阅读说明：本技术 一种烧水器 (Water boiler ) 是由 陈建亮 于 2019-11-26 设计创作，主要内容包括：本发明涉及烧水器领域,尤其涉及一种烧水器,将传统的烧水器的加热装置从容器上移动到了在烧水器的底座内增设水泵、加热器和出水阀,实现由原本的储水容器内烧水改为在底座内烧水,具体为底座通过水泵将水抽入加热器中加热,通过控制出水阀的开关控制加热器加热后的水从储水容器的底部的第一进水口流入储水容器内。通过此结构,当需要开水时,只需将容器放置在底座上,通过功能按键,加热器就能够将水泵抽取的水烧开,储水容器就能够快速获得开水,不仅使烧水过程变的简单方便,而且还提高了出开水的速度。(The invention relates to the field of water boilers, in particular to a water boiler, which is characterized in that a heating device of a traditional water boiler is moved from a container to a position in which a water pump, a heater and a water outlet valve are additionally arranged in a base of the water boiler, so that the water boiling in the original water storage container is changed into the water boiling in the base, specifically, the base pumps water into the heater through the water pump for heating, and the water heated by the heater is controlled to flow into the water storage container from a first water inlet in the bottom of the water storage container by controlling the switch of the water outlet valve. Through this structure, when needs boiling water, only need place the container on the base, through the function button, the heater just can boil the water that the water pump extracted, and water storage container just can obtain the boiling water fast, not only makes the simple and convenient that the process of heating up water becomes, but also has improved the speed of going out the boiling water.)

1. The water boiler comprises a base for placing a water storage container, wherein a first water inlet is formed in the bottom of the water storage container.

2. A boiler as claimed in claim 1, wherein: the water outlet valve is an electromagnetic valve.

3. A boiler as claimed in claim 1, wherein: the water heater also comprises a first temperature sensor, a silicon controlled heat dissipation block and a water flow sensor; the silicon controlled heat dissipation block is arranged between the second water inlet and the heater; and the water flow sensor and the first temperature sensor are arranged between the silicon controlled heat dissipation block and the heater.

4. A boiler as claimed in claim 3, wherein: the water flow sensor is a turbine flow sensor or a reed pipe flow sensor.

5. A boiler as claimed in claim 3, wherein: still include the second temperature sensor, the second temperature sensor sets up in the base.

6. A boiler as claimed in claim 1, wherein: the water storage container is positioned on the base, the second water outlet is communicated with the first water inlet in the water storage container, the water outlet valve is a three-way electromagnetic valve, and two water outlets of the three-way electromagnetic valve are respectively communicated with the first water outlet and the second water outlet.

7. A boiler as claimed in claim 1, wherein: the bottom of water storage container is equipped with the heating plate, when water storage container was located the base, the power supply end of heating plate contacted with the electrical connection terminal on the base, electrical connection terminal on the base is connected with the power electricity that sets up in base inside.

8. A boiler as claimed in claim 1, wherein: the water pump is characterized by further comprising a magnetizer, wherein the magnetizer is arranged on a pipeline between the water pump and the heater.

9. A boiler as claimed in claim 8, wherein: the sterilizer is arranged on the pipeline between the magnetizer and the heater.

10. A boiler as claimed in claim 9, wherein: the ultraviolet sterilizer is characterized by further comprising a ballast, wherein the sterilizer is an ultraviolet sterilizer, and the ballast is electrically connected with the ultraviolet sterilizer.

Technical Field

The invention relates to the field of water boilers, in particular to a water boiler.

Background

The existing water boiler generally needs to fill water into a container, then the container is placed on a base, the container is electrified through the base to enable a heating sheet on the inner surface of the bottom of the container to heat, so that water is boiled, and the water boiling time needs to wait for 6-8 minutes. The water boiler not only has troublesome water boiling steps, but also has longer waiting time. Therefore, a water boiler which is convenient to boil water and has high water boiling speed is urgently needed.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide the water boiler with convenient water boiling and high water boiling speed.

