CN213588051U - Filtering component and container - Google Patents

Abstract

The application relates to the technical field of household appliances, in particular to a filtering assembly and a container. The filter assembly includes: the body part is provided with a cavity and a liquid inlet communicated with the cavity; the flow guide pipe is connected with the body part and is provided with a liquid outlet, and the inner cavity of the flow guide pipe is communicated with the cavity and the liquid outlet; wherein, the liquid in the cavity can be discharged through the liquid outlet after boiling. This application is through with liquid heating in the cavity, makes the liquid boiling in the cavity and produces the pressure differential with its external annular that locates to make the liquid in the cavity flow to the inner chamber of honeycomb duct, and discharge to other appearance intracavity through the liquid outlet.

Description

Filtering component and container

Technical Field

The application relates to the technical field of household appliances, in particular to a filtering assembly and a container.

Background

Some food materials, such as Chinese herbs and tea leaves, need to be separated from the soup after cooking. However, some heating containers in the current market have a single filtering function, most of filtering structures are only provided with a filtering screen at a water outlet of the container, material residues are still left in the poured soup, the material residues are easy to be sucked into a suction port when the soup is drunk, and the filtering effect is poor.

SUMMERY OF THE UTILITY MODEL

The application provides a filter assembly and a container, aiming at filtering liquid in the container.

The application provides a filter assembly for the container, the container includes the container body, generates heat and coils and stock solution part, filter assembly with the stock solution part set up in first chamber that holds, generate heat and coil the installation in the bottom of the container body, wherein, stock solution part is equipped with the second and holds the chamber, filter assembly includes:

the body part is provided with a cavity and a liquid inlet communicated with the cavity;

the flow guide pipe is connected with the body part and is provided with a liquid outlet, and the inner cavity of the flow guide pipe is communicated with the cavity and the liquid outlet;

wherein, the liquid in the cavity can be discharged through the liquid outlet after boiling.

In this application, first chamber and the cavity of holding passes through the inlet intercommunication to make first liquid that holds the intracavity can flow to the cavity, and the inlet can block that first edible material that holds the intracavity gets into the cavity, makes first edible material and the liquid separation that holds the intracavity. The cavity is communicated with the inner cavity of the flow guide pipe, the inner cavity of the flow guide pipe is communicated with the second accommodating cavity through a liquid outlet, the heating plate is arranged below the body part to heat liquid in the cavity, so that the liquid in the cavity is heated and generates pressure difference with an external ring where the liquid is located, the liquid in the cavity flows to the inner cavity of the flow guide pipe, and the liquid flows to the second accommodating cavity through the liquid outlet.

In one possible design, the cavity comprises a first cavity and a second cavity, the height of the second cavity is higher than that of the first cavity, and the flow guide pipe is communicated with the second cavity.

In this application, the sectional area of the first cavity is smaller than the sectional area of the second cavity. The first cavity is communicated with the second cavity, the sectional area of the first cavity is smaller than that of the second cavity, so that the air pressure of the first cavity is higher than that of the second cavity, liquid in the first cavity flows towards the second cavity, and the second cavity is close to the flow guide pipe, so that the liquid flows towards the direction close to the flow guide pipe.

Specifically, the honeycomb duct is connected to the end of the body portion along the circumferential direction, and the liquid outlet is arranged on one side of the honeycomb duct. The honeycomb duct sets up in this somatic part along the tip position of circumference, and liquid in the cavity can flow towards the direction that is close to the honeycomb duct to make liquid can flow to in the honeycomb duct, the liquid outlet sets up in one side of honeycomb duct, and liquid in the honeycomb duct can flow towards the liquid outlet, and the liquid outlet holds the chamber with the second and sets up relatively, so that liquid can flow to the second along the liquid outlet and hold the intracavity.

Or the guide pipe is connected to the middle part of the body part, and the liquid outlet is arranged along the circumferential direction of the guide pipe. The honeycomb duct sets up in the intermediate position of this somatic part, and liquid in the cavity can flow towards the direction that is close to the honeycomb duct to in making liquid can flow to the honeycomb duct, liquid in the honeycomb duct can flow towards the liquid outlet, and the liquid outlet holds the relative setting in chamber with the second, so that liquid can flow to the second along the liquid outlet and hold the intracavity. This liquid outlet sets up along the circumference of honeycomb duct, has increased the liquid outlet area, has increased the play liquid measure of honeycomb duct.

