CN116239249A - Water purifying device - Google Patents

Abstract

The invention relates to the technical field of water purifying devices, in particular to a water purifying device, and aims to solve the problem that the existing water purifying device is difficult to regulate and control the outlet water temperature. The water purifying device comprises a filtering system, a heating system and a water purifying pipeline, wherein the heating system comprises a water outlet pipeline, a heating component and a temperature regulating control component, the heating component comprises a heating member, the water outlet pipeline is connected with the water purifying pipeline through the heating member, and the temperature regulating control component is arranged to be capable of regulating the water outlet temperature of the water outlet pipeline. The temperature adjustment control assembly can adjust the temperature of water heated by the heating component, can enable the water purifying device to provide water at different temperatures under the condition of not changing the internal structure, avoids repeatedly enabling after-sales personnel to go on the door to change the internal structure of the water purifying device, effectively meets the water use requirement of a user, reduces the use cost of the user, and further effectively improves the user experience.

Description

Water purifying device

Technical Field

The invention relates to the technical field of water purifying devices, and particularly provides a water purifying device.

Background

The existing water purifying device, especially the commercial water purifying machine is provided with a warm water tap and a boiled water tap, and in different use scenes, a user can switch the boiled water tap to the warm water tap or switch the warm water tap to the boiled water tap, for example, the demand of the user for warm boiled water is higher in summer, and the demand for boiled water is more in winter. The existing water purifying device needs to be dismantled by product maintenance personnel to replace pipelines and increase water receiving ports, so that the switching of water outlet temperature can be realized, the workload is huge, and the risks of water leakage and scalding are extremely easy to cause due to improper operation.

Accordingly, there is a need in the art for a new water purifying apparatus to solve the above-mentioned technical problems.

Disclosure of Invention

The invention aims to solve the technical problems, namely, the problem that the existing water purifying device is difficult to regulate and control the water outlet temperature.

The invention provides a water purifying device which comprises a filtering system, a heating system and a water purifying pipeline, wherein the filtering system is connected with the heating system through the water purifying pipeline, the heating system comprises a water outlet pipeline, a heating component and a temperature regulating control component, the heating component comprises a heating member, the water outlet pipeline is connected with the water purifying pipeline through the heating member, and the temperature regulating control component is arranged to regulate the water outlet temperature of the water outlet pipeline.

In the preferred technical scheme of the water purifying device, the water outlet pipeline comprises a first water outlet pipeline, a second water outlet pipeline and a water receiving port, and the first water outlet pipeline and the second water outlet pipeline are arranged to be capable of being selectively communicated with the water receiving port through the temperature adjusting control assembly.

In the preferred technical scheme of the water purifying device, the temperature adjusting control assembly comprises a temperature adjusting component, a first control valve and a second control valve, a connecting branch is arranged between the first water outlet pipeline and the second water outlet pipeline, the temperature adjusting component is arranged on the first water outlet pipeline, the first control valve is arranged on the connecting branch, the second control valve is arranged on the second water outlet pipeline, the first control valve is arranged to enable the first water outlet pipeline to be selectively communicated with the water receiving port, and the second control valve is arranged to enable the second water outlet pipeline to be selectively communicated with the water receiving port.

In the preferred technical scheme of the water purifying device, the heating member comprises a first water inlet and two water outlets, the water inlet of the heating member is connected with the water purifying pipeline, the first water outlet of the heating member is connected with the first water outlet pipeline, and the second water outlet of the heating member is connected with the second water outlet pipeline.

In a preferred technical solution of the water purifying device, the heating assembly further comprises a heat exchanger, the heat exchanger is connected with the water inlet and the first water outlet of the heating member, and the water purifying pipeline and the first water outlet pipeline are arranged to be capable of exchanging heat through the heat exchanger.

In a preferred technical solution of the water purifying device, the heating system further includes a temperature regulating branch, the temperature regulating branch is connected with the first water outlet pipeline and the second water outlet pipeline, a first end of the temperature regulating branch is connected with the temperature regulating member, and a second end of the temperature regulator Wen Zhilu is connected between the second control valve and the second water outlet of the heating member.