In order to solve the technical problems, the invention adopts the technical scheme that: the water boiler comprises a base for placing a water storage container, wherein a first water inlet is formed in the bottom of the water storage container, a water pump, a water outlet valve and a heater are arranged in the base, a second water inlet and a first water outlet are formed in the base, water flow of the base sequentially passes through the second water inlet, the water pump, the heater, the water outlet valve and a water outlet, the second water inlet, the water pump, the heater, the water outlet valve and the water outlet are connected through pipelines, and when the water storage container is located on the base, the first water outlet in the base is communicated with a water inlet in the water storage container.

Furthermore, the water outlet valve is an electromagnetic valve.

Furthermore, the device also comprises a first temperature sensor, a silicon controlled heat dissipation block and a water flow sensor; the silicon controlled heat dissipation block is arranged between the second water inlet and the heater; and the water flow sensor and the first temperature sensor are arranged between the silicon controlled heat dissipation block and the heater.

Further, the water flow sensor is a turbine flow sensor or a reed pipe flow sensor.

Further, still include the second temperature sensor, the second temperature sensor sets up in the base.

When the water storage container is positioned on the base, the second water outlet is communicated with the first water inlet on the water storage container, the water outlet valve is a three-way electromagnetic valve, and two water outlets of the three-way electromagnetic valve are respectively communicated with the first water outlet and the second water outlet.

Further, water container's bottom is equipped with the heating plate, when water container was located the base, the power supply end of heating plate contacted with the electrical connection terminal on the base, electrical connection terminal and the power electricity that sets up in base inside on the base are connected.

Further, the water heater also comprises a magnetizer, and the magnetizer is arranged on a pipeline between the water pump and the heater.

Further, the heating device also comprises a sterilizer which is arranged on the pipeline between the magnetizer and the heater.

Further, the ultraviolet sterilizer also comprises a ballast, wherein the sterilizer is an ultraviolet sterilizer, and the ballast is electrically connected with the ultraviolet sterilizer.

The invention has the beneficial effects that: the heating device of the traditional water boiler is moved from the container to the position, in the base of the water boiler, of additionally arranging the water pump, the heater and the water outlet valve, so that the water boiling in the original water storage container is changed into the water boiling in the base, specifically, the base pumps water into the heater through the water pump for heating, and the water heated by the heater is controlled to flow into the water storage container from the first water inlet in the bottom of the water storage container by controlling the switch of the water outlet valve. Through this structure, when needs boiling water, only need place the container on the base, through the function button, the heater just can boil the water that the water pump extracted, and water storage container just can obtain the boiling water fast, not only makes the simple and convenient that the process of heating up water becomes, but also has improved the speed of going out the boiling water.

Drawings

FIG. 1 is a top view of a boiler with a glass panel removed;

FIG. 2 is a bottom view of a boiler with the bottom removed;

FIG. 3 is a block diagram of a boiler including a water tank;

FIG. 4 is a front view of a boiler including a water storage container;

FIG. 5 is a front view of a base of a boiler;

description of reference numerals:

1. a base; 2. a second water inlet; 3. a one-way valve; 4. a silicon controlled heat dissipation block; 5. a water flow sensor; 6. a water pump; 7. a first temperature sensor; 8. a magnetizer; 9. an ultraviolet sterilizer; 10. a ballast; 11. a heater; 12. a three-way electromagnetic valve; 13. a first water outlet; 14. a second water outlet; 15. a water storage container; 16. heating the plate; 17. a water tank.

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 5, the water boiler of the present invention includes a base for placing a water storage container, a first water inlet is disposed at the bottom of the water storage container, a water pump, a water outlet valve and a heater are disposed in the base, a second water inlet and a first water outlet are disposed on the base, water flow of the base sequentially passes through the second water inlet, the water pump, the heater, the water outlet valve and the water outlet, the second water inlet, the water pump, the heater, the water outlet valve and the water outlet are all connected by a pipeline, and when the water storage container is located on the base, the first water outlet on the base is communicated with the water inlet on the water storage container.