In one possible design, the first cavity is located on one side of the second cavity;

the first cavity is provided with a first top wall, the second cavity is provided with a second top wall, the first top wall is obliquely arranged, and the height of the first top wall is gradually increased along the direction close to the second top wall.

In this application, the relative second roof slope of first roof sets up, and the direction of the inclined plane orientation honeycomb duct of first roof to with liquid drainage to honeycomb duct.

In one possible design, the first cavity is arranged along the circumference of the second cavity;

the first cavity is provided with a fourth top wall, and the fourth top wall is arranged along the circumferential direction of the flow guide pipe;

the height of the fourth top wall gradually decreases in a direction away from the draft tube.

In this application, the slope of fourth roof sets up, and the inclined plane of fourth roof towards the direction of honeycomb duct, makes first cavity reduce along the sectional area of the direction of keeping away from the honeycomb duct gradually, and the atmospheric pressure of keeping away from honeycomb duct department in the first cavity is higher than the atmospheric pressure that is close to honeycomb duct department to with liquid drainage to honeycomb duct.

In one possible design, the flow guide pipe comprises a side wall and a top wall, and the liquid outlet is arranged at the position of the side wall close to the top wall;

the top wall is arranged towards the liquid outlet in an inclined mode.

In this application, the roof includes the third roof, and the slope of third roof sets up, and along the direction that is close to the liquid outlet, and the height of third roof increases gradually. The third roof slope sets up, and the inclined plane of third roof is towards the direction of liquid outlet to with the liquid drainage to the liquid outlet direction in the draft tube.

Or, the roof includes the fifth roof, and the fifth roof is followed the circumference setting of lateral wall, and the liquid outlet sets up in the lateral wall and is close to the position of fifth roof, along filtering component's direction of height and the direction that is close to this somatic part, and the lateral wall is kept away from gradually to the fifth roof. The fifth top wall is in an inverted cone shape, and the conical surface is arranged towards the direction of the liquid outlet so as to guide the liquid in the guide pipe to the direction of the liquid outlet.

In one possible design, the liquid outlet is provided with a filter screen.

In this application, the inlet is provided with a plurality ofly, a plurality of inlets set up along the circumference of this somatic part, first liquid flow that holds the intracavity carries out once filtering through the inlet when flowing to the cavity, make first edible material and the liquid separation who holds the chamber, liquid flow flows to the second through the liquid outlet and holds the chamber, this application sets up the filter screen at the liquid outlet, filter the particle material in the liquid that honeycomb duct flow direction second held the chamber through the filter screen, realize the secondary filter, eat the material granule in the liquid when reducing the user and drinking, promote user's use and experience the degree.

Embodiments of the present application further provide a container, the container includes:

the container body is provided with a first accommodating cavity;

the heating plate is arranged at the bottom of the container body;

the filter assembly is the filter assembly, and is arranged in the first accommodating cavity;

the liquid storage part is arranged in the first accommodating cavity and provided with a second accommodating cavity;

wherein, the liquid outlet with the second holds the chamber intercommunication.

In this application, the first liquid that holds the intracavity can hold the intracavity to the second through filtering the subassembly flow, holds the liquid after the chamber storage filters through the second.

In one possible embodiment, the body part has a connection end connected to the heat generating plate, the connection end surrounding at least the heat generating plate.

In this application, the dish that generates heat is located the below of this body portion, and the size of the dish that generates heat is less than the size of this body portion, and the minimum diameter a that this body portion is close to the heating disk portion promptly is greater than the maximum diameter b of the dish that generates heat, makes the dish that generates heat concentrate and sets up body portion below to the heat that the dish that generates heat produced can the interior liquid of quick heating chamber. And the food material in the first accommodating cavity is far away from the heating plate, so that the risk of bottom pasting of the food material in the use process of the container is reduced.

In one possible design, the body part is provided with a clamping part, and the heating disc is provided with a matching part;

the clamping portion is matched with the matching portion so that the body portion is connected with the heating plate.

In this application, this somatic part is equipped with the buckle, and the buckle is joint portion, and the dish that generates heat is equipped with the spacing groove, and the spacing groove is the cooperation portion, buckle and spacing groove cooperation to this somatic part is connected with the dish that generates heat, and the somatic part of also being convenient for simultaneously is dismantled with the dish that generates heat, so that wash filtering component.

