CN209883821U - Water boiling container - Google Patents

Abstract

The utility model relates to the technical field of household appliances, in particular to a water boiling container, which comprises a container body and a container cover, wherein the container cover is covered at the container opening of the container body; the electric dustproof cover is movably connected to the container cover and seals the water inlet pipe; the detection assembly is arranged in the container body, the electric dustproof cover is electrically connected with the control end of the detection assembly, the detection end of the detection assembly is arranged to detect the water volume value in the container body, the electric dustproof cover is opened when the detected water volume value is smaller than a threshold value, and the electric dustproof cover is closed when the detected water volume value is not smaller than the threshold value. The utility model provides a boil water container can realize the inlet tube on the sealed container lid, does not influence simultaneously to this internal operation of adding water of container.

Description

Water boiling container

Technical Field

The utility model relates to the technical field of household appliances, especially, relate to a boil water container.

Background

With the progress of science and technology, various water boiling containers such as electric kettles and health preserving kettles are widely applied to daily life of people, so that the life quality of people is improved, wherein the electric kettle provided with a water adding pipeline at the kettle cover is one of the water boiling containers, and the electric kettle can automatically add water from the kettle cover by utilizing an external water adding appliance.

Although the existing electric kettle with the water feeding pipeline arranged on the kettle cover has the advantages, the existing kettle cover water feeding pipeline of the electric kettle is designed in an open mode, namely the water feeding pipeline does not have a dustproof structure, therefore, in the using process, external dust easily enters the kettle body from the water feeding pipeline of the kettle cover, water in the kettle body is insanitary, and meanwhile, due to the open type design of the water feeding pipeline, heat loss in the kettle body is easily caused in the water boiling process, and the water boiling time is prolonged.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a boil water container to alleviate the container lid of boiling water container among the prior art when the design has the passageway of adding water, the technical problem of the passageway of can't sealing and adding water.

The utility model provides a boil water container, it includes vessel and container lid to boil water container, the container lid closes vessel's container mouth department still includes:

the water inlet pipe is arranged on the container cover and is communicated with the interior of the container body;

the electric dustproof cover is movably connected to the container cover and seals the water inlet pipe;

a detection assembly arranged in the container body, wherein the electric dust cover is electrically connected with the control end of the detection assembly, and the detection end of the detection assembly is arranged to detect the water volume value in the container body,

wherein, when the detected water volume value is less than a threshold value, the electric dust cover is opened,

and when the detected water volume value is not less than the threshold value, closing the electric dustproof cover.

Further, the method also comprises the following steps:

the automatic water feeder is correspondingly matched with the container body and is arranged to feed water into the water inlet pipe;

the automatic water feeder is electrically connected with the control end of the detection component, when the detected water volume value is smaller than a threshold value, the electric dustproof cover and the automatic water feeder are both opened,

and when the detected water volume value is not less than the threshold value, the electric dustproof cover and the automatic water feeder are both closed.

Further, the motorized dust cap includes:

the dustproof cover body is rotatably connected to the container cover and seals the water inlet pipe;

the first driving piece is arranged on the container cover and is electrically connected with the control end of the detection assembly, the driving end of the first driving piece is connected with the dustproof cover body,

wherein, when the detected water volume value is smaller than the threshold value, the first driving piece drives the dustproof cover body to open, and meanwhile, the automatic water feeder adds water into the water inlet pipe,

when the detected water volume value is not less than the threshold value, the first driving piece drives the dustproof cover body to close so as to seal the water inlet pipe, and meanwhile, the automatic water feeder is closed.

Further, the dust cap body includes:

a first sealing cover;

the first sealing cover and the second sealing cover are respectively and rotatably connected on the container cover and are in tooth engagement with each other;

the driving end of the first driving piece is connected with the first sealing cover or the second sealing cover.

Further, the first sealing cover includes:

a first seal portion;

a first gear part rotatably coupled to the container cover and coupled to the first sealing part;

the second sealing cap includes:

the first sealing part and the second sealing part jointly seal the water inlet pipe;

a second gear portion rotatably connected to the container cover and connected to the second sealing portion, and the first gear portion and the second gear portion are engaged with each other.

