CN219572282U - Integrated waterway capable of realizing atomization function and water heater with same - Google Patents

Abstract

The utility model discloses an integrated waterway capable of realizing an atomization function and a water heater, comprising: the integrated water inlet and outlet device is used for communicating the inner container of the water heater with the water outlet pipe of the water heater and the water inlet pipe of the water heater, and the atomizing device; the integrated water inlet and outlet device is characterized by comprising a water mixing module, wherein the water mixing module comprises a double water outlet Kong Hunshui valve core, and a first water outlet channel and a second water outlet channel which are communicated with two water outlets of the corresponding double water outlet water mixing valve core; the atomizing device is communicated with the second water outlet channel. The atomizing device is adopted to improve the bath environment temperature, so that the low-power improvement of the bath environment temperature can be realized, and the overload risk of the cable is reduced; and the atomization device and the water inlet and outlet device are integrally arranged, so that the device is convenient to install, reduces hidden danger of water leakage and is small in size.

Description

Integrated waterway capable of realizing atomization function and water heater with same

Technical Field

The utility model relates to the technical field of water heating equipment, in particular to an integrated waterway capable of realizing an atomization function and a water heater with the integrated waterway.

Background

The existing bathroom environment temperature increasing method is mostly realized by installing equipment such as bathroom heaters. However, because the bathroom heater is a high-power electric appliance, when the bathroom heater and the water heater are used simultaneously, the risk of line overload and fire can exist, and potential safety hazards are brought to personnel and property. According to the NOAA heat index (body temperature sensing) in the United states, the humidity and the ambient temperature of the environment are improved, and the body temperature of a human body can be improved to a certain extent. For example, when the ambient relative humidity is 90%, the temperature of the human body is about 40 ℃ and the ambient temperature is only required to be raised to about 30 ℃.

The inventor's prior application patent with publication number of CN217928965U discloses a humidification heating system capable of realizing atomization water heater, and an atomization box and an atomization module connected by a water inlet pipeline and a water outlet pipeline of the water heater are adopted to output water mist for improving the environmental temperature and humidity of a bathroom. When the atomization box and the atomization module are used as independent parts to be connected and installed with other parts of the water heater, water leakage easily occurs while the installation is inconvenient.

Disclosure of Invention

Aiming at the problems in the prior art, the utility model aims to provide an integrated waterway which is convenient to install and good in leak-proof performance and can realize an atomization function.

Another object of the present utility model is to provide a water heater having the above integrated waterway.

In order to achieve the above purpose, the utility model adopts the following technical scheme.

An integrated waterway capable of realizing an atomization function, comprising: the integrated water inlet and outlet device is used for communicating the inner container of the water heater with the water outlet pipe of the water heater and the water inlet pipe of the water heater, and the atomizing device; the integrated water inlet and outlet device is characterized by comprising a water mixing module, wherein the water mixing module comprises a double water outlet Kong Hunshui valve core, and a first water outlet channel and a second water outlet channel which are communicated with two water outlets of the corresponding double water outlet water mixing valve core; the atomizing device is communicated with the second water outlet channel.

As a further illustration of the above, the integrated water inlet and outlet device and the atomizing device are mounted on a waterway plate.

As a further explanation of the above, the atomizing device includes: the atomization cavity is communicated with the second water outlet channel, an atomizer component in the atomization cavity is arranged, and a mist outlet is arranged on the atomization cavity.

As a further illustration of the above, the atomizing chamber is in communication with a fan assembly for blowing atomized water mist out of the atomizing chamber.

As a further explanation of the above scheme, an air inlet is arranged on the atomization cavity, and an air outlet of the fan assembly is communicated with the air inlet; the fan assembly is communicated with the atomizing cavity through an air duct, and the air duct and/or the atomizing cavity are/is provided with an air duct baffle.

As a further explanation of the above scheme, a drip edge is provided on the mist outlet.

As a further explanation of the above-mentioned aspects, a liquid level sensor for measuring the liquid level of water in the atomizing chamber and a temperature sensor for detecting the temperature of water in the atomizing chamber are provided in the atomizing chamber.

