CN111110036B - Water storage device and water purifying and drinking equipment - Google Patents

Abstract

The present application provides a water storage device and a drinking water purification device. The water storage device includes a first water tank, a second water tank, a first liquid level switch device, a heating device, and a third water tank. The second water tank is provided with a water replenishment port connected to the first water tank. The first liquid level switch device is provided at the water replenishment port. The water inlet port of the heating device is connected to the first water tank. The water outlet port of the heating device is connected to the water inlet port of the third water tank. The water outlet port of the third water tank is connected to the first water tank. The first water tank is provided with a water outlet. The second water tank is provided above the first water tank. The height of the third water tank is higher than the height of the first preset water level. The height of the third water tank is also higher than the height of the first preset water level. In use, when the drinking water in the first water tank is lower than the first preset water level, the first liquid level switch device can be used to control the second water tank to automatically replenish water into the first water tank until the liquid level in the first water tank reaches the first preset water level, without the need to rely on a water pump to frequently pump water for replenishment.

Description

Water storage device and water purifying and drinking equipment

Technical Field

The application belongs to the technical field of water purifying and drinking appliances, and particularly relates to a water storage device and water purifying and drinking equipment.

Background

Pipeline machines, also known as pipeline water dispensers, are commonly used with water purifiers, typically in homes, offices, schools, etc. When the pipeline machine is used, the water after the water purifier is filtered and purified is stored in the water storage tank of the pipeline machine in advance, and then the water stored in the water storage tank is heated by the heating pipe so as to provide hot water capable of being drunk directly.

In the pipeline machine in the current market, the water after filtration and purification is pumped to the water storage tank through the water pump generally, so that the water level in the water storage tank is kept at a preset water level, and the phenomenon of dry heating of the heating pipe caused by lower water level in the water storage tank is prevented. However, in the process of supplementing water into the water storage tank by the pipeline machine by means of the water pump, the water pump frequently pumps water to generate large noise, and when the water pump is blocked, idles and the like, the water level in the water storage tank cannot be kept at a preset water level, so that the heating pipe is dry burned to damage the pipeline machine.

Disclosure of Invention

The application aims to provide a water storage device, which solves the problems that a pipeline machine in the related art pumps water into a water storage tank frequently by means of a water pump, so that not only is large noise generated, but also the water level in the water storage tank cannot be kept at a preset water level when the water pump is blocked and idles.

In order to achieve the above purpose, the technical scheme adopted by the embodiment of the application is that a water storage device is provided, which comprises:

A first water tank for storing drinking water;

the second water tank is provided with a water supplementing port communicated with the first water tank and is used for storing drinking water and supplementing the drinking water into the first water tank;

a first liquid level switch device arranged at the water supplementing port to close the water supplementing port when the drinking water in the first water tank reaches a first preset water level, and

A heating device for heating drinking water;

the third water tank is used for storing the drinking water heated by the heating device;

The water inlet port of the heating device is communicated with the first water tank, the water outlet port of the heating device is communicated with the water inlet port of the third water tank, the water outlet port of the third water tank is communicated with the first water tank, a water outlet is arranged on the first water tank, the second water tank is arranged above the first water tank, the third water tank is arranged above the heating device, and the height of the third water tank is higher than the height of the first preset water level.

In one embodiment, the heating device comprises a heating container for containing drinking water, an electric heating body for heating the drinking water in the heating container, a first water pipe for communicating a water inlet port of the heating container with the first water tank and a second water pipe for communicating a water outlet port of the third water tank with the first water tank, and the electric heating body is arranged in the heating container.

In one embodiment, the heating container is tubular, one end of the first water pipe away from the first water tank is communicated with the bottom end of the heating container, the water inlet of the third water tank is communicated with the top end of the heating container, and the height of the top end of the heating container is lower than the height of the first preset water level.

In one embodiment, a partition plate for separating the third water tank into a boiling water accommodating cavity and a boiling water backflow cavity is arranged in the third water tank, the top edge of the partition plate is higher than the first preset water level, the top end of the heating container is communicated with the boiling water accommodating cavity, and one end of the second water pipe, which is far away from the first water tank, is communicated with the bottom of the boiling water backflow cavity.