Further, the first driving member includes:

the driving part is electrically connected with the control end of the detection assembly;

a driving gear part connected to a driving end of the driving part, and the driving gear part is engaged with the first gear part or the second gear part.

Further, the automatic water feeder comprises:

a base, the container body being electrically connected to the base;

the water outlet head is rotatably connected to the base;

the sensing end of the power component is electrically connected with the control end of the detection component, the water outlet head is connected with the driving end of the power component,

the drive end of the power assembly is configured to: when the detected water volume value is smaller than the threshold value, the water outlet head is driven to rotate to the position of the water inlet pipe,

and when the detected water volume value is not less than the threshold value, driving the water outlet head to be far away from the water inlet pipe.

Further, the power assembly includes:

the second driving piece is arranged in the base and is connected with the water outlet head;

the magnetic part is arranged in the water outlet head;

the induction piece is arranged on the container cover and is arranged to be correspondingly matched with the magnetic piece;

the sensing piece is electrically connected with the control end of the detection assembly.

Further, the detection assembly includes:

a temperature sensor disposed within the container body and configured to detect a rate of temperature rise of water within the container body;

a first controller for calculating a volume value of water in the container body according to a temperature rise rate of the water in the container body;

the automatic water feeder, the electric dust cover and the temperature sensor are all electrically connected with the first controller.

Further, the detection assembly includes:

a liquid level detector disposed within the container body and configured to detect a liquid level height of water within the container body;

a second controller for calculating a volume of water in the container body according to a level of water in the container body;

the automatic water feeder, the electric dust cover and the liquid level detector are all electrically connected with the second controller.

Further, the liquid level detector includes:

a first pole element disposed at a highest water level of the container body;

the second electrode piece is arranged at the bottom of the container body, and the first electrode piece and the second electrode piece are electrically connected with the second controller.

Further, the second electrode element is a metal shell of the heating plate of the container body,

or a metal casing of the temperature detection member of the container body.

The utility model has the advantages that:

the utility model provides a boil water container, it includes that vessel and lid close the container lid in vessel's container mouth department to boil water container, it is further, this boil water container still includes the inlet tube, electronic shield and determine module, the inlet tube setting on the vessel cover and with the inside intercommunication of vessel, electronic shield swing joint is on the vessel cover and sealed inlet tube, determine module sets up at the vessel originally internally, wherein, electronic shield is connected with determine module's control end electricity, and determine module's sense terminal sets to the internal water volume value of detect vessel, it is concrete, when the water volume value that detects is less than the threshold value, electronic shield is opened, when the water volume value that detects is not less than the threshold value, electronic shield is closed. When the water boiling container works, the detection end of the detection assembly detects the actual water amount in the container body and compares the detected water volume value with the threshold value set in the control end of the detection assembly, when the water volume value in the container body detected by the detection assembly is smaller than the threshold value, the control end of the detection assembly orders the electric dustproof cover to open, at the moment, a user can automatically add water into the container body through a manual adding mode or a water adding device, in the water adding process, when the water volume value in the container body detected by the detection assembly is equal to or larger than the threshold value, at the moment, the control end of the detection assembly orders the electric dustproof cover to close and seal the water inlet pipe, by the structural design, the external dust can be prevented from entering the container body through the electric dustproof cover to seal the water inlet pipe, the water in the container body is ensured to be clean and clean, and simultaneously, can also reduce the speed of this internal heating back inside hydrothermal loss of container after sealing the water inlet of inlet tube, in addition, after adding water, can also prevent to boil the steam that this internal production of water in-process container from scattering out along the inlet tube with the water inlet is sealed, and then avoid scalding the user.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of a water boiling container provided by an embodiment of the present invention when water is not added;

FIG. 2 is a schematic structural view of the water boiling container according to the embodiment of the present invention;

fig. 3 is a schematic view of an internal structure of a water boiling container according to an embodiment of the present invention;

fig. 4 is a schematic view of another internal structure of the water boiling container according to the embodiment of the present invention;

fig. 5 is a schematic structural view of the magnetic member and the sensing member according to the embodiment of the present invention;

fig. 6 is a schematic structural view of the electric sealing cover according to the embodiment of the present invention when closed;

fig. 7 is a schematic structural view of an electric sealing cover according to an embodiment of the present invention when opened;

fig. 8 is a temperature identification curve chart provided by the embodiment of the present invention.