As a further explanation of the above solution, the dual outlet water mixing valve core includes: the valve comprises a valve core shell with an upper opening and a lower opening, a lower valve clack and an upper valve clack which are arranged in the valve core shell, and a valve rod for driving the upper valve clack to rotate on a horizontal plane; four water holes are formed in the lower valve clack, and the four water holes comprise two water inlets and two water outlets; the upper valve clack is provided with a water mixing tank for communicating any two or three water holes.

As a further explanation of the above, the integrated water inlet and outlet device includes: the water mixing module is connected with the cold water channel and the hot water channel, the water mixing outlet channel is communicated with the first water outlet of the water mixing module, the water inlet pipeline is communicated with the cold water channel and used for supplying water to the inner container, and the water outlet pipeline is communicated with the hot water channel and used for discharging water of the inner container; the cold water channel is connected with a water insulation module and a pressure relief module.

A water heater, comprising: the integrated waterway capable of realizing the atomizing function comprises an inner container and the integrated waterway capable of realizing the atomizing function; the inner container is provided with a mounting port, the integrated waterway capable of realizing the atomization function is mounted on the mounting port, and a water inlet pipeline and a water outlet pipeline of the integrated waterway capable of realizing the atomization function are communicated with the inner container.

The beneficial effects of the utility model are as follows: (1) The atomizing device is adopted to improve the bath environment temperature, so that the low-power improvement of the bath environment temperature can be realized, and the overload risk of the cable is reduced; and the atomization device and the water inlet and outlet device are integrally arranged, so that the device is convenient to install, reduces hidden danger of water leakage and is small in size. (2) The air duct and the atomizing cavity are provided with air duct blocking pieces for dispersing air conveyed by the fan assembly, so that atomized hot water droplets are prevented from being blown away by air to reduce atomization effect. (3) The fog outlet is provided with a drip eave to prevent fog condensate water from being discharged from the fog outlet.

Drawings

Fig. 1 is a perspective view of an integrated waterway capable of realizing an atomization function.

Fig. 2 is a cross-sectional view of an integrated waterway capable of realizing an atomization function according to the present utility model.

Fig. 3 is a partial cross-sectional view of an integrated waterway capable of realizing an atomization function according to the present utility model.

Fig. 4 is a schematic diagram of an integrated water circuit with atomizing function according to the present utility model.

Fig. 5 is a schematic view of an integrated waterway capable of realizing atomization according to another view angle.

Fig. 6 is a schematic water draining diagram of an integrated water path capable of realizing an atomization function according to the present utility model.

Fig. 7 is a schematic structural diagram of a dual-outlet water mixing valve core of an integrated waterway capable of realizing an atomization function.

Fig. 8 is an exploded view of the integrated water inlet and outlet device of the integrated water channel capable of realizing the atomization function.

Reference numerals illustrate.

100: integrated water inlet and outlet device, 200: atomizing device, 101: a water mixing module, 102: insulating waterway module, 103: pressure release module, 201: drainage module, 202: atomizing chamber, 203: atomizer assembly, 204: mist outlet, 205: water level sensor, 206: temperature sensor, 207: fan assembly, 208: water passage, 209: sealing ring, 210: air duct, 211: duct baffles, 212: drip edge, 213: drain hole, 1011: double-outlet water mixing valve core, 1012: hot water inlet, 1013: cold water inlet, 1014: first delivery port, 1015: second water outlet, 1021: valve sleeve, 1022: first insulating waterway, 1023: second insulating waterway, 2011: first drain passage 2012: second drain, 1031: decompression outlet, 1032: and the pressure relief drainage channel.

Detailed Description

In the description of the present utility model, it should be noted that, for the azimuth words such as "center", "lateral", "longitudinal", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., the azimuth and positional relationships are based on the azimuth or positional relationships shown in the drawings, it is merely for convenience of describing the present utility model and simplifying the description, and it is not to be construed as limiting the specific scope of protection of the present utility model that the device or element referred to must have a specific azimuth configuration and operation.

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. Thus, the definition of "a first", "a second" feature may explicitly or implicitly include one or more of such features, and in the description of the utility model, "at least" means one or more, unless clearly specifically defined otherwise.

In the present utility model, unless explicitly stated and limited otherwise, the terms "assembled," "connected," and "connected" are to be construed broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; or may be a mechanical connection; can be directly connected or connected through an intermediate medium, and can be communicated with the inside of the 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 specified and 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," "below," and "above" a second feature includes the first feature being directly above and obliquely above the second feature, or simply representing the first feature as having a higher level than the second feature. The first feature being "above," "below," and "beneath" the second feature includes the first feature being directly below or obliquely below the second feature, or simply indicating that the first feature is level below the second feature.