In a preferred technical solution of the water purifying device, the heating system further includes a water draining pipeline, the heating member further includes a third water outlet, and the water draining pipeline is connected with the third water outlet of the heating member.

In the preferable technical scheme of the water purifying device, the drain pipe is provided with a drain valve, and the drain valve is arranged to control the communication state of the drain pipe.

In the preferred technical scheme of the water purifying device, the heating system further comprises a sterilization branch, the sterilization branch is connected with the water purifying pipeline, a first end of the sterilization branch is connected to the upstream of the heat exchanger, and a second end of the sterilization branch is connected with the water inlet of the heating member.

In the preferable technical scheme of the water purifying device, the water receiving port is provided with a water receiving control valve, and the water receiving control valve is arranged to control the opening and closing states of the water receiving port.

Under the condition of adopting the technical scheme, the temperature adjusting control assembly disclosed by the invention can adjust the temperature of water heated by the heating component, so that the water purifying device can provide water with different temperatures under the condition of not changing the internal structure, the situation that after-sales personnel go on the door repeatedly for many times is avoided to change the internal structure of the water purifying device, the water demand of a user is effectively met, the use cost of the user is reduced, and the user experience is further effectively improved.

In addition, in the preferred technical scheme of the invention, the temperature adjusting component can effectively adjust the water temperature of the water in the first water outlet pipeline, so that the water demand of a user is met.

In addition, in the preferred technical scheme of the invention, the heat exchanger can exchange the heat of the water in the water purifying pipeline and the heat of the water in the first water outlet pipeline so as to achieve the purpose of reducing the water temperature of the first water outlet pipeline, and the water in the first water outlet pipeline is changed into warm water.

In addition, in the preferred technical scheme of the invention, the temperature regulating component can flow part of water with higher temperature in the second water outlet pipeline to the first water outlet pipeline through the temperature regulating branch circuit, so that the water temperature in the first water outlet pipeline is increased, and a plurality of different temperatures of water are provided for users.

In addition, in the preferred technical scheme of the invention, the water in the sterilization branch can directly enter the heating component for heating, and under the condition of closing the heat exchanger, the boiled water in the heating component can be utilized to fully wash out the water pipeline, so that the cleaning and sterilization effects are achieved, and the water use safety of users is further effectively ensured.

Drawings

Preferred embodiments of the present invention are described below with reference to the accompanying drawings, in which:

fig. 1 is a schematic view of a water purifying apparatus according to the present invention;

reference numerals:

1. a filtration system;

101. a waste water pipeline;

102. a wastewater flow regulating assembly; 1021. a waste water control valve; 1022. a waste water ratio fixing member; 1023. switching a control valve;

103. a pre-filter assembly; 1031. a first PP cotton filter layer; 1032. a carbon rod filter element layer; 1033. a second PP cotton filter layer;

104. a reverse osmosis filtration member; 105. a booster pump; 106. a post-filtration member; 107. a low voltage switch; 108. a high voltage switch; 109. a water quality probe; 110. a sterilization member; 111. a pressure balancing member; 112. a one-way valve;

2. a heating system;

201. a water outlet pipeline; 2011. a first water outlet pipeline; 2012. a second water outlet pipeline; 2013. a water receiving port; 2014. a water receiving control valve;

202. a temperature control assembly; 2021. a temperature adjusting member; 2022. a first control valve; 2023. a second control valve;

203. a hot pot;

204. a heat exchanger;

205. a temperature regulating branch;

206. a drainage pipeline; 2061. a drain valve;

207. a sterilization branch; 2071. a sterilization water inlet control valve;

208. a water inlet control valve;

3. a water purifying pipeline.

Detailed Description

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present invention, and are not intended to limit the scope of the present invention. Those skilled in the art can adapt it as desired to suit a particular application. For example, the present invention does not limit the specific application place of the water purifying device, and the water purifying device can be a household water purifying device or a commercial water purifying device, which is not limited, and a person skilled in the art can set the water purifying device according to the actual use requirement, and the change of the specific application place does not deviate from the basic principle of the present invention, and the present invention is within the protection scope of the present invention.

