CN220393494U - Heat-purifying all-in-one and water purifying and drinking system - Google Patents

Abstract

The utility model relates to a clean drinking system, and discloses a clean heating all-in-one machine and a clean drinking system, wherein the clean heating all-in-one machine comprises: the filtering module is used for filtering and purifying tap water; the pure water tank is used for storing purified pure water, the pure water tank is provided with an interface structure for installing a standby water storage structure, and the inside pure water of the standby water storage structure can flow into the pure water tank after the standby water storage structure is installed on the interface structure. The clean drink system comprises a clean heat integrated machine and a water purifier, wherein a clean water outlet of the water purifier is connected with a water inlet of a clean water tank of the clean heat integrated machine. The utility model provides a reserve water storage structure through setting up when running water cuts off water or the unable normal water production of net heat all-in-one filtration module trouble, can install reserve water storage structure on the interface structure of pure water tank, provide the pure water to the pure water tank through reserve water storage structure to realize the demand that continuous water intaking was drunk, perhaps when having the big water yield demand, also accessible purifier provides the water purification to the pure water tank, satisfies user's different demands.

Description

Heat-purifying all-in-one and water purifying and drinking system

Technical Field

The utility model relates to a clean drinking system, in particular to a clean heat integrated machine and a clean drinking system.

Background

The heat purifying integrated machine is a novel water purifier integrating water purifying and heating functions, the step of receiving water for users and boiling water is omitted, purified pure hot water is boiled and drunk, and the water purifying integrated machine is more convenient, healthy and safe. Therefore, the net heat integrated machine is used by more and more users, and is widely used in kitchens, offices, living rooms, and the like.

However, the traditional heat-purifying integrated machine has the problem that the water production capacity is small, and the water drinking or other large water quantity requirements of multiple people cannot be met. In addition, the problem that users cannot continuously drink hot water because tap water is cut off or the filter module of the heat-purifying all-in-one machine fails to produce water normally often occurs in the use process, and the user experience is seriously affected.

Disclosure of Invention

In view of this, the utility model provides a heat-purifying integrated machine and a water purifying and drinking system, so as to solve the problems that the heat-purifying integrated machine in the prior art has small water production capacity, cannot meet the requirements of multiple people for drinking water or other large water quantities, and can not normally produce water due to tap water cut-off or failure of a filtering module of the heat-purifying integrated machine in the use process, so that users can not drink hot water continuously.

In a first aspect, the utility model provides a net heat integrated machine, which comprises a filtering module and a pure water tank, wherein the filtering module is used for filtering and purifying tap water; the pure water tank is used for storing pure water purified by the filtering module, an interface structure used for installing a standby water storage structure is arranged at the top of the pure water tank, pure water is contained in the standby water storage structure, and the pure water inside the standby water storage structure can flow into the pure water tank after the standby water storage structure is installed on the interface structure.

The beneficial effects are that: through the reserve water storage structure that sets up, when running water cuts off water supply or the unable normal water production of net heat all-in-one filtration module trouble, then can install reserve water storage structure to the interface structure at net water tank top of net heat all-in-one for reserve water storage structure is linked together with the pure water tank, and the pure water in the reserve water storage structure then naturally flows into in the pure water tank under the effect of differential pressure, realizes the demand that continuous water intaking drunk, greatly improved user's use experience, the effectual filtration module trouble that has solved current net heat all-in-one often appears because of running water cuts off water supply or net heat all-in-one can't normally produce water in the use, lead to the unable problem of drinking hot water that lasts of user.

In an alternative embodiment, the interface structure includes a mounting interface and a dust cap, the mounting interface being disposed on a top wall of the pure water tank; the dust cap is detachably mounted on the mounting interface.

The beneficial effects are that: when the spare water storage structure is not needed, the dustproof cover can be arranged on the installation interface, dust, impurities and the like are prevented from falling into the exposed installation interface, the cleanness and sanitation of the water quality in the pure water tank are affected, when the water cannot be normally produced due to the failure of the filtering module of the tap water cutting-off or heat purifying integrated machine, the dustproof cover can be opened, bottled water or barreled water is inversely arranged on the interface structure, the water inside the bottled water or barreled water naturally flows into the pure water tank under the drop pressure, the continuous water drinking requirement is realized, and the whole process is very convenient and fast to operate.

In an alternative embodiment, the dust cover is connected with the pure water tank through an elastic rope.

The beneficial effects are that: through the elastic rope that sets up for when the dismouting shield, the shield can not take place to drop, lose etc. condition.

