CN216628241U - Full pipeline sterilizing drinking device - Google Patents

Abstract

The application provides a full pipeline disinfection watering device, includes: a normal temperature water container; a heating assembly; the first pipeline is communicated with the normal-temperature water container and the heating assembly; the water outlet device is provided with a water outlet faucet; the second pipeline is communicated with the water outlet device and the heating assembly; the first end of the third pipeline is communicated with the normal-temperature water container, and the water outlet faucet can be selectively communicated with the second end of the third pipeline, so that water of the water outlet faucet enters the normal-temperature water container; by adopting the technical scheme: the water outlet faucet is selectively communicated with the second end of the third pipeline, high-temperature water formed by the heating assembly can flow back into the third pipeline and then flow into the normal-temperature water container, and the normal-temperature water container is sterilized by the high-temperature water, so that the possibility of bacteria breeding in the normal-temperature water container is reduced; in addition, high-temperature water circulates in normal-temperature water container, heating element, water outlet device, first pipeline, second pipeline and third pipeline, has realized full pipeline disinfection.

Description

Full pipeline sterilizing drinking device

Technical Field

The application relates to the technical field of drinking equipment, in particular to a full-pipeline disinfection drinking device.

Background

At present, a water path between a water tank and a water outlet faucet of a water drinking device in the market, such as a water dispenser or a pipeline machine, is designed in a one-way open-loop mode (namely water flow can only flow from the water tank to the water outlet faucet), and after the water path is used for a long time, bacteria are easily bred on the inner wall of the whole water path system and the water path system is not easy to clean.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide a full pipeline disinfection watering device to solve the watering device water route system's that exists among the prior art pipeline and breed the bacterium easily, the big technical problem of the clean degree of difficulty.

In order to realize the above-mentioned purpose, the technical scheme that this application adopted is a full pipeline disinfection watering device, includes:

a normal temperature water container;

a heating assembly;

the first pipeline is communicated with the normal-temperature water container and the heating assembly;

the water outlet device is provided with a water outlet faucet;

the second pipeline is communicated with the water outlet device and the heating assembly;

the third pipeline is positioned between the water outlet device and the normal-temperature water container, the first end of the third pipeline is communicated with the normal-temperature water container, and the water outlet faucet can be selectively communicated with the second end of the third pipeline, so that water of the water outlet faucet enters the normal-temperature water container.

By adopting the technical scheme:

firstly, the water outlet faucet can be selectively communicated with the second end of the third pipeline, high-temperature water formed by the heating assembly can flow back into the third pipeline and then flow into the normal-temperature water container, the normal-temperature water container is disinfected by the high-temperature water, and the possibility that bacteria are bred due to long-time use of the normal-temperature water container is reduced;

secondly, high-temperature water circulates in the normal-temperature water container, the heating assembly, the water outlet device, the first pipeline, the second pipeline and the third pipeline, so that the disinfection of the whole pipeline is realized, and the possibility of bacterial breeding is reduced;

finally, the water outlet tap can be disconnected from the second end of the third pipeline to discharge the sterilized high-temperature water, and the discharge mode is simple.

In one embodiment, the water outlet tap is rotatably arranged on the water outlet device, the water outlet tap rotates within a preset angle range, and the water outlet tap is communicated with the second end when rotating to a first preset angle.

By adopting the technical scheme, the water outlet state and the disinfection state of the water outlet faucet can be switched by turning the water outlet faucet, the switching structure is simple, and the switching mode is simple and reliable.

In one embodiment, the heating assembly comprises an instant heating assembly and a first instant heating pump body, the instant heating assembly is communicated with the water outlet device through the second pipeline, the instant heating assembly is communicated with the instant heating pump body through a fourth pipeline, and the instant heating pump body is communicated with the normal-temperature water container through a first pipeline.

Through adopting above-mentioned technical scheme, the first instant heating pump body is used for driving about the rivers of normal temperature water container to the instant heating subassembly, has realized the rapid heating up of normal temperature water, satisfies user's the demand of drinking or is satisfying the disinfection demand.

