CN218246804U

CN218246804U - Steam pressure type kettle capable of reducing temperature

Info

Publication number: CN218246804U
Application number: CN202221138831.1U
Authority: CN
Inventors: 吴宝山
Original assignee: Xindonghai Hardware & Electrical Appliance Co ltd
Current assignee: Xindonghai Hardware & Electrical Appliance Co ltd
Priority date: 2022-05-11
Filing date: 2022-05-11
Publication date: 2023-01-10
Anticipated expiration: 2032-05-11

Abstract

The utility model discloses a steam pressure type kettle capable of reducing temperature, which comprises a kettle body shell, wherein a water storage tank, a heating water tank, a cooling system and a solenoid valve are arranged in the kettle body shell; the heating water tank is arranged at the lower part of the water storage tank and is communicated with the water storage tank through a communicating pipe; the cooling system is used for cooling the boiled water discharged by the heating water tank; the water inlet of the electromagnetic valve is communicated with the heating water tank through a first water outlet pipe, and the water outlet of the electromagnetic valve is communicated with the water inlet of the cooling system and used for controlling the on/off of the communication between the heating water tank and the cooling system through opening/closing the electromagnetic valve. Through setting up cooling system at kettle body casing, cool down the hot water of boiling for the user need not to wait for just can the drinking water, satisfies user's diversified water demand, sets up at storage water tank bottom inside wall through the laminating of the first cooling portion with the cooling pipe, carries out the first time cooling to boiling water, can also preheat the water of storage water tank simultaneously, is favorable to improving the rate of heating to heating water tank.

Description

Steam pressure type kettle capable of reducing temperature

Technical Field

The utility model relates to the technical field of heating kettles, in particular to a steam pressure type kettle capable of reducing temperature.

Background

At present, kettles on the market can be divided into two types of water boiling forms: firstly, in a common water boiling kettle, water is boiled once according to the water filling amount of the kettle every time, and the pain point is that the water boiling time is long every time; secondly, the instant heating type kettle can instantly boil water, the pain point is high product cost, and the water boiling cannot ensure complete boiling because the water pump is used for pumping water!

In summary, the scheme of the water boiling kettle adopts the following mode that the water tank of the water boiling kettle is divided into the water storage tank and the heating water tank, water boiling is only carried out in the heating water tank, after the water is boiled, the boiled water in the heating water tank is pressed down into the water-vapor separation bin from the water outlet pipe by utilizing steam generated by heating, and then the boiled water is left in the water cup! Thus, the water boiling speed can be improved, and the water can be ensured to be boiled!

When the water heater is used, water flows into the heating water tank from the water storage tank and starts to be heated, so that the heated water can only be the water in the heating water tank, water can generate steam after being boiled, and boiled water is discharged through the water outlet pipe under the pressure of the steam!

But the existing common heating kettle can not cool the boiled water, and after the boiled water is discharged, the boiled water can be used after being naturally cooled for a period of time, thereby influencing the use experience of users. In order to meet the diversified requirements of customers, the heating kettle can be cooled.

SUMMERY OF THE UTILITY MODEL

The existing common heating kettle has higher temperature, needs natural cooling for a period of time, and influences the use experience of users.

To the above-mentioned problem, but provide a steam pressure formula kettle of cooling, through setting up cooling system at kettle body casing, cool down the hot water of boiling, satisfy user's diversified water demand, laminating through the first cooling portion with the cooling pipe sets up at storage water tank bottom inside wall, carry out the first cooling to boiling water, can also preheat the water of storage water tank simultaneously, be favorable to improving the rate of heating to heating water tank, through carrying out the secondary cooling with second cooling portion in the cooling chamber, avoid crossing when the storage water tank water level is low excessively, the cooling effect of boiling water does not reach the expectation.