In an alternative embodiment, can be in integrative or fixed being provided with convex first connecting portion on the roof of pure water tank, be equipped with first connecting hole in the first connecting portion, corresponding also be provided with second connecting portion on the outer wall of shield, be equipped with the second connecting hole in the first connecting portion, the elastic cord passes first connecting hole and second connecting hole connect pure water tank with the shield, so the design, in the normal dismouting of not influencing the shield, can effectually avoid the shield to drop, the phenomenon emergence of losing.

In an alternative embodiment, the back-up water storage structure comprises bottled water or barreled water.

The beneficial effects are that: can compatible bottled water or bottled water use when running water cuts off water or filtration module trouble, a tractor serves several functions, it is also very convenient to use, can realize that the net heat all-in-one is continuous to produce water operation, satisfies the demand that the user all sustainable water intaking drunk under different operating mode circumstances.

In an alternative embodiment, the back-up water storage structure has a water outlet adapted for mating engagement with the interface structure.

In an alternative embodiment, the filter module is connected to a tap or a tap water tank via a first line, on which a first electrical switching element is arranged.

The beneficial effects are that: through the first electric switch element that sets up, when needs water, then control first electric switch element and open to can realize that electric control is automatic to net hot all-in-one adds running water, need not manual frequent running water, thereby can realize net hot all-in-one and continue the water intaking and drink.

In an alternative embodiment, the water inlet of the filter module is connected to the water outlet of a tap water tank, which is connected to a tap water tap.

The beneficial effects are that: the running water tank through setting up can store a certain amount of water, guarantees to cut off water or water pressure when unstable can normally prepare a certain amount of hot water to emergent reserve.

In an alternative embodiment, the net heat integration machine further includes:

the first detection module is arranged on the running water tank and is used for detecting water quantity information in the running water tank;

the control module is respectively and electrically connected with the first detection module and the first electric switching element, and is suitable for automatically controlling the switching of the first electric switching element according to the water quantity information detected by the first detection module.

The beneficial effects are that: the water quantity in the running water tank is detected through the first detection module, when the water quantity is lower than the set water quantity, the water quantity is fed back to the control module, the control module controls the first electric switch element to be opened, tap water is automatically added, and the automatic tap water adding of the heat-purifying integrated machine is realized through external automatic water adding control and an external water source connecting mode.

In an alternative embodiment, the first detection module comprises a pressure detection unit or a weight detection unit or a water level detection unit.

When the first detection module is a pressure detection unit, the first detection module can be arranged in the running water tank or at the bottom of the running water tank, and the water quantity information in the running water tank is judged by detecting the water pressure in the running water tank or the pressure of the whole running water tank. When the first detection module is a weight detection unit, the first detection module can be arranged at the bottom of the running water tank, and the water quantity information in the running water tank is judged by detecting the weight of the whole running water tank. When the first detection module is a water level detection unit, the first detection module can be arranged at the bottom of the running water tank, and the water quantity in the running water tank is judged by detecting the water level information in the whole running water tank.

The beneficial effects are that: when the second detection module detects that the water quantity in the pure water tank is lower than the first set threshold value, the second electric switch element can be controlled to be turned on, the filter module, the pressure pump and the like are controlled to start to prepare pure water so as to reserve a certain quantity of pure water for standby, and when the first detection module detects that the water quantity in the pure water tank is higher than the second set threshold value, the second electric switch element is controlled to be turned off, and the filter module, the pressure pump and the like are controlled to stop preparing the pure water. The net heat all-in-one that this embodiment provided not only can be according to the water yield information automatic water adding and stopping that the running water tank detected, but also can realize that entire system automatic start, stop produce water, degree of automation and intelligent are higher according to the water yield information of pure water tank.

In an alternative embodiment, an ultraviolet sterilizing lamp is arranged in the pure water tank, and the ultraviolet sterilizing lamp is used for sterilizing pure water in the pure water tank.

The beneficial effects are that: the pure water in the pure water tank is irradiated through the ultraviolet sterilizing lamp, the pure water is sterilized, the fresh and safe water quality is protected, the pure water can reach the sterile state, the drinking water prepared by the pure heat integrated machine can be further ensured to be in the safe and sanitary state, and the aim of healthy, safe and sterile drinking is realized.

In an alternative embodiment, the water inlet of the pure water tank is connected with the pure water outlet of the filtering module through a second pipeline, and a second electric switch element is arranged on the second pipeline; the heat-purifying all-in-one machine further comprises a second detection module, wherein the second detection module is arranged on the pure water tank and used for detecting water quantity information in the pure water tank, the second detection module is connected with a control module of the heat-purifying all-in-one machine, and the control module is suitable for automatically controlling the switch of the second electric switching element according to the water quantity information in the pure water tank detected by the second detection module.

In an alternative embodiment, the filtration module further comprises a concentrate outlet adapted to be connected to a concentrate tank, wherein an overflow is provided in the concentrate tank, which overflow is adapted to be connected to an external drainage system.