From the above description, the beneficial effects of the present invention are: the heating device of the traditional water boiler is moved from the container to the position, in the base of the water boiler, of additionally arranging the water pump, the heater and the water outlet valve, so that the water boiling in the original water storage container is changed into the water boiling in the base, specifically, the base pumps water into the heater through the water pump for heating, and the water heated by the heater is controlled to flow into the water storage container from the first water inlet in the bottom of the water storage container by controlling the switch of the water outlet valve. Through this structure, when needs boiling water, only need place the container on the base, through the function button, the heater just can boil the water that the water pump extracted, and water storage container just can obtain the boiling water fast, not only makes the simple and convenient that the process of heating up water becomes, but also has improved the speed of going out the boiling water.

Furthermore, the water outlet valve is an electromagnetic valve.

From the above description, the solenoid valve can better control the water outlet of the heater.

Furthermore, the device also comprises a first temperature sensor, a silicon controlled heat dissipation block and a water flow sensor; the silicon controlled heat dissipation block is arranged between the second water inlet and the heater; and the water flow sensor and the first temperature sensor are arranged between the silicon controlled heat dissipation block and the heater.

As can be seen from the above description, the first temperature sensor can detect the temperature of water entering the heater, detect the flow of water entering the heater through the water flow sensor, detect through the first temperature sensor and the water flow sensor, and control the heater to discharge water of 45 ℃ through the thyristor. Preferably, the first temperature sensor can be used for detecting the temperature of the inlet water to control the water with the temperature of 45 ℃ at different temperatures, and the method specifically comprises the following steps: if the first temperature sensor detects that the room temperature is less than or equal to 15 ℃, the heater is controlled by the silicon controlled rectifier to heat the water to 48 ℃; if the first temperature sensor detects that the room temperature is more than 15 ℃, the water is heated to 43 ℃ by the thyristor controlled heater.

Further, the water flow sensor is a turbine flow sensor or a reed pipe flow sensor.

As can be seen from the above description, turbine flow sensors are preferred to ensure control accuracy because the control water flow is delivered in small quantities and metered. In addition, power calculation can be carried out through a water pump voltage and flow comparison table, so that a reed pipe flow sensor can be selected.

Further, still include the second temperature sensor, the second temperature sensor sets up in the base.

As can be seen from the above description, because human senses different water temperatures at different air temperatures, the water requirements at different air temperatures are different for 45 ℃ water, the room temperature is judged by the second temperature sensor, and if the room temperature detected by the second temperature sensor is less than or equal to 25 ℃, the water is heated to 48 ℃ by the heater; if the second temperature sensor detects a room temperature >25 ℃, the heater heats the water to 43 ℃, providing a demand for "45 ℃ water that is suitable for different weather temperatures.

When the water storage container is positioned on the base, the second water outlet is communicated with the first water inlet on the water storage container, the water outlet valve is a three-way electromagnetic valve, and two water outlets of the three-way electromagnetic valve are respectively communicated with the first water outlet and the second water outlet.

From the above description, through two delivery ports of three-way solenoid valve control, can realize two containers water storage simultaneously to different delivery ports realize different functions.

Further, water container's bottom is equipped with the heating plate, when water container was located the base, the power supply end of heating plate contacted with the electrical connection terminal on the base, electrical connection terminal and the power electricity that sets up in base inside on the base are connected.

From the above description, it can be seen that the heating plate can always keep the water in the water storage container at 100 ℃ to ensure the water demand.

Further, the water heater also comprises a magnetizer, and the magnetizer is arranged on a pipeline between the water pump and the heater.

As can be seen from the above description, the magnetizer can magnetize water to ensure the quality of the supplied water.

Further, the heating device also comprises a sterilizer which is arranged on the pipeline between the magnetizer and the heater.

As can be seen from the above description, the sterilizer can sterilize the water entering the heater, ensuring the health of the drinking water.