A steam pressure type kettle capable of reducing temperature comprises

A kettle body shell;

the kettle body shell is internally provided with:

a water storage tank;

heating the water tank;

a cooling system;

an electromagnetic valve;

the heating water tank is arranged at the lower part of the water storage tank and is communicated with the water storage tank through a communicating pipe;

the cooling system is used for cooling the boiled water discharged by the heating water tank;

the water inlet of the electromagnetic valve is communicated with the heating water tank through a first water outlet pipe, the water outlet of the electromagnetic valve is communicated with the water inlet of the cooling system, and the electromagnetic valve is used for controlling the on/off of the communication between the heating water tank and the cooling system through opening/closing of the electromagnetic valve.

Combine the steam pressure type kettle that can cool down, in a possible embodiment, the cooling system includes:

a second water outlet pipe;

a cooling structure component;

the water inlet of the cooling structure assembly is communicated with the water outlet of the electromagnetic valve;

the second water outlet pipe is communicated with a water outlet of the cooling structure assembly and is used for discharging cooled boiled water for a user to drink;

the cooling structure component is installed in the kettle body shell and used for cooling boiled water discharged from the heating water tank.

In combination with the first possible embodiment of the present invention, in the second possible embodiment, the cooling structure assembly includes:

a cooling pipe;

the cooling pipe includes:

a first temperature reduction part;

a second temperature reduction part;

the cooling structure subassembly still includes:

a cooling chamber;

the cooling chamber is arranged on the outer side of the upper part of the water storage tank, and cooling liquid is arranged in the cooling chamber;

the first cooling part is arranged on the inner side of the lower part of the water storage tank, and the second cooling part penetrates through the cooling chamber and is communicated with the second water outlet pipe.

With reference to the second possible implementation manner of the present invention, in a third possible implementation manner, the cooling pipe is in a spiral pipe shape;

the first cooling portion is attached to the inner side wall of the lower portion of the water storage tank.

With reference to the third possible embodiment of the present invention, in a fourth possible embodiment, the cooling chamber is:

an annular groove surrounding the outer side of the upper part of the water storage tank;

cooling liquid is arranged in the annular groove;

the second cooling part is spirally arranged in the cooling liquid of the annular groove.

With the fourth possible implementation manner of the present invention and the fifth possible implementation manner, the casing of the kettle body is further provided with:

a third water outlet pipe;

the third water outlet pipe is vertically arranged on one side inside the kettle body shell; and the water inlet of the third water outlet pipe is communicated with the other water outlet of the electromagnetic valve.

With reference to the fifth possible implementation manner of the present invention and the sixth possible implementation manner, the kettle body casing further comprises:

a water-vapor separation bin;

the water outlet of the second water outlet pipe is communicated with the upper opening of the water-vapor separation bin and is used for discharging cooled boiled water from the water outlet of the water-vapor separation bin for a user to drink;

and the water outlet of the third water outlet pipe is communicated with an opening at one side of the water-vapor separation bin and is used for discharging boiled water from the water outlet of the water-vapor separation bin for a user to drink.

Combine the utility model discloses sixth possible implementation, among the seventh possible implementation, the delivery port of communicating pipe is installed:

a float water sealing sheet;

the floater water sealing sheet is arranged at the water outlet of the communicating pipe and used for sealing the water outlet of the communicating pipe by utilizing the buoyancy of the water of the heating water tank.

With reference to the seventh possible implementation manner of the present invention, in an eighth possible implementation manner, the kettle housing further includes:

a water level measuring assembly;

the water level measuring assembly includes:

an annular water level float switch;

a water level switch plate;

a circular guide post;

the top end of the circular guide column is vertically fixed at the top of the heating water tank, the annular water level floater switch is sleeved outside the circular guide column and freely slides under the buoyancy action of water, and a high-temperature resistant magnet is arranged in the annular water level floater switch;

the water level switch plate is fixed at a preset water level position at the top end of the circular guide column, and a Hall switch is arranged in the water level switch plate.

With reference to the eighth possible implementation manner of the present invention, in the ninth possible implementation manner, the kettle housing is installed with:

a control panel;

the control panel is provided with at least two control keys which respectively control the on-off of the cool boiled water and the hot water.