It should be noted that, in the description of the present invention, terms such as "upstream," "downstream," and the like refer to directions or positional relationships based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the structures must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In addition, it should be noted that, in the description of the present invention, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be, for example, either a fixed connection or a removable connection; 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 invention can be understood by those skilled in the art according to the specific circumstances.

Referring to fig. 1, fig. 1 is a schematic structural view of a water purifying apparatus according to the present invention. As shown in fig. 1, the water purifying device of the present invention comprises a filtering system 1, a heating system 2 and a water purifying pipeline 3, wherein the filtering system 1 is connected with the heating system 2 through the water purifying pipeline 3, specifically, water in the water purifying pipeline 3 enters the heating system 2 after being filtered by the filtering system 1 to change the water temperature, so as to meet various water requirements of users.

Further, the filtration system 1 includes a waste water pipeline 101, a filtration assembly and a waste water flow rate adjustment assembly 102, the filtration assembly includes a pre-filtration assembly 103 and a reverse osmosis filtration member 104, the pre-filtration assembly 103 and the reverse osmosis filtration member 104 are sequentially disposed on the waste water pipeline 3 along the water flow direction, the reverse osmosis filtration member 104 includes a water inlet and two water outlets, the water inlet and the first water outlet of the reverse osmosis filtration member 104 are connected with the waste water pipeline 3, the second water outlet of the reverse osmosis filtration member 104 is connected with the waste water pipeline 101, the waste water flow rate adjustment assembly 102 is disposed on the waste water pipeline 101, and the waste water flow rate adjustment assembly 102 is configured to be capable of adjusting the waste water flow rate of the waste water pipeline 101.

It should be noted that, the specific structure of the pre-filter assembly 103 is not limited in the present invention, for example, the pre-filter assembly 103 may be a multi-layer activated carbon, or a multi-layer PP cotton filter layer (polypropylene melt-blown cotton filter layer), which is not limited, and may be set by a person skilled in the art according to the water quality where the water purifying apparatus is located. As a preferred embodiment, in this specific embodiment, the pre-filter assembly 103 includes a first PP cotton filter layer 1031, a carbon rod filter element layer 1032, and a second PP cotton filter layer 1033, where the first PP cotton filter layer 1031, the carbon rod filter element layer 1032, and the second PP cotton filter layer 1033 are sequentially disposed on the water purifying pipeline 3 along the water flowing direction. The first PP cotton filter layer 1031 and the second PP cotton filter layer 1033 can filter out impurities such as sediment, suspended matters, colloid, organic matters and the like in tap water, and the activated carbon of the carbon rod filter core layer 1032 can strongly adsorb a plurality of substances, and is mainly used for removing color, smell, residual chlorine and the like in tap water, changing the taste of water, and providing water quality of purified water level for users.

In addition, it should be noted that the specific structure of the wastewater flow adjustment assembly 102 is not limited in the present invention, for example, the wastewater flow adjustment assembly 102 may include a flow meter and a flow control valve, where the flow meter detects the wastewater flow in the wastewater pipeline 101, and the flow control valve adjusts the flow in the wastewater pipeline, so as to adjust the wastewater flow in the wastewater pipeline 101 according to the actual situation, so as to avoid the accumulation of impurities in the reverse osmosis filter member 104, and ensure the service life of the reverse osmosis filter member 104, which is, of course, not limited, as long as the wastewater flow adjustment assembly 102 can adjust the wastewater flow in the wastewater pipeline 101 to ensure the service life of the reverse osmosis filter member 104, and those skilled in the art can set the flow adjustment according to the actual situation.