In one embodiment, the third water tank is further provided with a boiling water outlet for discharging boiling water in the boiling water accommodating cavity.

In one embodiment, the water storage device further comprises a temperature sensor for detecting the temperature of the drinking water in the first water tank and a controller for controlling the heating device to heat according to the temperature information detected by the temperature sensor, wherein the temperature sensor and the heating device are respectively and electrically connected with the controller.

In one embodiment, a baffle plate for slowing down the mixing speed of the drinking water flowing into the first water tank from the water supplementing port and the drinking water in the first water tank is arranged in the first water tank, the arrangement position of the baffle plate corresponds to the position of the water supplementing port, and a gap for the water supplementing port to flow into the drinking water is formed between the baffle plate and the inner side wall of the first water tank.

In one embodiment, the second water tank is provided with a water inlet, and the water storage device further comprises a second liquid level switch device arranged at the water inlet to close the water inlet when the drinking water in the second water tank reaches a second preset water level.

In one embodiment, the first liquid level switch device is a float valve or a float switch.

The second purpose of the application is to provide a pipeline machine, so as to solve the problems that the pipeline machine of the purified drinking device in the related art frequently pumps water into the water storage tank by means of the water pump and supplements water, not only generates larger noise, but also causes that the water level in the water storage tank cannot be kept at the preset water level when the water pump is blocked and idles.

In order to achieve the purpose, the technical scheme adopted by the embodiment of the application is that the water purifying and drinking equipment comprises the water storage device.

The above technical solutions in the embodiments of the present application have at least one of the following technical effects:

Compared with the prior art, the water storage device and the purified drinking device have the advantages that when the purified drinking device and the purified drinking device are used, when the drinking water in the first water tank is lower than the first preset water level, the first liquid level switch device opens the water supplementing port, the second water tank above the first water tank automatically supplements the drinking water into the first water tank until the liquid level in the first water tank reaches the first preset water level, and the first liquid level switch device closes the water supplementing port. Therefore, the second water tank can be controlled by the first liquid level switch device to automatically replenish water to the first water tank in time, the water pump is not required to be used for pumping water frequently, the large noise generated by the water purifying and drinking equipment during water replenishing is avoided, the situation that the water level in the water storage tank cannot be kept at the preset water level due to the fact that the water pump is blocked and idles is prevented, and the water level control device is safe and reliable. And, store the drinking water after the heating device heats through the third water tank, because the height of third water tank is higher than the height at first water level place of predetermineeing, can prevent effectively that the drinking water in the first water tank from flowing backwards, effectively improve heating device to the heating efficiency of drinking water, and then make heating device can heat the drinking water to boiling fast.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic perspective view of a water storage device according to an embodiment of the present application;

fig. 2 is a schematic cross-sectional structure of a water storage device according to an embodiment of the present application;

Fig. 3 is an exploded schematic view of a first water tank and a second water tank according to an embodiment of the present application;

FIG. 4 is a schematic diagram of an explosion structure of a heating device according to an embodiment of the present application;

fig. 5 is a schematic structural view of a third water tank with a partition board according to an embodiment of the present application.

Wherein, each reference numeral in the figure mainly marks:

1-a first water tank, 11-a water outlet;

2-a second water tank, 21-a water inlet, 22-a water supplementing port and 23-a cover body;

3-a first liquid level switch device, 31-a valve, 32-a valve rod, 33-a floating ball and 34-a connecting rod;

4-heating device, 41-heating container, 42-electric heating body, 43-first water pipe and 44-second water pipe;

5-a third water tank; 51-boiling water accommodating cavity, 52-boiling water reflux cavity, 53-boiling water outlet;

6-a separator;

7-baffle plate, 71-gap;

8-a second liquid level switch device.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

It will be understood that when an element is referred to as being "connected to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise. The meaning of "a number" is one or more than one unless specifically defined otherwise.

