CN216744949U - Quick refrigerated liquid heating device - Google Patents

Abstract

The utility model relates to a fast cooling liquid heating device, comprising: the liquid storage component is used for storing the loading liquid; a liquid storage cavity is arranged on the liquid storage component; the supporting component is used for being assembled with the liquid storage component; the liquid storage component is detachably arranged on the support component; a control module; the cooling assembly is used for rapidly cooling liquid in the liquid storage assembly; the cooling assembly comprises a fan module and a cooling air duct; the air outlet end of the fan module is communicated with the air inlet end of the cooling air duct, and the air outlet end of the cooling air duct is communicated with the top of the liquid storage cavity; the fan module is arranged at a position corresponding to the side part or the bottom of the liquid storage cavity and is electrically connected with the control module. This liquid heating device can in time cool off the water of boiling to make it be suitable for in time to drink or use, shorten wait for the cooling time greatly, promote the user and use experience.

Description

Quick refrigerated liquid heating device

Technical Field

The utility model relates to a liquid heating device, in particular to a liquid heating device capable of cooling rapidly.

Background

The liquid heating device is a relatively popular electric appliance, and heats a water body to boiling through a built-in heating body for a user to use; the temperature of the boiling water body can reach 100 ℃ at most, so that users of the water body with high temperature can not drink or use the water body directly (milk mixing, tea making and the like), and generally need to wait for the temperature of the water body to be reduced to the applicable temperature for drinking or using the water body; some liquid heating devices with heat preservation functions are arranged on the market, and after a water body is heated to boil, the temperature of the water body is kept at a set temperature through a heat preservation layer and/or a constant heating means so as to be convenient for a user to drink or use directly; in the device, the water body is required to be in a heat preservation state all the time after boiling, wherein the material cost of the heat preservation layer can cause the manufacturing cost of the device to be increased, the energy consumption of the device can be increased due to the continuous heat preservation and heating of the heating body, and the water quality and the drinking water health can be influenced due to the long-time heat preservation state of the water body; therefore, further improvements are needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provide a quick-cooling liquid heating device, which can cool and cool a boiling water body in time so as to be suitable for drinking or using in time, greatly shorten the waiting and cooling time and improve the using experience of a user.

The purpose of the utility model is realized as follows:

a rapid cooling liquid heating apparatus comprising:

the liquid storage component is used for storing the loading liquid; a liquid storage cavity is arranged on the liquid storage component;

the supporting component is used for being assembled with the liquid storage component; the liquid storage component is detachably arranged on the support component;

a control module;

the cooling assembly is used for rapidly cooling liquid in the liquid storage assembly; the cooling assembly comprises a fan module and a cooling air duct; the air outlet end of the fan module is communicated with the air inlet end of the cooling air duct, and the air outlet end of the cooling air duct is communicated with the top of the liquid storage cavity; the fan module is arranged at a position corresponding to the side part or the bottom of the liquid storage cavity and is electrically connected with the control module.

The liquid storage assembly comprises a container body and a container cover body; the container cover body is arranged at the top of the container body in a covering manner and combined with each other to form the liquid storage cavity; an air outlet is formed in the container cover body, and the cooling air duct is communicated with the liquid storage cavity through the air outlet.

The supporting assembly comprises a supporting base, a supporting main body and a supporting cover body; the bottom of the liquid storage component is supported on the supporting base; the supporting cover body is arranged at the top of the liquid storage assembly; the supporting base is connected with the supporting cover body through the supporting main body; the air inlet end of the cooling air duct and the fan module are arranged on the support base or the support main body; and the air outlet end of the cooling air duct is arranged on the support cover body.

The supporting base is fixedly connected with the supporting main body; the support body is movably connected with the support cover body, and the support cover body moves relative to the support body to press the top of the liquid storage assembly or moves relative to the support body to be separated from the top of the liquid storage assembly.