Preferably, as shown in fig. 1, in the present embodiment, the waste water flow regulating assembly 102 includes a waste water control valve 1021, a waste water ratio fixing member 1022 and an on-off control valve 1023, the waste water ratio fixing member 1022 and the on-off control valve 1023 being disposed in series, the waste water control valve 1021 being disposed in parallel with the waste water ratio fixing member 1022 and the on-off control valve 1023, i.e., the waste water control valve 1021 being connected to the second outlet of the reverse osmosis filter member 104 after being disposed in parallel with the waste water ratio fixing member 1022 and the on-off control valve 1023. In other words, the concentrated water filtered by the reverse osmosis filter member 104 is discharged along the wastewater line 101, in part, through the wastewater control valve 1021, and in other part, through the on-off control valve 1023 and the wastewater ratio fixing member 1022. The waste water control valve 1021 is a waste water electromagnetic valve, the through hole of the waste water electromagnetic valve is smaller, and is easy to be blocked after the service time is longer, at the moment, the waste water electromagnetic valve can be automatically backwashed to remove the blocking, however, the concentrated water filtered by the reverse osmosis filtering component 104 can not be discharged in time, and accumulated in the reverse osmosis filtering component 104, so that the service life of the reverse osmosis filtering component 104 is shortened; the opening degree of the switch control valve 1023 and the opening degree of the waste water ratio fixing member 1022 can be adjusted, so that the waste water flow in the waste water pipeline 101 is not influenced by the waste water electromagnetic valve, the waste water flow is relatively stable, impurities in water are effectively prevented from being accumulated in the reverse osmosis filtering member 104, and the service life of the reverse osmosis filtering member is guaranteed.

It should be noted that, the specific structures of the waste water ratio fixing member 1022 and the on-off control valve 1023 are not limited in the present invention, for example, the on-off control valve 1023 may be a ball valve or a butterfly valve, the waste water ratio fixing member 1022 includes a main body with a through hole formed thereon, and waste water in the waste water pipe 101 can pass through the through hole, of course, the size of the through hole may be fixed or may be changeable, preferably, the size of the through hole may be changeable, so that in the case that the opening degree of the on-off control valve 1023 is changed, the waste water flow of the waste water pipe 101 is further precisely changed by controlling the size of the through hole, which is of course not limited, and may be set by a person skilled in the art according to the actual situation.

Further, the filtration system 1 further comprises a booster pump 105, the booster pump 105 is arranged on the water purifying pipeline 3, and the booster pump 105 is arranged between the filtration assembly and the reverse osmosis filtration member 104; the booster pump 105 can accelerate the speed of water passing through the reverse osmosis filter component 104, ensure the purified water flow of the purified water pipeline 3, and meet the use requirement of users. Preferably, in this specific embodiment, as shown in fig. 1, the number of the reverse osmosis filter members 104 and the booster pumps 105 is two, and the two sets of the reverse osmosis filter members 104 and the booster pumps 105 are arranged in parallel; the setting of two sets of reverse osmosis filter components 104 and booster pump 105 can further increase the water purification flow of water purification pipeline 3, can be according to user's in-service use demand selectivity switching two sets of reverse osmosis filter components 104 and booster pump 105, and then change the water purification flow of water purification pipeline 3, effectively promote user's use experience and feel.

It should be noted that the specific number of the reverse osmosis filter members 104 and the booster pumps 105 is not limited in the present invention, for example, the number of the reverse osmosis filter members 104 and the booster pumps 105 may be three, four, or even more, which is not limited and may be set by one skilled in the art. In addition, it should be noted that the specific type and structure of the booster pump 105 are not limited in the present invention, and the booster pump 105 may be a pneumatic booster pump, an air booster pump, or a water flow type automatic booster pump, which is not limited, and may be set by a person skilled in the art according to actual use requirements of a user.

It is further preferred that the filtration system 1 further comprises a post-filtration member 106, the post-filtration member 106 being arranged on the clean water line 3, and the post-filtration member 106 being arranged downstream of the reverse osmosis filtration member 104, to improve the clean water taste in the clean water line 3. Of course, the specific structure and specification of the post-filter member 106 are not limited, and in the preferred embodiment, the post-filter member 106 is an activated carbon filter element, so as to fully improve the taste of purified water and enhance the user experience.