In the description of the present application, unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, mechanically connected, electrically connected, directly connected, indirectly connected via an intervening medium, or in communication between two elements or in an interaction relationship between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1, 2 and 3, a water storage device according to the present application will be described. The application provides a water storage device, which comprises a first water tank 1, a second water tank 2, a first liquid level switch device 3, a heating device 4 and a third water tank 5, wherein the first water tank 1 is used for storing drinking water, and water is supplied to the heating device 4 through the first water tank 1, so that the heating device 4 heats the drinking water. The second water tank 2 is provided with a water supplementing port 22 communicated with the first water tank 1, the first liquid level switch device 3 is arranged at the water supplementing port 22, when the drinking water in the first water tank 1 is lower than a first preset water level, the first liquid level switch device 3 opens the water supplementing port 22, the second water tank 2 above the first water tank 1 automatically supplements stored drinking water into the first water tank 1 through the opened water supplementing port 22 until the liquid level in the first water tank 1 reaches the first preset water level, and the first liquid level switch device 3 closes the water supplementing port 22. The water inlet port of the heating device 4 is communicated with the first water tank 1, the water outlet port of the heating device 4 is communicated with the water inlet port of the third water tank 5, the water outlet port of the third water tank 5 is communicated with the first water tank 1, a water outlet 11 is arranged on the first water tank 1, the second water tank 2 is arranged above the first water tank 1, and the height of the third water tank 5 is higher than the height of the first preset water level. When in use, the third water tank is positioned above the heating device, so that the drinking water heated by the heating device 4 is concentrated and stored by the third water tank 5, and the heating efficiency of the heating device 4 on the drinking water is improved. And, the height of the third water tank 5 is higher than the height of the first preset water level, so that the backflow of the drinking water in the first water tank 1 is prevented, and the heating device 4 can rapidly heat the drinking water to boiling.

Specifically, the drinking water mentioned in the present application may be purified drinking water filtered and purified by a purifying device, pure drinking water obtained by distillation, tap water or mineral water capable of being directly drunk, and the specific type of drinking water may be selected according to the actual use requirement, and is not limited only herein.

Compared with the prior art, when the water storage device provided by the application is used, when the drinking water in the first water tank 1 is lower than the first preset water level, the first liquid level switch device 3 opens the water supplementing port 22, the second water tank 2 positioned above the first water tank 1 automatically supplements the drinking water into the first water tank 1, and when the liquid level in the first water tank 1 reaches the first preset water level, the first liquid level switch device 3 closes the water supplementing port 22. Therefore, the second water tank 2 can be controlled by the first liquid level switch device 3 to automatically supplement water to the first water tank 1 in time, the water pump is not required to be relied on to pump water frequently for supplementing water, the large noise generated by the water purifying device during water supplementing is avoided, the situation that the water level in the water storage tank cannot be kept at the preset water level due to the fact that the water pump is blocked and idles is prevented, and the water level control device is safe and reliable. And, store the drinking water after the heating device 4 heats through the third water tank 5, because the height of third water tank 5 is higher than the height at first water level place of predetermineeing, can effectively prevent the drinking water refluence in the first water tank 1, effectively improve heating device 4 to the heating efficiency of drinking water, and then make heating device 4 can heat the drinking water to boiling fast.

In an embodiment, referring to fig. 1,2 and 3, as a specific implementation manner of the water storage device provided by the present application, the second water tank 2 is disposed on the first water tank 1, the bottom of the second water tank 2 is covered on the tank opening of the first water tank 1, and the water supplementing port 22 is opened at the bottom of the second water tank 2, so that the second water tank 2 automatically and rapidly supplements water into the first water tank 1, and the volume of the water storage device is reduced. And, be equipped with lid 23 on the mouth of second water tank 2 to play dustproof effect, avoid the drinking water pollution in the second water tank 2.

