CN218435121U - Kettle structure, water taking device and water purifying system - Google Patents

Abstract

The utility model provides a kettle structure and water intake device, this kettle structure includes the kettle body, be provided with the delivery port on the kettle body, be provided with into water on the kettle body and touch the face, the face is touched and is established towards the inboard concave formation installation cavity of kettle body in the aforesaid of intaking, be provided with the water inlet on the installation cavity, be provided with into water retaining member in the water inlet, in the kettle body outside, be connected with into water reset piece between water retaining member and the water inlet; the utility model discloses a kettle structure based on its setting of retaining member of intaking, makes its water purification system who can be applicable to a follow below up water injection use, satisfies specific water purification system water injection application demand.

Description

Kettle structure, water taking device and water purifying system

Technical Field

The utility model relates to a water purification technology field, concretely relates to kettle structure and water intaking device, water purification system.

Background

In the prior art, a reverse osmosis water purification system generally has the technical defects of low pure water production flow and low flow rate due to the characteristics of the filtering material; if a user needs to take water, the water purification system starts to prepare and produce pure water from zero to output, and a large amount of time is consumed.

In the prior art, a conventional water purification system generally adopts a kettle body from the upper part to the lower part to carry out direct water injection operation; the water source is not selected to be injected from the lower part to the upper part, and the water source in the kettle is easy to leak.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a kettle structure, a water taking device and a water purifying system.

The kettle structure comprises a kettle body, wherein a water outlet is formed in the kettle body, a water inlet contact surface is arranged on the kettle body, the water inlet contact surface is concavely arranged towards the inner side of the kettle body to form an installation cavity, a water inlet is formed in the installation cavity, a water inlet water retaining piece is arranged in the water inlet, a water inlet resetting piece is connected between the water inlet water retaining piece and the water inlet outside the kettle body;

when the water inlet retaining piece is pushed away from the water inlet by thrust, the water inlet retaining piece is in a first working state, the water inlet resetting piece has resetting potential energy, and the water inlet is opened; when the thrust is cancelled, the water inlet resetting piece releases the resetting potential energy, the water inlet water blocking piece is in contact with and blocked at the water inlet, the water inlet water blocking piece is in a second working state, and the water inlet is closed.

Furthermore, the periphery of the water inlet is vertically close to the outer side of the kettle body and extends to form a water inlet retaining wall; and an inserting space is formed between the outer peripheral side of the water inlet retaining wall and the inner peripheral side of the mounting cavity.

Further, the water inlet contact surface is arranged at the bottom of the kettle body; the water outlet is arranged at the upper part of the kettle body.

Further, the upper end of the kettle body is open to form the water outlet; a kettle cover is detachably arranged on the water outlet; a kettle handle is arranged on the periphery of the kettle body.

Furthermore, the water inlet water retaining piece comprises a water inlet rod which is arranged in the water inlet in a penetrating manner, the water inlet rod comprises a water inlet installation end far away from one side inside the kettle body and a water inlet plugging end towards one side inside the kettle body, and the water inlet rod is provided with a water inlet water retaining plate at the position of the water inlet plugging end; when the water inlet water baffle is in a first working state, the water inlet water baffle is pushed away from the water inlet, and the water inlet is opened; when the water inlet water baffle is in the second working state, the water inlet water baffle is in contact with the water inlet to block the water inlet, and the water inlet is closed.

Furthermore, a water inlet mounting groove is formed in the side of the water inlet plugging section of the water inlet rod in a circumferential concave mode, and the water inlet water baffle is mounted on the water inlet mounting groove.

Furthermore, the base plate of intaking is set up along the radial extension of periphery to the dress end of intaking of water pole, the base plate periphery of intaking is along keeping away from the pole of intaking and vertical extension sets up to enclose and closes the location wall that intakes that is the tube-shape, set up into water board mouth on the base plate of intaking.

Furthermore, an installation retaining wall extends from the water inlet contact surface to the outer side of the kettle body; when the water inlet water blocking piece is in a second working state, the end part of the water inlet positioning wall is positioned in the extension range of the installation blocking wall.

The water taking device comprises a base and a kettle structure which is connected and matched with the base in an assembling mode, and the kettle structure is applied to the kettle structure; a water supply port is arranged on the base; when the kettle body is arranged on the base, the water supply port is opened, the water inlet and water retaining member is in a first working state, and the water inlet is communicated with the water supply port; when the kettle body is detached from the base, the water supply port is closed, and the water inlet and retaining member is in a second working state.