With continued reference to fig. 1, in this embodiment, the filtration system 1 further includes a low pressure switch 107 and a high pressure switch 108, the low pressure switch 107 and the high pressure switch 108 being disposed on the clean water line 3, and the low pressure switch 107 being disposed between the filter assembly and the booster pump 105, the high pressure switch 108 being disposed between the reverse osmosis filter member 104 and the post-filter member 106. The low-voltage switch 107 can effectively prevent the booster pump 105 from idling under the condition of water interruption, so that the service life of the booster pump 105 is ensured; the high-voltage switch 108 is closed when the water pressure of the water purifying pipeline 3 reaches a peak value, and cuts off the power supply, so that the booster pump 105 is prevented from rotating fully and the water purifying device is prevented from being in a working state all the time. Of course, the specific structures of the low-voltage switch 107 and the high-voltage switch 108 are not limited, and may be set by those skilled in the art according to the actual circumstances.

Further, the filtration system 1 further comprises a water quality probe 109, the water quality probe 109 being disposed on the water purification pipeline 3, and the water quality probe 109 being disposed downstream of the post-filtration member 106; the water quality probe 109 can detect the water quality in the water purifying pipe 3, so that a technician can adjust the opening of the on-off control valve 1023 and the flux of the wastewater to the fixing member 1022 according to the water quality where the water purifying apparatus is located, i.e., adjust the wastewater flow of the wastewater pipe 101 to a proper flow rate, so as to maximally secure the service life of the reverse osmosis filtering member 104.

Preferably, the filtration system 1 further comprises a sterilizing member 110, the sterilizing member 110 being arranged on the water purification pipeline 3, and the sterilizing member 110 being arranged downstream of the post-filtration member 106, in particular downstream of the water quality probe 109; the sterilizing member 110 can sterilize residual microorganisms in the purified water to further secure the water use safety of the user. Of course, the specific structure of the sterilization member 110 is not limited, and may be set by a person skilled in the art according to the actual situation; preferably, the sterilization member 110 is an overcurrent ultraviolet sterilizer.

Further preferably, the filtration system 1 further comprises a pressure balancing member 111, the pressure balancing member 111 being arranged between the post-filtration member 106 and the sterilization member 110. Specifically, the pressure balancing member 111 is a pressure tank on which ball valves are provided to adjust the pressure of the pressure tank and the water pressure of the water purifying pipe 3.

In addition, the filtration system 1 further comprises a one-way valve 112, wherein the one-way valve 112 is arranged on the water purifying pipeline 3 and between the first outlet of the reverse osmosis filter member 104 and the high-pressure switch 108, and the one-way valve 112 is arranged to only allow water in the water purifying pipeline 3 to flow from the first outlet of the reverse osmosis filter member 104 to the high-pressure switch 108 so as to avoid backflow of water to the reverse osmosis filter member 104. Of course, the particular type and particular configuration of the check valve 112 is not limiting and may be set by one skilled in the art depending on the actual situation.

As shown in fig. 1, the heating system 2 of the present invention includes a water outlet pipe 201, a heating assembly including a heating member through which the water outlet pipe 201 is connected to the water purifying pipe 3, and a temperature adjusting control assembly 202 provided to be able to adjust the outlet water temperature of the water outlet pipe 201. The temperature control assembly 202 can adjust the temperature of the water heated by the heating component, so that the water purifying device can provide water with different temperatures under the condition of not changing the internal structure, repeated after-sales personnel are avoided to go on the door to change the internal structure of the water purifying device, the water demand of a user is effectively met, the use cost of the user is reduced, and the user experience is further improved.

It should be noted that the specific structure of the heating member is not limited in the present invention, and for example, the heating member may be a heating pipe or a heater, which is not limitative, and in the present preferred embodiment, the heating member is a hot tank 203, and the hot tank 203 is capable of heating water inside to a higher temperature (e.g., 85-100 ℃). In addition, it should be noted that the specific structure of the temperature adjustment control assembly 202 is not limited in the present invention, for example, the temperature adjustment control assembly 202 may be a condenser to reduce the temperature of the water flowing out of the hot tank 203, so as to achieve the purpose of adjusting the water temperature.