In a possible design, the liquid storage part is provided with an avoiding part matched with the guide pipe, and the guide pipe can extend to the upper part of the second accommodating cavity along the avoiding part so as to enable the liquid outlet to be communicated with the second accommodating cavity.

In this application, dodge portion and play the effect of dodging to the honeycomb duct, make the liquid outlet of honeycomb duct set up in the second and hold the top in chamber to the liquid that makes along the liquid outlet outflow can flow to the second and hold the intracavity.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

FIG. 1 is a schematic structural view of a filter assembly and container provided herein in one embodiment;

FIG. 2 is an exploded view of FIG. 1;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic cross-sectional view of the filter assembly and container of FIG. 1 in one embodiment;

FIG. 5 is a schematic view of the filter assembly of FIG. 4;

FIG. 6 is a schematic cross-sectional view of FIG. 5;

FIG. 7 is a schematic cross-sectional view of the filter assembly and container of FIG. 1 in another embodiment;

FIG. 8 is a schematic view of the filter assembly of FIG. 7;

fig. 9 is a schematic cross-sectional view of fig. 8.

Reference numerals:

1-a container;

11-a filter assembly;

111-a body portion;

111 a-liquid inlet;

111 b-a first cavity;

111b 1-first top wall;

111 c-a second cavity;

111c 1-second top wall;

111 d-fourth top wall;

111 e-connection end;

111 f-a snap-in portion;

112-a draft tube;

112 a-liquid outlet

112a 1-screen;

112 b-side wall;

112 c-a third top wall;

112 d-fifth top wall;

12-a container body;

121-a first receiving chamber;

13-a heating plate;

14-a reservoir component;

141-a second containing cavity;

142-an avoidance portion;

143-handle;

15-a container lid;

16-base.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

Detailed Description

For better understanding of the technical solutions of the present application, the following detailed descriptions of the embodiments of the present application are provided with reference to the accompanying drawings.

It should be understood that the embodiments described are only a few embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terminology used in the embodiments of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the examples of this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be understood that the term "and/or" as used herein is merely one type of association that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

It should be noted that the terms "upper", "lower", "left", "right", and the like used in the embodiments of the present application are described in terms of the angles shown in the drawings, and should not be construed as limiting the embodiments of the present application. In addition, in this context, it will also be understood that when an element is referred to as being "on" or "under" another element, it can be directly on "or" under "the other element or be indirectly on" or "under" the other element via an intermediate element.

As shown in fig. 1, fig. 2, fig. 4 and fig. 7, the present embodiment provides a container 1, the container 1 may be a health preserving pot, the container 1 includes a container body 12, a container cover 15, a base 16 and a heating plate 13, the container cover 15 is used for covering the container cover 15, the heating plate 13 is installed at the bottom of the container body 12, the container body 12 is disposed on the base 16, when the container 1 is used, the container body 12 is placed on the base 16, and the heating plate 13 is electrically connected with the base 16 to heat the liquid in the container body 12. The container 1 further comprises a filter assembly 11 and a liquid storage component 14, the container body 12 is provided with a first accommodating cavity 121, the liquid storage component 14 and the filter assembly 11 are arranged in the first accommodating cavity 121, the liquid storage component 14 is hung on the side wall 112b of the first accommodating cavity 121, and the filter assembly 11 is arranged on the bottom wall of the first accommodating cavity 121. Filter assembly 11 is used for filtering the liquid in first accommodation cavity 121, and filter assembly 11 and first accommodation cavity 121 communicate, and stock solution part 14 is used for the storage filtered liquid, and stock solution part 14 includes second accommodation cavity 141, and filter assembly 11 and second accommodation cavity 141 communicate.

Wherein, the liquid storage part 14 is provided with a handle 143 so as to be convenient for placing or taking the liquid storage part 14.

As shown in fig. 4 to 9, the filtering assembly 11 includes a main body 111 and a flow guiding tube 112, the main body 111 has a cavity, the main body 111 has a liquid inlet 111a communicated with the cavity, the flow guiding tube 112 is connected to the main body 111, the flow guiding tube 112 has a liquid outlet 112a, an inner cavity of the flow guiding tube 112 is communicated with the cavity and the liquid outlet 112a, and after being heated and boiled, the liquid in the cavity can be discharged through the liquid outlet 112 a.