In one embodiment, the heating assembly further comprises a second instant heating pump body and a preheated water container, the second instant heating pump body is communicated with the instant heating assembly through a fifth pipeline, the second instant heating pump body is communicated with the preheated water container through a sixth pipeline, and the preheated water container and the normal temperature water container are communicated through a seventh pipeline.

Through adopting above-mentioned technical scheme, the outlet efficiency of high temperature water and the water yield of high temperature water have been improved to preheated water container and the second instant heating pump body, have improved the convenience that the user used high temperature water.

In one embodiment, the seventh pipeline is provided with a one-way valve for enabling water to flow from the normal-temperature water container to the preheated water container in a one-way mode.

By adopting the technical scheme, the check valve controls whether the normal-temperature water container flows into the preheated water container or not, so that the controllability of water inflow of the preheated water container is improved.

In one embodiment, the preheated water container and the normal-temperature water container are communicated and provided with an exhaust pipeline.

Through adopting above-mentioned technical scheme, preheat the water container and have vapor production when preheating, set up the exhaust duct who communicates with normal atmospheric temperature water container, can effectively discharge vapor into normal atmospheric temperature water container, protect preheating the water container, retrieve vapor simultaneously.

In one embodiment, the pre-heated water reservoir is provided with a first temperature control device.

Through adopting above-mentioned technical scheme, first temperature control device can detect the temperature of preheated water container to control preheated water container's heating state, in order to realize the automatic temperature adjustment.

In one embodiment, the full-pipeline disinfection drinking device further comprises a reversing valve and an eighth pipeline, the reversing valve is communicated with the water outlet device and the instant heating assembly, and the eighth pipeline is communicated with the reversing valve and the preheated water container.

Through adopting above-mentioned technical scheme, increased the flow direction of the water that the instant heating subassembly flows for high temperature water can flow back to in preheating the water container, realizes high temperature hydrologic cycle, reduces the extravagant possibility of high temperature water.

In one embodiment, a second temperature control device is arranged on the instant heating assembly.

Through adopting above-mentioned technical scheme, second temperature control device can detect instant heating assembly's temperature to control instant heating assembly's heating state, in order to realize the automatic temperature adjustment.

In one embodiment, the full-pipeline disinfection drinking device is further provided with a water purifying device communicated with the normal-temperature water container, and a switch valve is arranged between the water purifying device and the normal-temperature water container.

Through adopting above-mentioned technical scheme, normal atmospheric temperature water container intercommunication has water installations, and water installations can select for RO (reverse osmosis) purifier, improves the purity of normal atmospheric temperature water.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a water outlet state of a full-pipeline disinfection water drinking device provided by an embodiment of the application;

FIG. 2 is a schematic structural view of the full-pipeline drinking water sterilizing device provided by the embodiment of the present application in a sterilizing state.

The figures are numbered:

1-a normal temperature water container; 2-a heating assembly; 3-a water outlet device; 4-a water outlet tap; 5-a reversing valve; 6-a water purifying device; 7-a switch valve;

10-a first conduit; 20-a second conduit; 30-a third conduit; 40-a fourth conduit; 50-a fifth conduit; 60-a sixth conduit; 70-a seventh conduit; 80-an eighth conduit;

21-an instant heating assembly; 22-a first immediate heat pump body; 23-a second immediate heat pump body; 24-preheating the water container; 25-a one-way valve; 26-an exhaust duct; 27-a first temperature control device; 28-second temperature control device.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected or indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, refer to an orientation or positional relationship illustrated in the drawings for convenience in describing the present application, and do not indicate that the device or element must have a particular orientation, be constructed and operated in a particular orientation, and are thus not to be construed as limiting the present application.

Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating relative importance or as indicating a number of technical features. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise. Specific implementations of the present application are described in more detail below with reference to specific embodiments:

as shown in fig. 1 and fig. 2, a full-pipeline disinfection drinking device 100 provided by the embodiment of the present application includes a normal-temperature water container 1, a heating assembly 2, a water outlet device 3, a first pipeline 10, a second pipeline 20, and a third pipeline 30; the first pipeline 10 is communicated with the normal-temperature water container 1 and the heating assembly 2; the water outlet device 3 is provided with a water outlet tap 4; the second pipeline 20 is communicated with the water outlet device 3 and the heating assembly 2; the third pipeline 30 is positioned between the water outlet device 3 and the normal-temperature water container 1, a first end of the third pipeline 30 is communicated with the normal-temperature water container 1, and the water outlet tap 4 can be selectively communicated with a second end of the third pipeline 30, so that water of the water outlet tap 4 enters the normal-temperature water container 1.

The working principle of the all-pipeline disinfection drinking device 100 provided by the embodiment is as follows:

normal temperature water is placed inside the normal temperature water container 1, the normal temperature water container 1 is communicated with the heating assembly 2 through a first pipeline 10, the normal temperature water flows to the heating assembly 2 through the first pipeline 10, the heating assembly 2 can heat the normal temperature water to form high temperature water, or the heating assembly 2 does not work, the normal temperature water keeps the initial normal temperature, the heating assembly 2 is communicated with the water outlet device 3 through a second pipeline 20, the high temperature water or the normal temperature water enters the water outlet device 3 through the second pipeline 20 and then flows out from the water outlet faucet 4, and a user can selectively start the heating assembly 2 to obtain the high temperature water or the normal temperature water;

the disinfection principle of the all-pipeline disinfection drinking device 100 provided by the embodiment is as follows:

the water tap 4 is connected to the second end of the third pipe 30, so that the water from the water tap 4 flows into the second pipe 20, then flows into the normal temperature water container 1, at this time, the heating component 2 can be started, the normal temperature water in the normal temperature water container 1 enters the heating component 2 through the first pipeline 10, the heating component 2 heats the normal temperature water to form high temperature water, the high temperature water enters the water outlet device 3 through the second pipeline 20, then enters the third pipeline 30 through the water outlet tap 4, and then enters the normal temperature water container 1 through the third pipeline 30, then, the water in the normal temperature water container 1 is changed into high temperature water, and then the high temperature water enters the first pipeline 10, therefore, the normal-temperature water container 1, the instant heating component, the first pipeline 10, the second pipeline 20 and the third pipeline 30 of the full-pipeline disinfection drinking device 100 are filled with high-temperature water, and high-temperature disinfection of all pipelines and parts is realized;

after the disinfection is finished, the water outlet tap 4 is separated from the second end of the third pipeline 30, and then the high-temperature water in the normal-temperature water container 1, the instant heating assembly, the first pipeline 10, the second pipeline 20 and the third pipeline 30 is drained, so that the disinfection operation is finished.

By adopting the technical scheme:

firstly, the water outlet tap 4 can be selectively communicated with the second end of the third pipeline 30, so that high-temperature water formed by the heating assembly 2 can flow back into the third pipeline 30 and then flow into the normal-temperature water container 1, the normal-temperature water container 1 is disinfected by the high-temperature water, and the possibility that bacteria are bred due to long-time use of the normal-temperature water container 1 is reduced;

secondly, the high-temperature water circulates in the normal-temperature water container 1, the heating assembly 2, the water outlet device 3, the first pipeline 10, the second pipeline 20 and the third pipeline 30, so that the whole pipeline disinfection is realized, and the possibility of bacterial breeding is reduced;

finally, the outlet tap 4 may be released from the communication with the second end of the third pipe 30 to discharge the sterilized high-temperature water in a simple manner.

In one embodiment, the water outlet tap 4 is rotatably disposed on the water outlet device 3, the water outlet tap 4 rotates within a predetermined angle range, and the water outlet tap 4 is communicated with the second end when rotating to a first predetermined angle.

