CN213721418U - Automatic water-feeding, water-purifying constant-temp. double-liner water-boiling device - Google Patents

Abstract

The utility model discloses an automatic water intaking, two courage boilers of water purification constant temperature, include: the water purification device comprises a barrel body, a barrel cover, a first inner container, a second inner container and a water purification assembly, wherein the water purification assembly is connected to an external water source and is connected to the first inner container through a water inlet pipeline to convey purified water to the first inner container; the second inner container is connected with a water outlet faucet. The utility model adopts the structure of double inner containers, under the condition that the water in the second inner container is used up or the surplus is not large, the boiled water in the first inner container flows into the second inner container for supply, thus overcoming the problem that the traditional single-inner-container boiled water barrel needs to wait for the water to be boiled again after the water in the inner container is used up, and saving more time; be provided with first water level detection subassembly in the first inner bag, be provided with second water level detection subassembly in the second inner bag, through the water level detection effect that is provided with second water level detection subassembly in first water level detection subassembly, the second inner bag, can realize the automatic moisturizing of first inner bag and second inner bag, intelligent degree is better.

Description

Automatic water-feeding, water-purifying constant-temp. double-liner water-boiling device

Technical Field

The utility model relates to an electric heating bucket, boiling water bucket technical field, more specifically the saying so relates to an automatic advance water, two courage boilers of water purification constant temperature.

Background

The boiling water bucket among the prior art is single inner bag structure, heats the inner bag through heating device, drinks after heating, and the boiling water bucket among the prior art has following shortcoming:

1. due to the design of the single inner container, after the water in the inner container is drunk, the water needs to be boiled again, so that the waiting time is long, and the use is influenced;

2. heating devices in the prior art are all arranged by a single heating element, and the heating element is used for heating and boiling water in an inner container, so that the situation of water boiling can be caused;

3. the boiled water bucket in the prior art is manually filled with water, and the automation degree is not enough.

In order to overcome the above problems, the applicant developed the following patents.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides an automatic water intaking, two courage boilers of water purification constant temperature.

In order to achieve the above purpose, the utility model adopts the following technical scheme: automatic water intaking, water purification constant temperature double-liner boiler includes: the barrel body is provided with a barrel cover at the top; the first inner container and the second inner container are arranged in the barrel body and are communicated through a pipeline; the first heating assembly is used for heating the first inner container; the second heating assembly is used for heating the second inner container; the water purification component is connected with an external water source, is connected with the first inner container through a water inlet pipeline and conveys purified water to the first inner container; the second inner container is connected with a water outlet faucet; a first water level detection assembly is arranged in the first inner container; a second water level detection assembly is arranged in the second inner container; the pipeline is provided with a first control element which controls the operation according to the signal of the first water level detection assembly to realize the water supply between the first inner container and the second inner container; and the water inlet pipeline is provided with a second control piece, and the second control piece controls the operation according to a signal of the second water level detection assembly to realize the water supply to the first inner container.

In the preferred technical scheme, the first inner container, the second inner container and the water purification component are arranged in the barrel body together.

In a preferred embodiment, the first heating assembly comprises: a heating pipe and a heat preservation pipe; the second heating assembly comprises: a heat preservation pipe.

In a preferred technical scheme, the first heating assembly is arranged at the bottom of the first inner container; the second heating component is arranged at the bottom of the second inner container.

In a preferred embodiment, the first water level detecting module includes: a first high water level sensor and a first low water level sensor; the second water level detection assembly comprises: a second high water level sensor and a second low water level sensor.

In a preferred technical scheme, the first control part is an electromagnetic valve; the second control piece is a water pump.

In a preferred embodiment, the second inner container includes: the device comprises a body with a cavity and an inner cover arranged on the body; the body and the inner cover are arranged in a sealing way; a steam return pipe is arranged between the second inner container and the first inner container.

In a preferred technical scheme, the water purification assembly comprises: the filter comprises a shell, a filter element and a filter element bracket, wherein the filter element and the filter element bracket are arranged in the shell; the bottom of the shell is provided with a mounting bracket; the first control piece and the second control piece are installed on the installation support.

In a preferred technical solution, the housing includes: a shell and a shell cover; the shell body is connected with the shell cover in a buckling mode, the shell cover is exposed or protrudes out of the barrel body, and the shell cover can be directly detached from the barrel body.

In a preferred technical scheme, the device further comprises a control panel.