In an embodiment, referring to fig. 2 and 3, as a specific implementation manner of the water storage device provided by the present application, the first liquid level switch device 3 is a float valve, and the float valve may adopt any one of float valve structures in the prior art capable of controlling the opening or closing of the valve 31 according to the level change. The float valve in this embodiment includes a valve 31 disposed at the water filling port 22, a valve rod 32 driving the valve 31 to move up and down to open or close the water filling port 22, a float 33 disposed in the first water tank 1, and a connecting rod 34 connecting the valve rod 32 and the float 33, wherein the connecting rod 34 is rotatably disposed on the first water tank 1. When the liquid level in the first water tank 1 is lowered to be lower than the first preset water level, the lever is used for being away, the floating ball 33 is lowered and drives one end of the connecting rod 34 to swing, the other end of the connecting rod 34 drives the valve rod 32, the valve rod 32 drives the valve rod 32 to move up and down so as to open the water supplementing port 22, the second water tank 2 automatically supplements stored drinking water into the first water tank 1, and the floating ball 33 also floats upwards along with the rising of the liquid level in the first water tank 1. When the liquid level in the first water tank 1 reaches the first preset water level, the lever is used for being far away, the floating ball 33 drives one end of the connecting rod 34 to swing in the direction, the other end of the connecting rod 34 drives the valve rod 32, and the valve rod 32 drives the valve rod 32 to move up and down so as to close the water supplementing port 22, and water supplementing to the first water tank 1 is stopped. Therefore, the second water tank 2 can be controlled by the ball float valve to automatically supplement water to the first water tank 1 in time, water pumping and water supplementing by a water pump are not needed, and the large noise generated by the water purifying and drinking equipment during water supplementing is avoided.

In another embodiment, the first liquid level switch device 3 is a float switch, and the float switch can be any liquid level control device in the prior art capable of controlling the opening or closing of the liquid filling port according to the change of the liquid level. When the drinking water in the first water tank 1 is lower than a first preset water level, the float switch opens the water supplementing port 22, and then the second water tank 2 automatically supplements the stored drinking water into the first water tank 1 until the liquid level in the first water tank 1 reaches the first preset water level, and the float switch closes the water supplementing port 22. Therefore, the second water tank 2 can be controlled to automatically supplement water to the first water tank 1 in time through the float switch, water pumping and water supplementing by a water pump are not needed, and the large noise generated by the water purifying and drinking equipment during water supplementing is avoided.

In another embodiment, the first liquid level switching device 3 may also be a liquid level switching control device with a liquid level sensor and solenoid valve structure, and may include a liquid level sensor provided in the first water tank 1, a solenoid valve provided at the water supplementing port 22, and a controller for controlling the opening and closing of the solenoid valve according to liquid level information detected by the liquid level sensor. When the drinking water in the first water tank 1 is lower than a first preset water level, the controller controls the electromagnetic valve to open the water supplementing port 22 according to the liquid level information detected by the liquid level sensor, and then the second water tank 2 automatically supplements the stored drinking water into the first water tank 1 until the liquid level in the first water tank 1 reaches the first preset water level, and the controller controls the electromagnetic valve to open and close according to the liquid level information detected by the liquid level sensor. Therefore, the second water tank 2 can be controlled to automatically supplement water to the first water tank 1 in time through the float switch, water pumping and water supplementing by a water pump are not needed, and the large noise generated by the water purifying and drinking equipment during water supplementing is avoided.

In an embodiment, referring to fig. 2 and 4, as a specific implementation manner of the water storage device provided by the present application, the heating device 4 includes a heating container 41 for containing drinking water, an electric heating body 42 for heating the drinking water in the heating container 41, a first water pipe 43 for communicating the water inlet port of the heating container 41 with the first water tank 1, and a second water pipe 44 for communicating the water outlet port of the third water tank 5 with the first water tank 1, wherein the electric heating body 42 is disposed in the heating container 41.