As shown in fig. 1, in the preferred embodiment, the water outlet pipeline 201 includes a first water outlet pipeline 2011, a second water outlet pipeline 2012 and water receiving ports 2013, wherein the number of the water receiving ports 2013 is four so as to meet the water demand of a user; further, a water receiving control valve 2014 is provided at the water receiving port 2013, and the water receiving control valve 2014 is provided so as to be able to control an open/close state of the water receiving port 2013. The first water outlet line 2011 and the second water outlet line 2012 are arranged to be able to selectively communicate with the water receiving port 2013 by the climate control assembly 202. The temperature control assembly 202 comprises a temperature control member 2021, a first control valve 2022 and a second control valve 2023, a connection branch being provided between the first water outlet line 2011 and the second water outlet line 2012, the temperature control member 2021 being arranged on the first water outlet line 2011, the first control valve 2022 being arranged on the connection branch, the second control valve 2023 being arranged on the second water outlet line 2012, the first control valve 2022 being arranged to enable the first water outlet line 2011 to selectively communicate with the water receiving port 2013, the second control valve 2023 being arranged to enable the second water outlet line 2012 to selectively communicate with the water receiving port 2013.

Specifically, in the case where the first control valve 2022 is opened and the second control valve 2023 is closed, the two water receiving ports 2013 located above in fig. 1 are warm water outlets, and the two water receiving ports 2013 located below in fig. 1 are hot water outlets; when the first control valve 2022 is closed and the second control valve 2023 is opened, two water receiving ports located below in fig. 1 are warm water outlets, at this time, four water receiving ports 2013 are warm water outlets, that is, the original warm water outlet is changed into a warm water outlet through the temperature adjusting control assembly 202; in addition, in the case where the temperature adjusting member 2021 is not opened and the first control valve 2022 and the second control valve 2023 are opened, the four water receiving ports 2013 are all boiled water outlets; based on the arrangement, the water purifying device provided by the invention avoids the aim of changing the water outlet temperature of the water receiving port by changing the internal structure, and is convenient for users to use.

It should be noted that the specific structures of the temperature adjusting member 2021, the first control valve 2022, and the second control valve 2023 are not limited in the present invention, for example, the temperature adjusting member 2021 may be a condenser, and the first control valve 2022 and the second control valve 2023 may be ball valves or butterfly valves, which are not limited in any way; in the present embodiment, the temperature adjusting member 2021 is a temperature adjusting valve, and the first control valve 2022 and the second control valve 2023 are ball valves.

In addition, it should be noted that, in the present invention, the specific structure of the thermal tank 203 is not limited, and as a specific embodiment, as shown in fig. 1, the thermal tank 203 includes a first water inlet and two water outlets, the water inlet of the thermal tank 203 is connected to the water purifying pipeline 3, the first water outlet of the thermal tank 203 is connected to the first water outlet pipeline 2011, and the second water outlet of the thermal tank 203 is connected to the second water outlet pipeline 2012.

Further, the heating assembly further comprises a heat exchanger 204, the heat exchanger 204 is connected to the water inlet and the first water outlet of the heat tank 203, the water purifying pipeline 3 and the first water outlet pipeline 2011 are configured to be capable of exchanging heat through the heat exchanger 204, i.e. at least a part of the heat exchanger 204 is disposed on the water purifying pipeline 3 and at least a part of the heat exchanger 204 is disposed on the first water outlet pipeline 2011. The water in the water purifying pipeline 3 absorbs heat in the heat exchanger 204 and then enters the hot tank 203, a part of the heated water flows into the first water outlet pipeline 2011, the temperature of the water in the first water outlet pipeline 2011 is reduced after the heat is discharged from the heat exchanger 204, and then the water in the first water outlet pipeline 2011 enters the temperature regulating component 2021 for further temperature regulation so as to provide water with different temperatures. It should be noted that the specific structure of the heat exchanger 204 is not limited, and for example, the heat exchanger 204 may be a shell and tube heat exchanger or a fin heat exchanger, which may be set by a person skilled in the art according to the actual situation.