Known through foretell technical scheme, compare with prior art, the utility model discloses following beneficial technological effect has:

1. the utility model adopts a double-liner structure, under the condition that the water in the second liner is exhausted or the surplus is not large, the boiled water in the first liner flows into the second liner for supply; therefore, the problem that the traditional single-liner boiled water bucket needs to wait for the water to be re-boiled after the water in the liner is used up is solved, the time is saved, and the use is more convenient;

2. the first water level detection component is arranged in the first inner container, the second water level detection component is arranged in the second inner container, and the automatic water replenishing of the first inner container and the second inner container can be realized through the water level detection function of the second water level detection component arranged in the first water level detection component and the second inner container, so that the intelligent degree is better;

3. the heating pipe and the heat preservation pipe are arranged at the bottom of the first inner container, and the heat preservation pipe is adopted to preserve heat after the water in the first inner container is boiled, so that water can be effectively prevented from boiling;

4. the utility model discloses be provided with the water purification subassembly in the staving, flow in first inner bag after purifying to outside water source through the water purification subassembly, guaranteed the quality of drinking water, the filter core of water purification subassembly is convenient for the dismouting change simultaneously.

Drawings

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

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of another aspect of the present invention;

FIG. 3 is a schematic structural view of the present invention after the barrel body is removed;

FIG. 4 is a schematic view of the back structure of the utility model after the barrel body is removed;

FIG. 5 is a schematic view of the structure of the utility model in another direction after the barrel body is removed;

fig. 6 is a schematic sectional structure of the present invention;

fig. 7 is an exploded schematic view of the present invention.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

In the description of the present application, it is to be understood that the terms "longitudinal," "radial," "length," "width," "thickness," "upper," "lower," "left," "right," "front," "rear," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present application and for simplicity of description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the present application. In the description of the present application, "a plurality" means two or more unless otherwise specified.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; 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 application can be understood in a specific case by those of ordinary skill in the art.

Referring to fig. 1-7, the constant temperature dual-liner water boiler with automatic water feeding and purifying functions includes: the water purifying barrel comprises a barrel body 100, a barrel cover 200, a first inner container 300, a second inner container 400 and a water purifying assembly 500, wherein the first inner container and the second inner container are arranged inside the barrel body.

The barrel body 100 may be made of metal or plastic or other materials, the specific shape of the barrel body 100 is not limited, and the barrel cover 200 may be detachably mounted on the top of the barrel body 100.

The first liner 300 and the second liner 400 are used for storing water, respectively, and the first liner 300 and the second liner 400 may be longitudinally arranged or transversely arranged in the tub 100, and are communicated with each other through a pipe 600.

Further, the first inner container 300 is distributed above the second inner container 400, and the first inner container 300 may be supported above the second inner container 400 by a support member, or the first inner container 300 is connected to the barrel 100 by a support member and is located above the second inner container 400.

The water purification assembly 500 is connected to the first inner container 300 through a water inlet pipe 700, and supplies purified water to the first inner container 300.

The first inner container 300, the second inner container 400 and the water purification assembly 500 are all installed in the barrel body 100, and the whole structure is more compact.

The first heating assembly 310 is installed at the bottom of the first inner container 300, and the first heating assembly 310 is used for heating the water in the first inner container 300.

The bottom of the second inner container 400 is provided with a second heating component 410, and the second heating component 410 is used for preserving the heat of the water in the second inner container 400.

The design of the double inner containers of the present invention is to heat the water in the first inner container 300 to boiling, the boiled water can flow into the second inner container 400 for use, and the first inner container 300 still has the boiled water, so that in the use process, when the water in the second inner container 400 is used up or the surplus is not large, the boiled water in the first inner container 300 flows into the second inner container 400 for supply; therefore, the problem that the conventional single-liner boiling water barrel needs to wait for water to be boiled again after water in the liner is used up is solved, the time is saved, and the use is more convenient.

The first heating assembly 310 includes: a heating pipe 311 and a heat-insulating pipe 312; when the water in the first inner container 300 is heated and boiled, the heating pipe 311 and the heat preservation pipe 312 run simultaneously, after boiling, the heating pipe 311 stops running, and the heat preservation pipe 312 runs, so that the generation of water due to boiling can be prevented;

in other embodiments, the heating pipe 311 and the holding pipe 312 may be operated independently, and it may be set that the heating pipe 311 is operated during the heating of water to boil, and the heating pipe 311 is stopped after boiling, and the holding pipe 312 is operated.

The second heating element 410 includes: a heat-insulating pipe 411; since the water has already boiled through the first inner container 300, the second inner container 400 only needs to be insulated.

In a further embodiment, a temperature sensor may be disposed in the first inner container 300 for detecting the current water temperature and controlling the operation of the thermal insulation pipe 312 and the heating pipe 311.

