CN118168145A - Water boiler direct drinking machine - Google Patents

Abstract

The invention discloses a water boiler direct drinking machine, which comprises a frame, wherein a heating chamber, a heat preservation chamber and a cooling chamber are sequentially arranged in the frame from top to bottom, the heating chamber, the heat preservation chamber and the cooling chamber are respectively provided with a water inlet pipe, a hot water pipe and a cool white opening pipe, a first connecting pipe is connected between the heating chamber and the heat preservation chamber. In addition, after hot water flows into the cooling chamber, the air suction fan is started, the electric telescopic rod is controlled to extend, and the excessive heat in the cooling chamber is transferred to the cooling chamber by utilizing two modes of air heat exchange and direct heat conduction of the copper plate, so that the cold water in the cooling chamber is preheated, and the efficiency of heating the cold water is improved.

Description

Water boiler direct drinking machine

Technical Field

The invention relates to the technical field of water boilers, in particular to a direct drinking machine of a water boiler.

Background

Along with the pursuit of healthy life style, the traditional drinking water boiler can not meet the increasing demands of people. Therefore, the double-liner cool and white water boiler appears in the market, and the product can cool and white water at the same time of discharging boiled water, and has higher efficiency and better user experience. However, the existing double-liner cold and white water boiler on the market has the problems of low cooling efficiency, uneven heat transfer and the like, and influences the overall performance and the use experience of the product.

The traditional double-liner cool and white water boiler generally adopts an electric heating principle, heats water by electric energy, and cools the water to a proper temperature by a temperature difference refrigeration principle. However, this method has problems such as energy waste, low cooling efficiency, and uneven heat transfer. Especially in winter, the initial temperature of water is higher, so that the heating time of the traditional heater is longer, the energy consumption is large, and meanwhile, the heat transfer is also uneven, and the phenomena of burning, bottom pasting and the like are easily caused.

In order to solve the problems, a novel double-liner cool and white water boiler is introduced. This kind of boiler has adopted built-in simple and easy heat transfer device, can be in the water that will heat with heat conduction when the cooling, has improved cooling efficiency, has also guaranteed the homogeneity of heat transfer simultaneously.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a water boiler direct drinking machine for solving the problems.

In order to achieve the above purpose, the direct drinking machine of the water boiler comprises a rack, wherein a heating chamber, a heat preservation chamber and a cooling chamber are sequentially arranged in the rack from top to bottom, the heating chamber, the heat preservation chamber and the cooling chamber are respectively provided with a water inlet pipe, a hot water pipe and a cool white opening pipe, a first connecting pipe is connected between the heating chamber and the heat preservation chamber, a second connecting pipe is connected between the heat preservation chamber and the cooling chamber, and a heat exchange mechanism is arranged between the cooling chamber and the heating chamber;

The heating chamber is used for heating water, heated hot water enters the heat preservation chamber through the first connecting pipe, the heat preservation chamber is used for preserving heat of the hot water, the hot water in the heat preservation chamber enters the cooling chamber through the second connecting pipe, and the heat exchange mechanism absorbs heat in the cooling chamber and transfers the heat to the heating chamber.

The beneficial effects are that: the direct drinking machine of the water boiler conveys hot water to the heating chamber through the water inlet pipe, then the hot water is heated through the electric heating plate, after the heating is finished, the hot water is conveyed to the heat preservation chamber and the cooling chamber, the electric heating plate in the heat preservation chamber is utilized for heat preservation, and a user can take out the hot water from the heat preservation chamber or take out the cool white from the cooling chamber. In addition, after hot water flows into the cooling chamber, the air suction fan is started, the electric telescopic rod is controlled to extend, and the excessive heat in the cooling chamber is transferred to the cooling chamber by utilizing two modes of air heat exchange and direct heat conduction of the copper plate, so that the cold water in the cooling chamber is preheated, and the efficiency of heating the cold water is improved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

FIG. 1 is a schematic diagram of the structure of the present invention.

Detailed Description

The following describes the embodiment of the present invention in further detail with reference to fig. 1.

The invention provides a direct drinking machine of a water boiler, which comprises a frame 10, wherein a heating chamber 20 for boiling cold water, a heat preservation chamber 30 for preserving hot water after boiling and a cooling chamber 40 for cooling the hot water after boiling are sequentially arranged in the frame 10 from top to bottom, the direct drinking machine of the water boiler adopts the structure, cold water is firstly added into the heating chamber 20, and then is respectively stored in the heat preservation chamber 30 and the cooling chamber 40 after boiling, so that a user can directly take hot water in the heat preservation chamber 30 when drinking water, and can also take cool and white water after cooling, thereby providing convenience for the user.