In this embodiment, by providing a heating device for heating drinking water, the heating device includes a heating container 41, an electric heating body 42 disposed in the heating container 41, a first water pipe 43 communicating a water inlet port of the heating container 41 with the first water tank 1, and a second water pipe 44 communicating a water outlet port of the heating container 41 with the first water tank 1. When the water heater is used, drinking water in the first water tank 1 enters the heating container 41 through the first water pipe 43, after the drinking water in the heating container 41 is heated to boiling through the electric heating body 42, the boiling water in the heating container 41 flows into the third water tank 5 from the water outlet port of the heating container, the boiling water concentrated in the third water tank 5 flows back into the first water tank 1 through the second water pipe 44, the boiling water flowing back into the first water tank 1 and normal-temperature water in the first water tank 1 are mixed to form warm water with a certain temperature, and the mixed warm water can be conveyed to the water intake of the water purifying device through the water guide pipe communicated with the water outlet 11 for users to drink.

In an embodiment, referring to fig. 4, as a specific embodiment of the water storage device provided by the present application, the heating container 41 is tubular, one end of the first water pipe 43 away from the first water tank 1 is communicated with the bottom end of the heating container 41, the water inlet of the third water tank 5 is communicated with the top end of the heating container 41, and the top end of the heating container 41 is lower than the first preset water level.

In this embodiment, by arranging the tubular heating container 41 and extending the tubular heating container 41 axially along the vertical direction, the height of the water outlet at the top end of the tubular heating container 41 is lower than the height of the first preset water level. When the water purifying device is used, drinking water in the first water tank 1 enters the tubular heating container 41 through the first water pipe 43 from the water inlet at the bottom end of the tubular heating container 41, after the drinking water in the tubular heating container 41 is heated to boiling through the electric heating body 42, the boiling water in the tubular heating container 41 overflows from the water outlet at the top end of the tubular heating container 41 under the action of thermal expansion and contraction of water, the overflowed boiling water can be concentrated and stored in the third water tank 5, the boiling water concentrated and stored in the third water tank 5 can flow back into the first water tank 1 through the second water pipe 44, the boiling water flowing back into the first water tank 1 and normal-temperature water in the first water tank 1 are mixed to form warm water with a certain temperature, the mixed warm water can be quickly heated in a mixed mode through self-circulation of water, and the mixed warm water can be conveyed to the water intake of the water purifying device through the water guide pipe communicated with the water outlet 11 for drinking by a user.

In one embodiment, the tubular heating vessel 41 is a high temperature resistant quartz tube, and the electric heater 42 is a heat generating layer coated on the inner wall of the quartz tube. The electric heater 42 may be an electric heater such as an electric heating wire or a spot heating wire disposed in a quartz tube. Of course, the tubular heating vessel 41 may be a steel pipe coated with an insulating layer or an insulating ceramic heating pipe. Specifically, the specific material of the tubular heating container 41 may be selected according to practical needs, and is not limited herein.

In an embodiment, referring to fig. 2 and 4, as a specific embodiment of the water storage device provided by the present application, the third water tank 5 is higher than the first preset water level, and the tubular heating container 41 is located below the third water tank 5.

In this embodiment, by setting the third water tank 5, and the height of the third water tank 5 is higher than the height of the first preset water level, the tubular heating container 41 is located below the third water tank 5, so that boiling water overflowed from the water outlet at the top end of the tubular heating container 41 is conveniently concentrated and stored, and drinking water with normal temperature in the first water tank 1 is effectively prevented from flowing back to the tubular heating container 41 through the second water pipe 44, so that the heating efficiency and effect of the electric heating body 42 on the drinking water in the tubular heating container 41 are affected, the electric heating body 42 is enabled to rapidly and efficiently heat the drinking water in the tubular heating container 41 to boiling, and a user can conveniently take the boiling water for drinking.

In an embodiment, referring to fig. 5, as a specific implementation manner of the water storage device provided by the application, a partition plate 6 for separating the third water tank 5 into a boiling water accommodating cavity 51 and a boiling water backflow cavity 52 is arranged in the third water tank 5, the top edge of the partition plate 6 is higher than the first preset water level, the top end of the heating container 41 is communicated with the boiling water accommodating cavity 51, and one end of the second water pipe 44 away from the first water tank 1 is communicated with the bottom of the boiling water backflow cavity 52.