In an alternative embodiment, the filtration module comprises a plurality of stages of filter elements arranged in succession in the direction of water flow.

In an alternative embodiment, the net heat integration machine further includes:

the normal temperature tap is connected with the water outlet of the pure water tank through a third pipeline;

the hot water tap is connected with the water outlet of the pure water tank through a fourth pipeline;

the rapid heating module is arranged on the fourth pipeline and is suitable for heating water flowing through the fourth pipeline.

In a second aspect, the present utility model further provides a clean drinking system, including the heat-purifying integrated machine and the water purifier according to any of the above embodiments;

the water purifying outlet of the water purifier is connected with the water inlet of the pure water tank of the pure heat integrated machine, and the water flow of the water purifier is larger than that of the pure heat integrated machine;

the water purifier is suitable for providing purified water for the pure water tank when the water yield of the pure heat integrated machine is lower than a set value or the filtering module fails.

The beneficial effects are that: when the filter module blocks up the trouble, perhaps there is the high-flow drinking water demand, then can connect the pure water export of the purifier of high-flow to the pure water tank of net heat all-in-one to provide pure water for net heat all-in-one through the purifier of high-flow to can effectively avoid net heat all-in-one to produce the problem that the water yield is little or the filter core trouble can not satisfy the high-flow drinking water demand.

In some embodiments, the pure water outlet of the water purifier is connected with the pure water tank through a pure water pipeline.

Drawings

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

FIG. 1 is a schematic diagram of a related art net heat integrated machine;

FIG. 2 is a schematic diagram of a related art net heat all-in-one machine;

FIG. 3 is a schematic diagram of a net heat integration machine according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram of a heat-purifying and integrating machine according to an embodiment of the present utility model;

description of the related art reference numerals:

10a, a filtering module; 20a, a pure water tank; 40a, running water tank; 50a, a concentrate tank; 70a, a rapid heating module; 80a, normal temperature tap; 90a, a hot water tap;

reference numerals of the present application illustrate:

100. the heat purifying integrated machine; 101. a first pipeline; 102. a second pipeline; 103. a third pipeline; 104. a fourth pipeline; 105. a concentrated water discharge line;

10. a filtration module;

20. a pure water tank; 21. an interface structure;

30. a standby water storage structure; 31. a water outlet part;

40. a tap water tank; 41. a first detection module;

50. a concentrate tank;

60. a first electrical switching element;

70. a rapid heating module;

80. normal temperature tap;

90. a hot water tap;

200. a water purifier; 201. pure water pipeline.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

In addition, the technical features of the different embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

The heat-purifying integrated machine, i.e. a novel water purifier integrating water purification and heating functions, is shown in fig. 1 to 2, and generally comprises a filter module 10a, a pure water tank 20a connected with a pure water outlet of the filter module 10a, a concentrated water tank 50a connected with a concentrated water outlet of the filter module 10a, and a tap water tank 40a connected with a water inlet of the filter module 10a, wherein the pure water tank 20a is used for storing filtered pure water, the heat-purifying integrated machine further comprises a quick heating module 70a, a normal temperature tap 80a and a hot water tap 90a, the normal temperature tap 80a is directly connected with a water outlet of the pure water tank 20a, hot water heated by the quick heating module 70a and cooled to a preset temperature is discharged from the hot water tap 90a to a water intake, and a step of receiving pure water and then boiling water is omitted for a user, and the purified pure hot water is more convenient, healthy and safe.

However, when the conventional heat-purifying integrated machine drinks water, a user needs to manually add tap water to the tap water tank 40a frequently, so that the use of the user is inconvenient, the experience is poor, the water-producing capacity of the heat-purifying integrated machine is small, and the water-purifying integrated machine cannot meet the water drinking demands of multiple people. Based on this, a person skilled in the art needs to provide a heat-purifying integrated machine to solve the problems of small water yield, frequent tap water addition, and the like of the heat-purifying integrated machine.

The technical problems solved by the embodiment are as follows:

(1) the existing heat-purifying integrated machine needs to manually add tap water and pour waste water frequently, and the heat-purifying integrated machine cannot continuously run, so that the problem of continuous water taking of users is affected.

(2) When tap water is cut off, or the water production of the heat-purifying integrated machine is small, or the composite filter element of the heat-purifying integrated machine fails to produce water normally, the continuous water taking and drinking requirements cannot be met.

Embodiments of the present utility model are described below with reference to fig. 3 to 4.

According to an embodiment of the present utility model, in one aspect, the present utility model provides a net heat all-in-one machine 100, the net heat all-in-one machine 100 including a filtration module 10 and a pure water tank 20.