The following description of the specific embodiments of the present utility model is further provided with reference to the accompanying drawings, so that the technical scheme and the beneficial effects of the present utility model are more clear and definite. The embodiments described below are exemplary by referring to the drawings for the purpose of illustrating the utility model and are not to be construed as limiting the utility model.

Example 1

As shown in fig. 1 to 7, an integrated waterway capable of realizing an atomization function includes: an integrated water inlet and outlet device 100 and an atomizing device 200; the integrated water inlet and outlet device 100 comprises a water mixing module 101, wherein the water mixing module 101 comprises a double-outlet water mixing valve core, a first water outlet channel and a second water outlet channel which are communicated with water outlets corresponding to the double-outlet water mixing valve core, and the atomizing device 200 is communicated with the second water outlet channel.

Thus, in actual use, the water mixing module 101 of the integrated water inlet and outlet device 100 is provided with two water outlet holes, one water outlet hole is used for water outflow, the other water outlet hole is connected with the atomizing device to supply water to the atomizing device, and the atomizing device atomizes hot water and then outputs the atomized hot water to the bath environment to improve the temperature of the bath environment.

It should be noted that, the integrated water inlet and outlet device 100 and the atomizing device 200 are both disposed on a waterway board.

The integrated water inlet and outlet device 100 includes: the water mixing device comprises a water channel, a hot water channel, a water mixing module, a water mixing outlet channel, a water inlet pipeline and a water outlet pipeline, wherein the water mixing channel and the hot water channel are arranged on the water channel plate, the water mixing module is connected with the water channel and the hot water channel, the water mixing outlet channel is communicated with a first water outlet of the water mixing module, the water inlet pipeline is communicated with the water channel and is used for supplying water to the inner container, and the water outlet pipeline is communicated with the hot water channel and is used for discharging water of the inner container.

The atomizing device 200 includes: the water channel 208 is arranged on the waterway plate and connected with the second water outlet, the atomizing cavity 202 is connected with the water channel 208, the atomizer assembly 203 is arranged in the atomizing cavity 202, and the mist outlet 204 is arranged on the atomizing cavity 202. The atomizer assembly 203 is connected with a control device. The control device can be an independent control device or a control device of the water heater.

Specifically, a water level sensor 205 connected to a control device is disposed in the atomizing chamber 202, and the water level sensor 205 is used for detecting the water level in the atomizing chamber 202. The water level sensor 205 consists of a limit clamp ring, a ball float rod and a float arranged on the ball float rod in a sliding way; the water level sensor 205 is installed in the atomization cavity 202 through threads or clamping, and a sealing ring 209 is arranged between the water level sensor 205 and the atomization cavity 202. The ball float is characterized in that two water level detection points are arranged on the ball float rod and are respectively a high water level signal point and a low water level signal point. A temperature sensor 206 connected to a control device is provided in the nebulization chamber 202. The water level sensor 205 and the temperature sensor 206 are used for controlling the start and stop of water entering the atomizing cavity 202, and in order to prevent the atomizer assembly from continuously operating and burning dry in the anhydrous state, the control device controls the atomizer assembly to suddenly stop according to signals fed back by the water level sensor and the temperature sensor.

Further, the atomizing chamber 202 is connected with a fan assembly 207 for blowing atomized water mist out of the atomizing chamber, and the fan assembly 207 is connected with the control device. In this embodiment, an air inlet is disposed on the atomizing chamber 202, and an air outlet of the fan assembly 207 is communicated with the air inlet. The fan assembly 207 is communicated with the atomization cavity 202 through an air duct 210, the air duct 210 and/or the atomization cavity 202 is provided with an air duct baffle 211, and the air duct baffle 211 is arranged in a staggered manner and used for dispersing wind, preventing atomized hot water droplets from being blown away by wind and reducing atomization effect.

More specifically, the mist outlet is provided with a dripping eave 212, condensed water is generated when atomized water mist contacts the inner wall of the mist outlet, and the dripping eave is arranged for preventing the condensed water from being discharged from the mist outlet.