In this embodiment, by disposing the partition plate 6 in the third water tank 5, the third water tank 5 is partitioned by the partition plate 6 to form the boiling water accommodating chamber 51 and the boiling water reflux chamber 52, and under the thermal expansion effect, the boiling water in the tubular heating container 41 can continuously overflow into the boiling water accommodating chamber 51 through the water outlet at the top end thereof, so that the boiling water is concentrated and stored in the boiling water accommodating chamber 51. When the height of the corresponding side edge of the partition plate 6 is higher than the height of the first preset water level, and when the water level of the boiling water in the boiling water accommodating cavity 51 is higher than the height of the corresponding side edge of the partition plate 6, the boiling water in the boiling water accommodating cavity 51 overflows to the boiling water reflux cavity 52 through the corresponding side edge of the partition plate 6, and the boiling water overflowed to the boiling water reflux cavity 52 flows back to the first water tank 1 through the second water pipe 44, so that the refluxed boiling water is mixed with normal-temperature drinking water in the first water tank 1 to form warm water with a required temperature. In addition, as the partition plate 6 is arranged in the third water tank 5, the height of the corresponding side edge of the partition plate 6 is higher than the height of the first preset water level, so that normal-temperature drinking water in the first water tank 1 is further prevented from flowing backwards into the tubular heating container 41.

In an embodiment, referring to fig. 1,2 and 4, as a specific embodiment of the water storage device provided by the present application, the third water tank 5 is further provided with a boiling water outlet 53 for discharging boiling water in the boiling water accommodating cavity 51.

In the present embodiment, by further providing the third water tank 5 with the boiling water outlet 53 for discharging the boiling water in the boiling water accommodating chamber 51, the boiling water can be supplied to the water intake of the clean drinking device through the water guide pipe communicated with the boiling water outlet 53 for the user to drink. And, the boiling water outlet 53 is opened in the bottom of the third water tank 5, there is a control valve in the boiling water outlet 53 to control the opening and closing of the boiling water outlet 53, when the user needs to drink the boiling water, the control valve opens the boiling water outlet 53, the boiling water in the boiling water accommodating cavity 51 is transported to the water intake of the clean drinking device through the water guide pipe, for the user to drink the boiling water. When the user does not need to drink the boiling water, the boiling water in the boiling water accommodating cavity 51 overflows to the corresponding side edge through the partition plate 6 to overflow to the boiling water backflow cavity 52, and the boiling water overflowed to the boiling water backflow cavity 52 can flow back to the first water tank 1 through the second water pipe 44, so that the backflow boiling water is mixed with normal-temperature drinking water in the first water tank 1 to form warm water with a required temperature.

In an embodiment, referring to fig. 5, as a specific embodiment of the water storage device provided by the present application, a boiling water overflow port and a boiling water return port are respectively provided on the third water tank 5, the boiling water overflow port is communicated with the boiling water accommodating cavity 51, the boiling water return port is communicated with the boiling water return cavity 52, the boiling water overflow port is communicated with the water outlet port at the top end of the heating container 41, and the boiling water return port is communicated with the other end of the second water pipe 44.

In this embodiment, the bottom of the third water tank 5 is provided with the boiling water overflow port and the boiling water return port respectively, so that the boiling water overflow port is communicated with the water outlet port at the top end of the heating container 41, and the boiling water return port is communicated with the other end of the second water pipe 44, so that the heating container 41 and the second water pipe 44 are conveniently connected and installed with the third water tank 5. And, locate boiling water overflow outlet and boiling water reflux port in the bottom of the third water tank 5 separately, the water outlet port of the top of the easy boiling water self-heating container 41 overflows to the boiling water holding cavity 51 of the third water tank 5 and stores, and the boiling water easy to overflow to the boiling water reflux cavity 52 flows back to the first water tank 1 through the second water pipe 44 and heats in a mixed way.

In one embodiment, as a specific implementation manner of the water storage device provided by the application, the water storage device further comprises a temperature sensor (not shown in the figure) for detecting the temperature of the drinking water in the first water tank 1 and a controller (not shown in the figure) for controlling the heating operation of the heating device 4 according to the temperature information detected by the temperature sensor, wherein the temperature sensor and the heating device 4 are respectively electrically connected with the controller.