Specifically, the filter module 10 is used for filtering and purifying tap water; the pure water tank 20 is used for storing pure water purified by the filtering module 10, an interface structure 21 for installing a standby water storage structure 30 containing pure water is arranged at the top of the pure water tank 20, and the pure water in the standby water storage structure 30 can flow into the pure water tank 20 after the standby water storage structure 30 is installed on the interface structure 21.

In the above embodiment, through the spare water storage structure 30 that sets up, when running water cuts off water or the filtration module 10 of the net heat all-in-one machine 100 fails and produces water normally, then can install spare water storage structure 30 to the interface structure 21 at the pure water tank 20 top of the net heat all-in-one machine 100 for spare water storage structure 30 is linked together with pure water tank 20, and pure water in spare water storage structure 30 then naturally flows into pure water tank 20 under the effect of falling differential pressure, realizes the demand that continuously intakes water and drinks, has greatly improved user's use experience, effectually solved current net heat all-in-one machine 100 and often appear because of running water cuts off water or the unable normal production of water of filtration module 10 failure of net heat all-in-one machine 100 in the use, lead to the unable problem that drinks water continuously of user.

It should be noted that, in the above embodiment, the standby water storage structure 30 may be a water storage container used with the heat-purifying integrated machine 100, and the water storage container has a closed water storage cavity therein, and the water storage cavity is used for containing purified water.

Optionally, the standby water storage structure 30 includes bottled water or barreled water, but is not limited thereto, and other vessels with purified water therein are within the scope of the present application.

Can compatible bottled water or bottled water use when running water cuts off water or filtration module 10 trouble, a tractor serves several functions, it is also very convenient to use, can realize net heat all-in-one 100 and last the water production operation, satisfies the demand that the user all sustainable water intaking drunk under different operating mode circumstances.

In some embodiments, the backup water storage structure 30 has a water outlet 31 adapted for mating with the interface structure 21. When not mounted to the pure water tank 20, the water storage chamber of the entire standby water storage structure 30 is in a closed state. The water outlet part 31 is provided with a water outlet, the water outlet is provided with a water sealing film, the interface structure 21 is provided with a jacking structure, after the standby water storage structure 30 is installed on the pure water tank 20, the water outlet part 31 is in butt joint with the interface structure 21, and the jacking structure is suitable for opening the water sealing film on the water outlet part 31 so that water in the standby water storage structure 30 can naturally flow into the pure water tank 20 under the drop pressure.

It should be noted that, in this embodiment, the specific structure, the cooperation process and the principle of the water outlet 31 of the standby water storage structure 30 and the interface structure 21 are similar to those of the existing water dispenser and barreled water, and therefore, the specific structure of the water outlet 31 and the interface structure 21 is not repeated.

In some embodiments, the interface structure 21 includes a mounting interface provided to a top wall of the pure water tank 20. The jack-up structure is fixedly arranged in the mounting interface, and the interface structure 21 further comprises a dust cover detachably mounted on the mounting interface.

In the above embodiment, when the spare water storage structure 30 is not needed by the provided dust cover, the dust cover can be arranged on the mounting interface, so that dust, impurities and the like are prevented from falling into the exposed mounting interface, and the cleanness and sanitation of the water quality in the pure water tank 20 are affected. When tap water is cut off or the filter module 10 of the heat-purifying all-in-one machine 100 fails and water cannot be normally produced, the dustproof cover can be opened, bottled water or barreled water is supplied to the interface structure 21 of the pure water tank 20 of the heat-purifying all-in-one machine 100, the bottled water or barreled water is inversely arranged on the interface structure 21, and water in the bottled water or barreled water naturally flows into the pure water tank 20 under the drop pressure, so that the continuous water drinking requirement is realized, and the whole process is very convenient and quick to operate.

Preferably, when the cover is arranged on the mounting interface, the upper surface of the dust cover is flush with the upper surface of the pure water tank 20, so that the top wall of the whole pure water tank 20 is smooth and integrated, the appearance is more attractive, and other objects such as a water cup and the like can be conveniently placed.

Optionally, in some embodiments, the dust cover may be mounted on the mounting interface in a clamping or fastening manner, so as to facilitate disassembly and assembly. The dust cap has an open state detached from the mounting interface and a closed state snapped onto the mounting interface.

Optionally, in some embodiments, the dust cover is connected to the pure water tank 20 by an elastic rope, so that the dust cover does not fall, get lost, etc. when the dust cover is detached.

Illustratively, the first connecting portion of convex may be integrally or fixedly provided on the top wall of the pure water tank 20, a first connecting hole is provided in the first connecting portion, a second connecting portion is also provided on the outer wall of the corresponding dust cover, a second connecting hole is provided in the first connecting portion, and the elastic rope passes through the first connecting hole and the second connecting hole to connect the pure water tank 20 with the dust cover.