The atomizing cavity 202 is connected with a drainage device 201, and the drainage device 201 comprises a first drainage channel 2011 communicated with the atomizing cavity and the drip edge, and a second drainage channel 2012 connected with the first drainage channel 2011. The condensed water is dropped through the drip edge and flows into the first drainage channel to be discharged. The water drain hole 213 is arranged on the atomization cavity 202 and is communicated with the first water drain channel 2011, the water drain hole 213 is in a normally open state, and hot water in the atomization cavity is slowly discharged, so that hot water is guaranteed to be continuously replenished into the atomization cavity in the atomization process, and the temperature of hot water in the atomization cavity is guaranteed not to be too low. The first drainage channel is further communicated with a pressure release module 103 of the water inlet and outlet device through a pressure release drainage channel 1032, and is used for discharging water discharged by pressure release valve in a pressure release mode, and a pressure release drainage outlet 1031 which is communicated with the pressure release drainage channel 1032 is arranged on the pressure release module.

Those skilled in the art can adopt the existing double-outlet water mixing valve core according to actual needs. In this embodiment, the dual outlet water mixing valve core 1011 preferably includes: the valve comprises a valve core shell with an upper opening and a lower opening, a lower valve clack and an upper valve clack which are arranged in the valve core shell, and a valve rod for driving the upper valve clack to rotate on a horizontal plane; four water holes are formed in the lower valve clack, the four water holes comprise two water inlets and two water outlets, and a water mixing tank used for communicating any two or three water holes is arranged on the upper valve clack. The two water outlets of the double-water-outlet water mixing valve core can meet respective water mixing requirements, and the requirement that the two water outlets simultaneously discharge water can be met. The four water holes comprise: a hot water inlet 1012, a cold water inlet 1013, a first water outlet 1014 and a second water outlet 1015.

In addition, the integrated water inlet and outlet device 100 may be an existing integrated water inlet and outlet device. In this embodiment, the integrated water inlet and outlet device 100 preferably further includes an insulating waterway module 102 and a pressure relief module 103 in communication with the cold water channel.

Referring to fig. 8, the insulating waterway module 102 is an 8-shaped insulating waterway, and includes: the first insulating waterway 1022 and the second insulating waterway 1023 which are respectively communicated with the cold water channel, the first insulating waterway 1022 and the second insulating waterway 1023 are protruded out of the waterway plate, a valve sleeve 1021 is sleeved on the waterway plate, and a third insulating waterway which is communicated with the first insulating waterway and a fourth insulating waterway which is communicated with the third insulating waterway and the second insulating waterway are formed between the inner wall of the valve sleeve 1021 and the outer walls of the first insulating waterway 1022 and the second insulating waterway 1023. Like this, when in actual use, rivers get into insulating module from the cold water passageway and flow through first insulating water route, third insulating water route, fourth insulating water route, second insulating water route back again to the cold water passageway in proper order, extension water resistance length has good protection against electric shock function. The horizontal reciprocating waterway is formed by adopting the sleeve mode, the cross section is 8-shaped, the structure is simple, and the installation is convenient.

The pressure relief module 103 includes: the device comprises a pressure relief waterway, a mounting cavity, a sealing rod piece, a spring and a pressure relief handle, wherein the pressure relief waterway is communicated with the cold water channel, the mounting cavity is communicated with the pressure relief waterway, the sealing rod piece is arranged in the mounting cavity and used for controlling the on-off of the pressure relief waterway, the spring is sleeved on the sealing rod piece and used for maintaining the sealing rod piece to be positioned at the position of blocking the pressure relief waterway, and the pressure relief handle is connected with the sealing rod piece; and a pressure relief opening is formed in the side wall of the mounting cavity. The pressure relief opening comprises a first pressure relief opening and a second pressure relief opening sleeved on the periphery of the first pressure relief opening; the first pressure relief opening is arranged on the inner side and can be directly connected with a traditional pressure relief pipe to drain water to the drain hole; the second pressure relief opening is arranged on the periphery of the first pressure relief opening and is provided with G1/2 external threads, and a user can drain the drain water to the drain hole in a hidden way by connecting the second pressure relief opening with a household pipeline; generally, a user only needs to select one of the first pressure relief opening and the second pressure relief opening for use, and two pressure relief openings with different specifications are arranged to facilitate connection with pipelines with different specifications.