In this embodiment, the first accommodating cavity 121 is communicated with the cavity through the liquid inlet 111a, so that the liquid in the first accommodating cavity 121 can flow to the cavity, and the liquid inlet 111a can block the food material in the first accommodating cavity 121 from entering the cavity, so that the food material in the first accommodating cavity 121 is separated from the liquid. The cavity is communicated with the inner cavity of the flow guide tube 112, the inner cavity of the flow guide tube 112 is communicated with the second accommodating cavity 141 through the liquid outlet 112a, and the heating plate 13 is arranged below the body part 111 to heat the liquid in the cavity, so that the liquid in the cavity is boiled and generates a pressure difference with an external ring where the liquid is located, and the liquid in the cavity flows to the inner cavity of the flow guide tube 112 (splashed to the flow guide tube 112) and flows to the second accommodating cavity 141 through the liquid outlet 112 a.

As shown in fig. 5 and 8, a plurality of liquid inlets 111a are provided, the plurality of liquid inlets 111a are provided along the circumferential direction of the main body 111, liquid in the first accommodating cavity 121 flows to the cavity and is filtered once through the liquid inlets 111a, so that the food material and the liquid in the first accommodating cavity 121 are separated, and the liquid flows to the second accommodating cavity 141 through the liquid outlet 112a, in this embodiment, a filter screen 112a1 is provided at the liquid outlet 112a, and particulate food material in the liquid flowing to the second accommodating cavity 141 through the filter screen 112a1 is filtered by the filter tube 112a, so that secondary filtering is realized, so as to reduce food material particles in the liquid when a user drinks, and improve the user experience.

As shown in fig. 4 and 7, further, to accelerate the liquid boiling in the cavity, the body portion 111 has a connection end 111e connected to the heat generating plate 13, and the connection end 111e surrounds at least the heat generating plate 13. In this embodiment, the heating plate 13 is located below the main body 111, and the size of the heating plate 13 is smaller than the size of the main body 111, that is, the minimum diameter a of the portion of the main body 111 close to the heating plate 13 is larger than the maximum diameter b of the heating plate 13, so that the heating plate 13 is intensively disposed below the main body 111, and the heat generated by the heating plate 13 can rapidly heat the liquid in the chamber. Moreover, the food material in the first accommodating cavity 121 is far away from the heating plate 13, so that the risk of bottom pasting of the food material in the use process of the container 1 is reduced.

As shown in fig. 5 and 8, the main body 111 is provided with a clamping portion 111f, and the heating plate 13 is provided with a matching portion; the engaging portion 111f engages with the engaging portion to connect the body portion 111 with the heat generating plate 13. In this embodiment, the body portion 111 is provided with a buckle, the buckle is a buckle portion 111f, the heating plate 13 is provided with a limiting groove, the limiting groove is a matching portion, the buckle is matched with the limiting groove, so that the body portion 111 is connected with the heating plate 13, and the body portion 111 and the heating plate 13 are also conveniently detached, so that the filtering component 11 is cleaned.

As shown in fig. 4 and 7, in one possible design, the chambers include a first chamber 111b and a second chamber 111c, the height of the second chamber 111c is higher than that of the first chamber 111b, and the duct 112 is communicated with the second chamber 111 c. The first cavity 111b is far away from the flow guide tube 112, and the sectional area of the first cavity 111b is smaller than that of the second cavity 111 c.

In this embodiment, the first chamber 111b is communicated with the second chamber 111c, and the sectional area of the first chamber 111b is smaller than that of the second chamber 111c, so that the air pressure of the first chamber 111b is higher than that of the second chamber 111c, so that the liquid in the first chamber 111b flows toward the second chamber 111c, and the second chamber 111c is close to the flow guide tube 112, so that the liquid flows toward the direction close to the flow guide tube 112.

As shown in fig. 4 and 6, the first cavity 111b is located at one side of the second cavity 111 c; the first cavity 111b has a first top wall 111b1, the second cavity 111c has a second top wall 111c1, the first top wall 111b1 is obliquely arranged, and the height of the first top wall 111b1 is gradually increased along a direction approaching the second top wall 111c 1. In this embodiment, the first top wall 111b1 is disposed obliquely relative to the second top wall 111c1, and the slope of the first top wall 111b1 faces the direction of the flow guiding tube 112 to guide the liquid to the flow guiding tube 112.