Furthermore, in the present embodiment, the heating system 2 further comprises a temperature regulating branch 205, the temperature regulating branch 205 is connected to the first water outlet line 2011 and the second water outlet line 2012, a first end of the temperature regulator Wen Zhilu 205 is connected to the temperature regulating member 2021, and a second end of the temperature regulator Wen Zhilu 205 is connected between the second control valve 2023 and the second water outlet of the heat tank 203. The temperature regulating member 2021 is capable of introducing water in the second water outlet pipe 2012 into the first water outlet pipe 2011 to regulate the water temperature in the first water outlet pipe 2011; conversely, in the case where hot water is not required, the temperature adjustment member 2021 is also capable of introducing water in the first water outlet pipe 2011 into the second water outlet pipe 2012 to adjust the water temperature in the second water outlet pipe 2012, so that the four water receiving ports 2013 all output hot water. Further, a control valve (not shown in the figure) is provided on the temperature regulating branch 205, and the control valve can control the communication state of the temperature regulating branch 205. The common arrangement of the temperature regulating branch 205 and the temperature regulating member 2021 can provide more water with different temperatures for the user, and fully meet the water demand of the user.

Further preferably, the heating system 2 further comprises a drain line 206, the hot tank 203 further comprises a third water outlet, and the drain line 206 is connected to the third water outlet of the hot tank 203; further, a drain valve 2061 is provided in the drain line 206, and the drain valve 2061 is provided so as to control the communication state of the drain line 206. The water discharge pipeline 206 can discharge water in the hot tank 203 when a user repairs the water purifying device, so that a maintainer is prevented from being scalded; it is also possible to provide the user with water having a higher temperature at the fastest speed in the case where the user needs more hot water.

Further preferably, the heating system 2 further comprises a sterilization branch 207, the sterilization branch 207 is provided with a sterilization water inlet control valve 2071, the sterilization branch 207 is connected with the water purifying pipeline 3, a first end of the sterilization branch 207 is connected to the upstream of the heat exchanger 204, and a second end of the sterilization branch 207 is connected with the water inlet of the hot tank 203. The water in the sterilization branch 207 can directly enter the hot tank 203 for heating, and under the condition of closing the heat exchanger 204, the boiled water in the hot tank 203 can be utilized to fully wash out the water pipeline 201, so that the cleaning and sterilization effects are achieved, and the water use safety of users is further effectively ensured.

Based on the above structural arrangement, the heating system of the present invention is used as follows:

under the condition of normal use, the water inlet control valve 208 on the water purifying pipeline 3 is in an open state, the sterilizing water inlet control valve 2071 is in a closed state, water in the water purifying pipeline 3 enters the hot tank 203 after passing through the heat exchanger 204, the hot tank 203 heats the water to a higher temperature, the heated water enters the first water outlet pipeline 2011 and the second water outlet pipeline 2012, the first control valve 2022 is in a closed state, the second control valve 2023 is in an open state under the condition that a user needs warm water and boiled water at the same time, at this time, two water receiving ports 2013 positioned at the upper part in fig. 1 are warm water outlets, and two water receiving ports 2013 positioned at the lower part in fig. 1 are boiled water outlets; meanwhile, the temperature adjusting branch 205 can be selectively communicated according to the actual requirement of the user, so as to change the water outlet temperature of the two water receiving ports 2013 above. In the case that the user only needs warm water, the first control valve 2022 is in an open state, the second control valve 2023 is in a closed state, and similarly, the temperature adjustment branch 205 is selectively communicated, and at this time, the four water receiving ports 2013 are warm water receiving ports. In the case that the user only needs boiled water, the first control valve 2022 and the second control valve 2023 are both in the open state, and the temperature adjusting member 2021 and the temperature adjusting branch 205 are in the disconnected state, and at this time, the four water receiving ports 2013 are all boiled water receiving ports.

