CN211746169U - Liquid medium flow control structure, pet water dispenser, handicraft and timing tool - Google Patents

Abstract

The utility model provides a liquid medium flow control structure, pet water dispenser, handicraft and timing instrument, include: the water storage tank assembly comprises a water storage tank assembly, a valve body assembly, a receiving container and a base assembly, wherein the receiving container is connected to the base assembly; the water storage tank assembly comprises a water storage tank, the water storage tank 11 comprises a first water storage bin and a second water storage bin which are mutually independent, the water storage tank assembly is rotatably connected to the base assembly, and the positions of the first water storage bin and the second water storage bin are alternately changed up and down in the rotating direction; in both the first water storage bin and the second water storage bin, the flowing medium flows out from the upper water storage bin and flows to the lower water storage bin through the receiving container so as to be transferred from the upper water storage bin to the lower water storage bin. The utility model discloses an adopt storage water tank assembly, valve body subassembly and base subassembly, constitute the no pump formula pet water dispenser that utilizes rivers self gravity, attract the pet drinking water and avoided the easy problem of blockking up and the noise is great of water pump itself.

Description

Liquid medium flow control structure, pet water dispenser, handicraft and timing tool

Technical Field

The utility model relates to a drinking water equipment field specifically, relates to a liquid medium flow control structure, pet water dispenser, handicraft and timing instrument.

Background

With the development of society, pets are becoming indispensable companions of people. The health condition of pets is also a major concern for owners. Among them, the urinary and reproductive system diseases of kittens are mainly caused by insufficient drinking water. It is the biggest trouble for all cat owners how to attract cats to drink water and to drink sanitary water.

There are only two types of water dispenser products currently on the market and described in the issued patent art: such as siphon type drinking water machine and pump type drinking water machine adopted in patent document CN 108967238A. The siphon type water dispenser has the advantages that the water flow cannot circulate, is in a static state, is unattractive to the cats, cannot filter the water flow, and is easy to pollute water sources. Although the pump suction type water dispenser as disclosed in patent document CN 108353810a can circulate water and filter the water through a filter screen or a filter element, the filter element is very likely to cause secondary pollution to the water source. In addition, the pump itself has disadvantages, is easily clogged, and generates a large noise after a long time. Therefore, the service life of the pump suction type water dispenser is usually short, and the user experience is poor.

In view of the above problems, how to design a different pet water dispenser solves the inherent disadvantages of the pump, which is a problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims at providing a liquid medium flow control structure, a pet water dispenser, an artwork and a timing tool.

According to the utility model provides a pair of liquid medium flow control structure, include: the water storage tank assembly 10, the valve body assembly 20, the receiving container 30 and the base assembly 40, wherein the receiving container 30 is connected to the base assembly 40;

the water storage tank assembly 10 comprises a water storage tank 11, the water storage tank 11 comprises a plurality of water storage tanks, the water storage tank assembly 10 is rotatably connected to the base assembly 40, and the positions of the plurality of water storage tanks are alternately changed up and down in the rotating direction;

the valve body assembly 20 is connected with a valve body interface of the water storage tank assembly 10 and rotates together with the water storage tank assembly 10;

wherein the flowing medium flows out from the water storage tank located above, and flows into the water storage tank located below through the valve body assembly 20 and the receiving container.

Preferably, the valve body assembly 20 comprises a valve body 21 and a plurality of pairs of channel combinations which are arranged in the valve body 21 and communicated with two ends of the valve body, wherein one end of each pair of channel combinations is connected with a water storage tank respectively, or one end of each pair of channel combinations is connected with a water storage tank; the other end of all the channel combinations leads to the receiving container 30.

Preferably, each pair of the channel combination comprises a water outlet channel and a water return channel, the inner wall of the water return channel is provided with a mounting hole, and a valve core is movably connected in the mounting hole;

in the process of the rotation of the valve body assembly 20, the valve core positioned in the upper water return channel falls under the self-action and blocks the corresponding water return channel, and the valve core positioned in the lower water return channel is kept in the mounting hole under the self-action.