Furthermore, a water storage port for receiving an external pure water source is arranged on the base, and a water channel is communicated with the water supply port; when the kettle body is arranged on the base, a water path communicated with the water storage port, the water supply port and the water inlet is formed; when the water level of the water stored in the kettle body reaches the full water level, the water storage opening, the water supply opening or the water inlet form blocking and sealing.

The water purification system comprises the water taking device and a water purification device for water source filtration, wherein the pure water output end of the water purification device is communicated with the water storage port.

The beneficial effects of the utility model reside in that:

the utility model discloses a kettle structure, based on its setting of the manger plate spare of intaking, make it can be applicable to one kind and use from the water purification system of below up water injection, satisfy specific water purification system water injection application demand.

The water purification system can be arranged based on the water taking device applying the kettle structure, so that the pre-storage application of the water purification device for producing pure water is realized; when a user takes water, a large amount of pre-stored pure water can be directly and efficiently taken, and the possibility of water source leakage caused by water taking can be avoided; when the user finishes taking water and the kettle body is placed on the base again, the water purifying system can continuously replenish the produced pure water into the kettle body to prepare for taking water by the user next time.

Drawings

Fig. 1 is a schematic view of the arrangement of the water intake device of the present invention;

FIG. 2 is a partial schematic view of portion A of FIG. 1;

fig. 3 is a schematic view of the second working state of the water inlet and retaining member of the kettle structure of the present invention.

Description of reference numerals:

a kettle body 1, a water inlet contact surface 10, a mounting cavity 100, a water inlet retaining wall 101, a splicing space 102 a mounting retaining wall 103, a water inlet 11, a water outlet 12, a kettle cover 13, a kettle handle 14,

A base 2, a water supply contact surface 20, an attachment cavity 200, a water supply blocking wall 201, a positioning groove 202, a water supply port 21, a water storage port 22, a seat body part 23, a platform part 24, a water supply flow passage 25, a water inlet 26, a water storage cavity 27,

A water inlet baffle 31, a water inlet rod 311, a water inlet mounting groove 312, a water inlet base plate 313, a water inlet plate opening 314, a water inlet positioning wall 315, a water inlet resetting piece 32, a water inlet water baffle 33, a water inlet space 34,

A water supply water stop 41, a water supply rod 411, a water supply installation groove 412, a water supply base 413, a water supply plate opening 414, a water supply positioning wall 415, a water supply reset 42, a water supply water stop 43, a water supply space 44, a water guide space 45,

Water storage and retaining member 5, and water storage cap 51.

Detailed Description

In order to make the technical solution, objects and advantages of the present invention more clearly understood, the present invention is further explained with reference to the accompanying drawings and embodiments.

As shown in fig. 1 to 3, the water purifying system of the present invention includes a water purifying device (not shown) and a water intake device, wherein the water intake device includes a base 2 and a kettle body 1 attached to the base 2. The base 2 is provided with a water storage port 22 and a water supply port 21, and a water supply channel 25 communicated with the water storage port 22 and the water supply port 21 is arranged between the water storage port 22 and the water supply port 21; the kettle body 1 is provided with a water inlet 11 and a water outlet 12, and the water inlet 11 and the water outlet 12 are communicated with the space in the kettle body 1; the pure water output end of the water purifying device is communicated with the water storage port 22.

The water purifier is applied to a reverse osmosis filtering water purifier, and in the working process, the water purifier continuously produces pure water, and the pure water is output to the water storage port 22 of the base 2 through the pure water output end of the water purifier.

When the kettle body 1 is arranged on the base 2, a waterway is formed among the water storage port 22, the water supply port 21, the water inlet 11 and the water outlet 12; the pure water continuously inputted from the water storage port 22 is injected into the pot body 1 through the water path, so that the continuously produced pure water can be stored in the pot body 1.

When the pure water in the kettle body 1 reaches the water full level preset in the kettle body 1, the water storage port 22, the water supply port 21 or the water inlet 11 is blocked and sealed, so that the pure water is stopped being output to the kettle body 1, and the kettle body 1 is in a water full state to prepare for the user to take water.

