CN111233232A - Composite purifying tank device - Google Patents

Abstract

The utility model provides a compound purification groove body device, includes and puts and put under kitchen on the kitchen, and the device includes tap, basin, water tank and drainage component on the kitchen, and the drainage component communicates in the basin lower extreme, and the device includes under the kitchen: a filtration module for filtering water for delivery to the on-board kitchen unit; the active oxygen generator module is used for oxidizing and decomposing the harmful substances filtered out by the filtering module; an instant heating module for heating water to a predetermined temperature; a disinfection module for removing bacteria in the water flow path; a sensing device for sensing a predetermined parameter of water used in the composite purge tank assembly; the control module is used for controlling the filtering module, the active oxygen generator module, the instant heating module, the sterilization module and the sensing device. The composite purification tank body device improves the use safety and is convenient to install and maintain.

Description

Composite purifying tank device

Technical Field

The invention relates to the technical field of kitchenware, in particular to a composite purification tank body device.

Background

With the continuous rise of the life quality of people, the requirements on kitchenware are higher and higher, the traditional water tank only supplies water, but the water quality of the water and the safety problems in all aspects cannot be considered. Even if people are aware of the problems in the subsequent development, the water tank occupies a large space after various devices are added below the water tank, and causes inconvenience in the installation and maintenance processes.

Disclosure of Invention

In view of this, there is a need for a composite purification tank device, which aims to reduce the occupied space and improve the convenience of installation and maintenance.

The utility model provides a compound purification cell body device, includes device and kitchen under the kitchen on the kitchen, device includes tap, basin, water tank and drainage component on the kitchen, the drainage component communicate in the basin lower extreme, the device includes under the kitchen:

a filtration module for filtering water for delivery to the on-board kitchen unit;

the active oxygen generator module is used for oxidizing and decomposing the harmful substances filtered out by the filtering module;

an instant heating module for heating water to a predetermined temperature;

a disinfection module for removing bacteria in the water flow path;

a sensing device for sensing a predetermined parameter of water used in the composite purge tank assembly;

the control module is used for controlling the filtering module, the active oxygen generator module, the instant heating module, the sterilization module and the sensing device.

In at least one aspect, the sensing device includes a water quality detection module, and the water quality detection module is configured to detect the quality of the inlet water and the outlet water.

In at least one embodiment, the sensing device includes a temperature detection module, and the temperature detection module is configured to detect a temperature of the water.

In at least one embodiment, the sensing device includes a flow detection module, and the flow detection module is configured to detect and count the flow in the filtering module.

In at least one mode, the sensing and detecting device comprises a leakage detecting switch, and the leakage detecting switch detects whether the composite purification tank body device leaks water or not.

In at least one embodiment, the sensing device further includes a liquid level sensing module for detecting a liquid level of the instant heating module, the liquid level sensing module is installed in a heat-preservation water tank or a hot water tank, and the liquid level sensing module is used for sensing water levels in the heat-preservation water tank and the hot water tank.

In at least one aspect, a number of predetermined temperature values are set in the instant heating module.

In at least one mode, the filtering module comprises a first filtering component, and the water filtered by the first filtering component is discharged through the tap after being processed by the active oxygen generator module.

In at least one embodiment, the filtering module includes a second filtering component, the water is filtered by the first filtering component and then flows to the second filtering component for filtering, and then flows to the instant heating module after being filtered by the second filtering component, and is discharged through the faucet after being processed by the instant heating module.

In at least one embodiment, the filtering module further includes a third filtering component, the third filtering component receives the water flowing from the second filtering component for filtering, and then conveys the water to the water tank for storage, and the sensing device detects the water quality of the water passing through the third filtering component;

when the water quality of the used water does not meet the preset parameters, the used water flows back to the third filtering component from the water tank again for secondary filtering.

The composite purification tank body device provided by the above is convenient to install by installing the filtering module, the active oxygen generator module, the instant heating module, the sterilization module, the sensing and detecting device and the control module into a whole, and the water path and the circuit of the all-in-one machine are arranged in a centralized management mode, so that the safety of the all-in-one machine is improved.

Drawings

Fig. 1 is a perspective view of the composite purification tank device.

Fig. 2 is an internal schematic view of an integrated machine in the composite purification tank device.