In this embodiment, the interface structure 21 of the spare water storage structure 30 is disposed on the pure water tank 20, the interface structure 21 further includes a docking component with a concave structure disposed on the mounting interface, the jack-up structure is fixedly disposed on the docking component, the structure of the docking component can be similar to that of a conventional bottled water or barreled water drinking machine, the bottled water or barreled water is inverted on the concave interface structure 21, so as to play a role in sealing, and the bottled water or water in the barreled water can naturally flow into the pure water tank 20 under the drop pressure.

In some embodiments, the filter module 10 is connected to a tap or a tap water tank 40 via a first line 101, and a first electrical switching element 60 is disposed on the first line 101. Wherein tap water is stored in the tap water tank 40.

In the above embodiment, through the first electric switch element 60, when water needs to be added, the first electric switch element 60 is controlled to be turned on, so that automatic running water adding to the heat-purifying integrated machine 100 can be realized through electric control, frequent running water adding by hand is not needed, and continuous running of the heat-purifying integrated machine 100 and continuous water taking and drinking can be realized.

Optionally, the first electrical switching element 60 is a water inlet electromagnetic valve, and the water path between the tap water tank 40 and the filtering module 10 can be switched on or off by controlling the water inlet electromagnetic valve.

In some embodiments, the water inlet of the filter module 10 is connected to the water outlet of the tap water tank 40, and the water inlet of the tap water tank 40 is connected to a tap water tap. The running water tank 40 can store a certain amount of water, so that a certain amount of hot water can be normally prepared for emergency standby when water is stopped or the water pressure is unstable.

In some embodiments, the heat-purifying and integrating machine 100 further includes a first detection module 41 and a control module, wherein the first detection module 41 is disposed on the running water tank 40 and is used for detecting the water quantity information in the running water tank 40; the control module is electrically connected with the first detection module 41 and the first electric switching element 60, respectively, and the control module is suitable for automatically controlling the switching of the first electric switching element 60 according to the water quantity information detected by the first detection module 41.

In the above embodiment, the first detection module 41 is provided to detect the water amount in the running water tank 40, and when the water amount is lower than the set water amount, the water amount is fed back to the control module, and the control module controls the first electric switch element 60 to be turned on, so as to automatically add running water, and the automatic water adding control of the external heating integrated machine 100 is realized by the external water adding control and the external water source connection mode.

Optionally, the water amount information includes, but is not limited to, water level height, weight, volume, etc. parameter information.

In some embodiments, the first detection module 41 is included in a pressure detection unit or a weight detection unit or a water level detection unit.

In the above embodiment, when the first detection module 41 is a pressure detection unit, it may be disposed inside the running water tank 40 or may be disposed at the bottom of the running water tank 40, and the water amount information in the running water tank 40 is determined by detecting the water pressure from the inside of the running water tank 40 or the pressure of the whole running water tank 40. The first detection module 41 may be disposed at the bottom of the tap water tank 40 when it is a weight detection unit, and determine the water amount information in the tap water tank 40 by detecting the weight of the entire tap water tank 40. When the first detection module 41 is a water level detection unit, it may be disposed at the bottom of the running water tank 40, and the amount of water in the running water tank 40 is determined by detecting the water level information in the whole running water tank 40.

Optionally, the pressure detection unit is a pressure sensor, the weight detection unit is a weight sensor, and the water level detection unit is a water level sensor.

Preferably, in this embodiment, the first detection module 41 adopts the structural design of the pressure sensor. More preferably, the pressure sensor is disposed outside the bottom wall of the tap water tank 40, which is convenient for electrical connection with other electrical components, and can avoid additional waterproof design in the tap water tank 40, thereby increasing cost.

The control module in this embodiment controls the first electric switching element 60 according to the water level pressure signal of the tap water tank 40 detected by the receiving pressure sensor, to achieve automatic water feeding and stop of water feeding.

In this embodiment, the pressure sensor is mainly configured to determine the water level in the tap water tank 40 according to the water level detection pressure signal value of the tap water tank 40, the pressure sensor is installed at the bottom of the tap water tank 40, when the water level in the tap water tank 40 is lower than the first set height position, the pressure sensor detects the pressure signal weak, the first electric switch element 60 is controlled to automatically open the water inlet, when the water level in the tap water tank 40 is greater than or equal to the second set height position, the pressure sensor detects the pressure signal strong, and the first electric switch element 60 is controlled to automatically close, thereby realizing automatic water inlet of the tap water tank 40.

In this embodiment, the upper portion of the tap water tank 40 is provided with a water inlet port adapted to be connected to a tap water tap. The heat-purifying all-in-one machine 100 detects the water level information in the tap water tank 40 through the pressure sensor, thereby automatically controlling the water inlet electromagnetic valve to supply tap water to the tap water tank 40 and stop, and having higher automation degree.