The cooling air channel comprises a first air channel arranged on the support main body and a second air channel arranged on the support cover body; the supporting main body is provided with a first connecting port communicated with the first air channel, and the supporting cover body is provided with a second connecting port communicated with the second air channel; when the support cover body moves to press and acts on the top of the liquid storage assembly, the first connecting port and the second connecting port correspond to each other and are communicated with each other, and the first air channel and the second air channel are communicated with each other to form the cooling air channel.

The supporting body is hinged with the supporting cover body, and the supporting cover body is overturned up and down or rotates left and right relative to the supporting body.

The cooling air duct is provided with a plurality of water retaining ribs for blocking water vapor, and the water vapor entering the cooling air duct is attached to the water retaining ribs and becomes condensed water to flow back to the liquid storage cavity.

The cooling air duct is provided with a water return section inclined towards the liquid storage cavity, the water retaining rib is arranged on the water return section, and condensed water flows back to the liquid storage cavity along the water return section.

The heating module is used for heating liquid in the liquid storage cavity; the heating module is arranged on the liquid storage component or the supporting component and is electrically connected with the control module.

The temperature sensor is used for detecting the temperature of liquid in the liquid storage cavity; the temperature sensor is electrically connected with the control module.

The supporting component is provided with an air inlet communicated with the air inlet end of the cooling air duct; a water outlet communicated with the liquid storage cavity is formed in the liquid storage component; the air inlet, the cooling air duct, the liquid storage cavity and the water outlet are sequentially communicated to form a coherent air path.

The utility model has the following beneficial effects:

the cooling assembly is arranged to cool the water body in the liquid storage cavity in time, so that the water body is suitable for drinking or using in time, the waiting and cooling time of a user is greatly shortened, and the using experience of the user is improved; in order to avoid the influence of rising water vapor on electric elements such as the fan module when the water body is heated to be boiling, the fan module is arranged at a position corresponding to the side part or the bottom part of the liquid storage cavity, so that the normal work of the fan module is ensured; in addition, the supporting cover body can move to press the liquid storage assembly or be separated from the liquid storage assembly in a hinged mode, and the fan module is arranged on the supporting main body or the supporting base, so that the phenomenon that the quality of the supporting cover body is too heavy to influence the operation experience of a user can be avoided; in addition, in order to avoid vapor to reach the fan module through cooling duct and damage the fan module, set up the manger plate muscle on the cooling duct, vapor and manger plate muscle collision and attached to with the manger plate muscle on, relative low temperature can make vapor form the comdenstion water simultaneously, and the comdenstion water finally flows back to the stock solution chamber in, and then effectively guarantees the normal work of fan module. This liquid heating device can in time cool off the water of boiling to make it be suitable for in time to drink or use, shorten wait for the cooling time greatly, promote user's use and experience, can in time be drunk or use after the water boils, guarantee water quality and taste.

Drawings

Fig. 1 is a sectional view of a liquid heating apparatus according to an embodiment of the present invention in a heating state.

Fig. 2 is a sectional view of a liquid heating apparatus in a cooling state according to an embodiment of the present invention.

Fig. 3 is a cross-sectional view of a liquid heating apparatus in an uncapped state according to an embodiment of the present invention.

Detailed Description

The utility model is further described with reference to the following figures and examples.

Referring to fig. 1 to 3, the liquid heating apparatus according to the present embodiment may be an electric kettle or a milk regulator or other appliance with a liquid heating function, and the liquid heating apparatus specifically includes:

a liquid storage assembly 100 for storing a loading liquid (body of water); a liquid storage cavity 4 is arranged in the liquid storage component 100;

a support assembly 200 for assembly with the reservoir assembly 100; the liquid storage assembly 100 is detachably arranged on the support assembly 200;

the control module 500, the control module 500 is a computer board with a control system, and is responsible for data processing, instruction sending and other work;