When a user draws the kettle body 1 to fetch water, the water supply port 21 and the water inlet 11 are blocked and sealed, the water path between the kettle body 1 and the base 2 is blocked, the user can draw the kettle body 1 to directly fetch a large amount of pure water in the kettle body 1 for one time, and water is stored, so that the pure water fetching efficiency of the user is improved.

When the user finishes taking water, the water stored in the kettle body 1 is not in a full water state; after the kettle body 1 is placed on the base 2 again, the water supply port 21 and the water inlet 11 are opened again to form the water channel communication of the kettle body 1 on the base 2, when the water in the kettle body 1 does not reach the preset full water level height, the water storage port 22, the water supply port 21 and the water inlet 11 are in an open state, the water channel is communicated, and the pure water produced by the water purifying device is continuously input into the kettle body 1 from the water storage port 22.

Example 1:

in order to meet the application that when a user takes the kettle body 1, the water inlet 11 is blocked and closed, and when the kettle body 1 is placed on the base 2, the water inlet 11 is opened again to form water path communication; the embodiment provides a kettle structure application scheme of a water taking device for explanation.

The kettle structure comprises a kettle body 1, wherein a kettle handle 14 is arranged on the periphery of the kettle body 1, a water outlet 12 is formed in the upper end of the kettle body 1 in an open manner, and a kettle cover 13 is detachably arranged on the water outlet 12; the kettle comprises a kettle body 1 and is characterized in that a water inlet contact surface 10 is arranged at the bottom of the kettle body 1, the water inlet contact surface 10 is concavely arranged towards the inner side of the kettle body 1 to form a mounting cavity 100, a water inlet 11 is formed in the mounting cavity 100, and a water inlet water retaining member 31 is arranged in the water inlet 11. A water inlet resetting piece 32 is connected between the water inlet water retaining piece 31 and the water inlet 11 at the outer side of the kettle body 1; when the water inlet blocking piece 31 is pushed away from the water inlet 11 by the pushing force, the water inlet blocking piece 31 is in a first working state, the water inlet resetting piece 32 has resetting potential energy, and the water inlet 11 is opened; when the thrust force is cancelled, the water inlet resetting piece 32 releases the resetting potential energy, the water inlet water blocking piece 31 is in contact with and blocked on the water inlet 11, the water inlet water blocking piece 31 is in a second working state, and the water inlet 11 is closed.

Specifically, the water inlet blocking piece 31 comprises a straight rod-shaped water inlet rod 311, the water inlet rod 311 is arranged in the water inlet 11 in a penetrating manner, the water inlet rod 311 comprises a water inlet installation end far away from one side inside the kettle body 1 and a water inlet blocking end facing one side inside the kettle body 1, the water inlet blocking end side of the water inlet rod 311 is circumferentially and concavely provided with a water inlet installation groove 312, and a water inlet blocking plate 33 is arranged on the water inlet installation groove 312 in a connecting manner; when the water inlet water baffle 31 is in the first working state, the water inlet water baffle 33 is pushed away from the water inlet 11, and the water inlet 11 is opened; when the water inlet blocking member 31 is in the second working state, the water inlet blocking plate 33 contacts the water inlet 11 to block the water inlet 11, and the water inlet 11 is closed.

A water inlet base plate 313 is radially extended and arranged at the water inlet connecting end of the water inlet rod 311 along the periphery, a cylindrical water inlet positioning wall 315 is vertically extended and arranged at the periphery of the water inlet base plate 313 along the periphery far away from the water inlet rod 311, a water inlet plate port 314 is arranged on the water inlet base plate 313, and a water inlet space 34 is formed between the water inlet base plate 313 and the installation cavity 100 by the water inlet plate port 314 and the water inlet 11; a water inlet blocking wall 101 extends from one side of the periphery of the water inlet 11 which is vertically far away from the inner part of the kettle body 1; the water inlet space 34 is formed between the inner side of the water inlet blocking wall 101, the water inlet base plate 313 and the installation cavity 100. The water inlet reset piece 32 is a spring, the water inlet reset piece 32 is sleeved on the water inlet rod 311, one end of the water inlet reset piece is in contact with the bottom side of the installation cavity 100, and the other end of the water inlet reset piece is in contact with the water inlet base plate 313.