Optionally, the control module includes a controller, and the controller controls the on and off of the first electrical switching element 60 according to the water level pressure signal fed back by the pressure sensor, so as to implement a full-automatic control function.

In some embodiments, the water inlet of the pure water tank 20 is connected to the pure water outlet of the filtration module 10 through a second pipeline 102, and a second electrical switching element is disposed on the second pipeline 102. Optionally, the second electrical switching element is a solenoid valve.

Further, the heat-purifying integrated machine 100 further includes a second detection module, the second detection module is disposed on the pure water tank 20, the second detection module is configured to detect water quantity information in the pure water tank 20, the second detection module is connected with a control module, and the control module is adapted to automatically control the on-off of the second electrical switching element according to the water quantity information in the pure water tank 20 detected by the second detection module.

Specifically, when the second detection module detects that the water amount in the pure water tank 20 is lower than the first set threshold, the second electric switching element is controlled to be turned on, and the filtration module 10, the pressure pump and the like are controlled to start preparing pure water to reserve a certain amount of pure water for standby, and when the first detection module 41 detects that the water amount in the pure water tank 20 is higher than the second set threshold, the second electric switching element is controlled to be turned off, and the filtration module 10, the pressure pump and the like are controlled to stop preparing pure water, wherein the second set threshold is higher than the first set threshold. The heat-purifying all-in-one machine 100 provided in this embodiment not only can automatically add water and stop according to the water quantity information detected by the running water tank, but also can automatically start and stop water production of the whole system according to the water quantity information of the pure water tank 20, and has higher automation and intelligent degree.

In the above embodiment, the specific structure and arrangement of the second detection module on the pure water tank 20 may refer to the first detection module 41 on the tap water tank 40.

In some alternative embodiments, the second detection module may also detect using a float level switch. Specifically, the second detection module comprises a ball float valve installed in the pure water tank 20 and a sensing component fixedly arranged on the pure water tank 20, wherein the ball float valve can be lifted along with the liquid level, and the sensing component comprises a first sensing component arranged at the first water level height position of the pure water tank 20 and a second sensing component arranged at the second water level height position of the pure water tank 20, wherein the second water level is higher than the first water level. When the water level of the pure water tank 20 is at the second higher water level, the operation is automatically stopped, and when the water level of the pure water tank 20 is at the first lower water level, the operation is automatically started to produce water.

Optionally, the system pressure of the heat-purifying integrated machine 100 is greater than 2.5kg when the pure water tank 20 is at the second water level, and the system pressure of the heat-purifying integrated machine 100 is less than 2.5kg when the pure water tank 20 is at the first water level. The determination of the water amount or level in the pure water tank 20 may also be achieved by detecting the pressure of the pure water tank 20 by a pressure sensor.

In some embodiments, an ultraviolet germicidal lamp is disposed in the pure water tank 20, and the ultraviolet germicidal lamp is used for sterilizing the pure water in the pure water tank 20.

In the above embodiment, the light of the ultraviolet sterilizing lamp irradiates the pure water in the pure water tank 20 to perform sterilizing operation on the pure water, so as to protect the fresh and safe water quality, so that the pure water can reach a sterile state, and further ensure that the drinking water prepared by the heat purifying integrated machine 100 is in a safe and sanitary state, and achieve the purpose of healthy, safe and sterile drinking.

Further, in the embodiment, the ultraviolet sterilizing lamp can be used for sterilizing and disinfecting utensils with calibers such as barreled water and bottled water, so that the fresh and safe water quality can be protected. Specifically, the ultraviolet germicidal lamp may ultraviolet sterilize the water outlet 31 of the spare water storage structure 30 extending into the interface structure 21.

Optionally, the ultraviolet germicidal lamp is disposed at a top position of the pure water tank 20.

In an alternative embodiment, the filtration module 10 further comprises a concentrate outlet adapted to be connected to the concentrate tank 50, the concentrate outlet being connected to the concentrate tank 50 via a concentrate discharge line 105, the concentrate tank 50 being provided with an overflow adapted to be connected to an external drainage system.

In the above embodiment, through the overflow port, when the water in the concentrate tank 50 rises to the height position of the overflow port, the water can automatically flow into the external drainage system, so that the automatic tap water adding of the tap water tank 40 and the automatic drainage of the concentrate tank 50 are realized, the manual frequent tap water adding and waste water pouring are not needed, great convenience is provided for users, the net heat integrated machine 100 can continuously operate, water can be continuously taken and drunk, and the use experience of users is improved.

In some embodiments, the external drainage system is a floor drain, and the waste water in the concentrate tank 50 can naturally flow out to be discharged to the floor drain when rising to the overflow port, so that the automatic discharge of the waste water is realized.