Optionally, the water outlet tap 4 can be turned over up and down, the turning angle range is 0-90 degrees, when the water outlet tap 4 is turned over to the first preset angle of 90 degrees, the water outlet tap 4 is in a disinfection state, and the water outlet is opposite to and communicated with the second end; when the water outlet tap 4 is turned to the second preset angle of 0 degree, the water outlet tap 4 is in a water outlet state, and the water outlet is vertically downward, so that a user can conveniently receive water.

By adopting the technical scheme, the water outlet state and the disinfection state of the water outlet faucet 4 can be switched by turning over the water outlet faucet 4, the switching structure is simple, and the switching mode is simple and reliable.

In one embodiment, the heating assembly 2 comprises an instant heating assembly 21 and a first instant heating pump body 22, i.e. the heating assembly 21 is communicated with the water outlet device 3 through the second pipeline 20, i.e. the heating assembly 21 is communicated with the instant heating pump body through a fourth pipeline 40, i.e. the heating pump body is communicated with the normal temperature water container 1 through the first pipeline 10.

Specifically, the first instant heating pump body 22 is used to drive the water in the normal temperature water container 1 to flow to the instant heating assembly 21, i.e. the instant heating assembly 21 can rapidly heat the normal temperature water, and the heating manner includes, but is not limited to, a heating rod.

Through adopting above-mentioned technical scheme, first instant heating pump body 22 is used for driving about the rivers of normal temperature water container 1 to instant heating subassembly 21, has realized the rapid heating up of normal temperature water, satisfies user's the demand of drinking or is satisfying the disinfection demand.

In one embodiment, the heating assembly 2 further comprises a second instant heating pump body 23 and a preheated water container 24, the second instant heating pump body 23 is communicated with the instant heating assembly 21 through a fifth pipeline 50, the second instant heating pump body 23 is communicated with the preheated water container 24 through a sixth pipeline 60, and the preheated water container 24 and the normal-temperature water container 1 are communicated through a seventh pipeline 70.

Specifically, the preheated water container 24 has the function of preheating normal-temperature water, the normal-temperature water container 1 is communicated with the preheated water container 24 through the seventh pipeline 70, the normal-temperature water flows to the preheated water container 24 through the seventh pipeline 70, the preheated water container 24 heats the normal-temperature water to a preset temperature, and when a user needs water with a higher temperature or needs a large amount of high-temperature water, the second instant heating pump body 23 extracts the water which is heated to the preset temperature in the preheated water container 24 and transmits the water to the instant heating assembly 21, and the instant heating assembly 21 continues to heat the water to form the high-temperature water.

Through adopting above-mentioned technical scheme, preheat water container 24 and the second and heat the pump body 23 promptly and improved the play water efficiency of high temperature water and the water yield of high temperature water, improved the convenience that the user used high temperature water.

In one embodiment, the seventh pipe 70 is provided with a check valve 25 for allowing water to flow from the normal temperature water container 1 to the pre-heated water container 24 in one direction.

By adopting the technical scheme, the one-way valve 25 controls whether the normal-temperature water container 1 flows into the preheated water container 24 or not, so that the water inflow controllability of the preheated water container 24 is improved.

In one embodiment, the preheated water container 24 and the normal temperature water container 1 are communicated with each other by an exhaust pipe 26.

Through adopting above-mentioned technical scheme, preheating water container 24 has vapor to produce when preheating, sets up the exhaust duct 26 with normal atmospheric temperature water container 1 intercommunication, can effectively discharge vapor in normal atmospheric temperature water container 1, protects preheating water container 24, retrieves vapor simultaneously.

In one embodiment, the preheated water vessel 24 is provided with a first temperature control device 27.

By adopting the above technical scheme, the first temperature control device 27 can detect the water temperature of the preheating water container 24 and control the heating state of the preheating water container 24 to realize automatic temperature adjustment.

In one embodiment, the all-pipe disinfection drinking device 100 further comprises a reversing valve 5 and an eighth pipe 80, wherein the reversing valve 5 is communicated with the water outlet device 3 and the instant heating assembly 21, and the eighth pipe 80 is communicated with the reversing valve 5 and the preheated water container 24.