a cooling assembly 400 for rapidly cooling the liquid in the liquid storage assembly 100; the cooling assembly 400 comprises a fan module and a cooling air duct 11, the fan module comprises a motor 9 and fan blades 10, and a motor shaft of the motor 9 is in transmission connection with the fan blades 10 to drive the fan blades 10 to rotate to generate negative pressure; the air outlet end of the fan module is communicated with the air inlet end of the cooling air duct 11, the air outlet end of the cooling air duct 11 is communicated with the top of the liquid storage cavity 4, namely, cold air generated by the work of the fan module enters the cooling air duct 11, and the cold air is conveyed through the cooling air duct 11 and finally reaches the liquid storage cavity 4 so as to rapidly cool the high-temperature water body in the liquid storage cavity 4; the fan module is arranged at a position corresponding to the side part or the bottom part of the liquid storage cavity 4, so that the fan module is prevented from being influenced by rising water vapor; the fan module is electrically connected to the control module 500, i.e. the fan module is controlled by the control module 500.

Further, the liquid storage assembly 100 comprises a container body 3 and a container cover 1; the container cover body 1 is arranged at the top of the container body 3 in a covering manner, namely the container cover body 1 closes the top opening of the inner cavity of the container body 3, so that a liquid storage cavity 4 is formed by combination of the container cover body 1 and the container body; an air outlet 2 is formed in the container cover body 1, and the air outlet end of the cooling air duct 11 is communicated with the liquid storage cavity 4 through the air outlet 2; wherein, the container body 3 is a cup body, a kettle body or other containers which can be used for storing water.

Further, the support assembly 200 includes a support base 6, a support body 7, and a support cover 8; the supporting base 6 is supported on the table top, and the bottom of the liquid storage assembly 100 is supported on the supporting base 6; the supporting cover body 8 is arranged at the top of the liquid storage assembly 100 so as to press and act on the container cover body 1; the side part of the supporting base 6 is connected with the side part of the supporting cover body 8 through a supporting main body 7 which extends vertically; the air inlet end of the cooling air duct 11 and the fan module are arranged in the support base 6 (or in the support main body 7 according to the actual situation); the air outlet end of the cooling air duct 11 is arranged in the supporting cover body 8, so that the influence of water vapor on the fan module is effectively avoided.

Further, the side part of the support base 6 is fixedly connected with the bottom end of the support main body 7; the top end of the support main body 7 is movably connected with the side part of the support cover body 8, and the support cover body 8 moves relative to the support main body 7 to press the top of the liquid storage assembly 100 or moves relative to the support main body 7 to be separated from the top of the liquid storage assembly 100; namely, in the state of opening the cover, the supporting cover body 8 is separated from the top of the container cover body 1 in the liquid storage assembly 100; in the closed state, the supporting cover body 8 is pressed to act on the top of the container cover body 1.

Further, the cooling air duct 11 includes a first air duct 1101 provided in the support main body 7, and a second air duct 1102 provided in the support cover body 8; the top end of the support main body 7 is provided with a first connection port 701 communicated with a first air duct 1101, and the bottom end of the support cover body 8 is provided with a second connection port 801 communicated with a second air duct 1102; when the supporting cover 8 moves to press the top of the liquid storage assembly 100, the first connection port 701 and the second connection port 801 correspond to each other and are communicated with each other, so that the first air duct 1101 and the second air duct 1102 are communicated with each other to form the cooling air duct 11. This structure does not influence the activity of supporting lid 8 on the one hand, and on the other hand guarantees again that cooling duct 11 links up unobstructed.

Further, the support body 7 and the support cover 8 are hinged to each other, and the support cover 8 is turned upside down (or turned left and right depending on the actual situation) with respect to the support body 7.

Further, the inner wall of the cooling air duct 11 is provided with a plurality of water retaining ribs 1103 for blocking water vapor, and the water vapor entering the cooling air duct 11 is attached to the water retaining ribs 1103 and turns into condensed water to flow back to the liquid storage cavity 4. Specifically, dislocation about the cooling wind channel 11 inner wall or dislocation mode from top to bottom set up a plurality of manger plate muscle 1103, and the manger plate muscle extends along the conveying track slope of cooling wind channel 11 mesolow wind, can avoid manger plate muscle 1103 to influence cold wind and carry on the one hand, and on the other hand can more effectual separation vapor, makes the separation effect better.