In some embodiments, the overflow is provided near the upper portion of the concentrate tank 50, which is used to drain the waste water from the filtration of the reverse osmosis cartridge of the filtration module 10.

In some embodiments, the filtration module 10 comprises multiple stages of filter elements arranged in sequence in the direction of water flow.

Specifically, in this embodiment, the filter module 10 includes a composite filter cartridge comprising: PP cotton fiber, activated carbon fiber, reverse osmosis filter element and post carbon filter element.

The PP cotton fiber is used for filtering muddy sand, large-particle impurities and the like in water; the activated carbon fiber is used for adsorbing off-color peculiar smell, organic matters and the like in water; the reverse osmosis membrane filter element is one or more of an RO membrane and a nanofiltration membrane filter element, and the filtered water quality can be directly drunk; the post-carbon is used for improving the taste of the water. Tap water is filtered by PP cotton fiber and active carbon fiber and then enters the RO reverse osmosis membrane filter core.

In some embodiments, the heat-purifying integrated machine 100 further comprises a pressure pump, wherein the pressure pump is one or more of a booster pump, a steady pressure pump and a self-priming pump, and provides water pressure for the reverse osmosis membrane system. Optionally, the pressure pump adopts a booster water pump, which is arranged at the water inlet end of the RO reverse osmosis membrane filter element and provides pressure for the water produced by the filtration of the RO reverse osmosis membrane filter element.

In some embodiments, the heat purifying and integrating machine 100 further includes a normal temperature faucet 80, a hot water faucet 90, and a rapid heating module 70, wherein the normal temperature faucet 80 is connected with the water outlet of the pure water tank 20 through a third pipeline 103; the hot water tap 90 is connected with the water outlet of the pure water tank 20 through a fourth pipeline 104; the rapid heating module 70 is disposed on the fourth pipeline 104 and is adapted to heat the water flowing through the fourth pipeline 104.

In the above embodiment, the rapid heating module 70 is used for rapid heating of purified water, and is provided with a temperature sensor to prevent dry heating. Optionally, the heat-purifying integrated machine 100 further includes a heat exchange module, where the heat exchange module is used for heat exchanging cold water with hot water heated by the rapid heating module 70, and instantly changing the hot water to warm water with a temperature of between 90 and 100 ℃ to 40 and 50 ℃ so that the user can drink the water directly.

In some embodiments, the water intake of the heat and clean integrated machine 100 is provided with a touch control panel, the touch control panel is provided with functional keys such as hot water and cold water, at this time, the micro booster pump is started to pump water from the pure water tank 20, hot water is taken, pure water is heated to the water intake through the rapid heating module 70, cooked water is taken, pure water is heated by the rapid heating module 70 and is subjected to heat exchange with the heat exchange module to the water intake, and pure water is taken to the water intake through the third pipeline 103.

In a second aspect, the present utility model further provides a clean drinking system, including the heat purifying integrated machine 100 and the water purifier 200 according to any of the above embodiments; wherein, the purified water outlet of the water purifier 200 is connected with the water inlet of the purified water tank 20 of the heat-purifying integrated machine 100, and the water flow of the water purifier 200 is larger than the water flow of the heat-purifying integrated machine 100; the water purifier 200 is adapted to supply purified water to the purified water tank 20 when the water yield of the heat and purification integrated machine 100 is lower than a set value or the filtration module 10 fails.

The clean drinking system provided in this embodiment, when the filtration module blocks up the trouble, or has the demand of large-traffic drinking water, then can connect the pure water export of the water purifier 200 of large-traffic to the pure water tank 20 of the clean heat all-in-one machine 100, provide pure water for the clean heat all-in-one machine 100 through the water purifier 200 of large-traffic to can effectively avoid the problem that the clean heat all-in-one machine 100 produces little or the filter core trouble can not satisfy the demand of large-traffic drinking water.

In some embodiments, the pure water outlet of the water purifier 200 is connected to the pure water tank 20 through a pure water pipe 201, alternatively, the pure water pipe 201 may be directly connected to the pure water tank 20, or may be connected to the second pipe 102 between the pure water tank 20 and the filter module.

In an alternative embodiment, the pure water pipeline 201 comprises a first pure water pipe arranged on the pure water tank 20 and a second pure water pipe arranged on the pure water machine 200, wherein the first pure water pipe extends to the outside of the machine, and the end part of the first pure water pipe is connected with a two-caliber quick connector, and the second pure water pipe is in butt joint with the two-caliber quick connector, so that pure water of the pure water machine 200 is connected with the pure heat integrated machine 100 for supplying water. When tap water is cut off or a filter fails, the water purifier is compatible with the installation of water in the installation bottle or the pure water use of the water purifier 200, so that the multifunctional water purifier can realize one machine, and the water drinking requirement of multiple people is met.