Icon:

1-a container body;

2-container lid;

3-water inlet pipe;

4-electric dust cover;

41-dust cover body;

411-first sealing cover;

411 a-first seal;

411 b-first gear section;

412-a second sealing cover;

412 a-a second seal;

412 b-second gear part;

42-a first drive member;

421-a driving part;

422-drive gear part;

5-a detection component;

51-a temperature sensor;

52-a first controller;

53-a liquid level detector;

531-a first pole element;

532-a second pole element;

54-a second controller;

6-automatic water feeder;

61-a base;

62-water outlet head;

63-a power assembly;

631-a magnetic member;

632-sensing member.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

It should be noted that, the water boiling container described in this embodiment may be a water boiling container such as an electric kettle, a health preserving kettle, and the like, and is not limited herein.

As shown in fig. 1-7, the present embodiment provides a water boiling container, the water boiling container includes a container body 1 and a container cover 2 covering a container opening of the container body 1, and further includes a water inlet pipe 3, an electric dust cover 4 and a detection assembly 5, the water inlet pipe 3 is disposed on the container cover 2 and is communicated with the inside of the container body 1, the electric dust cover 4 is movably connected to the container cover 2 and seals the water inlet pipe 3, the detection assembly 5 is disposed in the container body 1, wherein the electric dust cover 4 is electrically connected to a control end of the detection assembly 5, and a detection end of the detection assembly 5 is configured to detect a water volume value in the container body 1, specifically, when the detected water volume value is smaller than a threshold value, the electric dust cover 4 is opened, and when the detected water volume value is not smaller than the threshold value, the electric dust cover 4 is closed. When the water boiling container works, the detection end of the detection component 5 detects the actual water amount in the container body 1 and compares the detected water volume value with the threshold value set in the control end of the detection component 5, when the water volume value in the container body 1 detected by the detection component 5 is smaller than the threshold value, the control end of the detection component 5 orders the electric dustproof cover 4 to open, at the moment, a user can automatically add water into the container body 1 in a manual adding mode or by using a water adding device, and in the water adding process, when the water volume value in the container body 1 detected by the detection component 5 is equal to or larger than the threshold value, at the moment, the control end of the detection component 5 orders the electric dustproof cover 4 to close and seal the water inlet pipe 3, and by the structural design, the water inlet pipe 3 sealed by the electric dustproof cover 4 can prevent external dust from entering the container body 1, so as to ensure that the water in the container body 1 is clean, Clean, simultaneously, can also reduce the speed of inside hydrothermal loss behind the 1 internal heating of vessel after sealing the water inlet of inlet tube 3, in addition, after adding water, can also prevent to boil the steam that the water in-process vessel 1 produced along inlet tube 3 effluvium with the water inlet is sealed, and then avoid scalding the user.

Wherein, inlet tube 3 can be an independent pipeline to inlet tube 3 passes through mode such as bonding, joint, or screw-thread fit and connects on container lid 2, in this embodiment, for simplifying manufacturing procedure, reduce cost, preferably, inlet tube 3 is sunken to be formed by container lid 2.

The container lid 2 can directly cover the container mouth of the container body 1, and can be connected to the container body 1 in a hinged or rotary connection mode and other swing joints to cover the container mouth of the container body 1.