Specifically, the flow guide tube 112 is connected to the end of the main body 111 along the circumferential direction, and the liquid outlet 112a is disposed at one side of the flow guide tube 112. In this embodiment, the flow guide tube 112 is disposed at an end position of the body portion 111 along the circumferential direction, the liquid in the cavity can flow toward a direction close to the flow guide tube 112, so that the liquid can flow into the flow guide tube 112, the liquid outlet 112a is disposed at one side of the flow guide tube 112, the liquid in the flow guide tube 112 can flow toward the liquid outlet 112a, and the liquid outlet 112a and the second accommodating cavity 141 are disposed opposite to each other, so that the liquid can flow into the second accommodating cavity 141 along the liquid outlet 112 a.

As shown in fig. 4, further, the liquid storage part 14 is provided with an avoiding portion 142 matched with the flow guide tube 112, and the flow guide tube 112 can extend to the upper side of the second accommodating cavity 141 along the avoiding portion 142 so as to enable the liquid outlet 112a to be communicated with the second accommodating cavity 141. The avoiding portion 142 performs an avoiding function on the flow guide tube 112, so that the liquid outlet 112a of the flow guide tube 112 is disposed above the second accommodating chamber 141, and the liquid flowing out along the liquid outlet 112a can flow into the second accommodating chamber 141. In this embodiment, the side wall 112b of the liquid storage part 14 is provided with a groove extending in the height direction Z of the container 1, and at least a part of the flow guide tube 112 is disposed in the groove, and the groove functions as a back-off for disposing the flow guide tube 112.

As shown in fig. 7 and 9, alternatively, the first cavity 111b is disposed along a circumferential direction of the second cavity 111 c; the first cavity 111b has a fourth top wall 111d, and the fourth top wall 111d is arranged along the circumferential direction of the draft tube 112; the height of the fourth top wall 111d gradually decreases in a direction away from the draft tube 112. In this embodiment, the fourth top wall 111d is disposed obliquely, and the inclined plane of the fourth top wall 111d faces the direction of the flow guide tube 112, so that the sectional area of the first cavity along the direction away from the flow guide tube 112 is gradually reduced, and the air pressure in the first cavity away from the flow guide tube 112 is higher than the air pressure near the flow guide tube 112, so as to guide the liquid to the flow guide tube 112.

As shown in fig. 7, the flow guide tube 112 is connected to the middle of the body 111, and the liquid outlet 112a is disposed along the circumferential direction of the flow guide tube 112. In this embodiment, the flow guide tube 112 is disposed in the middle of the body portion 111, the liquid in the cavity can flow toward a direction close to the flow guide tube 112, so that the liquid can flow into the flow guide tube 112, the liquid in the flow guide tube 112 can flow toward the liquid outlet 112a, and the liquid outlet 112a and the second accommodating chamber 141 are disposed opposite to each other, so that the liquid can flow into the second accommodating chamber 141 along the liquid outlet 112 a. The liquid outlet 112a is arranged along the circumference of the flow guide tube 112, so that the area of the liquid outlet 112a is increased, and the liquid output of the flow guide tube 112 is increased.

As shown in fig. 7, further, the liquid storage part 14 is provided with an avoiding portion 142 matched with the flow guide tube 112, and the flow guide tube 112 can extend to the upper side of the second accommodating cavity 141 along the avoiding portion 142 so as to enable the liquid outlet 112a to be communicated with the second accommodating cavity 141. The avoiding portion 142 performs an avoiding function on the flow guide tube 112, so that the liquid outlet 112a of the flow guide tube 112 is disposed above the second accommodating chamber 141, and the liquid flowing out along the liquid outlet 112a can flow into the second accommodating chamber 141. In this embodiment, the side wall 112b of the liquid storage part 14 is provided with a through hole extending in the height direction Z of the container 1, and at least a part of the flow guide tube 112 is disposed in the through hole, which serves as a bypass for disposing the flow guide tube 112.

As shown in fig. 4 to 9, the flow guide tube 112 includes a side wall 112b and a top wall, the liquid outlet 112a is disposed at a position of the side wall 112b close to the top wall, and the top wall is disposed obliquely toward the liquid outlet 112 a.