Preferably, the water storage tank assembly 10 further includes a water replenishing port, a water replenishing cover 12 is detachably connected to the water replenishing port, a valve cover 13 is arranged outside the valve body interface, a water flow port is arranged on the valve cover 13, and the height range of the water flow port includes: the water in the receiving container 30 can enter the water flow port before the water in the receiving container 30 overflows.

Preferably, the water storage tank assembly 10 is only provided with the valve body interface, a valve cover 13 is arranged outside the valve body interface, a water flow port is arranged on the valve cover 13, and the height range of the water flow port comprises: the water in the receiving container 30 can enter the water flow port before the water in the receiving container 30 overflows.

Preferably, the length of the water return channel is shorter than that of the water outlet channel, and an accommodating space is arranged between the water return channel and the valve cover;

and a filter piece or an additive is arranged in the accommodating space.

Preferably, the receiving container 30 comprises an electrolysis receiving container 31, a first electrode 81 and a second electrode 82 are arranged in the electrolysis receiving container 31, the electrolysis receiving container 31 is mounted on an electrolysis base 83 of the base assembly 40, and the electrolysis base 83 is provided with an electrode interface which is electrically connected with the first electrode 81 and the second electrode 82 respectively.

Preferably, a proximity sensor 80 is disposed on the base assembly 40.

Preferably, the base assembly 40 comprises: a base 41, the base 41 comprising:

the mounting position is matched with the shape of the water storage tank assembly 10, and a driving assembly is arranged in the mounting position and drives the water storage tank assembly 10 to rotate;

the bottom of the inner accommodating space is covered by a bottom cover 60.

Preferably, the drive assembly comprises:

and a motor 43, wherein a transmission part is arranged on an output shaft of the motor, and the transmission part is in transmission connection with the water storage tank assembly 10.

Preferably, the transmission comprises at least one drive wheel 44, the drive wheel 44 supporting and driving the water storage tank assembly 10.

Preferably, the drive assembly further comprises an auxiliary wheel 47 and a support wheel 46;

the driving wheel 44 is supported on one side of the water storage tank assembly 10, and the auxiliary wheel 47 is supported on the other side of the water storage tank assembly 10;

the support wheel 46 supports the water storage tank assembly 10 in a triangular shape with the drive wheel 44 and the auxiliary wheel 47.

Preferably, the driving member comprises a gear, and the outside of the water storage tank assembly 10 is provided with insections engaged with the gear.

Preferably, the driving assembly further comprises a control module 45, a water level or quantity sensor 42 and/or a timer, the control module 45 being electrically connected to the motor 43;

the water level or water quantity sensor 42 and the timer are electrically connected with the control module 45;

the water level or quantity sensor 42 is arranged at the outlet of the water outlet channel.

Preferably, the receiving container 30 comprises a heatable receiving container mounted on a heating base 71 of the base assembly 40, the heating base 71 being provided with a heating module 70.

Preferably, a filter 90 is disposed in the receiving container 30, and the filter 90 includes:

the filter comprises a filter shell 91, wherein a water through hole 92 is formed in the filter shell 91, and at least one filter element 93 is arranged in the filter shell 91.

Preferably, the liquid medium flows in the liquid medium flow control structure only by its own weight, or is pressurized by a pressurizing device provided in the liquid medium flow control structure to drive the flow.

Preferably, the water quantity reminding device further comprises a water quantity reminding module, wherein the water quantity reminding module comprises a water level or water quantity sensor and a reminding device, the water level or water quantity sensor is electrically connected with the reminding device, and the reminding device comprises at least one of sound reminding, light reminding and information reminding.

Preferably, the electric quantity reminding device further comprises an electric quantity reminding module, the electric quantity reminding module comprises an electric quantity detection module and a reminding device, the electric quantity detection module is electrically connected with the built-in power supply of the liquid medium flow control structure and the reminding device, and the reminding device comprises at least one or more of sound reminding, light reminding and information reminding.

According to the utility model provides a pet water dispenser, including foretell liquid medium flow control structure.

According to the utility model provides a pair of ornamental handicraft adopts foretell liquid medium flow control structure to supply water.