Further, the ultraviolet sterilizer also comprises a ballast, wherein the sterilizer is an ultraviolet sterilizer, and the ballast is electrically connected with the ultraviolet sterilizer.

From the above description, the conduction of the ultraviolet lamp of the ultraviolet sterilizer can be controlled by the ballast, so that the water is sterilized by the ultraviolet lamp, and the health of drinking water is ensured.

Referring to fig. 1 to 5, a first embodiment of the present invention is:

a water boiler comprises a water tank 17, a base 1 and a water storage container 15.

The water tank 17 is arranged outside the base and is communicated with the second water inlet 2 of the base through a pipeline. The capacity of the water tank is 5L. The water tank is internally provided with a filter element which can filter the water in the water tank.

The first water inlet of the water storage container 15 is vertically arranged at the bottom of the water storage container. When the water storage container is placed on the base, a first water inlet of the water storage container is communicated with a first water outlet 13 of the base. The water storage container can be a kettle, a sterilizing pot, a cooking pot and the like.

The base 1 comprises a bottom shell, a glass panel, a second water inlet 2 and a first water outlet 13. The bottom shell is hollow inside, the upper end of the bottom shell is not provided with a top cover, the shape of the glass panel is the same as that of the bottom shell, and the glass panel is adhered to the bottom shell through glass cement so that the base forms a closed state with hollow inside. The second water inlet 2 is arranged on the side wall of the bottom shell, and the first water outlet is vertically arranged on the glass panel and penetrates through the glass panel.

The base is internally provided with a power supply, a control panel, a one-way valve 3, a silicon controlled heat dissipation block 4, a water flow sensor 5, a water pump 6, a first temperature sensor 7, a magnetizer 8, an ultraviolet sterilizer 9, a ballast 10, a heater 11 and an electromagnetic valve 12. Water in the water tank sequentially passes through a second water inlet, a one-way valve, a silicon controlled heat dissipation block, a water flow sensor, a water pump, a magnetizer, an ultraviolet sterilizer, a heater, an electromagnetic valve and a first water outlet of the base and then enters the water storage container through a first water inlet of the water storage container, and the second water inlet, the one-way valve, the silicon controlled heat dissipation block, the water flow sensor, the water pump, the magnetizer, the ultraviolet sterilizer, the heater, the electromagnetic valve and the first water outlet are communicated through pipelines. The first temperature sensor is installed in a pipeline between the controllable silicon radiating block and the heater. The second water inlet, the one-way valve, the silicon controlled heat dissipation block, the water flow sensor, the water pump, the magnetizer, the ultraviolet sterilizer, the heater and the electromagnetic valve are arranged at positions shown in figures 1 and 2, all components are tightly matched, the whole internal arrangement is simple and clear, and the size of the base can be controlled to be in a smaller state. The control panel is electrically connected with the power supply, the water flow sensor, the water pump, the first temperature sensor, the ballast, the heater and the electromagnetic valve. The ultraviolet sterilizer is electrically connected with the ballast. The control board is electrically connected with the ballast.

The pumping speed of the water pump 6 is 50ml/s, the rated voltage is 12V, and the control panel can control the pumping speed of the water pump to be different by providing different voltages of the water pump, such as: the water pump pumped up at a voltage of 6V was 25ml/s, and at a voltage of 12V was 50 ml/s. The one-way valve 3 is arranged at the second water inlet of the base, so that water can not flow back into the water tank after the water pump stops pumping water. The water flow sensor 5 can feed back the water quantity extracted by the control panel in real time, so that the water flow sensor can effectively prevent the water shortage in the water tank from transmitting signals to the control panel to close the water pump and the heater, and the heater is guaranteed against dry burning. The first temperature sensor can detect the temperature of water before entering the heater, and if the first temperature sensor detects that the room temperature is less than or equal to 15 ℃, the heater is controlled by the silicon controlled rectifier to heat the water to 48 ℃; if the first temperature sensor detects that the room temperature is more than 15 ℃, the water is heated to 43 ℃ by the thyristor controlled heater.