In this embodiment, by setting a temperature sensor and a controller for controlling the heating device to heat according to the temperature information detected by the temperature sensor, a user can preset warm water with a required temperature on the controller, when the temperature sensor detects that the water temperature in the first water tank 1 obtained by mixing return boiling water with normal-temperature drinking water reaches the preset temperature, the temperature sensor feeds back a detected temperature signal to the controller, and the controller controls the heating device to heat according to the temperature information detected by the temperature sensor, so that the heating device is automatically controlled and energy is saved.

In an embodiment, referring to fig. 3, as a specific embodiment of the water storage device provided by the application, a baffle 7 for slowing down the mixing speed of the drinking water flowing into the first water tank 1 from the water compensating port 22 and the drinking water in the first water tank 1 is disposed in the first water tank 1, the position of the baffle 7 corresponds to the position of the water compensating port 22, and a gap 71 for the water flowing into the drinking water from the water compensating port 22 is formed between the baffle 7 and the inner side wall of the first water tank 1.

In this embodiment, the baffle 7 is disposed in the first water tank 1, and the disposed position of the baffle 7 corresponds to the position of the water compensating port 22, so that when the second water tank 2 supplements water to the first water tank 1, the drinking water flowing into the first water tank 1 from the water compensating port 22 is prevented from being mixed with the drinking water in the first water tank 1 locally and rapidly under the blocking effect of the baffle 7, and the drinking water flowing into the first water tank 1 from the water compensating port 22 can only be slowly mixed with the drinking water in the first water tank 1 through the gap 71 formed between the baffle 7 and the inner side wall of the first water tank 1, thereby ensuring that the normal temperature drinking water flowing into the first water tank 1 from the water compensating port 22 is uniformly mixed with the drinking water with a certain temperature in the first water tank 1, avoiding the phenomenon that the normal temperature drinking water flowing into the first water tank 1 from the water compensating port 22 causes larger fluctuation to the water temperature in the first water tank 1, and the local temperature is lower, so that the temperature sensor cannot accurately detect the water temperature in the first water tank 1, thereby making the water temperature of the required to be worth the clean water.

In an embodiment, referring to fig. 2 and 3, as a specific implementation manner of the water storage device provided by the present application, the second water tank 2 is provided with a water inlet 21, and the water storage device further includes a second liquid level switch device 8 provided at the water inlet 21 to close the water inlet 21 when the drinking water in the second water tank 2 reaches a second preset water level.

In this embodiment, by providing the second liquid level switching device 8 at the water inlet 21 of the second water tank 2, when the drinking water in the second water tank 2 is lower than the second preset water level, the second liquid level switching device 8 opens the water inlet 21, so that the drinking water can be timely replenished to the second water tank 2 through an external pipeline communicated with the water inlet 21. Until the potable water in the second water tank 2 reaches a second preset water level, the second liquid level switching device 8 closes the water inlet 21. Therefore, the liquid level in the second water tank 2 can be kept at the preset water level, the second water tank 2 can supplement water in the first water tank 1 stably and reliably, the safety and reliability of the water storage device are improved, the situation that the liquid level in the second water tank 2 is low and water can not be supplemented to the first water tank 1 in time is avoided, the liquid level in the first water tank 1 is insufficient, heating pipes are dry-burned, and equipment damage and safety accidents are caused.

Specifically, the second liquid level switch device 8 may have the same structure as the first liquid level switch device 3, and the second liquid level switch device 8 may be a float valve or a float ball liquid level switch in the prior art, or may be a liquid level switch control device having a liquid level sensor and a solenoid valve structure.

The application also provides a water purifying and drinking device which comprises the water storage device.