In this embodiment, the heating chamber 20, the heat preservation chamber 30 and the cooling chamber 40 are respectively provided with a water inlet pipe 21, a hot water pipe 31 and a cool white opening pipe 41, wherein the water inlet pipe 21 is externally connected with a water pump for adding cool water into the heating chamber 20, the hot water pipe 31 and the cool white opening pipe 41 are respectively provided with a manual valve for discharging hot water and cool white opening, a first connecting pipe 22 is connected between the heating chamber 20 and the heat preservation chamber 30 for guiding hot water in the heating chamber 20 into the heat preservation chamber 30, a second connecting pipe 32 is connected between the heat preservation chamber 30 and the cooling chamber 40 for guiding hot water in the heat preservation chamber 30 into the cooling chamber 40, and a heat exchange mechanism 50 is arranged between the cooling chamber 40 and the heating chamber 20.

When the heat-preserving device is used, the heating chamber 20 is used for heating water, heated hot water enters the heat-preserving chamber 30 through the first connecting pipe 22, the heat-preserving chamber 30 is used for preserving heat of the hot water, the hot water in the heat-preserving chamber 30 enters the cooling chamber 40 through the second connecting pipe 32, the heat exchange mechanism 50 absorbs heat in the cooling chamber 40 and transfers the heat to the heating chamber 20, the heat of the hot water entering the cooling chamber 40 can be rapidly cooled through the heat exchange mechanism 50, and the heat of the hot water in the cooling chamber 40 can be transferred to the heating chamber 40, so that heat energy recovery is realized.

The following is a specific embodiment of the heat exchange mechanism 50, including a first heat exchange tube 51, a second heat exchange tube 52 and a heat conducting tube 53, where the first heat exchange tube 51 and the second heat exchange tube 52 are respectively and fixedly disposed in the heating chamber 20 and the cooling chamber 40, the heat conducting tube 53 is connected between the first heat exchange tube 51 and the second heat exchange tube 52, an outlet of the first heat exchange tube 51 penetrates through an upper end of the heating chamber 20, an inlet of the second heat exchange tube 50 penetrates through a side surface of the cooling chamber 40, and an air suction fan 54 is disposed on the heat conducting tube 53, and in operation, the air suction fan 54 operates to suck external air through an air inlet of the second heat exchange tube 52, and after the air enters the second heat exchange tube 52, take away part of heat of hot water in the cooling chamber 40 and transfer the heat to the first heat exchange tube 51, and when the heat reaches the first heat exchange tube 51, heat exchange heat is performed between cold water in the heating chamber 20, thereby realizing preheating treatment of cold water in the heating chamber 20, and improving efficiency of subsequent heating hot water.

The first heat exchange tube 51 and the second heat exchange tube 52 have a spiral coil structure.

The first connection pipe 22, the second connection pipe 32 and the heat conduction pipe 53 are provided with electromagnetic valves 60.

The heat pipe 53 is provided with a bypass pipe (not shown), and when the bypass pipe is provided, and heat exchange is not required and the hot water in the cooling chamber 40 is cooled, the heat in the cooling chamber 40 can be discharged through the bypass pipe.

The inner walls of the heating chamber 20 and the heat preservation chamber 30 are respectively provided with an electric heating plate 70, water level sensors 80 and temperature sensors 90 are respectively installed in the heating chamber 20, the heat preservation chamber 30 and the cooling chamber 40, the water level sensors 80 detect the water levels in the heating chamber 20, the heat preservation chamber 30 and the cooling chamber 40, and the temperature sensors 90 are used for detecting the water temperatures in the heating chamber 20, the heat preservation chamber 30 and the cooling chamber 40.

The control panel 11 is installed outside the housing 10, and the control panel 11 displays the water level and temperature in the heating chamber 20, the heat preservation chamber 30, and the cooling chamber 40.

In addition, in order to further improve the heat exchange effect, a heat transfer mechanism 100 is arranged between the heating chamber 20 and the cooling chamber, the heat transfer mechanism 100 comprises two copper plates 101 fixed on the inner walls of the heating chamber 20 and the cooling chamber 40, and a connecting copper plate 102 arranged outside the heating chamber 20 and the cooling chamber 40 and used for being connected between the two copper plates 101, on the basis of air heat exchange of the heat exchange mechanism 50, the heat transfer by continuing to adopt the copper plates 101 can bring better heat transfer effect, the waste of heat is reduced, when the heating chamber 20 does not heat hot water, the connecting copper plate 102 is connected with the two copper plates 101, the redundant temperature in the cooling chamber 20 is conducted to the heating chamber 20, and cold water in the heating chamber 20 is preheated.