The heat-purifying all-in-one machine 100 provided by the embodiment can automatically add water into tap water and automatically discharge waste water, is compatible with An Zhuangping water supply when the tap water is cut off or a filter fails, is connected with the water purifier 200 to realize continuous supply of pure water, realizes full-automatic control, has multiple functions, and meets the requirement of large-flow drinking water for multiple people.

Although embodiments of the present utility model have been described in connection with the accompanying drawings, various modifications and variations may be made by those skilled in the art without departing from the spirit and scope of the utility model, and such modifications and variations fall within the scope of the utility model as defined by the appended claims.

Claims (11)

1. A net heat all-in-one machine, comprising:

a filter module (10) for filtering and purifying tap water;

the pure water tank (20) is used for storing pure water purified by the filtering module (10), and an interface structure (21) for installing a standby water storage structure (30) is arranged at the top of the pure water tank (20);

purified water is contained in the standby water storage structure (30), and the purified water in the standby water storage structure (30) can flow into the purified water tank (20) after the standby water storage structure (30) is installed on the interface structure (21).

2. The net heat all-in-one machine according to claim 1, wherein the interface structure (21) comprises:

the installation interface is arranged on the top wall of the pure water tank (20);

and the dustproof cover is detachably arranged on the mounting interface.

3. The heat-purifying all-in-one machine according to claim 1, wherein the reserve water storage structure (30) comprises bottled water or barreled water;

and/or the reserve water storage structure (30) has a water outlet (31) adapted to be in a butt-fit with the interface structure (21).

4. A net heat all-in-one machine according to any one of claims 1 to 3, characterized in that the filter module (10) is connected to a tap or a tank (40) by means of a first pipe (101), said first pipe (101) being provided with a first electrical switching element (60).

5. The heat-purifying and integrating machine according to claim 4, characterized in that the water inlet of the filtering module (10) is connected with the water outlet of the running water tank (40), the water inlet of the running water tank (40) is connected with a running water tap, the heat-purifying and integrating machine (100) further comprises:

a first detection module (41) arranged on the running water tank (40) and used for detecting water quantity information in the running water tank (40);

and the control module is respectively and electrically connected with the first detection module (41) and the first electric switching element (60), and is suitable for automatically controlling the switching of the first electric switching element (60) according to the water quantity information in the running water tank (40) detected by the first detection module (41).

6. The net heat integration machine according to claim 5, wherein the first detection module (41) comprises a pressure detection unit or a weight detection unit or a water level detection unit.

7. A net heat all-in-one machine according to any one of claims 1 to 3, wherein an ultraviolet germicidal lamp is provided in the pure water tank (20), and the ultraviolet germicidal lamp is used for sterilizing pure water in the pure water tank (20).

8. A net heat all-in-one machine according to any one of claims 1 to 3, characterized in that the water inlet of the pure water tank (20) is connected with the pure water outlet of the filtration module (10) through a second pipeline (102), and a second electric switching element is arranged on the second pipeline (102); the net heat all-in-one machine (100) further includes:

the second detection module is arranged on the pure water tank (20) and used for detecting water quantity information in the pure water tank (20), the second detection module is connected with a control module of the pure heat integrated machine (100), and the control module is suitable for automatically controlling the switching of the second electric switching element according to the water quantity information in the pure water tank (20) detected by the second detection module.

9. A net heat all-in-one machine according to any one of claims 1 to 3, characterized in that the filtration module (10) further comprises a concentrate outlet adapted to be connected to a concentrate tank (50), said concentrate tank (50) being provided with an overflow port adapted to be connected to an external drainage system;

and/or the filter module (10) comprises a plurality of stages of filter elements which are arranged in sequence along the water flow direction.

10. A net heat all-in-one machine according to any one of claims 1 to 3, wherein the net heat all-in-one machine (100) further comprises:

a normal temperature tap (80) connected with the water outlet of the pure water tank (20) through a third pipeline (103);

a hot water tap (90) connected with a water outlet of the pure water tank (20) through a fourth pipeline (104);

and the rapid heating module (70) is arranged on the fourth pipeline (104) and is suitable for heating water flowing through the fourth pipeline (104).

11. A clean drinking system, characterized by comprising a clean heat all-in-one machine (100) according to any one of the preceding claims 1 to 10 and a water purifier (200);

the water purifying outlet of the water purifier (200) is connected with the water inlet of the pure water tank (20) of the pure heat integrated machine (100), and the water flow of the water purifier (200) is larger than that of the pure heat integrated machine (100);

the water purifier (200) is adapted to provide purified water to the purified water tank (20) when the water yield of the heat purification integrated machine (100) is lower than a set value or the filtration module (10) fails.