As shown in fig. 1, 2, 3, 4 and 5, to further improve the convenience and functionality of the water boiling container, in this embodiment, the water boiling container further includes an automatic water feeder 6, the automatic water feeder 6 is correspondingly matched with the container body 1, and the automatic water feeder 6 is configured to feed water into the water inlet pipe 3, specifically, the automatic water feeder 6 is electrically connected with the control end of the detection assembly 5, when the detected water volume value is smaller than the threshold value, both the electric dust cover 4 and the automatic water feeder 6 are opened, when the detected water volume value is not smaller than the threshold value, both the electric dust cover 4 and the automatic water feeder 6 are closed, when the water boiling container is in operation, the detection end of the detection assembly 5 detects the actual water volume in the container body 1, compares the detected water volume value with the threshold value set in the control end of the detection assembly 5, and when the water volume value in the container body 1 detected by the detection assembly 5 is smaller than the threshold value, the control end of the detection component 5 orders the electric dustproof cover 4 to open, and simultaneously orders the automatic water feeder 6 to discharge water to realize adding water into the container body 1 along the water inlet pipe 3, and in the water adding process, when the volume value of the water in the container body 1 detected by the detection component 5 is equal to or larger than a threshold value, at the moment, the control end of the detection component 5 orders the electric dustproof cover 4 to close and seal the water inlet pipe 3, and simultaneously stops the automatic water feeder 6 to continue adding water.

As shown in fig. 6 and 7, in particular, in the present embodiment, the electric dust cap 4 includes a dust cap body 41 and a first driving member 42, the dust cap body 41 is rotatably connected to the container cap 2 and seals the water inlet pipe 3, the first driving member 42 is disposed on the container cap 2 and is electrically connected to the control end of the detection assembly 5, and the driving end of the first driving member 42 is connected to the dust cap body 41, wherein when the detected water volume value is smaller than the threshold value, the first driving member 42 drives the dust cap body 41 to open, and at the same time, the automatic water feeder 6 feeds water into the water inlet pipe 3, and when the detected water volume value is not smaller than the threshold value, the first driving member 42 drives the dust cap body 41 to close to seal the water inlet pipe 3, and at the same time, the automatic water feeder 6 is closed.

Wherein, the first driving member 42 may be an air pump, in order to improve the flexibility of opening and closing the dust cap body 41, the first driving member 42 is preferably a motor, as shown in fig. 6 and 7, specifically, the first driving member 42 includes a driving portion 421 and a driving gear portion 422, the driving portion 421 is electrically connected to the driving gear portion 422 with the control end of the detection assembly 5, further, the dust cap body 41 includes a first sealing cover 411 and a second sealing cover 412, the first sealing cover 411 and the second sealing cover 412 are respectively rotatably connected to the container cover 2, and the first sealing cover 411 and the second sealing cover 412 are in gear engagement with each other, the whole dust cap body 41 can be opened and closed only by driving any one of the first sealing cover 411 and the second sealing cover 412 which are assembled together through gear engagement with each other, the structure is simplified, and the assembly is convenient. Specifically, the first sealing cover 411 includes a first sealing portion 411a and a first gear portion 411b, the first gear portion 411b is rotatably connected to the container cover 2 and is connected to the first sealing portion 411a, the second sealing cover 412 includes a second sealing portion 412a and a second gear portion 412b, the first sealing portion 411a and the second sealing portion 412a jointly seal the water inlet pipe 3, the second gear portion 412b is rotatably connected to the container cover 2 and is connected to the second sealing portion 412a, the first gear portion 411b and the second gear portion 412b are engaged with each other, and the driving gear portion 422 is engaged with the first gear portion 411b or the second gear portion 412 b.

The shape of the first sealing cover 411 and the second sealing cover 412 formed may be square, in this embodiment, in order to match with the water inlet of the water inlet pipe 3, specifically, the shape of the first sealing cover 411 and the second sealing cover 412 formed may be circular, so as to improve the beauty of the dust cover body 41, wherein the matching position of the first sealing cover 411 and the second sealing cover 412 may be a linear matching or a curve matching, and preferably a curve matching is used for further improving the beauty.

As shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, specifically, in order to facilitate automatic water feeding in the container body 1, in this embodiment, the automatic water feeder 6 includes a base 61, a water outlet 62 and a power assembly 63, wherein the container body 1 is electrically connected to the base 61, the water outlet 62 is rotatably connected to the base 61, a sensing end of the power assembly 63 is electrically connected to a control end of the detection assembly 5, and the water outlet 62 is connected to a driving end of the power assembly 63, and further, the driving end of the power assembly 63 is configured to: when the detected water volume value is smaller than the threshold value, the water outlet head 62 is driven to rotate to the position of the water inlet pipe 3, and when the detected water volume value is not smaller than the threshold value, the water outlet head 62 is driven to be far away from the water inlet pipe 3. When the water boiling container works, when the detection end of the detection component 5 detects that the volume value of water in the container body 1 is smaller than the threshold value, the control end of the detection component 5 commands the driving end of the power component 63 to drive the water outlet head 62 to rotate to the position of the water inlet pipe 3 and commands the electric sealing cover to be opened, so that the water in the water outlet head 62 can flow into the container body 1 along the water inlet pipe 3; when the detected water volume value is not less than the threshold value, the control end of the detection component 5 commands the water outlet head 62 not to discharge water, and commands the driving end of the power component 63 to drive the water outlet head 62 to rotate towards the direction far away from the water inlet pipe 3, and the electric sealing cover is closed.

As shown in fig. 3, 4 and 5, wherein the driving end of the power assembly 63 can be electrically connected to the control end of the detection assembly 5 through a wire, since the container cover 2 needs to be opened and cleaned frequently, in order to simplify the structure of the water boiling container and ensure accurate water adding of the water boiling container, in this embodiment, the power assembly 63 includes (a second driving member), a magnetic member 631 and a sensing member 632, specifically, the (second driving member) is disposed in the base 61 and connected to the water outlet head 62, the magnetic member 631 is disposed in the water outlet head 62, the sensing member 632 is disposed on the container cover 2 and configured to be correspondingly matched with the magnetic member 631, further, the sensing member 632 is electrically connected to the control end of the detection assembly 5, when the water volume value detected by the detection end of the detection assembly 5 is smaller than a threshold value, the control end of the detection assembly 5 commands (the second driving member) to drive the water outlet head 62 to rotate to the water inlet pipe 3, at this time, the magnetic component 631 is located above the sensing component 632, when the sensing component 632 detects the magnetic component 631, the sensing component sends a data signal to the control end of the detection component 5, and the control end of the detection component 5 receives and processes the data signal, and commands the electric sealing cover to open and the water outlet head 62 to discharge water; when the detected water volume value is not less than the threshold value, the control end of the detection component 5 commands the water outlet to stop water outlet and commands (the second driving component) to drive the water outlet head 62 to rotate towards the direction far away from the water inlet pipe 3, at this time, the sensing component 632 cannot detect the magnetic component 631 and sends a data signal to the control end of the detection component 5, and the control end of the detection component 5 receives and processes the data signal and commands the electric sealing cover to close.

Specifically, in the present embodiment, the magnetic member 631 may be a magnet. Wherein, (the second driving member) may be a motor.

In addition to the magnetic member 631 and the sensing member 632 cooperating to open and close the electric sealing cover, in this embodiment, an infrared transmitter may cooperate with an infrared receiver, the infrared receiver sets a receiving range for receiving the infrared transmitter, the electric sealing cover is not opened when the signal of the infrared transmitter is not detected in the specified range, and conversely, the electric sealing cover is opened when the signal of the infrared transmitter is detected in the specified range, wherein the electric sealing cover can be applied to this embodiment as long as the receiving member receives the signal and the transmitting member transmits the signal.