Compared with the prior art, the water purifying and drinking equipment provided by the application comprises the water storage device, when the drinking water in the first water tank 1 is lower than the first preset water level in use, the first liquid level switch device 3 opens the water supplementing port 22, the second water tank 2 positioned above the first water tank 1 automatically supplements the drinking water in the first water tank 1 until the liquid level in the first water tank 1 reaches the first preset water level, and the first liquid level switch device 3 closes the water supplementing port 22. Therefore, the second water tank 2 can be controlled by the first liquid level switch device 3 to automatically supplement water to the first water tank 1 in time, the water pump is not required to be relied on to pump water frequently for supplementing water, the large noise generated by the water purifying device during water supplementing is avoided, the situation that the water level in the water storage tank cannot be kept at the preset water level due to the fact that the water pump is blocked and idles is prevented, and the water level control device is safe and reliable. And, store the drinking water after the heating device 4 heats through the third water tank 5, because the height of third water tank 5 is higher than the height at first water level place of predetermineeing, can effectively prevent the drinking water refluence in the first water tank 1, effectively improve heating device 4 to the heating efficiency of drinking water, and then make heating device 4 can heat the drinking water to boiling fast.

The foregoing description of the preferred embodiments of the application is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the application.

Claims (7)

1. A water storage device, comprising: A first water tank for storing drinking water; a second water tank, provided with a water filling port in communication with the first water tank, for storing drinking water and replenishing the drinking water into the first water tank; a first liquid level switch device, provided at the water filling port, for closing the water filling port when the drinking water in the first water tank reaches a first preset water level; Heating devices for heating drinking water; and a third water tank, for storing drinking water heated by the heating device; The water inlet port of the heating device is connected to the first water tank via a first water pipe, the water outlet port of the heating device is connected to the water inlet port of the third water tank, and the water outlet port of the third water tank is connected to the first water tank via a second water pipe, and the first water tank is provided with a water outlet; the second water tank is provided above the first water tank, and the third water tank is located above the heating device, and the height of the third water tank is higher than the height of the first preset water level; The first water tank is provided with a baffle for slowing down the mixing speed of the drinking water flowing into the first water tank through the water filling port and the drinking water in the first water tank. The baffle is provided at a position corresponding to the position of the water filling port, and a gap is formed between the baffle and the inner side wall of the first water tank for the drinking water flowing into the water filling port. The first liquid level switch device is a float valve or a float switch; The heating device includes a heating container for accommodating drinking water, and the heating container is tubular. The end of the first water pipe away from the first water tank is connected to the bottom end of the heating container, and the water inlet port of the third water tank is connected to the top of the heating container, and the height of the top of the heating container is lower than the height of the first preset water level. A partition is provided in the third water tank to separate the third water tank into a boiling water accommodating chamber and a boiling water reflux chamber. The height of the top edge of the partition is higher than the height of the first preset water level. The top of the heating container is connected to the boiling water accommodating chamber, and the end of the second water pipe away from the first water tank is connected to the bottom of the boiling water reflux chamber. 2. The water storage device according to claim 1 is characterized in that the heating device further includes an electric heating body for heating the drinking water in the heating container, the first water pipe and the second water pipe, and the electric heating body is placed in the heating container. 3. The water storage device according to claim 1, characterized in that the third water tank is further provided with a boiling water drain outlet for discharging the boiling water in the boiling water accommodating chamber. 4. The water storage device according to any one of claims 2 to 3 is characterized in that the water storage device further includes a temperature sensor for detecting the temperature of the drinking water in the first water tank and a controller for controlling the heating operation of the heating device according to the temperature information detected by the temperature sensor, and the temperature sensor and the heating device are electrically connected to the controller respectively. 5. The water storage device according to any one of claims 1 to 3 is characterized in that a water inlet is provided on the second water tank, and the water storage device further comprises a second liquid level switch device provided at the water inlet to close the water inlet when the drinking water in the second water tank reaches a second preset water level. 6. The water storage device according to claim 1 is characterized in that the float valve includes a valve arranged at the water supply port, a valve stem that drives the valve to move up and down to open or close the water supply port, a float placed in the first water tank, and a connecting rod connecting the valve stem and the float, and the connecting rod is rotatably arranged on the first water tank. 7. A drinking water purification device, characterized in that it comprises the water storage device according to any one of claims 1 to 6.