Further, the frame 10 is fixed with an electric telescopic rod 103, the electric telescopic rod 103 is fixedly connected with the connecting copper plates 102, when the heating chamber 20 heats hot water, the electromagnetic valve 60 is closed, heat transfer of air between the cooling chamber 40 and the heating chamber 20 is cut off, if the cooling chamber 40 needs to be continuously cooled at the moment, heat can be dissipated through the bypass valve, the electric telescopic rod 103 is controlled to be shortened, the connecting copper plates 102 are moved and separated from the two copper plates 101, and heat transfer between the cooling chamber 40 and the heating chamber 20 is cut off.

Working principle: when the direct drinking water boiler is used, hot water is added into the heating chamber 20 through the water inlet pipe 21, the electric heating plate 70 in the heating chamber 20 is used for heating, after heating is completed, the electromagnetic valve 60 of the first connecting pipe 22 and the second connecting pipe 32 is opened, the hot water is added into the heat preservation chamber 30 and the cooling chamber 40, the electric heating plate 70 arranged in the heat preservation chamber 30 can be used for preserving heat through heating the hot water, a user can obtain hot water in the heat preservation chamber 30 or cool white in the cooling chamber 40 when using the direct drinking water, in addition, after the hot water is added into the cooling water 40, the air suction fan 54 is started and the electric telescopic rod 103 is controlled to extend, when the air suction fan 54 works, air is sucked into the first heat exchange pipe 52, after the air enters the second heat exchange pipe 52, part of heat of the hot water in the cooling chamber 40 is taken away and transferred to the first heat exchange pipe 51, when the heat reaches the first heat exchange pipe 51 and cold water in the heating chamber 20, in addition, when the electric telescopic rod 103 extends, the connecting copper plate 102 is connected between the two copper plates 101, further heat transfer is realized, and therefore the heat treatment of the cold water in the heating chamber 20 is further processed, and the subsequent heating efficiency is improved.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The direct drinking machine of the water boiler is characterized by comprising a rack, wherein a heating chamber, a heat preservation chamber and a cooling chamber are sequentially arranged in the rack from top to bottom, the heating chamber, the heat preservation chamber and the cooling chamber are respectively provided with a water inlet pipe, a hot water pipe and a cool white opening pipe, a first connecting pipe is connected between the heating chamber and the heat preservation chamber, a second connecting pipe is connected between the heat preservation chamber and the cooling chamber, and a heat exchange mechanism is arranged between the cooling chamber and the heating chamber;

The heating chamber is used for heating water, heated hot water enters the heat preservation chamber through the first connecting pipe, the heat preservation chamber is used for preserving heat of the hot water, the hot water in the heat preservation chamber enters the cooling chamber through the second connecting pipe, and the heat exchange mechanism absorbs heat in the cooling chamber and transfers the heat to the heating chamber.

2. The water boiler direct drinking machine according to claim 1, wherein the heat exchanging mechanism comprises a first heat exchanging pipe, a second heat exchanging pipe and a heat conducting pipe, the first heat exchanging pipe and the second heat exchanging pipe are respectively and fixedly arranged in the heating chamber and the cooling chamber, the heat conducting pipe is connected between the first heat exchanging pipe and the second heat exchanging pipe, an outlet of the first heat exchanging pipe penetrates through the upper end of the heating chamber, an inlet of the second heat exchanging pipe penetrates through the side face of the cooling chamber, and an air exhaust fan is arranged on the heat conducting pipe.

3. A water boiler direct drinking machine according to claim 3, wherein the first heat exchange tube and the second heat exchange tube are of spiral coil structure.

4. A boiler direct drinking machine according to claim 2 or 3, wherein the heat conducting pipe is provided with a bypass pipe.

5. The water boiler direct drinking machine according to claim 2, wherein electromagnetic valves are arranged on the first connecting pipe, the second connecting pipe and the heat conducting pipe.

6. The water boiler direct drinking machine according to claim 1, wherein the inner walls of the heating chamber and the heat preservation chamber are provided with electric heating plates.

7. The water boiler direct drinking machine according to claim 1, wherein the heating chamber, the heat preservation chamber and the cooling chamber are provided with a water level sensor and a temperature sensor.

8. The water boiler direct drinking machine according to claim 7, wherein a control panel is installed at the outside of the frame.

9. The water boiler direct drinking machine according to claim 1, wherein a heat transfer mechanism is arranged between the heating chamber and the cooling chamber, and the heat transfer mechanism comprises two copper plates fixed on the inner walls of the heating chamber and the cooling chamber and a connecting copper plate arranged outside the heating chamber and the cooling chamber and used for being connected between the two copper plates.

10. The water boiler direct drinking machine according to claim 9, wherein the frame is fixed with an electric telescopic rod, and the electric telescopic rod is fixedly connected with the connecting copper plate.