As shown in fig. 4 and 8, wherein the detecting component 5 can detect the actual water volume value in the container body 1 in various ways, including calculating the weight of the actual water amount in the container body 1 to obtain the water volume value, in this embodiment, a measuring way for calculating the actual water volume value in the container body 1 is provided, specifically, the detecting component 5 includes a temperature sensor 51 and a first controller 52, the temperature sensor 51 is disposed in the container body 1 and is configured to detect the temperature rising rate of the water in the container body 1, the first controller 52 calculates the water volume value in the container body 1 according to the temperature rising rate of the water in the container body 1, wherein the automatic water feeder 6, the electric dust cap 4 and the temperature sensor 51 are all electrically connected to the first controller 52, and since the actual water volume value in the container body 1 is detected by the detecting component 5, the automatic water feeder 6, the electric dust cap 4 and the temperature sensor 51Specifically, as the water capacity of the container body 1 is 1L, in order to prevent the overflow condition, the threshold Q of the water volume value is generally smaller than the water capacity of the container body 1, where Q is 0.8L to explain that the time required for heating 1L of water to 20 ℃ in the same environment and with the same power of the heating plate is T, (1) when no water exists in the container body 1, the time required for heating to 20 ℃ is T₁The temperature sensor 51 sends all the data detected to the first controller 52, and the first controller 52 calculates the actual water volume q₁0, i.e. q₁<Q, the first controller 52 commands the electric sealing cover to be opened, and meanwhile, the automatic water feeder 6 feeds water; (2) when the container body 1 is filled with water, the time required for heating to 20 ℃ is t₂And t is₂<T, the temperature sensor 51 sends all the data detected to the first controller 52, and the first controller 52 calculates the actual water volume q₂<Q, the first controller 52 commands the electric sealing cover to be opened, and meanwhile, the automatic water feeder 6 feeds water; (3) when the container body 1 is filled with water, the time required for heating to 20 ℃ is t₃And t is₃>T, the temperature sensor 51 sends all the data detected to the first controller 52, and the first controller 52 calculates the actual water volume q₃>Q, the first controller 52 commands the automatic water feeder 6 to be inoperative and the electrically operated sealing cover to seal the water inlet pipe 3.

It should be added here that, in order to improve the accuracy of the temperature sensor 51, in the present embodiment, the heating is performed by using the gap heating or the low power heating when the water adding command is executed. Furthermore, in order to improve the functionality of the water boiling container, the automatic water feeder 6 feeds water quantitatively, specifically, the water feeding amount of the automatic water feeder 6 is 1/5-1/3L, preferably 1/5L each time.

It should be further noted that, under the same conditions, the method of calculating the water volume value by using the corresponding data algorithm set in the controller and combining the detection data of the temperature sensor 51 belongs to the prior art, and therefore, the specific algorithm is not specifically limited herein, as long as the value of the water volume value can be calculated by combining the detection data of the temperature sensor 51 and the corresponding formula algorithm.

As shown in fig. 3, another detecting assembly 5 is further provided in the present embodiment, specifically, the detecting assembly 5 includes a liquid level detector 53 and a second controller 54, wherein the liquid level detector 53 is disposed in the container body 1 and configured to detect a liquid level height of water in the container body 1, the second controller 54 calculates a volume value of water in the container body 1 according to the liquid level height of water in the container body 1, and the automatic water feeder 6, the electric dust cap 4 and the liquid level detector 53 are all electrically connected to the second controller 54. When the water boiling container is operated, the liquid level detector 53 detects the actual water level in the container body 1, specifically, the water capacity of the container body 1 is 1L for example, in order to prevent the overflow condition, the general water volume value threshold Q is smaller than the water capacity of the container body 1, where Q is selected to be 0.8L for explanation, (1) when the water level in the container body 1 is lower than Q, at this time, the water level in the container body 1 does not reach the setting height of the liquid level detector 53, that is, the water in the container body 1 is not in contact with the liquid level detector 53, at this time, the liquid level detector 53 sends a data signal to the second controller 54, after the second controller 54 receives and analyzes the relevant data signal, the electric sealing cover is commanded to open, and the automatic water feeder 6 feeds water, when the water level in the container body 1 reaches the position in contact with the liquid level detector 53, the liquid level detector 53 sends the data signal to the second controller 54, and after the second controller 54 receives and analyzes the relevant data signal, the second controller commands the electric sealing cover to be closed and the automatic water feeder 6 to not work; (2) when the water level in the container body 1 is not less than Q, at this time, the liquid level detector 53 sends the detected data signal to the second controller 54, and the second controller 54 receives and analyzes the related data signal and commands that the electric sealing cover and the automatic water feeder 6 do not work.