Specifically, the direction valve 5 can adjust the direction of water flowing in the pipeline, that is, the direction valve 5 can adjust the flow direction of water flowing out from the instant heating assembly 21, control the water to flow into the second pipeline 20 or the eighth pipeline 80, when the water enters the second pipeline 20, the water flows out from the water outlet tap 4, when the water enters the eighth pipeline 80, the water flows into the preheated water container 24, and the high-temperature water is recovered.

Through adopting above-mentioned technical scheme, increased the flow direction of the water that instant heating assembly 21 flows out for high temperature water can flow back to in preheating water container 24, realizes high temperature hydrologic cycle, reduces the extravagant possibility of high temperature water.

In one embodiment, a second temperature control device 28 is provided on the thermal assembly 21.

By adopting the above technical scheme, the second temperature control device 28 can detect the water temperature of the instant heating assembly 21 and control the heating state of the instant heating assembly 21 to realize automatic temperature adjustment.

In one embodiment, the all-pipe disinfection drinking device 100 is further provided with a water purifying device 6 communicated with the normal-temperature water container 1, and a switch valve 7 is arranged between the water purifying device 6 and the normal-temperature water container 1.

Through adopting above-mentioned technical scheme, normal atmospheric temperature water container 1 intercommunication has water installations, and water installations can be selected as RO (reverse osmosis) purifier 6, improves the purity of normal atmospheric temperature water.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features herein disclosed.

Claims (10)

1. The utility model provides a full pipeline disinfection watering device which characterized in that includes:

a normal temperature water container;

a heating assembly;

the first pipeline is communicated with the normal-temperature water container and the heating assembly;

the water outlet device is provided with a water outlet faucet;

the second pipeline is communicated with the water outlet device and the heating assembly;

the third pipeline is positioned between the water outlet device and the normal-temperature water container, the first end of the third pipeline is communicated with the normal-temperature water container, and the water outlet faucet can be selectively communicated with the second end of the third pipeline, so that water of the water outlet faucet enters the normal-temperature water container.

2. The all-pipe drinking water sterilizing device of claim 1, wherein the water outlet tap is rotatably disposed on the water outlet device, the water outlet tap rotates within a predetermined angle range, and the water outlet tap is connected to the second end when rotated to a first predetermined angle.

3. The all-pipe drinking water sterilizing device of claim 1, wherein the heating assembly comprises an instant heating assembly and a first instant heating pump body, the instant heating assembly is communicated with the water outlet device through the second pipe, the instant heating assembly is communicated with the instant heating pump body through a fourth pipe, and the instant heating pump body is communicated with the normal-temperature water container through a first pipe.

4. The all-pipe drinking water sterilizing device according to claim 3, wherein the heating assembly further comprises a second instant heating pump body and a preheated water container, the second instant heating pump body is communicated with the instant heating assembly through a fifth pipe, the second instant heating pump body is communicated with the preheated water container through a sixth pipe, and the preheated water container and the normal-temperature water container are communicated through a seventh pipe.

5. The all-pipe disinfection drinking device as claimed in claim 4, wherein a one-way valve is provided on the seventh pipe for one-way flow of water from the normal-temperature water container to the preheated water container.

6. The all-pipe disinfection drinking device as claimed in claim 4, wherein an exhaust pipeline is provided for communicating the preheated water container and the normal-temperature water container.

7. The all-pipe drinking water disinfecting device of claim 4 wherein the preheated water container is provided with a first temperature control device.

8. The full-pipeline drinking water disinfecting device of claim 4 further comprising a reversing valve and an eighth pipeline, wherein the reversing valve is communicated with the water outlet device and the instant heating assembly, and the eighth pipeline is communicated with the reversing valve and the preheated water container.

9. The apparatus as claimed in any one of claims 3 to 8, wherein the instant heating unit is provided with a second temperature control device.

10. The all-pipe disinfection drinking device of any one of claims 1 to 8, wherein the all-pipe disinfection drinking device is further provided with a water purifying device communicated with the normal-temperature water container, and a switch valve is arranged between the water purifying device and the normal-temperature water container.

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