In a further aspect, the first inner container 300 includes: the first body 301 is provided with a cavity, and the first cover body 302 is arranged on the top of the first body 301, the first body 301 and the first cover body 302 are connected in a sealing manner, and the first cover body 302 is provided with an exhaust hole 303, so that steam can be exhausted from the exhaust hole 303 and the air outlet 210 on the barrel cover 200 when boiling.

The second inner container 400: the second body 401 has a cavity, and the second cover 402 is disposed on the second body 401, and the second body 401 and the second cover 402 are hermetically connected.

The first cover 302 and the first body 301 are hermetically connected, but the connection between the two can be fixed or detachable; the second cover 402 and the second body 401 are hermetically connected, but the connection between the two can be fixed or detachable; if detachable, the junction between the two needs to set up the sealing washer.

In a further aspect, a steam return pipe 800 is disposed between the second inner container 400 and the first inner container 300. During the heat preservation process of the second inner container 400, steam is generated, and the steam can flow back into the first inner container 300 through the steam return pipe 800; both ends of the steam return pipe 800 are respectively connected to the high positions of the first inner container 300 and the second inner container 400, so that the steam flows back from the second inner container 400 to the first inner container 300, and water cannot flow into the steam return pipe 800.

The first inner container 300 is communicated with the second inner container 400 through the pipeline 600, the pipeline 600 is provided with a first control element 610, and the first control element 610 is used for controlling the first inner container 300 to inject water into the second inner container 400; the water is injected when the water in the second inner container 400 is used up or the remaining amount of water is small.

In a further embodiment, the upper end of the pipe 600 is connected to the lower position, i.e. the bottom or near the bottom, of the first inner container 300, and the lower end of the pipe 600 is connected to the second inner container 400;

the first control member 610 may be a solenoid valve, a water pump or other water control members, and in this embodiment, a solenoid valve is preferred; whether water flows into the second inner container 400 from the first inner container 300 is controlled by controlling the opening and closing of the electromagnetic valve;

in this embodiment, the first and second inner containers 100 and 200 are vertically arranged, and the pipe 600 is connected to the lower position of the first inner container 300 and the upper position of the second inner container 400, so that the water flows from the upper position to the lower position.

In a further embodiment, the second inner container 400 is provided with a water outlet tap 430, and water is discharged through the water outlet tap 430.

A first water level detection assembly 320 is arranged in the first inner container 300; the second inner container 400 is provided with a second water level detection assembly 420, the first water level detection assembly 320 and the second water level detection assembly 420 are used for detecting the current water level and sending instructions to the control system to control the first control element 610 to be opened, and the first inner container 300 is moved to the second inner container 400; and controlling the second control part 710 to be turned on so that the external water flows into the first liner 300 through the water purification assembly 500.

The first water level sensing assembly 320 herein includes: a first high water level sensor and a first low water level sensor; the second water level detecting assembly 420 includes: a second high water level sensor and a second low water level sensor.

The first high water level sensor, the first low water level sensor, the second high water level sensor and the second low water level sensor may be water level sensors/water level sensors in the prior art, and specific models thereof are not limited.

In this embodiment, a water gauge is used as the water level sensor.

When the water level in the second inner container 400 is low and is lower than the second low water level sensor, the second water level detecting assembly 420 sends a low water level signal to the control system, and then the first control member 610 is turned on, so that the water in the first inner container 300 flows into the second inner container 400; when the water level in the second inner container 400 is higher than the second high water level sensor, the second water level detection assembly 420 sends a high water level signal to the control system, and then the first control member 610 is closed and the water injection is finished;

similarly, when the water level in the first inner container 300 is lower than the first low water level sensor, the first water level detecting assembly 320 sends a low water level signal to the control system, and then the second control element 710 is turned on, and the external water flow is injected into the first inner container 300; when the water level in the first inner container 300 is higher than the first high level sensor, the first water level sensing assembly 320 sends a high level signal to the control system, and then the second control member 710 is turned off.

Through the above, the automatic water replenishing of the first inner container 300 and the second inner container 400 can be controlled, and the use is more convenient.

The water purification assembly 500 includes: a housing 510, a filter element 520 mounted inside the housing 510, and a filter element holder 530.

The filter element 520 can have good filtering effect on external water sources; the water purification assembly 500 in this embodiment is directly installed in the filter element in the prior art, and the specific structure and principle of the filter element 520 are not described in detail.

In this embodiment, two filter elements 520 are provided, and the external water flows through the two filter elements 520 in sequence; the quality of the tap water may be different according to different regions, because the type of the filter element 520 used for filtering may be changed accordingly, but the specific assembly structure of the filter element in the tub 100 is not changed.