Wherein, the liquid level detector 53 can be a floating ball type liquid level detector 53, which is convenient for installation and structure simplification, and improves the accuracy of the liquid level detector 53, in this embodiment, the liquid level detector 53 includes a first electrode 531 and a second electrode 532, the first electrode 531 is disposed at the highest water level line of the container body 1, the second electrode 532 is disposed at the bottom of the container body 1, the first electrode 531 and the second electrode 532 are both electrically connected with the second controller 54, when the liquid level detection is performed, when the height of the water in the container body 1 does not reach to contact with the first electrode 531, at this time, the first electrode 531 and the second electrode 532 are in an electrically connected state, that is, at this time, the second controller 54 commands the electric sealing cover to open, and at the same time, the automatic water feeder 6 feeds water, when the height of the water fed in the container body 1 reaches to contact with the first electrode, at this time, the first electrode is communicated with the second electrode through the water in the container body 1, that is, at this time, the second controller 54 commands the electric sealing cover to be closed and the automatic water feeder 6 does not work.

Referring to fig. 3, the first electrode 531 and the second electrode 532 may be both functional elements independently disposed in the container body 1, and in order to simplify the structural composition of the water boiling container and reduce the cost, in this embodiment, the first electrode 531 is an independent functional element and is disposed at the highest water level line of the container body 1, and the second electrode 532 may be a metal shell of the heating plate of the container body 1, or the second electrode 532 may also be a metal shell of the temperature detecting element (temperature sensor 51) of the container body 1.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (12)

1. A water boiling container, which comprises a container body (1) and a container cover (2), wherein the container cover (2) covers the opening of the container body (1), and is characterized by further comprising:

the water inlet pipe (3) is arranged on the container cover (2) and communicated with the interior of the container body (1);

the electric dustproof cover (4), the electric dustproof cover (4) is movably connected to the container cover (2) and seals the water inlet pipe (3);

the detection assembly (5) is arranged in the container body (1), the electric dustproof cover (4) is electrically connected with the control end of the detection assembly (5), the detection end of the detection assembly (5) is set to detect the water volume value in the container body (1),

wherein the electric dust cap (4) is opened when the detected water volume value is less than a threshold value,

when the detected water volume value is not less than a threshold value, the electric dust cover (4) is closed.

2. The water boiling container as claimed in claim 1, further comprising:

the automatic water feeder (6) is correspondingly matched with the container body (1), and the automatic water feeder (6) is arranged to feed water into the water inlet pipe (3);

the automatic water feeder (6) is electrically connected with the control end of the detection component (5), when the detected water volume value is smaller than a threshold value, the electric dustproof cover (4) and the automatic water feeder (6) are both opened,

and when the detected water volume value is not less than the threshold value, the electric dustproof cover (4) and the automatic water feeder (6) are both closed.

3. A water boiling vessel according to claim 2, wherein the motorized dust cap (4) comprises:

the dustproof cover body (41), the dustproof cover body (41) is rotatably connected to the container cover (2) and seals the water inlet pipe (3);

the first driving piece (42) is arranged on the container cover (2) and is electrically connected with the control end of the detection assembly (5), the driving end of the first driving piece (42) is connected with the dustproof cover body (41),

wherein, when the detected water volume value is less than the threshold value, the first driving piece (42) drives the dustproof cover body (41) to be opened, and meanwhile, the automatic water feeder (6) feeds water into the water inlet pipe (3),

when the detected water volume value is not less than the threshold value, the first driving piece (42) drives the dustproof cover body (41) to be closed so as to seal the water inlet pipe (3), and meanwhile, the automatic water feeder (6) is closed.