Implement steam pressure type kettle that can cool down, through setting up cooling system at kettle body casing, cool down the hot water of boiling, make the user need not to wait for just can drink the boiling water, satisfy user's diversified water demand, laminating through the first cooling portion with the cooling tube and setting up at storage water tank bottom inside wall, carry out the first cooling to the boiling water, can also preheat the water of storage water tank simultaneously, be favorable to improving the rate of heating to heating water tank, carry out the secondary cooling through cooling portion with the second in the cooling chamber, avoid when the storage water tank water level is low excessively, the cooling effect of boiling water does not reach expectation.

Drawings

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

FIG. 1 is a schematic sectional view of a steam pressure type kettle capable of reducing temperature;

FIG. 2 is a schematic view of the outer side of the steam pressure type kettle of the present invention;

the part names indicated by the numbers in the drawings are as follows: 100-kettle body shell, 110-water storage tank, 111-communicating pipe, 112-floater water sealing sheet, 120-heating water tank, 121-first water outlet pipe, 122-third water outlet pipe, 130-electromagnetic valve, 141-second water outlet pipe, 14211-first cooling part, 14212-second cooling part, 1422-cooling chamber, 14221-cooling liquid, 150-water vapor separation bin, 161-annular water level floater switch, 162-water level switch board, 163-annular guide column, 170-control panel.

Detailed Description

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

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In order to solve the problems, a steam pressure type kettle capable of reducing temperature is provided.

A steam pressure type kettle capable of reducing temperature, as shown in figure 1, figure 1 is a schematic overall section view of the steam pressure type kettle capable of reducing temperature of the utility model, which comprises a kettle body shell 100, wherein a water storage tank 110, a heating water tank 120, a cooling system (not shown in the figure) and an electromagnetic valve 130 are arranged in the kettle body shell 100; the water storage tank 110 is installed at the lower part of the heating water tank 120 and is communicated through a communication pipe 111; the cooling system (not shown) is used for cooling the boiled water discharged from the heating water tank 120; a water inlet of the electromagnetic valve 130 is communicated with the heating water tank 120 through a first water outlet pipe 121, and a water outlet of the electromagnetic valve 130 is communicated with a water inlet of a cooling system (not shown in the figure) for controlling on/off of communication between the heating water tank 120 and the cooling system (not shown in the figure) by opening/closing a switch of the electromagnetic valve 130.

The type of boiled water is selected by a button on the control panel 170, and when the 'cool boiled water' is selected, the switch of the electromagnetic valve 130 is opened, and the cooling system (not shown in the figure) is communicated with the heating water tank 120. The heated boiled water is cooled by a cooling system (not shown in the figure) and is discharged from a water outlet of the cooling system (not shown in the figure) for a user to drink. The kettle body shell 100 is provided with a cooling system (not shown in the figure) to cool boiled hot water, so that the diversified water requirements of users are met.

Further, the cooling system (not shown in the figure) includes a second water outlet pipe 141, a cooling structure component (not shown in the figure); the water inlet of the cooling module is communicated with the water outlet of the electromagnetic valve 130, and the second water outlet pipe 141 is communicated with the water outlet of the cooling module (not shown in the figure) and used for discharging cooled boiled water for a user to drink; a cooling structure assembly (not shown) is installed in the kettle body housing 100 for cooling the boiled water discharged from the heating water tank 120.

Preferably, the cooling structure assembly (not shown) comprises a cooling tube (not shown); the cooling pipe (not shown) includes a first cooling portion 14211 and a second cooling portion 14212; the cooling structure assembly (not shown) further includes a cooling chamber 1422; the cooling chamber 1422 is disposed outside the upper portion of the water tank 110, and the cooling chamber 1422 is provided therein with a cooling liquid 14221; the first temperature decreasing portion 14211 is disposed at the inner side of the lower portion of the water storage tank 110, and the second temperature decreasing portion 14212 passes through the cooling chamber 1422 and communicates with the water inlet of the second water outlet pipe 141.