As shown in fig. 6, the top wall includes a third top wall 112c, the third top wall 112c is disposed obliquely, and the height of the third top wall 112c gradually increases along a direction approaching the liquid outlet 112 a. In this embodiment, the third top wall 112c is disposed obliquely, and the inclined surface of the third top wall 112c faces the direction of the liquid outlet 112a, so as to guide the liquid in the flow guide tube 112 to the direction of the liquid outlet 112 a.

As shown in fig. 9, the top wall includes a fifth top wall 112d, the fifth top wall 112d is disposed along the circumferential direction of the side wall 112b, and the liquid outlet 112a is disposed at a position of the side wall 112b close to the fifth top wall 112 d; the fifth top wall 112d is gradually distant from the side wall 112b in the height direction Z of the filter assembly 11 and in the direction close to the body portion 111. In this embodiment, the fifth top wall 112d is an inverted cone, and the conical surface is disposed toward the liquid outlet 112a, so as to guide the liquid in the flow guide tube 112 to the direction of the liquid outlet 112 a.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A filter assembly, characterized in that the filter assembly (11) comprises:

a body part (111), wherein the body part (111) is provided with a cavity, and the body part (111) is provided with a liquid inlet (111a) communicated with the cavity;

the guide tube (112) is connected with the body part (111), the guide tube (112) is provided with a liquid outlet (112a), and the inner cavity of the guide tube (112) is communicated with the cavity and the liquid outlet (112 a);

wherein, the liquid in the cavity can be discharged through the liquid outlet (112a) after being heated.

2. The filtering assembly according to claim 1, characterized in that said cavities comprise a first cavity (111b) and a second cavity (111c), said second cavity (111c) having a height higher than the height of said first cavity (111b), said duct (112) communicating with said second cavity (111 c).

3. The filter assembly according to claim 2, wherein the first cavity (111b) is located at one side of the second cavity (111 c);

the first cavity (111b) has a first top wall (111b1), the second cavity (111c) has a second top wall (111c1), the first top wall (111b1) is obliquely arranged, and the height of the first top wall (111b1) is gradually increased along a direction approaching the second top wall (111c 1).

4. The filter assembly according to claim 2, wherein the first cavity (111b) is arranged along a circumference of the second cavity (111 c);

the first cavity (111b) has a fourth top wall (111d), the fourth top wall (111d) is arranged along the circumferential direction of the draft tube (112);

the height of the fourth top wall (111d) gradually decreases in a direction away from the draft tube (112).

5. The filter assembly of claim 1, wherein the flow conduit (112) comprises a side wall (112b) and a top wall, the liquid outlet (112a) being disposed at a location of the side wall (112b) proximate the top wall;

the top wall is obliquely arranged towards the liquid outlet (112 a).

6. A filter assembly as claimed in any one of claims 1 to 5, wherein the exit port (112a) is provided with a screen (112a 1).

7. A container, characterized in that the container (1) comprises:

the container body (12), the said container body (12) holds the lumen (121) first;

the heating plate (13), the said heating plate (13) is mounted to the bottom of the said container body (12);

a filter assembly (11), the filter assembly (11) being the filter assembly (11) according to any one of claims 1 to 6, the filter assembly (11) being arranged in the first receiving chamber (121);

the liquid storage part (14), the liquid storage part (14) is arranged in the first accommodating cavity (121), and the liquid storage part (14) is provided with a second accommodating cavity (141);

wherein the liquid outlet (112a) is communicated with the second accommodating cavity (141).

8. The container according to claim 7, wherein the body portion (111) has a connection end (111e) connected with the heat generating tray (13), the connection end (111e) surrounding at least the heat generating tray (13).

9. The container according to claim 7, wherein the body portion (111) is provided with a snap-in portion (111f), and the heat generating tray (13) is provided with a fitting portion;

the clamping portion (111f) is matched with the matching portion so that the body portion (111) is connected with the heating plate (13).

10. The container according to claim 7, wherein the liquid storage part (14) is provided with an avoiding portion (142) cooperating with the flow guide tube (112), and the flow guide tube (112) can extend along the avoiding portion (142) to above the second accommodating chamber (141) so as to communicate the liquid outlet (112a) with the second accommodating chamber (141).

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