When the end of the water inlet positioning wall 315 is pushed towards the inner side of the kettle body 1 by a pushing force, the water inlet baffle 33 is pushed away from the water inlet 11, the water inlet baffle 31 is in a first working state, the spring has a reset potential energy, and the water inlet 11 is opened; when the pushing force is cancelled, the spring releases the reset potential energy, the water inlet rod 311 is linked to drive the water inlet water baffle 33 to be blocked on the water inlet 11, and the water inlet 11 is closed.

When the kettle body 1 is placed on the base 2, the water supply opening 21 is opened, the structure on the base 2 pushes the water inlet positioning wall 315 towards the inner side of the kettle body 1, and the water inlet water baffle 31 is in a first working state; the water storage opening 22, the water supply opening 21, the space inside the water inlet positioning wall 315, the water inlet plate opening 314, the water inlet space 34 and the water inlet 11 form a communicated water path, so that the pure water source can be conveyed from the water storage opening 22 to the kettle body 1. When the kettle body 1 is detached from the base 2, the water supply port 21 is closed, the water inlet water baffle 31 is in the second working state, the water supply port 21 is sealed by the water inlet water baffle 33, pure water is stably stored in the kettle body 1, and a user can freely take the pure water.

The water inlet contact surface 10 is provided with an installation baffle wall 103 extending towards the outer side of the kettle body 1; when the water inlet water blocking member 31 is in the second working state, the end of the water inlet positioning wall 315 is within the extension range of the installation blocking wall 103. With the structure, when the kettle body 1 leaves the base 2 to take water, and is externally arranged on other platform positions without being placed on the base 2 again, the extended installation blocking wall 103 can effectively protect the end part of the water inlet positioning wall 315 extending out of the water inlet contact surface 10, and the end part of the water inlet positioning wall 315 is prevented from moving upwards under the lower side pressure, so that the water inlet water blocking member 31 is prevented from moving towards the kettle body 1 to be opened and causing water leakage.

Example 2:

based on the application of the kettle structure of embodiment 1, the present embodiment further describes the arrangement scheme of the base 2 structure that is connected and matched with the kettle structure.

The base 2 is L-shaped as a whole, and comprises a seat part 23 arranged vertically and a platform part 24 arranged on the lower part of the seat part 23 in a transversely extending manner, and an attachment space for attaching and placing the kettle body 1 is formed between the seat part 23 and the platform part 24.

The water storage port 22 is provided on the upper portion of the seat portion 23, the water supply port 21 is provided on the upper end surface of the platform portion 24, and the upper end surface of the platform portion 24 forms the water supply contact surface 20. The water supply opening 21 is provided with a water supply water blocking piece 41, a water supply resetting piece 42 is connected between the water supply water blocking piece 41 and the water supply opening 21, and the water supply water blocking piece 41 comprises a water supply water blocking plate 43. The water supply contact surface 20 is recessed to form a mounting cavity 200, and the water supply port 21 is provided on the bottom side of the mounting cavity 200; the water supply and blocking member 41 comprises a straight rod-shaped water supply rod 411, the water supply rod 411 is arranged in the water supply opening 21 in a penetrating manner, the water supply rod 411 comprises a water supply installation end arranged towards one side of the kettle body 1 and a water supply blocking end arranged away from one side of the kettle body 1, the water supply rod 411 is circumferentially and concavely provided with a water supply installation groove 412 at the position of the water supply blocking end, and the water supply blocking plate 43 is installed on the water supply installation groove 412; the water supply rod 411 is provided with a water supply base plate 413 extending along the outer circumference radial direction at the water supply installation end, the outer circumference of the water supply base plate 413 is provided with a cylindrical water supply positioning wall 415 extending vertically away from the water supply rod 411, a water supply plate opening 414 is arranged on the water supply base plate 413, and a water supply space 44 is formed between the water supply base plate 413 and the installation cavity 200 by the water supply plate opening 414 and the water supply opening 21. The intake baffle wall 101 is positionally aligned with the mounting cavity 200, and the surrounding inner diameter of the intake baffle wall 101 is equally disposed to the inner diameter of the mounting cavity 200.

The water supply reset piece 42 is a spring, the water supply reset piece 42 is sleeved on the water supply rod 411, one end of the water supply reset piece is in contact connection with the bottom side of the mounting cavity 200, and the other end of the water supply reset piece is in contact connection with the water supply substrate 413.