The first temperature reduction part 14211 reduces the temperature of the heated boiled water for the first time, and completes a process of preheating the water in the water storage tank 110 in a temperature conduction process. The first cooling part 14211 of the cooling pipe (not shown in the figure) is attached to the inner side wall of the bottom of the water storage tank 110, so that the boiled water is cooled for the first time, and meanwhile, the water in the water storage tank 110 can be preheated, which is beneficial to improving the heating speed of the heating water tank 120.

The cooling liquid 14221 in the cooling chamber 1422 cools the water in the second cooling portion 14212 for the second time, and the second cooling portion 14212 is cooled in the cooling chamber 1422 for the second time, so as to prevent the effect of cooling the boiled water from failing to be expected when the water level in the water storage tank 110 is too low.

Preferably, the cooling tube (not shown) is in the shape of a coil; the first temperature reduction part 14211 is attached to the inner wall of the lower part of the water tank 110. The spiral shape is beneficial to increasing the cooling area, accelerating the temperature conduction and improving the cooling speed.

Preferably, the cooling chamber 1422 is: an annular groove around the outside of the upper portion of the water storage tank 110; a cooling liquid 14221 is arranged in the annular groove; the second depression 14212 is spirally disposed in the cooling liquid 14221 in the annular groove.

Preferably, the kettle body shell 100 is further provided with: a third water outlet pipe 122; the third water outlet pipe 122 is vertically arranged at one side inside the kettle body shell 100; the water inlet of the third water outlet pipe 122 is communicated with the other water outlet of the solenoid valve 130.

The third water outlet pipe 122 is communicated with the heating water tank 120 through a solenoid valve 130: when the user selects the "hot water" function through the control panel 170, the other water outlet of the electromagnetic valve 130 communicated with the third water outlet pipe 122 is opened, and the hot water is discharged through the third water outlet pipe 122 under the action of the steam pressure for the user to drink.

Preferably, the kettle body shell 100 is further provided with: a water vapor separation bin 150; a water outlet of the second water outlet pipe 141 is communicated with an upper opening of the water-vapor separation bin 150, so that the cooled boiled water is discharged from the water outlet of the water-vapor separation bin 150 for a user to drink; the water outlet of the third water outlet pipe 122 is communicated with an opening at one side of the water-vapor separation chamber 150, so as to discharge the boiled water from the water outlet of the water-vapor separation chamber 150 for drinking by the user.

Preferably, communication pipe 111 has mounted therein: a float water-seal sheet 112; a float water-sealing sheet 112 is installed at the outlet of the communication pipe 111 for sealing the outlet of the communication pipe 111 by buoyancy of the water of the heating water tank 120.

When the heating water tank 120 is full of water, the float water sealing sheet 112 seals the water outlet of the water storage tank 110 under the action of buoyancy, and at this time, water inflow is stopped.

Preferably, the kettle shell is internally provided with: a water level measuring assembly (not shown); the water level measuring assembly (not shown in the drawings) includes: an annular water level float switch 161; a water level switch plate 162; a circular guide post 163; the top end of the circular guide column 163 is vertically fixed at the top of the heating water tank, the annular water level float switch 161 is sleeved outside the circular guide column 163 and freely slides under the buoyancy action of water, and a high-temperature resistant magnet is arranged in the annular water level float switch; the water level switch plate 162 is fixed at a predetermined water level on the top of the circular guide column 163, and a hall switch is provided therein.

When the water level of the heating water tank 120 reaches a predetermined level, the annular water level float switch 161 senses a signal to the hall switch in the switch control panel, which reaches the control panel of the kettle, so that water level information can be displayed.

Preferably, as shown in fig. 2, fig. 2 is a schematic view of the outer layout of the steam pressure type kettle capable of reducing temperature; the outer side of the kettle shell is provided with: a control panel 170; the control panel 170 is provided with at least two control buttons for controlling the on-off of the cool boiled water and the hot boiled water respectively.