Further, in order to guarantee that the comdenstion water flows back to liquid storage cavity 4 in unison, cooling duct 11 is provided with the return water section to the slope of liquid storage cavity 4, and this return water section is located second wind channel 1102, and manger plate muscle 1103 sets up in return water section inner wall, and vapor is attached to on manger plate muscle 1103 and meets cold formation comdenstion water, and the comdenstion water flows back to liquid storage cavity 4 along the return water section of slope in unison, prevents effectively that the fan module from receiving the vapor influence.

Further, the device also comprises a heating module 300 for heating the liquid in the liquid storage cavity 4; the heating module 300 is disposed on the liquid storage assembly 100 or the support assembly 200, and the heating module 300 is electrically connected to the control module 500.

Specifically, the method comprises the following steps:

according to the first scheme, the heating module 300 is arranged on the support base 6, the heating module 300 can be an electrothermal module such as an electric heating wire, an electrothermal film, a heating tube, a graphene heating film, a ceramic heating element, an electromagnetic coil and the like, and the electromagnetic coil is required to be matched with the container body 3 made of metal material for use;

according to the second scheme, the heating module 300 is arranged at the bottom of the liquid storage assembly 100 (the container body 3), and the heating module 300 can be an electric heating module such as an electric heating wire, an electric heating film, a heating tube, a graphene heating film and the like; an electric connection structure is arranged between the container body 3 and the support base 6, and the heating module 300 is electrically connected with the control module 500 through the electric connection structure so as to obtain instructions and electric energy.

Further, the device also comprises a temperature sensor 14 for detecting the temperature of the liquid in the liquid storage cavity 4, wherein the temperature sensor 14 is arranged on the supporting base 6; temperature sensor 14 electricity connection control module 500, control module 500 further judges the body temperature of water according to the container body 3 bottom temperature of temperature sensor 14 feedback to effective control cooling temperature satisfies the different use needs of user.

Further, the bottom of the support base 6 in the support assembly 200 is provided with an air inlet 12 communicated with the air inlet end of the cooling air duct 11; a water outlet 5 communicated with the liquid storage cavity 4 is formed in the top side of the liquid storage assembly 100, and the water outlet 5 is used for pouring out a water body; the air inlet 12, the cooling air duct 11, the liquid storage cavity 4 and the water outlet 5 are communicated in sequence to form a coherent air path.

Principle of operation

In the heating state, the control module 500 controls the heating module 300 to work so as to heat the water body in the liquid storage cavity 4; a large amount of water vapor is generated in the heating process, a part of water vapor is discharged through the water outlet 5, and a part of water vapor possibly enters the cooling air duct 11; however, when the water vapor enters the cooling air duct 11, the water vapor immediately enters the water return section, the water vapor adheres to the water blocking rib 1103 and turns into condensed water when meeting cold, and the condensed water finally flows back to the liquid storage cavity 4;

the cooling state, when the water is heated to boiling and the user starts the cooling procedure, control module 500 controls motor 9 to work to drive flabellum 10 to rotate and produce the negative pressure, outside cold wind gets into support base 6 inboard through air intake 12, and cold wind gets into cooling air duct 11 immediately and carries, gets into liquid storage cavity 4 through air outlet 2 afterwards and carries out the rapid cooling to the water, has the heat exchange between cold wind and the water, and cold wind is heated into hot-blast and finally is discharged through delivery port 5 and is taken away the heat with this, reaches the rapid cooling effect.

The foregoing is a preferred embodiment of the present invention, and the basic principles, principal features and advantages of the utility model are shown and described. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the utility model, but that various changes and modifications may be made without departing from the spirit and scope of the utility model, and the utility model is intended to be protected by the following claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (10)

1. A rapid cooling liquid heating apparatus comprising:

a reservoir assembly (100) for storing a loading liquid; a liquid storage cavity (4) is arranged on the liquid storage component (100);

the supporting component (200) is used for assembling and matching with the liquid storage component (100); the liquid storage component (100) is detachably arranged on the support component (200);

a control module (500) for controlling the operation of the motor,

it is characterized by also comprising:

a cooling assembly (400) for rapidly cooling the liquid in the reservoir assembly (100); the cooling assembly (400) comprises a fan module and a cooling air duct (11); the air outlet end of the fan module is communicated with the air inlet end of the cooling air duct (11), and the air outlet end of the cooling air duct (11) is communicated with the top of the liquid storage cavity (4); the fan module is arranged at a position corresponding to the side part or the bottom of the liquid storage cavity (4), and the fan module is electrically connected with the control module (500).