The bottom of the housing 510 is provided with a mounting bracket 540; the housing 510 includes: a housing 511 and a housing cover 512.

The shell 511 and the shell cover 512 are buckled and connected, a space for assembling the filter element 520 is formed inside the shell after combination, and the filter element 520 is fixedly arranged inside the shell 510 through a filter element bracket; the cover 512 is exposed to the outer surface of the barrel 100, so that when the filter element 520 needs to be replaced, the cover 512 is only opened, the filter element 520 is exposed, and then the filter element 520 is replaced.

In addition, since the filter element 520 is not replaced frequently, but may be replaced after a period of several months, the cover 512 and the housing 511 may be screwed together.

The first control element 610 and the second control element 710 are mounted on the mounting bracket 540; specifically, the mounting bracket 540 is provided with a position for mounting the first control member 610 and the second control member 710, or the first control member 610 and the second control member 710 are fixed on the mounting bracket 540 through screws.

The water inlet pipe 700 is connected to an external water source, the first filter element 520 and the second filter element 520 at a time, and then flows through the second control member 710 to enter the first liner 300.

Here, the second control part 710 is a water pump; in other embodiments, other water control elements of similar effect may be used.

The barrel 100 is provided with a control system, which has a control panel 900, and parameters can be set or current parameters can be displayed through the control panel 900, the parameters include but are not limited to: temperature, amount of water, heating status, etc.

In addition, a circuit board is disposed inside the whole body 100, and the circuit board is electrically connected to each component requiring power-on operation inside the whole body 100.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. Automatic water intaking, two courage boilers of water purification constant temperature, its characterized in that: the method comprises the following steps:

the barrel body is provided with a barrel cover at the top;

the first inner container and the second inner container are arranged in the barrel body and are communicated through a pipeline;

the first heating assembly is used for heating the first inner container;

the second heating assembly is used for heating the second inner container;

the water purification component is connected with an external water source, is connected with the first inner container through a water inlet pipeline and conveys purified water to the first inner container;

the second inner container is connected with a water outlet faucet;

a first water level detection assembly is arranged in the first inner container;

a second water level detection assembly is arranged in the second inner container;

the pipeline is provided with a first control element which controls the operation according to the signal of the first water level detection assembly to realize the water supply between the first inner container and the second inner container;

and the water inlet pipeline is provided with a second control piece, and the second control piece controls the operation according to a signal of the second water level detection assembly to realize the water supply to the first inner container.

2. The automatic water inlet and purifying thermostatic double-liner water boiler according to claim 1, characterized in that: the first inner container, the second inner container and the water purification component are arranged in the barrel body together.

3. The automatic water inlet and purifying thermostatic double-liner water boiler according to claim 1, characterized in that: the first heating assembly comprises: a heating pipe and a heat preservation pipe;

the second heating assembly comprises: a heat preservation pipe.

4. The automatic water inlet and purifying thermostatic double-liner water boiler according to claim 3, characterized in that: the first heating assembly is arranged at the bottom of the first inner container; the second heating component is arranged at the bottom of the second inner container.

5. The automatic water inlet and purifying thermostatic double-liner water boiler according to claim 1 or 3, characterized in that: the first water level detection assembly includes: a first high water level sensor and a first low water level sensor;

the second water level detection assembly comprises: a second high water level sensor and a second low water level sensor.

6. The automatic water inlet and purifying thermostatic double-liner water boiler according to claim 5, characterized in that: the first control element is an electromagnetic valve;

the second control piece is a water pump.

7. The automatic water inlet and purifying thermostatic double-liner water boiler according to claim 1, 3 or 6, characterized in that: the second inner container comprises: the device comprises a body with a cavity and an inner cover arranged on the body; the body and the inner cover are arranged in a sealing way;

a steam return pipe is arranged between the second inner container and the first inner container.

8. The automatic water inlet and purifying thermostatic double-liner water boiler according to claim 1, characterized in that: the water purification subassembly include: the filter comprises a shell, a filter element and a filter element bracket, wherein the filter element and the filter element bracket are arranged in the shell;

the bottom of the shell is provided with a mounting bracket;

the first control piece and the second control piece are installed on the installation support.

9. The automatic water inlet and purifying thermostatic double-liner water boiler according to claim 8, characterized in that: the housing includes: a shell and a shell cover; the shell body is connected with the shell cover in a buckling mode, the shell cover is exposed or protrudes out of the barrel body, and the shell cover can be directly detached from the barrel body.

10. The automatic water inlet and purifying thermostatic double-liner water boiler according to claim 1, characterized in that: also comprises a control panel.

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