CN221591936U - Hot water tap and water purifying machine - Google Patents

Abstract

The utility model relates to the technical field of water purification, and discloses a hot water tap and a water purifying and drinking machine, wherein the hot water tap comprises: the heating device is provided with a heating water inlet and a heating water outlet, and the heating water outlet is suitable for outputting hot water; the diverter valve is provided with a water inlet, a first water outlet and a second water outlet, the first water outlet and the second water outlet are selectively connected with the water inlet, the first water outlet is connected with the heating water inlet, the second water outlet is suitable for outputting pure water, and the water inlet is suitable for introducing raw water. The hot water tap has only one water inlet connected with the whole machine, so that a plurality of waterway connection schemes are reduced, pipeline connection operation steps and external connection pipes are reduced, internal parts of the hot water tap are reduced, and the structural size and installation space of the hot water tap are saved.

Description

Hot water tap and water purifying machine

Technical Field

The utility model relates to the technical field of water purifying and drinking machines, in particular to a hot water faucet and a water purifying and drinking machine.

Background

The water purifying machine purifies tap water through the purifying filter element so as to achieve the purpose of purifying water.

In the related prior art, a hot water tap of the water purifying and drinking machine is connected with a complete machine system by adopting a plurality of pipelines, the pipeline connection operation steps are complex, and a user is inconvenient to connect the hot water tap to the complete machine system.

Disclosure of utility model

In view of the above, the present utility model provides a hot water tap to solve the problem that the hot water tap in the prior art is connected to the complete machine system by adopting a plurality of pipelines, so that the pipeline connection operation steps are complex, and the hot water tap is inconvenient for users to connect to the complete machine system.

In one aspect, the present utility model provides a hot water tap comprising:

The heating device is provided with a heating water inlet and a heating water outlet, and the heating water outlet is suitable for outputting hot water;

The diverter valve is provided with a water inlet, a first water outlet and a second water outlet, the first water outlet and the second water outlet are selectively connected with the water inlet, the first water outlet is connected with the heating water inlet, the second water outlet is suitable for outputting raw water, and the water inlet is suitable for introducing raw water.

The heating device has the beneficial effects that the heating device is of a circular pipeline structure, one end of the heating device is a heating water inlet, and the other end of the heating device is a heating water outlet. When water enters the heating device from the heating water inlet, the heating device heats the water, and the heated hot water flows out from the heating water outlet. The pure water pipeline can be connected into to the water inlet that generates heat, and the one end of pure water pipeline is connected to the water inlet that generates heat for pure water can be heated through pure water pipeline and then the device that generates heat. The heated hot water enters the reversing valve through the reversing water inlet, and then flows to the first reversing water outlet and the second reversing water outlet. Wherein, the hot water flowing out from the first reversing water outlet can directly flow out. The hot water flowing out from the second reversing water outlet enters the heat exchanger for heat exchange. The cooked water after the hot water is cooled can flow out through a hot water pipeline.

As an alternative embodiment, the hot water tap further comprises a water outlet nozzle, and the heating water outlet and the second water outlet are respectively connected to the water outlet nozzle.

As an optional implementation manner, the water outlet nozzle is provided with a hot water inlet, the hot water inlet is connected with the heating water outlet, and the hot water tap further comprises:

The first temperature detection device is arranged at the hot water inlet and is suitable for detecting the water temperature entering the hot water inlet and sending temperature information;

And the controller is in communication connection with the first temperature detection device and the heating device respectively, and is suitable for controlling the heating temperature of the heating device according to the temperature information sent by the first temperature detection device.

The beneficial effects are that, first temperature-detecting device sets up on the pipeline of connecting delivery port and hot water inlet that generates heat, and first temperature-detecting device is close to the hot water inlet and sets up for first temperature-detecting device can detect the temperature of the water of getting into the hot water inlet. The controller can control the heating device according to the temperature information so as to adjust the temperature of the water which can be heated by the heating device.