According to the utility model provides a pair of timing tool adopts foretell liquid medium flow control structure to feed water.

Compared with the prior art, the utility model discloses following beneficial effect has:

1) by adopting the water storage tank assembly, the valve body assembly and the base assembly, the pump-free pet water dispenser utilizing the self gravity of water flow is formed, pet drinking water is attracted, and the problems that a water pump is easy to block and the noise is large are solved.

2) By adopting the special water storage tank which is divided into two parts of independent spaces, the problem that water flow flows out from a lower part and then is independently and temporarily stored is solved.

3) By adopting a circular motion form and designing the two water storage tanks into a symmetrical structure, the function integration of the two water storage tanks is solved, and the function of circular reciprocation is realized under the action of circular motion.

4) Through adopting the heating module for the pet also can drink to warm rivers when the weather is cold, is of value to the pet health.

5) All main parts can be dismantled, are convenient for wash.

6) The hydrogen-rich water is formed by adopting the electrolysis module, so that the pet health is facilitated.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a front perspective view of the water dispenser of the present invention;

FIG. 2 is an exploded view of the water dispenser of the present invention;

FIG. 3 is a sectional view of the water dispenser of the present invention;

fig. 4 is a cross-sectional view of the water storage tank component of the present invention;

fig. 5 is a cross-sectional view of the valve body assembly of the present invention;

fig. 6 is a bottom view of the base assembly of the present invention;

fig. 7 is a top view of the base assembly of the present invention;

FIG. 8 is a top view of a heating module according to a second embodiment of the present invention;

FIG. 9 is an exploded view of a heating module according to the second embodiment of the present invention;

FIG. 10 is a perspective view of a base part of an electrolytic water dispenser according to a third embodiment of the present invention;

FIG. 11 is an exploded view of an electrolytic module according to a third embodiment of the present invention;

fig. 12 is an assembly view of a filter according to a fourth embodiment of the present invention;

fig. 13 is an exploded view of a filter according to the fourth embodiment of the present invention;

fig. 14 is a schematic view of the filter according to the present invention.

In the figure:

Detailed Description

The present invention will be described in detail with reference to the following embodiments. The following examples will assist those skilled in the art in further understanding the present invention, but are not intended to limit the invention in any way. It should be noted that various changes and modifications can be made by one skilled in the art without departing from the spirit of the invention. These all belong to the protection scope of the present invention.

The utility model provides a pair of liquid medium flow control structure, include: the water storage tank assembly comprises a water storage tank assembly, a valve body assembly, a receiving container and a base assembly, wherein the receiving container is connected to the base assembly, and the base assembly cannot rotate reversely and keeps a relatively fixed posture.

The water storage tank assembly comprises a water storage tank, the water storage tank comprises a first water storage bin and a second water storage bin which are independent from each other, and the first water storage bin and the second water storage bin can be two independent spaces formed in one water storage tank through separation of a partition plate and can also be two spaces with unfixed positions. The water storage tank assembly is rotatably connected to the base assembly, and the positions of the first water storage bin and the second water storage bin are alternately switched up and down in the rotating direction. In both the first water storage bin and the second water storage bin, the flowing medium flows out from the upper water storage bin and flows to the lower water storage bin through the receiving container so as to be transferred from the upper water storage bin to the lower water storage bin.

The various components of the present invention are referred to as "water" and the following examples are provided as examples of the supply of drinking water, but those skilled in the art will appreciate that the water may be a liquid or a flowing medium other than drinking water, such as an aqueous solution mixed with a nutrient solution, and the present invention is not limited thereto.

As shown in fig. 1 to fig. 3, in this embodiment, the utility model provides a pet water dispenser, including: storage water tank subassembly 10, valve body subassembly 20, receiving vessel 30 and base subassembly 40, valve body subassembly 20 is installed in the valve body interface of storage water tank subassembly 10, and receiving vessel 30 connects on base subassembly 40, but storage water tank subassembly 10 circumference rotationally installs on base subassembly 40, and valve body subassembly 20 and storage water tank subassembly 10's valve body interface connection rotate jointly along with storage water tank subassembly 10. The water storage tank assembly 10, the valve body assembly 20, the receiving container 30 and the base assembly 40 are all individually detachable structures to facilitate cleaning.

The base assembly 40 includes a base 41, the base 41 including: a mounting position matched with the shape of the water storage tank assembly 10, wherein a driving assembly is arranged in the mounting position and drives the water storage tank assembly 10 to rotate (in other embodiments, the water storage tank assembly 10 can also be driven to rotate only by manpower); the bottom open-ended inside accommodation space is provided with power module 61 in the inside accommodation space, and bottom in the inside accommodation space is closed through bottom 60 lid. The base assembly 40 is provided with a button 50 which is used as a power switch for controlling the water dispenser and triggers the control module 45 in the base assembly 40.

Referring to fig. 4, the water storage tank assembly 10 includes a water storage tank 11, the inside of the water storage tank 11 is divided into a plurality of water storage tanks, and the plurality of water storage tanks may be independent from each other or separated by a permeable membrane. In this embodiment, adopt first reservoir tank and the second reservoir tank of mutual independence, but the rotation in a circumferential direction of storage water tank subassembly 10 connects on base subassembly 40, in rotatory direction, can realize the position of first reservoir tank and second reservoir tank and alternate conversion from top to bottom. Storage water tank assembly 10 still includes the moisturizing mouth, can dismantle on the moisturizing mouth to be connected with moisturizing lid 12, and the valve body interface is provided with valve gap 13 outward, has seted up the rivers mouth on the valve gap 13, and the high scope of rivers mouth includes: the water in the receiving container 30 can enter the water flow port before the water in the receiving container 30 overflows.

The valve body assembly 20 comprises a valve body 21 and a plurality of pairs of channel combinations which are arranged in the valve body 21 and communicated with two ends of the valve body, wherein one end of each pair of channel combinations is respectively connected with a water storage tank, or one end of each pair of channel combinations is connected with a water storage tank; the other end of all channel combinations leads to a receiving container 30. Each pair of channel combination comprises a water outlet channel and a water return channel, the inner wall of the water return channel is provided with a mounting hole, and a valve core is movably connected in the mounting hole; in the process of the rotation of the valve body assembly 20, the valve core positioned in the upper water return channel falls under the self-action and blocks the corresponding water return channel, and the valve core positioned in the lower water return channel is kept in the mounting hole under the self-action.

Referring to fig. 5, the valve body assembly 20 of the present embodiment is connected in the valve body interface of the water storage tank assembly 10, the valve body assembly 20 includes a valve body 21, and disposed in the valve body 21: a first water outlet channel 27, a first water return channel 26, a second water outlet channel 28 and a second water return channel 29; one ends of the first water outlet channel 27 and the first water return channel 26 are communicated with the first water storage bin, the other ends are guided to the receiving container 30, one ends of the second water outlet channel 28 and the second water return channel 29 are communicated with the second water storage bin, and the other ends are guided to the receiving container 30. Wherein, the inner wall of the first water return channel 26 is movably connected with a first valve core 22, and the inner wall of the second water return channel 29 is movably connected with a second valve core 25.

The water supply method comprises the following steps:

when the first water storage bin is positioned above the second water storage bin, the first valve core 22 falls into and blocks the first water return channel 26 under the action of self weight, the second valve core 25 is kept in the inner wall of the second water return channel 29 under the action of self weight, and at the moment, water in the first water storage bin can flow out from the first water outlet channel 27 and enters the receiving container 30. At this time, the water level in the receiving container 30 gradually rises to the water flow port of the valve cover 13, and because the first water return channel 26 is in a blocked state and the second water return channel 29 is in a conducting state, water can enter the second water storage bin from the receiving container 30 through the second water return channel 29 under the action of gravity. On the contrary, when the second water storage bin is located above the first water storage bin, the first valve core 22 is kept in the inner wall of the first water return channel 26 under the action of self weight, the second valve core 25 falls into and blocks the second water return channel 29 under the action of self weight, and water can enter the first water storage bin from the receiving container 30 through the first water return channel 26 under the action of gravity. Thus, the effect of generating water flow by the action of gravity can be realized.

When water needs to be added, the water storage tank assembly 10 is detached, the water supplementing cover 12 is opened, and water is added into one of the water storage tanks.

The length of the water return channel is shorter than that of the water outlet channel, and an accommodating space is arranged between the water return channel and the valve cover; the accommodating space is internally provided with a filter element or an additive. As shown in fig. 5, in order to prevent the foreign substances in the receiving container 30 from entering the storage tank 11, a first filter member 23 and a second filter member 24 are further provided at the valve body assembly 20. The first filter member 23 and the second filter member 24 are disposed at the same end of the first water returning passage 26 and the second water returning passage 29, and secondarily filter water flowing into the water storage tank assembly 10 through the first water returning passage 26 and the second water returning passage 29. In other embodiments, the filter element may be replaced by an additive, such that the components of the additive melt in the water as the water flows through the additive.

The base assembly 40 includes: a base 41, the base 41 including: the mounting position is matched with the shape of the water storage tank assembly 10, and a driving assembly is arranged in the mounting position and drives the water storage tank assembly 10 to rotate; and an inner space with an opening at the bottom, wherein a power supply module 61 is arranged in the inner accommodating space, and the bottom of the inner accommodating space is covered by a bottom cover 60.

As shown in fig. 6 and 7, the driving assembly of the base assembly 40 is constructed as follows:

the output shaft of the motor 43 is provided with a driving wheel 44 which supports one side of the water storage tank assembly 10, and an auxiliary wheel 47 supports the other side; the support wheels 46 support the tank assembly 10 in a triangular shape with the drive wheels 44 and the auxiliary wheels 47. The motor 43 may draw power from the power module 61. In other embodiments, the output shaft of the motor 43 may also drive the water storage tank assembly 10 to rotate through a gear, and the outer side of the water storage tank assembly 10 is provided with a tooth pattern engaged with the gear. Alternatively, the driving wheel 44 and the auxiliary wheel 47 are connected by a transmission belt, i.e. a belt transmission manner is formed to drive the water storage tank assembly 10 to rotate, which is not limited by the present invention. The starting mode of the motor 43 includes manual control by the button 50, or:

the water level or quantity sensor 42 is disposed at an outlet of the first water outlet channel 27 or the second water outlet channel 28, and is configured to detect whether water flows out from a corresponding position, so as to determine whether water still exists in the first water storage bin or the second water storage bin above the water level or the water quantity sensor, and if water does not exist in the first water storage bin or the second water storage bin above the water level or the water quantity sensor, the control module 45 may be triggered to drive the motor 43 to rotate 180 degrees, and the first water storage bin or the second water storage bin below the water level or the water quantity sensor may be. Alternatively, the control module 45 is triggered by a timer according to a preset time to drive the motor 43 to rotate.

As shown in fig. 8 and 9, in the second embodiment, the utility model can be a pet water dispenser with heating function. The receiving container 30 comprises a heatable receiving container which is mounted on a heating base 71 of the base assembly 40, the heating base 71 is provided with a heating module 70, and the heating module 70 can obtain power from the power supply module 61.

As shown in fig. 10 and 11, in a third embodiment, the present invention can be a pet drinking fountain with electrolysis function. The receiving container 30 comprises an electrolysis receiving container 31, a first electrode 81 and a second electrode 82 are arranged in the electrolysis receiving container 31, the electrolysis receiving container 31 is mounted on an electrolysis base 83 of the base assembly 40, and the electrolysis base 83 is provided with an electrode interface connected with the power supply module 61 and respectively electrically connected with the first electrode 81 and the second electrode 82. In order to prevent the pet from getting an electric shock when drinking water, the base assembly 40 is provided with a proximity sensor 80, and the electrolysis operation is stopped when the proximity sensor 80 senses the approach of the pet.

As shown in fig. 12, 13 and 14, in a fourth embodiment, the present invention may be a pet water dispenser further having an external filter for cleaning the filter. The filter 90 is disposed in the receiving container 94 with its top surface located at a position half the height of the water flow port of the valve cover 13. The filter 90 includes: the filter shell 91 is provided with a water hole 92, and the filter shell 91 is internally provided with a filter element 93. As water flows from valve body assembly 20 to the top surface of filter housing 91 and then slides into receiving receptacle 30, the water surface may become rippled, helping to attract pets. As the water level in the receiving container 94 rises, water enters the filter cartridge 93 through the water through hole 92 and then enters the water flow port of the valve cover 13 through the filter cartridge 93.

The utility model discloses a pet water dispenser can set up the communication device of LED lamp, bee calling organ and thing networking, as the reminding device that the product running state was reminded, for example the water yield is reminded and the electric quantity is reminded etc.. The water level or water quantity reminding device comprises a water level or water quantity sensor and a reminding device, wherein the water level or water quantity sensor is electrically connected with the reminding device, and the reminding device is used for giving out sound, light or information reminding. The electric quantity reminding device comprises an electric quantity detection module and a reminding device, wherein the electric quantity detection module is electrically connected with a built-in power supply of the liquid medium flow control structure and the reminding device, and the reminding device is used for giving out sound, light or information reminding. The sound reminding can be realized through a buzzer, the light reminding can be realized through different colors and flashing states of the LED indicating lamps, and the information reminding comprises the information pushing mode of pushing the information to the mobile terminal of a user through a network and Bluetooth.

The present invention is also applicable in its field, for example as a decorative ornamental artwork, simulating a natural environment where water flows, or as a hour-glass-like timing tool.

In the description of the present application, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

The foregoing description of the specific embodiments of the invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by those skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (22)

1. A liquid medium flow control structure, comprising: the water storage tank assembly comprises a water storage tank assembly (10), a valve body assembly (20), a receiving container (30) and a base assembly (40), wherein the receiving container (30) is connected to the base assembly (40);

the water storage tank assembly (10) comprises a water storage tank (11), the water storage tank (11) comprises a plurality of water storage tanks, the water storage tank assembly (10) is rotatably connected to the base assembly (40), and the positions of the plurality of water storage tanks are alternately changed up and down in the rotating direction;

the valve body assembly (20) is connected with a valve body interface of the water storage tank assembly (10);

wherein the flowing medium flows out of the water storage tank positioned above, and flows to the water storage tank positioned below through the valve body assembly (20) and the receiving container (30).

2. Liquid medium flow control structure according to claim 1, characterized in that said valve body assembly (20) comprises a valve body (21) and a plurality of pairs of channel combinations disposed in said valve body (21) and communicating both ends of said valve body, one end of each pair of said channel combinations being connected to one water storage tank, or one end of each of a plurality of pairs of said channel combinations being connected to one water storage tank; the other end of all the channel combinations leads to the receiving container (30).

3. The liquid medium flow control structure according to claim 2, wherein each pair of the channel combinations comprises a water outlet channel and a water return channel, the inner wall of the water return channel is provided with a mounting hole, and a valve core is movably connected in the mounting hole;

in the rotating process of the valve body assembly (20), the valve core positioned in the upper water return channel falls under the self-action and blocks the corresponding water return channel, and the valve core positioned in the lower water return channel is kept in the mounting hole under the self-action.

4. The liquid medium flow control structure according to claim 1, wherein the water storage tank assembly (10) further comprises a water replenishing port, a water replenishing cover (12) is detachably connected to the water replenishing port, a valve cover (13) is arranged outside the valve body interface, a water flow port is arranged on the valve cover (13), and the height range of the water flow port comprises: the water in the receiving container (30) can enter the water flow port before the water in the receiving container (30) overflows.

5. The liquid medium flow control structure according to claim 3, wherein the water storage tank assembly (10) is only provided with the valve body interface, a valve cover (13) is arranged outside the valve body interface, a water flow port is arranged on the valve cover (13), and the height range of the water flow port comprises: the water in the receiving container (30) can enter the water flow port before the water in the receiving container (30) overflows.

6. The liquid medium flow control structure according to claim 5, wherein the length of the water return channel is shorter than that of the water outlet channel, and an accommodating space is provided between the water return channel and the valve cover;

and a filter piece or an additive is arranged in the accommodating space.

7. Liquid medium flow control arrangement according to claim 1, wherein the receiving container (30) comprises an electrolysis receiving container (31), a first electrode (81) and a second electrode (82) being arranged in the electrolysis receiving container (31), the electrolysis receiving container (31) being mounted on an electrolysis base (83) of the base assembly (40), the electrolysis base (83) being provided with an electrode interface being electrically connected with the first electrode (81) and the second electrode (82), respectively.

8. Liquid medium flow control arrangement according to claim 7, characterized in that a proximity sensor (80) is provided on the base assembly (40).

9. Liquid medium flow control arrangement according to claim 6, characterized in that the seat assembly (40) comprises: a base (41), the base (41) comprising:

the mounting position is matched with the shape of the water storage tank assembly (10), and a driving assembly is arranged in the mounting position and drives the water storage tank assembly (10) to rotate;

the bottom of the inner space is covered by a bottom cover (60).

10. The liquid medium flow control structure according to claim 9, wherein the drive assembly includes:

the water storage tank assembly comprises a motor (43), wherein a transmission part is arranged on an output shaft of the motor and is in transmission connection with the water storage tank assembly (10).

11. Liquid medium flow control structure according to claim 10, characterized in that the transmission comprises at least one driving wheel (44), the driving wheel (44) supporting and driving the water storage tank assembly (10).

12. Liquid medium flow control arrangement according to claim 11, characterized in that the drive assembly further comprises an auxiliary wheel (47) and a support wheel (46);

the driving wheel (44) is supported on one side of the water storage tank assembly (10), and the auxiliary wheel (47) is supported on the other side of the water storage tank assembly (10);

the supporting wheel (46) supports the water storage tank assembly (10) in a triangular shape together with the driving wheel (44) and the auxiliary wheel (47).

13. Liquid medium flow control arrangement according to claim 10, characterised in that the transmission comprises a gear wheel, the outside of the water reservoir assembly (10) being provided with a toothing engaging the gear wheel.

14. Liquid medium flow control arrangement according to claim 10, characterized in that the drive assembly further comprises a control module (45), a water level or water amount sensor (42) and/or a timer, the control module (45) being electrically connected to the motor (43);

the water level or water quantity sensor (42) and the timer are electrically connected with the control module (45);

and the water level or water quantity sensor (42) is arranged at the outlet of the water outlet channel.

15. Liquid medium flow control arrangement according to claim 1, wherein the receiving container (30) comprises a heatable receiving container mounted on a heating base (71) of the base assembly (40), the heating base (71) being provided with a heating module (70).

16. Liquid medium flow control arrangement according to claim 1, wherein a filter (90) is arranged in the receiving container (30), the filter (90) comprising:

the filter comprises a filter shell (91), wherein a water passing hole (92) is formed in the filter shell (91), and at least one filter element (93) is arranged in the filter shell (91).

17. The liquid medium flow control structure according to claim 1, wherein the liquid medium flows in the liquid medium flow control structure by only its own weight, or is pressurized by a pressurizing device provided in the liquid medium flow control structure to drive the flow.

18. The liquid medium flow control structure according to claim 1, further comprising a water amount reminding module, the water amount reminding module comprising a water level or water amount sensor and a reminding device, the water level or water amount sensor being electrically connected to the reminding device, the reminding device comprising at least one or more of an audio reminder, a light reminder, and an informational reminder.

19. The liquid medium flow control structure according to claim 1, further comprising an electric quantity reminding module, wherein the electric quantity reminding module comprises an electric quantity detection module and a reminding device, the electric quantity detection module is electrically connected with the built-in power supply of the liquid medium flow control structure and the reminding device, and the reminding device comprises at least one of an audio reminder, a light reminder and an information reminder.

20. A pet water dispenser, characterized by comprising the liquid medium flow control structure of any one of claims 1 to 19.

21. An ornamental article, characterized in that water is supplied by using the liquid medium flow control structure according to any one of claims 1 to 19.

22. A time tool, characterized in that water is supplied by using the liquid medium flow control structure according to any one of claims 1 to 19.

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