The magnetizer 8 can soften the water before the water enters the heater, so that the taste of the water is improved. The main control board can control the ballast to start the ultraviolet lamp in the ultraviolet sterilizer, sterilize the water entering the heater, further improve the water quality and ensure the safety of drinking water.

The maximum power of the heater 11 is 2100W, so that the water entering the heater can be instantly heated to 100 degrees, and the instant heating water outlet of the water boiler is realized. The heated water is discharged into the first water inlet from the first water outlet through the electromagnetic valve and then enters the water storage container.

The main control panel is provided with a display panel and functional keys such as '45', '100', 'sterilization' and 'intelligent'. Different functions can be realized through different keys, for example, 45 ℃ water can be discharged by pressing the '45' key, and 100 ℃ water can be discharged by pressing the '100' key.

The working principle of the water boiler of the embodiment is as follows:

s1: detecting whether a water storage container exists on the base, if not, displaying 'E' on the display panel; if yes, the display panel displays a "- - -" three-bar;

s2: when the water storage container is detected on the base,

if the '45' button is pressed, the heater heats the water to 45 ℃.

If the '100' button is pressed, the heater heats the water to 100 ℃.

If the intelligent key is pressed, the electromagnetic valve, the heater and the water pump are started, the heater heats water to 100 ℃, water at the temperature of 100 ℃ is injected into the water storage container, and when the water amount in the water storage container reaches a first preset water level, the electromagnetic valve, the heater and the water pump are closed, and the water injection into the container is stopped;

when the water amount in the water storage container is lower than a second preset water level (the second preset water level is lower than the first preset water level), the electromagnetic valve, the heater and the water pump are opened, the heater heats the water to 100 ℃, the water with the temperature of 100 ℃ is injected into the container, when the water amount in the container reaches the first preset water level, the electromagnetic valve, the heater and the water pump are closed, and the water injection into the container is stopped;

if the sterilization button is pressed, when the water pump is not started, the sterilization function is not started; when the water pump is started, the ultraviolet sterilization function is started to sterilize the water pumped into the heater by the water pump;

the second embodiment of the invention is as follows:

the embodiment is a further improvement of the first embodiment, and specifically includes: still include the second temperature sensor, the second temperature sensor is connected with the control panel electricity, and the second temperature sensor setting is used for detecting outdoor air in the base. Detecting the outdoor temperature through a second temperature sensor, and if the outdoor temperature detected by the second temperature sensor is less than or equal to 25 ℃, heating the water to 48 ℃ through a heater; if the second temperature sensor detects a temperature >25 ℃ outside the room, the heater heats the water to 43 ℃. Thus, the requirement of water with the temperature of 45 ℃ under different air temperatures can be met, and the milk powder brewing device is particularly suitable for the requirements of milk powder brewing for mothers and infants.

The third embodiment of the invention is as follows:

the embodiment is a further improvement of the first embodiment, and specifically includes: the bottom of the water storage container 15 is provided with a heating plate 16, a plurality of circles of circular bulges which are coaxial with the first water outlet are arranged around the first water outlet on the glass panel of the base, one of the circular bulges is provided with a contact terminal, and when the heating plate is placed on the base, the contact terminal in the circular bulge is coupled with (i.e. electrically connected with) the power supply end of the heating plate. The on-off of the heating plate is controlled by the control panel, so that the temperature of the outlet water can be always kept at 100 ℃.

The main control board is also provided with a disinfection button and a steaming/boiling button.

When the 'disinfection' button is pressed, the heater heats the water to 100 ℃, the working time of the water pump is set to 30S, meanwhile, the heating plate on the water storage container is powered on, the heating plate heats the water in the container, and therefore the water in the container is in a boiling state and lasts for 60S, and the disinfection effect is achieved.

When the button of steaming/boiling is pressed, the heater heats the water to 100 ℃, and the working time of the water pump is set to 60 s; meanwhile, the control panel supplies power to the heating plate, the heating plate heats the water in the container and the time is limited to 15-30min, so that the water in the container is in a boiling state.