As an optional implementation manner, the hot water tap further comprises a second temperature detection device, wherein the second temperature detection device is arranged at the heating water outlet, and the first temperature detection device is suitable for detecting the water temperature flowing out of the heating water outlet and sending temperature information.

The heating water outlet has the beneficial effects that the second temperature detection device is arranged on a pipeline connecting the heating water outlet and the water inlet, so that the second temperature detection device can detect the temperature of hot water flowing out of the heating water outlet. The controller can control the heating device according to the temperature information so as to adjust the temperature of the water which can be heated by the heating device.

As an alternative embodiment, the diverter valve is a diverter valve, so that water entering the diverter valve can be diverted.

In another aspect, the present utility model provides a water purifying dispenser, further comprising:

the whole system is provided with a pure water delivery pipeline, the pure water delivery pipeline is provided with a pure water outlet;

The hot water tap of any one of the preceding claims, wherein the water inlet of the hot water tap is connected with the pure water outlet.

As an optional implementation manner, the whole machine system includes:

The composite filter element is provided with a pure water outlet;

a pure water outlet pipe, one end of which is connected to the pure water outlet;

one end of the first clean water branch pipeline is connected to the water inlet, and the other end of the first clean water branch pipeline is connected to the pure water outlet;

And one end of the second clean water branch pipeline is connected to the water inlet, and the other end of the second clean water branch pipeline is connected to the pure water outlet.

As an optional implementation manner, the second water purification branch pipe is connected with a flow control pump in series.

As an alternative implementation manner, the first water purifying branch pipeline is provided with a pressure switch.

As an alternative embodiment, the composite filter element includes a pre-PAC filter element and a post-activated carbon filter element.

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 the operation of a hot water tap according to an embodiment of the utility model;

FIG. 2 is a schematic diagram of the operation of a water purifying dispenser according to an embodiment of the present utility model;

fig. 3 is a control block diagram of a hot water tap according to an embodiment of the utility model.

Reference numerals illustrate:

10. A water purifying machine;

100. A hot water tap;

110. a heating device;

111. a heating water inlet;

112. A heating water outlet;

120. a water outlet nozzle;

130. A diverter valve;

131. a water inlet;

132. a first water outlet;

133. A second water outlet;

140. A first temperature detection device;

150. a second temperature detecting means;

160. A pure water pipeline;

180. a hot water pipeline;

190. A controller;

200. a complete machine system;

230. a first clean water branch line;

240. A second clean water branch line;

210. A composite filter element;

211. a front PAC filter element;

212. A rear activated carbon filter element is arranged;

220. deeply treating the filter element;

250. A flow control pump;

260. And a pressure switch.

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.

The water purifying and drinking machine 10 generally comprises a pretreatment filter element, a precision filter element and a post-treatment filter element, wherein the pretreatment filter element is used for pretreating the entering tap water, and the activated carbon is adopted in the pretreatment filter element to effectively remove oxidative substances such as residual chlorine which damage the RO filter element of the precision filter element.

Embodiments of the present utility model are described below with reference to fig. 1 to 3.

As shown in fig. 1, according to an aspect of the embodiment of the present utility model, there is provided a hot water tap 100, the hot water tap 100 including: the heating device 110 and the diverter valve 130, the heating device 110 is provided with a heating water inlet 111 and a heating water outlet 112, the heating water outlet 112 is suitable for outputting hot water, the diverter valve 130 is provided with a water inlet 131, a first water outlet 132 and a second water outlet 133, the first water outlet 132 and the second water outlet 133 are selectively connected with the water inlet 131, the first water outlet 132 is connected with the heating water inlet 111, the second water outlet 133 is suitable for outputting raw water, and the water inlet 131 is suitable for introducing raw water.

The heating device 110 has a circular pipeline structure, one end of the heating device 110 is a heating water inlet 111, and the other end of the heating device 110 is a heating water outlet 112. When water enters the heating device 110 from the heating water inlet 111, the heating device 110 heats the entered water, and the heated hot water flows out from the heating water outlet 112.

It is understood that the heating water inlet 111 may be connected to the pure water pipe 160, that is, one end of the pure water pipe 160 is connected to the heating water inlet 111, so that pure water may be heated by the pure water pipe 160 and thus the heating device 110.

The heated hot water enters the reversing valve through the reversing water inlet 131, and then flows to the first reversing water outlet and the second reversing water outlet. Wherein, the hot water flowing out from the first reversing water outlet can directly flow out. The hot water flowing out from the second reversing water outlet enters the heat exchanger for heat exchange.

It will be appreciated that the hot water tap 100 further comprises a hot water line 180, one end of the hot water line 180 being connected to the second junction, the other end of the hot water line 180 being connected to the second inverted outlet. The hot water enters the heat exchanger through the hot water pipeline 180, the water temperature is reduced, cooked water is formed, and the cooked water enters the cooked water pipeline through the third interface.

It is understood that the hot water tap 100 further includes a water cooking pipeline, one end of which is connected to the third interface, so that the cooled water can flow out through the hot water pipeline 180.

In another embodiment, the hot water tap 100 further includes a nozzle 120, and the heat emitting water outlet 112 and the second water outlet 133 are respectively connected to the nozzle 120, so that the water split by the split valve 130 flows to the nozzle 120 for water discharge.

Specifically, the water outlet nozzle 120 is provided with a hot water inlet connected with the heating water outlet 112, and the hot water tap 100 further includes: the first temperature detection device 140 and the controller 190, the first temperature detection device 140 is disposed at the hot water inlet, the first temperature detection device 140 is suitable for detecting the water temperature entering the hot water inlet and sending temperature information, the controller 190 is respectively in communication connection with the first temperature detection device 140 and the heating device 110, and the controller 190 is suitable for controlling the heating temperature of the heating device 110 according to the temperature information sent by the first temperature detection device 140.

The first temperature detecting device 140 may be a temperature sensing bulb, the first temperature detecting device 140 is disposed on a pipeline connecting the heating water outlet 112 and the hot water inlet, and the first temperature detecting device 140 is disposed near the hot water inlet, so that the first temperature detecting device 140 can detect the temperature of the water entering the hot water inlet. The controller 190 may control the heat generating device 110 according to the temperature information to adjust the temperature at which the heat generating device 110 can heat water.

Further, the hot water tap 100 further comprises a second temperature detecting device 150, the second temperature detecting device 150 is arranged at the heating water outlet 112, and the first temperature detecting device 140 is adapted to detect the water temperature flowing out of the heating water outlet 112 and send temperature information.

The second temperature detecting device 150 may be a temperature sensing bulb, and the second temperature detecting device 150 is disposed on a pipeline connecting the heating water outlet 112 and the water inlet, so that the second temperature detecting device 150 can detect the temperature of the hot water flowing out from the heating water outlet 112. The controller 190 may control the heat generating device 110 according to the temperature information to adjust the temperature at which the heat generating device 110 can heat water.

Wherein the diverter valve 130 is a reversing valve such that water entering the diverter valve 130 can be reversed.

As shown in fig. 2, according to another aspect of the present utility model, there is provided a purified water dispenser 10, wherein the purified water dispenser 10 further comprises a complete machine system 200 and a hot water tap 100, the complete machine system 200 has a pure water delivery pipeline, the pure water delivery pipeline has a pure water outlet, and a water inlet 131 of the hot water tap 100 and the pure water outlet.

It can be understood that the hot water tap 100 needs to be communicated with a water path of the whole machine, and only one water inlet of the quick water tap is connected with the whole machine, so that a plurality of water path connection schemes are reduced, the pipeline connection operation steps and external connection pipes are reduced, and the tap installation of a user is facilitated; by adopting the waterway connection scheme of the one-inlet valve and the two-outlet valve, the use of pipeline sealing elements is reduced, the sealing reliability is improved, and the pipeline water leakage point is reduced.

The water inlet of the quick heating faucet is integrated with the two water inlet valves and the two water outlet valves, different waterways in the whole machine are finally combined into one water outlet, the water outlet is connected to the water inlet of the quick heating faucet, and the different waterways are switched through the two water inlet valves and the two water outlet valves and are respectively connected to different waterway components in the faucet, so that the faucet can respectively output the warm water, the boiled water or the warm water.

In another embodiment, the complete machine system 200 includes: the composite filter element 210, the pure water outlet pipeline, the first pure water branch pipeline 230 and the second pure water branch pipeline 240, wherein the composite filter element 210 is provided with a pure water outlet; one end of the pure water outlet pipe is connected to the pure water outlet, one end of the first pure water branch pipe 230 is connected to the water inlet, the other end of the first pure water branch pipe 230 is connected to the pure water outlet, one end of the second pure water branch pipe 240 is connected to the water inlet, and the other end of the second pure water branch pipe 240 is connected to the pure water outlet.

The whole system 200 further comprises a raw water inlet pipeline, wherein the raw water inlet pipeline is connected with tap water, a pressure reducing valve is arranged on the raw water inlet pipeline, and tap water decompressed by the pressure reducing valve enters the composite filter element 210.

The complete machine system 200 further includes a first water producing pipeline, a second water producing pipeline, a first water purifying main pipeline, a first water purifying branch pipeline 230, a second water purifying branch pipeline 240 and a second water purifying main pipeline.

The composite filter element 210 comprises a front PAC filter element 211 and a rear activated carbon filter element 212, wherein a water inlet of the front PAC filter element 211 is connected with a raw water inlet pipeline, so that tap water enters the front PAC filter element 211 for filtering through the raw water inlet pipeline.

One end of the first water manufacturing pipeline is connected to the water outlet of the front PAC filter element 211, so that water filtered by the front PAC filter element 211 enters the first water manufacturing pipeline. The other end of the first water production line is connected to the water inlet of the finishing filter cartridge 220 so that the water filtered by the pre-PAC filter cartridge 211 enters the finishing filter cartridge 220 through the first water production line for further treatment. The depth treatment cartridge 220 is an RO membrane cartridge.

The first water making pipeline is provided with a water inlet electromagnetic valve, a flowmeter and a pressure stabilizing pump.

One end of the second water making pipeline is connected to the water outlet of the advanced treatment filter element 220, and the other end of the second water making pipeline is connected to the water inlet of the post-positioned activated carbon filter element 212, so that the water treated by the advanced treatment filter element 220 enters the post-positioned activated carbon filter element 212 for further treatment to finish the preparation of purified water.

The advanced treatment filter element 220 is also provided with a wastewater outlet, and the wastewater outlet is connected with a wastewater outlet pipe which is provided with a wastewater outlet electromagnetic valve.

The waste water outlet pipe is connected with a waste water branch pipeline, the waste water is branched into a first water making pipeline.

The waste water branch pipeline is provided with a waste water reflux electromagnetic valve, a throttle valve and a check valve.

The first water making pipeline and the second water making pipeline are also connected with a return pipeline, one end of the return pipeline is connected to the first water making pipeline, the other end of the return pipeline is connected to the second water making pipeline, and the return pipeline is provided with a return electromagnetic valve and a check valve.

One end of the first water purifying main pipe is connected to the water outlet of the rear activated carbon filter element 212 so that the prepared water enters the first water purifying main pipe.

The first water purifying main pipeline is provided with a check valve.

The first water purifying branch pipe 230 and the second water purifying branch pipe 240 are arranged in parallel, wherein water inlet ends of the first water purifying branch pipe 230 and the second water purifying branch pipe 240 are connected to the first water purifying total pipe, so that the purified water entering the first water purifying total pipe can enter the first water purifying branch pipe 230 and the second water purifying branch pipe 240 respectively.

The water outlet ends of the first and second water-purifying branch pipes 230 and 240 are connected to the second water-purifying main pipe so that water entering the first and second water-purifying branch pipes 230 and 240 can enter the second water-purifying main pipe.

The water outlet end of the second water purifying main pipeline is connected to the water inlet of the flow dividing valve 130.

The second water purifying branch pipe 240 is connected in series with a flow control pump 250, a water inlet electromagnetic valve and a one-way valve, and the first water purifying branch pipe 230 is provided with a pressure switch 260, a temperature sensing bulb and a water inlet electromagnetic valve.

It will be appreciated that at least one sealing structure is required for each pipe connection of the heat exchanger, so that the sealing effect of the heat exchanger is better.

The diverter valve 130 is a one-in two-out valve.

Through the water inlet integration one advance two outlet valves at quick-heating tap, the different water routes in the complete machine are finally merged into a delivery port and are connected to quick-heating tap's water inlet, and the different water routes of rethread advance two outlet valves switch, are connected to the different water route parts in the tap respectively to realized tap and gone out warm water, boiled water or warm water respectively.

The quick heating faucet is characterized in that only one water inlet is connected with the whole faucet, a plurality of waterway connection schemes are reduced, operation steps of pipeline connection and external connection pipes are reduced, and a user can conveniently install the faucet. In addition, the waterway connection scheme of the one-inlet valve and the two-outlet valve is adopted, so that the use of sealing elements in the pipeline is reduced, the sealing reliability is improved, and the water leakage point of the pipeline is reduced.

The complete machine system 200 includes: the composite filter element 210, the pure water outlet pipeline, the first pure water branch pipeline 230 and the second pure water branch pipeline 240, wherein the composite filter element 210 is provided with a pure water outlet; one end of the pure water outlet pipe is connected to the pure water outlet, one end of the first pure water branch pipe 230 is connected to the water inlet, the other end of the first pure water branch pipe 230 is connected to the pure water outlet, one end of the second pure water branch pipe 240 is connected to the water inlet, and the other end of the second pure water branch pipe 240 is connected to the pure water outlet.

The whole system 200 further comprises a raw water inlet pipeline, wherein the raw water inlet pipeline is connected with tap water, a pressure reducing valve is arranged on the raw water inlet pipeline, and tap water decompressed by the pressure reducing valve enters the composite filter element 210.

The complete machine system 200 further includes a first water producing pipeline, a second water producing pipeline, a first water purifying main pipeline, a first water purifying branch pipeline 230, a second water purifying branch pipeline 240 and a second water purifying main pipeline.

The composite filter element 210 comprises a front PAC filter element 211 and a rear activated carbon filter element 212, wherein a water inlet of the front PAC filter element 211 is connected with a raw water inlet pipeline, so that tap water enters the front PAC filter element 211 for filtering through the raw water inlet pipeline.

One end of the first water manufacturing pipeline is connected to the water outlet of the front PAC filter element 211, so that water filtered by the front PAC filter element 211 enters the first water manufacturing pipeline. The other end of the first water production line is connected to the water inlet of the finishing filter cartridge 220 so that the water filtered by the pre-PAC filter cartridge 211 enters the finishing filter cartridge 220 through the first water production line for further treatment. The depth treatment cartridge 220 is an RO membrane cartridge.

The first water making pipeline is provided with a water inlet electromagnetic valve, a flowmeter and a pressure stabilizing pump.

One end of the second water making pipeline is connected to the water outlet of the advanced treatment filter element 220, and the other end of the second water making pipeline is connected to the water inlet of the post-positioned activated carbon filter element 212, so that the water treated by the advanced treatment filter element 220 enters the post-positioned activated carbon filter element 212 for further treatment to finish the preparation of purified water.

The advanced treatment filter element 220 is also provided with a wastewater outlet, and the wastewater outlet is connected with a wastewater outlet pipe which is provided with a wastewater outlet electromagnetic valve.

The waste water outlet pipe is connected with a waste water branch pipeline, the waste water is branched into a first water making pipeline.

The waste water branch pipeline is provided with a waste water reflux electromagnetic valve, a throttle valve and a check valve.

The first water making pipeline and the second water making pipeline are also connected with a return pipeline, one end of the return pipeline is connected to the first water making pipeline, the other end of the return pipeline is connected to the second water making pipeline, and the return pipeline is provided with a return electromagnetic valve and a check valve.

One end of the first water purifying main pipe is connected to the water outlet of the rear activated carbon filter element 212 so that the prepared water enters the first water purifying main pipe.

The first water purifying main pipeline is provided with a check valve.

The water purifying dispenser 10 includes: the device comprises a water production pipeline, a flushing pipeline, a control valve group and a hot water generating device, wherein both a front carbon filter element and a rear carbon filter element comprise carbon water purifying units, and the flow direction of water in the water production process is forward.

The tap can be a water purifier, and the flushing pipeline is used for flushing the front carbon filter element and the rear carbon filter element. The temperature of the hot water can break the balance between the carbon and the polluted adsorbent, so that the pollutant is desorbed in a resolving way, and the active carbon recovers part of adsorption capacity and realizes regeneration. Specifically, the temperature is between the ambient temperature and the boiling point temperature of water, so that the hot water at the temperature has the flushing effect and is safe and simple.

Specifically, the hot water generating device includes: the hot tank is provided with a pure water inlet and a hot water outlet, the pure water inlet is connected with the water outlet of the pure water cylinder, and the hot water outlet is connected with the flushing pipeline; or a heating device which is suitable for heating the pure water cylinder so that hot water enters the flushing pipeline from the water outlet of the pure water cylinder.

In the normal water making process, the water inlet of the water inlet filter element is forward, and the water flows out from the water outlet of the filter element to flow out forward. When water enters the filter element from the water outlet of the filter element, the water enters the filter element in a reverse direction, and the water flows out from the water inlet of the filter element in a reverse direction.

The flush line may complete a back flush such that a portion of the water line is present as part of the flush line. That is, the water making pipeline between the water outlet of the rear carbon filter element and the water inlet of the pure water cylinder can be used as a part of the flushing pipeline, so that the pure water stored in the pure water cylinder can be used as cooling water after hot water flushing to enter the flushing pipeline.

When normal water production is finished, the control valve group controls the water production pipeline to be closed, water in the pure water cylinder is heated through the heating device, so that hot water enters the water outlet of the rear carbon filter element, the rear carbon filter element can be reversely flushed, pollutants of the rear carbon filter element can be effectively stripped and removed in running water, effective regeneration of the rear carbon filter element is realized, then, hot water flows out from the water inlet of the rear carbon filter element and enters the water outlet of the front carbon filter element to reversely flush the front carbon filter element, and pollutants of the front carbon can be effectively stripped and removed in running water, so that effective regeneration of the front carbon filter element is realized.

It can be understood that the leading charcoal filter core sets up the upper reaches of water manufacturing pipeline, and the rearmounted charcoal filter core sets up the low reaches of water manufacturing pipeline, consequently, impurity in the rearmounted charcoal filter core is less than impurity in the leading charcoal filter core, and hot water washes the leading charcoal filter core of then reentrant, compares earlier to wash the leading charcoal filter core before to the rearmounted charcoal filter core again wash, can accomplish the regeneration to the rearmounted charcoal filter core, can not carry more impurity because washing to the filter core that original impurity is not too much on the contrary. Therefore, the regeneration effect and efficiency of the front active carbon filter element and the rear active carbon filter element can be improved.

And the back flushing of the back carbon filter element and the front carbon filter element is more beneficial to the stripping of pollutants.

Specifically, the water purifying dispenser 10 further includes: the pretreatment filter element and the reverse osmosis membrane filter element are non-high temperature resistant filter elements, the pretreatment filter element is connected in series on the water making pipeline, a water inlet of the pretreatment filter element can be connected to a water inlet end, and a water outlet of the pretreatment filter element and a water inlet of the pre-carbon filter element are sequentially connected to the water making pipeline; the non-high temperature resistant filter element is connected in series on the water making pipeline, and the water outlet of the front carbon filter element, the water inlet of the non-high temperature resistant filter element, the water outlet of the non-high temperature resistant filter element and the water inlet of the rear carbon filter element are sequentially connected to the water making pipeline; the first water inlet valve is arranged on a water making pipeline between the water outlet of the pre-carbon filter element and the water inlet of the non-high temperature resistant filter element, and the water outlet of the pre-treatment filter element and the pre-carbon filter element.

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 (10)

1. A hot water tap (100), characterized by comprising:

The heating device (110) is provided with a heating water inlet (111) and a heating water outlet (112), and the heating water outlet (112) is suitable for outputting hot water;

The diverter valve (130) is provided with a water inlet (131), a first water outlet (132) and a second water outlet (133), wherein the first water outlet (132) and the second water outlet (133) are selectively connected with the water inlet (131), the first water outlet (132) is connected with the heating water inlet (111), the second water outlet (133) is suitable for outputting pure water, and the water inlet (131) is suitable for introducing pure water.

2. The hot water tap (100) according to claim 1, wherein the hot water tap (100) further comprises a water outlet nozzle (120), the heat generating water outlet (112) and the second water outlet (133) being connected to the water outlet nozzle (120), respectively.

3. The hot water tap (100) according to claim 2, wherein the water outlet nozzle (120) is provided with a hot water inlet connected with the heat generating water outlet (112), the hot water tap (100) further comprising:

A first temperature detection device (140) arranged at the hot water inlet, wherein the first temperature detection device (140) is suitable for detecting the water temperature entering the hot water inlet and sending temperature information;

and the controller (190) is respectively in communication connection with the first temperature detection device (140) and the heating device (110), and the controller (190) is suitable for controlling the heating temperature of the heating device (110) according to the temperature information sent by the first temperature detection device (140).

4. A hot water tap (100) according to claim 3, wherein the hot water tap (100) further comprises a second temperature detection device (150), the second temperature detection device (150) being provided at the heat generating water outlet (112), the first temperature detection device (140) being adapted to detect the water temperature flowing out of the heat generating water outlet (112) and to send a temperature information.

5. The hot water tap (100) according to claim 1, wherein the diverter valve (130) is a reversing valve.

6. A water purifying dispenser (10), characterized in that the water purifying dispenser (10) further comprises:

The system comprises a complete machine system (200), wherein the complete machine system (200) is provided with a pure water delivery pipeline, and the pure water delivery pipeline is provided with a pure water outlet;

the hot water tap (100) according to any one of claims 1-5, wherein a water inlet (131) of the hot water tap (100) is connected with the pure water outlet.

7. The water purifying beverage machine (10) of claim 6, wherein the complete machine system (200) includes:

A composite filter element (210), wherein the composite filter element (210) is provided with the pure water outlet;

a pure water outlet pipe, one end of which is connected to the pure water outlet;

A first clean water branch pipe (230) having one end connected to the water inlet (131), and the other end of the first clean water branch pipe (230) being connected to the pure water outlet;

and one end of the second clean water branch pipeline (240) is connected to the water inlet (131), and the other end of the second clean water branch pipeline (240) is connected to the pure water outlet.

8. The purified water dispenser (10) of claim 7, wherein the second purified water branch line (240) is coupled in series with a flow control pump (250).

9. The purified water dispenser (10) of claim 7, wherein the first purified water branch line (230) is provided with a pressure switch (260).

10. The water purification machine (10) of any one of claims 7 to 9, wherein the composite filter cartridge (210) comprises a pre-PAC filter cartridge (211) and a post-activated carbon filter cartridge (212).