When the kettle body 1 is connected with the base 2, the water inlet contact surface 10 is matched with the water supply contact surface 20 in an installation manner, the water inlet water baffle 31 is abutted against the water supply water baffle 41, one end of the water inlet positioning wall 315 is abutted against and matched with one end of the water supply positioning wall 415 to be mutually pushed and pressed, and the water inlet rod 311 and the water supply rod 411 are linked to move away from each other; the water inlet positioning wall 315 and the water supply positioning wall 415 are abutted and matched to form a water guide space 45 inside the water inlet positioning wall 315 and the water supply positioning wall 415; the water inlet resetting piece 32 has resetting potential energy, the water inlet water baffle 31 is pushed integrally to enable the water inlet water baffle 33 to be arranged far away from the water inlet 11, and the water inlet 11 is opened; the water supply resetting piece 42 has resetting potential energy, the water supply water baffle 41 is integrally pushed to enable the water supply water baffle 43 to be away from the water supply port 21, and the water supply port 21 is opened. The water supply port 21, the water supply space 44, the water supply plate port 414, the water guide space 45, the water inlet plate port 314 and the water inlet space 34 are communicated with the water inlet 11.

When the kettle body 1 is detached from the base 2, the water supply resetting piece 42 releases the resetting potential energy to reset the water supply water blocking piece 41, so that the water supply water blocking plate 43 is in contact with the water supply port 21, and the water supply port 21 is closed.

An insertion space 102 is formed between the outer circumferential side of the water blocking wall 101 and the inner circumferential side of the installation cavity 100. A water supply blocking wall 201 is vertically extended from the periphery of the mounting cavity 200 to the side of the water inlet contact surface 10, and when the water inlet contact surface 10 is mounted and matched with the water supply contact surface 20, the water supply blocking wall 201 is inserted into the insertion space 102; based on the arrangement of the insertion space 102 and the water supply blocking wall 201, when the kettle body 1 is connected with the base 2, the combined structure of the water inlet positioning wall 315 and the water supply positioning wall 415 can be accurately in butt joint fit, and the stable formation of the water guide space 45 is ensured.

In a preferred embodiment, a positioning groove 202 is concavely arranged on the periphery of the upper side of the platform part 24, and a mounting baffle wall 103 is arranged on the bottom water inlet contact surface 10 of the kettle body 1 along the periphery thereof and vertically extends downwards towards one side of the water supply contact surface 20; when the kettle body 1 is connected with the base 2, the installation blocking wall 103 is inserted into the positioning groove 202, so that the inner side of the installation blocking wall 103 and the outer peripheral side of the water supply contact surface 20 form installation assembly; the structure arrangement can effectively realize accurate position matching application when the kettle body 1 is connected with the base 2, and ensure that the water inlet 11 is accurately matched with the water supply port 21.

Example 3:

the utility model discloses a water purification system can be based on above-mentioned kettle structure and the water intake device setting of 2 structure's of base combination of setting up down, has realized that purifier produces the application of pure water prestores in the kettle body 1.

The upper part of the seat part 23 is provided with a water inlet 26 which is used for being connected with a pure water output end of a water purifier, and a water storage cavity 27 is formed by communicating the water inlet 26 with the water storage port 22; the water storage port 22 communicates with the water supply port 21 through an L-shaped water supply passage 25.

In the water storage cavity 27, a water storage and retaining member 5 is arranged on the water storage port 22, and when the water level of the water stored in the kettle body 1 placed on the base 2 reaches the full water level, the water storage and retaining member 5 blocks and seals the water storage port 22.

Based on the application of the existing sensing technology, when confirming: when the kettle body 1 is placed on the base 2 and the water level of the water in the kettle body 1 reaches the full water level, the feedback information controls the water storage and retaining member 5 to seal the water storage port 22. The water retaining member 5 includes a water retaining cap 51 which is turned over and closed at the water retaining port 22 by an electric control mechanism or other linkage drive control mechanism.

On the other hand, it can be optionally arranged that when the kettle body 1 is placed on the base 2, the full water level of the kettle body 1 is at the setting position of the water storage cavity 27. When pure water is supplied into the kettle body 1 until the water stored in the kettle body reaches the full water level, the water storage cavity 27 also has water stored therein at the full water level in the kettle body 1 under the action of atmospheric pressure. Therefore, based on the existing sensing technology or the application of the automatic water level valve setting such as the floating ball structure, when the water stored in the water storage cavity 27 reaches the preset water storage level equivalent to the full water level in the kettle body 1, the water-retaining member 5 blocks and closes the water storage port 22.

The above is only the preferred embodiment of the present invention, and to the technical personnel in the technical field, without departing from the present invention, the embodiment can still be modified, and the corresponding modification should also be regarded as the protection scope of the present invention.

Claims (10)

1. The kettle structure is characterized by comprising a kettle body, wherein a water outlet is formed in the kettle body, a water inlet contact surface is arranged on the kettle body, the water inlet contact surface faces the inner side of the kettle body and is concavely arranged to form an installation cavity, a water inlet is formed in the installation cavity, a water inlet water retaining piece is arranged in the water inlet, a water inlet resetting piece is connected between the water inlet water retaining piece and the water inlet outside the kettle body;

when the water inlet water blocking piece is pushed away from the water inlet under the thrust, the water inlet water blocking piece is in a first working state, the water inlet resetting piece has resetting potential energy, and the water inlet is opened; when the thrust is cancelled, the water inlet resetting piece releases the resetting potential energy, the water inlet water blocking piece is in contact with and blocked at the water inlet, the water inlet water blocking piece is in a second working state, and the water inlet is closed.

2. The kettle structure of claim 1, wherein a water inlet blocking wall is vertically arranged at the periphery of the water inlet and extends towards the outer side of the kettle body.

3. The kettle structure of claim 1, wherein said water inlet contact surface is disposed at the bottom of said kettle body; the water outlet is arranged at the upper part of the kettle body; the upper end of the kettle body is open to form the water outlet; a kettle cover is detachably arranged on the water outlet; a kettle handle is arranged on the periphery of the kettle body.

4. The kettle structure of any one of claims 1 to 3, wherein the water inlet and retaining member comprises a water inlet rod passing through the water inlet, the water inlet rod comprises a water inlet receiving end arranged at a position away from the inner side of the kettle body and a water inlet blocking end arranged at a position facing the inner side of the kettle body, and the water inlet rod is provided with a water inlet blocking plate at the position of the water inlet blocking end; when the water inlet water baffle is in a first working state, the water inlet water baffle is pushed away from the water inlet, and the water inlet is opened; when the water inlet water baffle is in a second working state, the water inlet water baffle is in contact with the water inlet to block the water inlet, and the water inlet is closed.

5. The structure of a kettle as set forth in claim 4, wherein said water inlet blocking end of said water inlet rod is recessed circumferentially with a water inlet fitting groove, and said water inlet baffle is attached to said water inlet fitting groove.

6. The kettle structure of claim 4, wherein the water inlet connecting end of the water inlet rod extends radially along the outer periphery to form a water inlet base plate, the outer periphery of the water inlet base plate extends vertically away from the water inlet rod to form a cylindrical water inlet positioning wall, and the water inlet base plate is provided with a water inlet plate opening.

7. The kettle structure of claim 6, wherein said water inlet contact surface is provided with a mounting wall extending toward an outer side of said kettle body; when the water inlet water blocking member is in a second working state, the end part of the water inlet positioning wall is positioned in the extension range of the installation blocking wall.

8. The water taking device is characterized by comprising a base and a kettle structure which is connected and matched with the base, wherein the kettle structure is applied to the kettle structure as claimed in any one of claims 1 to 7; a water supply port is arranged on the base;

when the kettle body is arranged on the base, the water supply port is opened, the water inlet and water retaining member is in a first working state, and the water inlet is communicated with the water supply port; when the kettle body is detached from the base, the water supply port is closed, and the water inlet and retaining member is in a second working state.

9. The water intake device according to claim 8, wherein the base is provided with a water storage port for receiving an external pure water source, and the water storage port is communicated with the water supply port through a water path; when the kettle body is arranged on the base, a water path communicated with the water storage port, the water supply port and the water inlet is formed; when the water level in the kettle body reaches the full water level, the water storage opening or the water supply opening or the water inlet forms blocking seal.

10. The water purification system is characterized by comprising the water taking device as claimed in claim 9 and a water purification device for filtering a water source, wherein a pure water output end of the water purification device is communicated with the water storage port.

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