The steam pressure type kettle principle that can lower the temperature of this application:

the operation control circuit board is used for selecting whether the ' hot water ' or ' cool boiled ' is needed, the electromagnetic valve 130 selects the ' water inlet of the cooling pipe (not shown in the figure) or the ' water inlet of the second water outlet pipe 141 ' to be opened according to the received instruction of the power supply control circuit board: when the 'hot water' is selected, the boiled water enters the third water outlet pipe 122 from the first water outlet pipe 121 of the heating water tank 120, is discharged from the third water outlet pipe 122, enters the water-vapor separation bin 150, and then flows into a cup through the water outlet of the water-vapor separation bin 150;

when the 'cool boiled water' is selected, the boiled water enters the first temperature reduction part 14211 of the temperature reduction pipe (not shown in the figure) from the first water outlet pipe 121 of the heating water tank 120 to perform the first stage of temperature reduction (here, the cold water in the water storage tank 110 is used for cooling the boiled water in the 'cool boiled water pipe'), then enters the second temperature reduction part 14212 (the second stage of cooling water pipe) to perform the second temperature reduction (the temperature reduction is performed by using the cooling liquid 14221 in the cooling chamber 1422), finally is discharged from the second water outlet pipe 141 to enter the water-steam separation bin 150, and then flows into the cup through the water outlet (1).

The cold boiled water passing pipe (first section cooling water passing pipe) of the first temperature reduction part 14211 and the cold boiled water passing pipe (second section cooling water passing pipe) of the second temperature reduction part 14212 in the water storage tank 110 are spiral pipes with good heat conduction, the cold boiled water passing pipe (first section cooling water passing pipe) of the first temperature reduction part 14211 of the water storage tank 110 is positioned at the bottom of the water storage tank 110, and when the cold boiled water passing pipe is cooled, the water in the water storage tank 110 is reversely heated, so that the water boiling speed in the heating water tank 120 can be improved; the cold water passing pipe (second section of cold water passing pipe) of the second temperature reduction part 14212 in the cooling chamber 1422 is located in the sealed cooling chamber 1422, the cooling chamber 1422 is located at the upper part of the water storage tank 110, and the cold water passing pipe of the second temperature reduction part 14212 is subjected to secondary temperature reduction, so that supplementary temperature reduction is performed on the first temperature reduction when the water level in the water storage tank 110 is lower!

Implement steam pressure formula kettle that can cool down, through setting up cooling system (not shown in the figure) at kettle body casing 100, cool down the hot water of boiling, satisfy user's diversified water demand, through the first cooling portion 14211 laminating setting with cooling tube (not shown in the figure) at storage water tank 110 bottom inside wall, cool down for the first time boiling water, can also preheat storage water tank 110's water simultaneously, be favorable to improving the rate of heating to heating water tank 120, cool down the secondary through cooling portion 14212 with the second in cooling chamber 1422, avoid when storage water tank 110 water level is low excessively, the cooling effect of boiling water does not reach expectation.

The above description is only a preferred embodiment of the present invention, and should not be construed as limiting the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. A steam pressure type kettle capable of reducing temperature is characterized by comprising

A kettle body shell;

the kettle body shell is internally provided with:

a water storage tank;

heating the water tank;

a cooling system;

an electromagnetic valve;

2. A steam pressure kettle according to claim 1, wherein the cooling system comprises:

a second water outlet pipe;

a cooling structure component;

3. A kettle according to claim 2, wherein said cooling structure comprises:

a cooling pipe;

the cooling pipe includes:

a first temperature reduction part;

a second temperature reduction part;

the cooling structure assembly further comprises:

a cooling chamber;

4. A coolable steam pressure kettle as in claim 3, wherein said cooling tube is in the shape of a coil;

5. A steam pressure kettle according to claim 4, wherein the cooling chamber is:

cooling liquid is arranged in the annular groove;

6. A steam pressure kettle as claimed in claim 5, wherein the body shell further comprises:

a third water outlet pipe;

7. A coolable steam pressure kettle as in claim 6, further comprising:

a water-vapor separation bin;

and the water outlet of the third water outlet pipe is communicated with an opening on one side of the water-vapor separation bin and is used for discharging boiled water from the water outlet of the water-vapor separation bin for a user to drink.

8. A steam pressure kettle as claimed in claim 7, wherein the water outlet of the communicating tube is provided with: