CN220152926U - Net heat all-in-one - Google Patents

Abstract

The utility model discloses a heat-purifying integrated machine which comprises a waterway plate, wherein the waterway plate is provided with a cold water flow control area and a hot water flow control area, the cold water flow control area comprises a raw water inlet waterway and a purified water outlet waterway, the hot water flow control area comprises a hot water outlet waterway, and the cold water flow control area and the hot water flow control area are adjacently arranged. According to the utility model, the waterway plate is divided into the cold water flow control area and the hot water flow control area, so that the pipeline in the heat purifying integrated machine is divided into the cold water part and the hot water part, and the pipeline is integrated on the waterway plate, so that the structure is more compact and reliable, the occupied space of the waterway is reduced, and the assembly and the overhaul are convenient. The cold water flow control area and the hot water flow control area are adjacently arranged, so that the cold water flow control area and the pipeline in the hot water flow control area can exchange heat, the hot water flow control area can be quickly cooled by heat exchange, the electromagnetic valve and other structures in the hot water flow control area are prevented from being overheated, and the service life of the electromagnetic valve is prolonged.

Description

Net heat all-in-one

Technical Field

The utility model belongs to the field of drinking water equipment, and particularly relates to a heat purifying and integrating machine.

Background

Along with the improvement of living standard, the heat-purifying integrated machine with integrated water purification and heating is widely and widely applied. The existing heat-purifying all-in-one machine is characterized in that the water paths are connected through a plurality of water pipes, so that the water paths are dispersed, the water paths are difficult to overhaul, and the heat dissipation of the hot water passing part is poor.

Disclosure of Invention

The utility model aims to provide a net heat integrated machine to solve at least one of the problems.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides a net heat all-in-one, includes the water route board, and the water route board has cold water accuse flow district and hot water accuse flow district, and cold water accuse flow district includes raw water inlet waterway and water purification play water route, and hot water accuse flow district includes hot water play water route, and cold water accuse flow district and hot water accuse flow district are adjacent to be set up.

In the above-mentioned heat-purifying integrated machine, the raw water inlet waterway has a raw water inlet, the purified water outlet waterway has a purified water outlet, and the raw water inlet and the purified water outlet are both arranged on the same side of the waterway plate.

In the above-mentioned heat-purifying integrated machine, the cold water flow control area further includes a waste water channel connected with the filter assembly, the waste water channel has a waste water outlet, and the waste water outlet is arranged between the raw water inlet and the purified water outlet.

In the above-mentioned heat purification all-in-one, the raw water intake waterway has raw water solenoid valve used for making and breaking raw water intake waterway; and/or the purified water outlet waterway is provided with a purified water electromagnetic valve for switching on and off the purified water outlet waterway; and/or the hot water outlet waterway is provided with a hot water electromagnetic valve for switching on and off the hot water outlet waterway.

In the above-mentioned heat-purifying all-in-one, the cold water accuse flows the district and still includes cold water backward flow water route, and cold water backward flow water route's both ends communicate with filtration module's water inlet end and play water end respectively.

In the above-mentioned heat purification all-in-one, the cold water reflux water route has the cold water return port that is used for connecting the filtration subassembly water inlet, and raw water route has raw water inlet, and cold water return port and raw water inlet locate the opposite both sides of waterway board respectively.

In the above-mentioned heat purification all-in-one, the hot water accuse flows the district and still includes hot water moisturizing water route, and the both ends of hot water moisturizing water route communicate with hot water play water route and hot jar respectively to supply hot water in the hot jar that is used for the water storage.

In the above-mentioned heat-purifying integrated machine, the hot water replenishing waterway is provided with a replenishing water outlet for communicating with the hot tank, the hot water outlet waterway is provided with a hot water outlet, and the replenishing water outlet and the hot water outlet are respectively arranged on two opposite sides of the waterway plate.

In the above-mentioned heat-purifying all-in-one, the heat-purifying all-in-one further includes an exhaust pipeline for exhausting the vapor in the heat tank, and the exhaust pipeline is disposed in the hot water flow control region.

In the above-mentioned heat purification all-in-one, the exhaust pipeline is located the hot water outlet waterway and keeps away from the one side of water purification water outlet waterway, and the gas outlet of exhaust pipeline and the hot water delivery port in hot water outlet waterway set up side by side.

The beneficial effects of the utility model are as follows:

the utility model provides a net heat all-in-one, includes the water route board, and the water route board has cold water accuse flow district and hot water accuse flow district, and cold water accuse flow district includes raw water inlet waterway and water purification play water route, and hot water accuse flow district includes hot water play water route, and cold water accuse flow district and hot water accuse flow district are adjacent to be set up. The technical scheme has the following technical effects:

according to the utility model, the waterway plate is divided into the cold water flow control area and the hot water flow control area, so that the pipeline in the heat purifying integrated machine is divided into the cold water part and the hot water part, and the pipeline is integrated on the waterway plate, so that the structure is more compact and reliable, the occupied space of the waterway is reduced, and the assembly and the overhaul are convenient. The cold water accuse flows district and the adjacent setting of hot water accuse flow district, can make cold water accuse flow district and the pipeline in the hot water accuse flow district carry out the heat exchange, the heat exchange can dispel the heat fast to the hot water accuse flow district, prevent that the solenoid valve equistructure in the hot water accuse flow district from overheating, the life of solenoid valve is prolonged, simultaneously, the heat exchange can heat up the pipeline internal water flow of cold water accuse flow district, the pipeline difference in temperature that makes cold water accuse flow district and hot water accuse flow district reduces, when making the rivers in the cold water accuse flow district get into the heating promptly, the energy consumption that the heating body needs to consume is lower promptly, and the rivers in the cold water accuse flow district intensify, when making the rivers get into filter assembly and filter, the filter effect is better.

The raw water inlet waterway is provided with the raw water inlet, the purified water outlet waterway is provided with the purified water outlet, and the raw water inlet and the purified water outlet are all arranged on the same side of the waterway board, so that a user can finish connection between the external waterway and the raw water inlet and between the tap and the purified water outlet only by standing on one side of the purified heat all-in-one machine when using the purified heat all-in-one machine, the use is more convenient and simple, and the use experience of the user is improved.

The cold water accuse flows the district and still includes the waste water route that links to each other with filtering component, and the waste water route has the waste water delivery port, and waste water delivery port locates between raw water inlet and the pure water delivery port, and waste water delivery port is in, raw water inlet and pure water delivery port all locate the same side of water route board to the waste water delivery port and external drainage equipment's quick connect and discharge waste water improve user's use and experience, and waste water delivery port and pure water delivery port that adjacent setting can shorten the interval between waste water route and the pure water play water route, be convenient for waste water route and the connection of pure water play water route and filtering component.

The cold water flow control area further comprises a cold water return waterway, two ends of the cold water return waterway are respectively communicated with the water inlet end and the water outlet end of the filter assembly, water flow filtered by the filter assembly can be guided to the filter assembly again for secondary filtration, RO membranes of the filter assembly can be flushed, cleaning of the RO membranes is guaranteed, and the filtering effect of the filter assembly is improved.

The cold water return waterway is provided with a cold water return port used for being connected with the water inlet end of the filter assembly, the raw water inlet waterway is provided with a raw water inlet, the cold water return port and the raw water inlet are respectively arranged on two opposite sides of the waterway plate, the cold water return waterway is arranged on the side part of the raw water inlet waterway so as to facilitate connection of the raw water inlet waterway and the cold water return waterway with the filter assembly, and meanwhile, the cold water return waterway is as far away from a hot water flow control area as possible, heat exchange between the cold water return waterway and the hot water flow control area is reduced, heat loss of the hot water flow control area is further reduced, energy is saved, and the cold water return port and the raw water inlet which are arranged in a back-to-back manner are not influenced when the cold water return waterway and the raw water inlet waterway are concentrated as much as possible.

The hot water flow control area further comprises a hot water supplementing waterway, and two ends of the hot water supplementing waterway are respectively communicated with the hot water outlet waterway and the hot tank so as to supplement hot water into the hot tank for storing water. Through with hot water moisturizing water route and hot water play water route intercommunication for hot water in the hot water play water route both can get into external tap and supply the user to use directly, also can get into in the hot jar and keep warm, so that the user uses at any time, adaptation user's different user demand.

The hot water replenishing waterway is provided with a replenishing water outlet which is communicated with the hot tank, the hot water outlet waterway is provided with a hot water outlet, and the replenishing water outlet and the hot water outlet are respectively arranged on two opposite sides of the waterway plate. The hot water supplementing waterway and the hot water outlet waterway are arranged adjacently, so that the communication between the hot water supplementing waterway and the hot water outlet waterway is realized conveniently, and the phenomenon that the water supplementing water outlet and the hot water outlet are crowded and the connection between the water supplementing waterway and the hot water outlet and other parts is influenced is avoided.

The heat purifying all-in-one machine further comprises an exhaust pipeline for exhausting water vapor in the heat tank, the exhaust pipeline is arranged in the hot water flow control area, space is saved, and assembly and maintenance are facilitated.

The exhaust pipeline is positioned at one side of the hot water outlet waterway far away from the purified water outlet waterway, and the air outlet of the exhaust pipeline is arranged side by side with the hot water outlet of the hot water outlet waterway. The exhaust pipeline is far away from the cold water flow control area as far as possible, so that the high-temperature exhaust pipeline and the purified water outlet waterway are prevented from generating a large amount of heat exchange, the flowing purified water temperature is too high to meet the use requirement of a user, and the air outlet of the exhaust pipeline and the hot water outlet of the hot water outlet waterway are arranged side by side, so that the air outlet of the exhaust pipeline is connected with the installation of an external exhaust structure and the high-temperature steam is discharged rapidly.

The features and advantages of the present utility model will be disclosed in detail in the following detailed description and the accompanying drawings.

Drawings

The utility model is further described with reference to the drawings and detailed description which follow:

FIG. 1 is a perspective view of a waterway plate;

FIG. 2 is a second perspective view of the waterway plate;

FIG. 3 is a partial cross-sectional view of the waterway plate;

fig. 4 is a schematic view of the waterway plate without the solenoid valve.

Reference numerals:

100. a waterway plate; 110. a cold water flow control area; 120. a hot water flow control area;

200. raw water inlet waterway; 210. a raw water inlet; 220. a raw water outlet; 230. a raw water solenoid valve;

300. purified water outlet waterway; 310. a purified water inlet; 320. a purified water outlet; 330. a water purifying electromagnetic valve;

400. a wastewater waterway; 410. a wastewater inlet; 420. a wastewater outlet;

500. cold water flows back to the waterway; 510. a cold water return port;

600. a hot water outlet waterway; 610. a hot water inlet; 620. a hot water outlet; 630. a hot water solenoid valve;

700. a hot water replenishing waterway; 710. a water supplementing inlet; 720. a water supplementing water outlet; 730. a water supplementing valve;

800. a hot water diversion waterway; 810. a hot water inlet; 820. a first shunt port; 830. a second shunt;

900. an exhaust line; 910. an air inlet; 920. and an air outlet.

Detailed Description

The utility model provides a heat-purifying integrated machine, which comprises a waterway plate, wherein the waterway plate is provided with a cold water flow control area and a hot water flow control area, the cold water flow control area comprises a raw water inlet waterway and a purified water outlet waterway, the hot water flow control area comprises a hot water outlet waterway, and the cold water flow control area and the hot water flow control area are adjacently arranged. According to the utility model, the waterway plate is divided into the cold water flow control area and the hot water flow control area, so that the pipeline in the heat purifying integrated machine is divided into the cold water part and the hot water part, and the pipeline is integrated on the waterway plate, so that the structure is more compact and reliable, the occupied space of the waterway is reduced, and the assembly and the overhaul are convenient. The cold water accuse flows district and the adjacent setting of hot water accuse flow district, can make cold water accuse flow district and the pipeline in the hot water accuse flow district carry out the heat exchange, the heat exchange can dispel the heat fast to the hot water accuse flow district, prevent that the solenoid valve equistructure in the hot water accuse flow district from overheating, the life of solenoid valve is prolonged, simultaneously, the heat exchange can heat up the pipeline internal water flow of cold water accuse flow district, the pipeline difference in temperature that makes cold water accuse flow district and hot water accuse flow district reduces, when making the rivers in the cold water accuse flow district get into the heating promptly, the energy consumption that the heating body needs to consume is lower promptly, and the rivers in the cold water accuse flow district intensify, when making the rivers get into filter assembly and filter, the filter effect is better.

The technical solutions of the embodiments of the present utility model will be explained and illustrated below with reference to the drawings of the embodiments of the present utility model, but the following embodiments are only preferred embodiments of the present utility model, and not all embodiments. Based on the examples in the implementation manner, other examples obtained by a person skilled in the art without making creative efforts fall within the protection scope of the present utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

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

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; 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 can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present utility model, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

Examples:

as shown in fig. 1 to 4, the integrated heat purification machine comprises a waterway board 100, wherein the waterway board 100 is provided with a cold water flow control area 110 and a hot water flow control area 120, the cold water flow control area 110 comprises a raw water inlet waterway 200 for connecting a faucet and a purified water outlet waterway 300 for connecting a filtering assembly, the hot water flow control area 120 comprises a hot water outlet waterway 600 for connecting an instant heating body, and the cold water flow control area 110 and the hot water flow control area 120 are positioned on the same waterway board 100 and are adjacently arranged.

According to the utility model, the waterway board 100 is divided into the cold water flow control area 110 and the hot water flow control area 120, so that the pipeline in the net heat integrated machine is divided into the cold water part and the hot water part, and the pipeline is integrated on the waterway board 100 at the same time, so that the structure is more compact and reliable, the occupied space of the pipeline is reduced, and the assembly and the maintenance are convenient. The cold water flow control area 110 and the hot water flow control area 120 are adjacently arranged, so that the cold water flow control area 110 and the pipeline in the hot water flow control area 120 can perform heat exchange, the hot water flow control area 120 can be quickly cooled by the heat exchange, the electromagnetic valve and other structures in the hot water flow control area 120 are prevented from overheating, the service life of the electromagnetic valve is prolonged, meanwhile, the temperature of water in the pipeline of the cold water flow control area 110 can be increased by the heat exchange, the temperature difference between the pipeline in the cold water flow control area 110 and the pipeline in the hot water flow control area 120 is reduced, the water flow in the cold water flow control area 110 is heated when entering the instant heating body, namely, the energy consumption required by the heating body is lower, the water flow in the cold water flow control area 110 is increased, the water flow temperature entering the filter assembly is higher, and the RO membrane has better filtering effect when the water flow enters the filter assembly for filtering.

In the present embodiment, the raw water intake waterway 200 has a raw water inlet 210, a raw water outlet 220 and a raw water solenoid valve 230 for externally connecting a tap water waterway, the raw water solenoid valve 230 being located between the raw water inlet 210 and the raw water outlet 220 for controlling waterway on-off of raw water between the raw water inlet 210 and the raw water outlet 220; the purified water outlet waterway 300 is provided with a purified water outlet 320 for externally connecting a water outlet tap, a purified water inlet 310 for connecting a filtering assembly and a purified water solenoid valve 330, wherein the purified water solenoid valve 330 is positioned between the purified water inlet 310 and the purified water outlet 320 and is used for controlling the water channel on-off of purified water between the purified water inlet 310 and the purified water outlet 320; preferably, the raw water inlet 210 and the purified water outlet 320 are both arranged on the same side of the waterway board 100, so that when a user uses the heat-purifying integrated machine, the user only needs to stand on one side of the heat-purifying integrated machine, and the connection between the external waterway and the raw water inlet 210 and the connection between the tap and the purified water outlet 320 can be completed, and the water-purifying integrated machine is more convenient and simple to use and improves the use experience of the user.

In this embodiment, the cold water flow control area 110 further includes a waste water channel 400, the waste water channel 400 has a waste water outlet 420 and a waste water inlet 410 for connecting a filtering component, the waste water outlet 420, the raw water inlet 210 and the purified water outlet 320 are all disposed on the same side of the water channel plate 100, so that the waste water outlet 420 is quickly connected with external drainage equipment and discharges waste water, the use experience of a user is improved, preferably, the waste water outlet 420 is disposed between the raw water inlet 210 and the purified water outlet 320, the waste water outlet 420 and the purified water outlet 320 which are adjacently disposed can shorten the interval between the waste water channel 400 and the purified water outlet channel 300, and the waste water channel 400 and the purified water outlet channel 300 are convenient to be connected with the filtering component.

The cold water flow control area 110 in this embodiment further includes a cold water return waterway 500, one end of the cold water return waterway 500 is connected to the water inlet end of the filter assembly, and the other end is connected to the water outlet end of the filter assembly, so that the filtered water flow of the filter assembly can be guided to the filter assembly again for secondary filtration, and the RO membrane of the filter assembly can be rinsed, so that the cleaning of the RO membrane is ensured, and the filtering effect of the filter assembly is improved. The water outlet end of the cold water backflow waterway 500 is provided with a cold water backflow port 510, the cold water backflow port 510 is used for being connected with the water inlet end of the filtering component, the cold water backflow waterway 500 on the waterway plate 100 is arranged adjacent to the raw water inlet waterway 200, the cold water backflow port 510 and the raw water inlet 210 are respectively arranged on two opposite sides of the waterway plate 100, namely, the openings of the cold water backflow port 510 and the raw water inlet 210 are opposite, and the cold water backflow waterway 500 is arranged on the side part of the raw water inlet waterway 200 so as to facilitate the connection of the raw water inlet waterway 200 and the cold water backflow waterway 500 with the filtering component, and simultaneously, the cold water backflow waterway 500 is far away from the hot water flow control area 120 as possible, the heat exchange between the cold water backflow waterway 500 and the hot water flow control area 120 is reduced, the consumption of the hot water flow control area 120 is further reduced, the energy is saved, and the cold water backflow port 510 and the raw water inlet 210 arranged opposite to each other can be assembled and connected without influencing the assembly and the connection of the raw water backflow waterway 500 and the water inlet waterway 200 as far as possible.

In this embodiment, the hot water outlet waterway 600 has the hot water inlet 610, the hot water outlet 620 for connecting external tap and the hot water solenoid valve 630 for controlling the waterway on-off between the hot water inlet 610 and the hot water outlet 620, the hot water outlet 620 is adjacent to the clean water outlet 320, and the raw water inlet waterway 200 is arranged on the same side of the waterway board 100, so that when the user uses the heat-purifying integrated machine, the external tap is only required to be arranged on one side of the heat-purifying integrated machine, and the external tap can be simultaneously connected with the clean water outlet 320 and the hot water outlet 620, thereby shortening the waterway length inside the heat-purifying integrated machine, being more reliable and attractive, reducing the installation difficulty of the heat-purifying integrated machine, being more convenient and simple for the user to use, and improving the use experience of the user.

When the heat tank for storing hot water is provided in the heat purification integrated machine, the hot water flow control area 120 in this embodiment further includes a hot water replenishing waterway 700, the hot water replenishing waterway 700 includes a water replenishing inlet 710, a water replenishing outlet 720, and a water replenishing valve 730 for controlling the water passage on/off of the water replenishing inlet 710 and the water replenishing outlet 720, the water replenishing inlet 710 is communicated with the hot water outlet waterway 600, and the water replenishing outlet 720 is communicated with the heat tank to replenish hot water in the hot water outlet waterway 600 into the heat tank for use. Through with hot water moisturizing water route 700 and hot water play water route 600 intercommunication for hot water in the hot water play water route 600 both can get into external tap and supply the user to use directly under the control of hot water solenoid valve 630, also can get into in the hot jar and keep warm, so that the user uses at any time, adapts to the different user demand of user. The water replenishing water outlet 720 and the hot water outlet 620 are respectively arranged on two opposite sides of the water channel plate 100, so that the hot water replenishing water channel 700 and the hot water outlet water channel 600 are adjacently arranged, the communication between the hot water replenishing water channel 700 and the hot water outlet water channel 600 is convenient to realize, and the crowding of the water replenishing water outlet 720 and the hot water outlet 620 and the influence on the connection of the two with other parts are avoided.

As shown in fig. 3, the hot water flow control area 120 in this embodiment further includes a hot water diversion waterway 800, the hot water diversion waterway 800 has a hot water inlet 810, a first diversion opening 820 and a second diversion opening 830, the hot water inlet 810 is used for connecting a water outlet pipe of the instant heating body, the first diversion opening 820 is used for connecting the hot water inlet 610, the second diversion opening 830 is used for connecting the water supplementing inlet 710, so that the hot water inlet 610 and the water supplementing inlet 710 are communicated through the hot water diversion waterway 800, and the instant heating body can be simultaneously communicated with the hot water inlet 610 and the water supplementing inlet 710 only by leading out one hot water pipe due to the arrangement of the hot water diversion waterway 800, so that the number of the hot water pipes led out by the instant heating body is reduced, and the waterway is simplified.

The heat purification all-in-one in this embodiment further includes an exhaust pipeline 900, an air inlet 910 of the exhaust pipeline 900 is communicated with an air exhaust hole of the hot tank, so as to be used for exhausting water vapor in the hot tank, preventing the air pressure in the hot tank from being too high, the exhaust pipeline 900 is also arranged in the hot water flow control area 120, saving space, being convenient for assembly and maintenance, and preferably, the exhaust pipeline 900 is located at one side of the hot water outlet waterway 600 away from the water purification water outlet waterway 300, i.e. the exhaust pipeline 900 is as far away from the cold water flow control area 110 as possible, so that the water purification temperature caused by a large amount of heat exchange generated between the high-temperature exhaust pipeline 900 and the water purification water outlet waterway 300 is too high, and the use requirement of users cannot be satisfied. The air outlet 920 of the air discharge pipe 900 is arranged side by side with the hot water outlet 620 of the hot water outlet waterway 600, so that the air outlet 920 of the air discharge pipe 900 is conveniently connected with the external air discharge structure and the high-temperature steam is rapidly discharged.

The above description is only a preferred embodiment of the present utility model, and the protection scope of the present utility model is not limited to the above examples, and all technical solutions belonging to the concept of the present utility model belong to the protection scope of the present utility model. It should be noted that modifications and adaptations to the present utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.

Claims (10)

1. The utility model provides a net heat all-in-one, includes water route board, its characterized in that: the waterway board is provided with a cold water flow control area and a hot water flow control area, the cold water flow control area comprises a raw water inlet waterway and a purified water outlet waterway, the hot water flow control area comprises a hot water outlet waterway, and the cold water flow control area and the hot water flow control area are adjacently arranged.

2. A net heat all-in-one machine as defined in claim 1, wherein: the raw water inlet waterway is provided with a raw water inlet, the purified water outlet waterway is provided with a purified water outlet, and the raw water inlet and the purified water outlet are both arranged on the same side of the waterway plate.

3. A net heat all-in-one machine as defined in claim 2, wherein: the cold water flow control area further comprises a waste water channel connected with the filtering assembly, the waste water channel is provided with a waste water outlet, and the waste water outlet is arranged between the raw water inlet and the purified water outlet.

4. A net heat all-in-one machine as defined in claim 1, wherein: the raw water inlet waterway is provided with a raw water electromagnetic valve for switching on and off the raw water inlet waterway; and/or the purified water outlet waterway is provided with a purified water electromagnetic valve for switching on and off the purified water outlet waterway; and/or the hot water outlet waterway is provided with a hot water electromagnetic valve for switching on and off the hot water outlet waterway.

5. A net heat all-in-one machine as defined in claim 1, wherein: the cold water flow control area further comprises a cold water return waterway, and two ends of the cold water return waterway are respectively communicated with the water inlet end and the water outlet end of the filtering assembly.

6. The net heat integration machine according to claim 5, wherein: the cold water reflux waterway is provided with a cold water reflux mouth used for connecting the water inlet end of the filtering component, the raw water inlet waterway is provided with a raw water inlet, and the cold water reflux mouth and the raw water inlet are respectively arranged on two opposite sides of the waterway plate.

7. A net heat all-in-one machine as defined in claim 1, wherein: the hot water flow control area further comprises a hot water supplementing waterway, and two ends of the hot water supplementing waterway are respectively communicated with the hot water outlet waterway and the hot tank so as to supplement hot water into the hot tank for storing water.

8. The net heat integration machine according to claim 7, wherein: the hot water replenishing waterway is provided with a replenishing water outlet which is communicated with the hot tank, the hot water outlet waterway is provided with a hot water outlet, and the replenishing water outlet and the hot water outlet are respectively arranged on two opposite sides of the waterway plate.

9. A net heat all-in-one machine according to any one of claims 1 to 8, wherein: the heat purification all-in-one machine further comprises an exhaust pipeline for exhausting water vapor in the hot tank, and the exhaust pipeline is arranged in the hot water flow control area.

10. A net heat all-in-one machine as defined in claim 9, wherein: the exhaust pipeline is positioned at one side of the hot water outlet waterway far away from the purified water outlet waterway, and the air outlet of the exhaust pipeline is arranged side by side with the hot water outlet of the hot water outlet waterway.