Furthermore, the integrated water inlet and outlet device 100 and the inner container of the water heater may be connected by screw, snap or flange. In this embodiment, a threaded connection is preferably adopted, and the specific connection structure of the threaded connection is referred to in the prior application CN202221728650.4 of the present inventor, an inlet and outlet assembly and an electric water heater.

Other specific structures of the integrated water inlet and outlet device can refer to the prior application CN202221728650.4 of the inventor, a water inlet and outlet assembly and an electric water heater. And will not be described in detail herein.

Example 2

A water heater, the water heater comprising: an inner container, an integrated waterway which is communicated with the inner container and can realize an atomization function as described in the embodiment 1; the water inlet pipeline and the water outlet pipeline of the integrated waterway capable of realizing the atomization function are communicated with the inner container.

It will be understood by those skilled in the art from the foregoing description of the structure and principles that the present utility model is not limited to the specific embodiments described above, but is intended to cover modifications and alternatives falling within the spirit and scope of the utility model as defined by the appended claims and their equivalents. The portions of the detailed description that are not presented are all prior art or common general knowledge.

Claims (10)

1. An integrated waterway capable of realizing an atomization function, comprising: the integrated water inlet and outlet device is used for communicating the inner container of the water heater with the water outlet pipe of the water heater and the water inlet pipe of the water heater, and the atomizing device; the integrated water inlet and outlet device is characterized by comprising a water mixing module, wherein the water mixing module comprises a double water outlet Kong Hunshui valve core, and a first water outlet channel and a second water outlet channel which are communicated with two water outlets of the corresponding double water outlet water mixing valve core; the atomizing device is communicated with the second water outlet channel.

2. An integrated water circuit for implementing an atomizing function as set forth in claim 1, wherein said integrated water inlet and outlet device and said atomizing device are mounted on a water circuit board.

3. An integrated waterway for realizing atomizing function according to claim 1, characterized in that the atomizing device comprises: the atomization cavity is communicated with the second water outlet channel, an atomizer component in the atomization cavity is arranged, and a mist outlet is arranged on the atomization cavity.

4. An integrated waterway for implementing an atomizing function according to claim 3, characterized in that said atomizing chamber is connected with a fan assembly for blowing atomized water mist out of said atomizing chamber.

5. The integrated waterway capable of realizing an atomization function according to claim 4, wherein an air inlet is arranged on the atomization cavity, and an air outlet of the fan assembly is communicated with the air inlet; the fan assembly is communicated with the atomizing cavity through an air duct, and the air duct and/or the atomizing cavity are/is provided with an air duct baffle.

6. An integrated waterway for realizing atomization according to claim 3, wherein a drip edge is provided on the mist outlet.

7. An integrated waterway capable of realizing atomization according to claim 3, characterized in that a liquid level sensor for measuring the liquid level of water in the atomization cavity and a temperature sensor for detecting the temperature of water in the atomization cavity are arranged in the atomization cavity.

8. The integrated waterway realizing an atomization function according to claim 1, wherein the double water outlet mixing valve core comprises: the valve comprises a valve core shell with an upper opening and a lower opening, a lower valve clack and an upper valve clack which are arranged in the valve core shell, and a valve rod for driving the upper valve clack to rotate on a horizontal plane; four water holes are formed in the lower valve clack, and the four water holes comprise two water inlets and two water outlets; the upper valve clack is provided with a water mixing tank for communicating any two or three water holes.

9. An integrated waterway capable of realizing an atomizing function according to claim 2, wherein the integrated water inlet and outlet device comprises: the water mixing module is connected with the cold water channel and the hot water channel, the water mixing outlet channel is communicated with the first water outlet of the water mixing module, the water inlet pipeline is communicated with the cold water channel and used for supplying water to the inner container, and the water outlet pipeline is communicated with the hot water channel and used for discharging water of the inner container; the cold water channel is connected with a water insulation module and a pressure relief module.

10. A water heater, comprising: an inner container and an integrated waterway capable of realizing an atomization function according to any one of claims 1 to 9; the inner container is provided with a mounting port, the integrated waterway capable of realizing the atomization function is mounted on the mounting port, and a water inlet pipeline and a water outlet pipeline of the integrated waterway capable of realizing the atomization function are communicated with the inner container.