switch component, a panel and a rotating wheel, wherein the wireless charging component is electrically connected with the battery, and the battery is electrically connected with the signal transmission component and the Hall switch component; the battery and the wireless charging component are fixedly installed in the base, the rotating wheel can be rotatably connected outside the base, the Hall switch component can be rotatably connected in the base, the rotating wheel and the Hall switch component are connected together to synchronously rotate, and the panel is covered on the base.

14. A heated tank apparatus as claimed in claim 13, wherein: the Hall switch component comprises a Hall switch and a magnet, the Hall switch and the rotating wheel are connected together in an assembling mode, the magnet is fixedly arranged in the base, the Hall switch and the signal transmission component are integrated together and are also provided with a liquid crystal display component in an integrated mode, and the panel is made of light-transmitting materials so that the liquid crystal display component can display outwards through the panel.

15. A heated tank apparatus as claimed in claim 13, wherein: the upper part of the base protrudes outwards to form an outer convex part, the lower part of the base is in threaded connection with a fixed sleeve, and the rotating wheel can be rotatably connected outside the base through the outer convex part and the fixed sleeve.