Under the condition that the water purification device needs cleaning and sterilization, the water inlet control valve 208 on the water purification pipeline 3 is in a closed state, the sterilization water inlet control valve 2071 is in an open state, water in the water purification pipeline 3 enters the hot tank 203 through the sterilization branch 207, at this moment, the heat exchanger 204 does not work, the hot tank 203 heats the water to a higher temperature, the heated water enters the first water outlet pipeline 2011 and the second water outlet pipeline 2012, at this moment, the first water outlet pipeline 2011 and the second water outlet pipeline 2012 are all hot water, and the first water outlet pipeline 2011 and the second water outlet pipeline 2012 can remove dirt in the pipeline and kill microorganisms in the pipeline under the flushing of the hot water, so that the water use safety of a user is effectively ensured.

It should be noted that the foregoing is only an exemplary usage, and the present invention does not limit the specific usage of the water purifying device, and those skilled in the art can set the usage according to the actual situation.

Thus far, the technical solution of the present invention has been described in connection with the alternative embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of protection of the present invention is not limited to these specific embodiments. Equivalent modifications and substitutions for related technical features may be made by those skilled in the art without departing from the principles of the present invention, and such modifications and substitutions will fall within the scope of the present invention.

Claims (10)

1. A water purifying device is characterized by comprising a filtering system, a heating system and a water purifying pipeline,

the filtering system is connected with the heating system through the water purifying pipeline, the heating system comprises a water outlet pipeline, a heating component and a temperature regulating control component,

the heating assembly comprises a heating member, the water outlet pipeline is connected with the water purifying pipeline through the heating member, and the temperature adjusting control assembly is arranged to adjust the water outlet temperature of the water outlet pipeline.

2. The water purification apparatus of claim 1, wherein the water outlet conduit comprises a first water outlet conduit, a second water outlet conduit, and a water receiving port,

the first water outlet pipeline and the second water outlet pipeline are arranged to be capable of being selectively communicated with the water receiving port through the temperature adjusting control assembly.

3. The water purification apparatus according to claim 2, wherein the temperature control assembly comprises a temperature control member, a first control valve and a second control valve, a connection branch is provided between the first water outlet pipe and the second water outlet pipe,

the temperature regulating component is arranged on the first water outlet pipeline, the first control valve is arranged on the connecting branch, the second control valve is arranged on the second water outlet pipeline,

the first control valve is arranged to enable the first water outlet line to selectively communicate with the water receiving port, and the second control valve is arranged to enable the second water outlet line to selectively communicate with the water receiving port.

4. A water purification apparatus according to claim 3, wherein the heating member comprises a first water inlet and two water outlets, the water inlet of the heating member is connected to the water purification circuit, the first water outlet of the heating member is connected to the first water outlet circuit, and the second water outlet of the heating member is connected to the second water outlet circuit.

5. The water purification apparatus of claim 4, wherein the heating assembly further comprises a heat exchanger,

the heat exchanger is connected with the water inlet and the first water outlet of the heating component, and the water purifying pipeline and the first water outlet pipeline are arranged to be capable of exchanging heat through the heat exchanger.

6. The water purification apparatus of claim 5, wherein the heating system further comprises a temperature conditioning branch,

the temperature regulating branch is connected with the first water outlet pipeline and the second water outlet pipeline, the first end of the temperature regulating branch is connected with the temperature regulating member, and the second end of the temperature regulator Wen Zhilu is connected between the second control valve and the second water outlet of the heating member.

7. The water purification apparatus of claim 5, wherein the heating system further comprises a drain line,

the heating member further includes a third water outlet, and the drain line is connected to the third water outlet of the heating member.

8. The water purification apparatus according to claim 7, wherein a drain valve is provided on the drain pipe, the drain valve being configured to be able to control a communication state of the drain pipe.

9. The water purification apparatus according to any one of claims 5 to 8, wherein the heating system further comprises a sterilization branch,

the sterilizing branch is connected with the water purifying pipeline, a first end of the sterilizing branch is connected to the upstream of the heat exchanger, and a second end of the sterilizing branch is connected with the water inlet of the heating component.

10. The water purifying apparatus according to claim 2, wherein a water receiving control valve is provided at the water receiving port, the water receiving control valve being provided so as to be able to control an open-close state of the water receiving port.

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