2. A rapid cooling liquid heating apparatus according to claim 1, wherein: the liquid storage assembly (100) comprises a container body (3) and a container cover body (1); the container cover body (1) is arranged at the top of the container body (3) in a covering manner and combined with each other to form the liquid storage cavity (4); an air outlet (2) is formed in the container cover body (1), and the cooling air duct (11) is communicated with the liquid storage cavity (4) through the air outlet (2).

3. A rapid cooling liquid heating apparatus according to claim 1, wherein: the supporting assembly (200) comprises a supporting base (6), a supporting main body (7) and a supporting cover body (8); the bottom of the liquid storage component (100) is supported on a support base (6); the supporting cover body (8) is arranged at the top of the liquid storage assembly (100); the supporting base (6) is connected with a supporting cover body (8) through a supporting main body (7); the air inlet end of the cooling air duct (11) and the fan module are arranged on the support base (6) or the support main body (7); and the air outlet end of the cooling air duct (11) is arranged on the support cover body (8).

4. A rapid cooling liquid heating apparatus according to claim 3, wherein: the supporting base (6) is fixedly connected with the supporting main body (7); the supporting body (7) is movably connected with the supporting cover body (8), and the supporting cover body (8) moves relative to the supporting body (7) to press the top of the liquid storage assembly (100) or moves relative to the supporting body (7) to be separated from the top of the liquid storage assembly (100).

5. A rapid cooling liquid heating apparatus according to claim 4, wherein: the cooling air duct (11) comprises a first air duct (1101) arranged on the support main body (7) and a second air duct (1102) arranged on the support cover body (8); a first connecting port (701) communicated with a first air duct (1101) is formed in the supporting main body (7), and a second connecting port (801) communicated with a second air duct (1102) is formed in the supporting cover body (8); when support lid (8) activity to pressing down and act on stock solution subassembly (100) top, first connection mouth (701) and second connection mouth (801) correspond each other and communicate, first wind channel (1101) and second wind channel (1102) communicate each other and constitute cooling wind channel (11).

6. A rapid cooling liquid heating apparatus as claimed in claim 1, wherein: a plurality of water retaining ribs (1103) used for blocking water vapor are arranged on the cooling air duct (11), and the water vapor entering the cooling air duct (11) is attached to the water retaining ribs (1103) and turns into condensed water to flow back to the liquid storage cavity (4).

7. The rapid cooling liquid heating apparatus according to claim 6, wherein: the cooling air duct (11) is provided with a backwater section inclined to the liquid storage cavity (4), the water blocking rib (1103) is arranged on the backwater section, and the condensed water flows back to the liquid storage cavity (4) along the backwater section.

8. A rapid cooling liquid heating apparatus according to claim 1, wherein: the liquid storage device also comprises a heating module (300) for heating the liquid in the liquid storage cavity (4); the heating module (300) is arranged on the liquid storage assembly (100) or the support assembly (200), and the heating module (300) is electrically connected with the control module (500).

9. A rapid cooling liquid heating apparatus according to claim 1, wherein: the liquid temperature sensor (14) is used for detecting the temperature of the liquid in the liquid storage cavity (4); the temperature sensor (14) is electrically connected with the control module (500).

10. A rapid cooling liquid heating apparatus according to any one of claims 1 to 9, wherein: the supporting component (200) is provided with an air inlet (12) communicated with the air inlet end of the cooling air duct (11); a water outlet (5) communicated with the liquid storage cavity (4) is formed in the liquid storage component (100); the air inlet (12), the cooling air duct (11), the liquid storage cavity (4) and the water outlet (5) are sequentially communicated to form a coherent air path.

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