4. A water boiling container according to claim 3, wherein the dust cap body (41) comprises:

a first sealing cover (411);

a second sealing cover (412), wherein the first sealing cover (411) and the second sealing cover (412) are respectively connected to the container cover (2) in a rotating mode, and the first sealing cover (411) and the second sealing cover (412) are in tooth meshing with each other;

the driving end of the first driving piece (42) is connected with a first sealing cover (411) or a second sealing cover (412).

5. The water boiling container as claimed in claim 4, wherein the first sealing cover (411) comprises:

a first seal section (411 a);

a first gear part (411b), wherein the first gear part (411b) is rotationally connected to the container cover (2) and is connected with the first sealing part (411 a);

the second sealing cover (412) includes:

a second sealing part (412a), the first sealing part (411a) and the second sealing part (412a) jointly sealing the water inlet pipe (3);

a second gear part (412b), wherein the second gear part (412b) is rotatably connected to the container cover (2) and connected to the second sealing part (412a), and the first gear part (411b) and the second gear part (412b) are engaged with each other.

6. A water boiling container as claimed in claim 5, characterized in that the first drive member (42) comprises:

the driving part (421), the driving part (421) is electrically connected with the control end of the detection assembly (5);

a drive gear part (422), wherein the drive gear part (422) is connected to a drive end of the drive part (421), and the drive gear part (422) is engaged with the first gear part (411b) or the second gear part (412 b).

7. A water boiling container according to claim 2, wherein the automatic water filler (6) comprises:

a base (61), the container body (1) being electrically connected to the base (61);

the water outlet head (62), the water outlet head (62) is rotatably connected to the base (61);

a power assembly (63), wherein the sensing end of the power assembly (63) is electrically connected with the control end of the detection assembly (5), the water outlet head (62) is connected with the driving end of the power assembly (63),

the drive end of the power assembly (63) is arranged to: when the detected water volume value is smaller than the threshold value, the water outlet head (62) is driven to rotate to the position of the water inlet pipe (3),

when the detected water volume value is not less than the threshold value, the water outlet head (62) is driven to be far away from the water inlet pipe (3).

8. Water boiling vessel according to claim 7, wherein the power assembly (63) comprises:

a second driving member arranged in the base (61) and connected with the water outlet head (62);

a magnetic member (631), the magnetic member (631) disposed within the water outlet head (62);

an induction member (632), wherein the induction member (632) is arranged on the container cover (2) and is arranged to be correspondingly matched with the magnetic member (631);

the sensing piece (632) is electrically connected with the control end of the detection assembly (5).

9. A water boiling container according to any one of claims 2-8 wherein the detection assembly (5) comprises:

a temperature sensor (51), said temperature sensor (51) being disposed within said container body (1) and being arranged to detect a rate of temperature rise of water within said container body (1);

a first controller (52), wherein the first controller (52) calculates the water volume value in the container body (1) according to the temperature rising rate of the water in the container body (1);

the automatic water feeder (6), the electric dust cover (4) and the temperature sensor (51) are all electrically connected with the first controller (52).

10. A water boiling container according to any one of claims 2-8 wherein the detection assembly (5) comprises:

a liquid level detector (53), said liquid level detector (53) being arranged within said container body (1) and being arranged to detect a liquid level height of water within said container body (1);

a second controller (54), wherein the second controller (54) calculates the water volume value in the container body (1) according to the liquid level height of the water in the container body (1);

the automatic water feeder (6), the electric dust cover (4) and the liquid level detector (53) are all electrically connected with the second controller (54).

11. The water boiling container as claimed in claim 10, wherein the liquid level detector (53) comprises:

a first pole element (531), the first pole element (531) being arranged at the highest water level of the container body (1);

a second pole element (532), the second pole element (532) sets up the bottom of container body (1), first pole element (531) with second pole element (532) all with second controller (54) electricity is connected.

12. A water boiling vessel according to claim 11 wherein the second pole element (532) is a metal shell of a hotplate of the vessel body (1),

or a metal casing of a temperature detection member of the container body (1).

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