Fig. 3 is an internal schematic view of the sensing and detecting device in the all-in-one machine shown in fig. 2.

Fig. 4 is a schematic diagram of the internal structure of the integrated machine in the composite purification tank device.

Fig. 5 is a schematic view of the placement of accessories in the composite purification tank device.

Description of the main elements

Composite purification tank device 70

Kitchen appliance 1

Water tank 10

First water tap 11

Second tap 12

Touch screen 13

Drainage member 14

Fitting 15

Under-kitchen device 2

Integrated machine 20

Filter module 21

First filter assembly 211

Second filter assembly 212

Third filter assembly 213

Active oxygen generator module 22

Instant heating module 23

Sterilization module 24

Sensing and detecting device 25

Water quality detection module 251

Temperature detection module 252

Flow detection module 253

Leak detection switch 254

Liquid level sensing module 255

Control module 26

First pipeline 30

Second pipeline 31

Cable 40

Switch 50

First solenoid valve 51

Second solenoid valve 52

Third solenoid valve 53

Fourth solenoid valve 54

Booster pump 55

Blowoff valve 56

Water pump 57

One-way valve 58

Regulating valve 59

Heat preservation water tank 60

Instant heating water tank 61

Kitchen cabinet 100

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. When an element is referred to as being "on" another element, it can be directly on the other element or intervening elements may also be present. The terms "top," "bottom," "upper," "lower," "left," "right," "front," "rear," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

In this embodiment, a composite purification tank device 70 is disclosed, and the composite purification tank device 70 can be installed in a kitchen cabinet 100 to provide purified domestic water and directly drinkable water.

Referring to fig. 1, the composite purification tank device 70 includes an upper kitchen device 1 and a lower kitchen device 2. The lower part of the kitchen upper device 1 can be arranged above the table top of the kitchen cabinet 100, and the kitchen lower device 2 can be arranged below the table top of the kitchen cabinet 100.

The kitchen device 1 includes a sink 10, a first tap 11, a second tap 12, and a drain member 14, and the drain member 14 is communicated with a lower end of the sink 10.

Referring to fig. 2, the under-kitchen device 2 includes a filtering module 21, a live oxygen generator module 22, an instant heating module 23, a sterilization module 24, a sensing device 25 and a control module 26. The filter module 21 is used to filter the water that is delivered to the kitchen unit 1. The active oxygen generator module 22 is used for oxidizing and decomposing harmful substances filtered out by the filtering module 21. The instant heating module 23 is used for heating water to a predetermined temperature. The sterilization module 24 is used to remove bacteria from the water flow path. The sensing device 25 is used for sensing predetermined parameters of water used in the composite purification tank body device 70 and analyzing the conditions of the modules in the composite purification tank body device 70 through the predetermined parameters. The control module 26 is used for controlling the filtering module 21, the active oxygen generator module 22, the instant heating module 23, the sterilization module 24 and the sensing device 25.

Referring to fig. 3 and 4, in order to achieve better effects of the composite purification tank device 70. In a preferred embodiment, the filter module 21 includes a first filter assembly 211, a second filter assembly 212, and a third filter assembly 213. The filtered water of the first filtering member 211 is processed by the active oxygen generator module 22 and discharged through the first tap 11. The water filtered by the first filter assembly 211 may flow to the second filter assembly 212 for filtering, and then flow to the instant heating module 23 after being filtered by the second filter assembly 212, and then be discharged through the second faucet 12 after being processed by the instant heating module 23. The third filtering component 213 receives the water flowing from the second filtering component 212 for filtering, and then delivers the water to the heat-preservation water tank 60 for preservation, and the sensing device 25 senses the water quality of the water passing through the third filtering component 213;

when the water quality does not meet the preset parameters, the water flows back to the third filtering component 213 from the heat preservation water tank 60 for secondary filtering.

The sensing and detecting device 25 includes a water quality detecting module 251, a temperature detecting module 252, a flow detecting module 253, a leak detecting switch 254 and a liquid level sensing and detecting module 255. The water quality detecting module 251 is used for detecting the quality of inlet water and outlet water. The temperature detecting module 252 is used for detecting the temperature of the water. The flow rate detecting module 253 is configured to detect and count the flow rate in the filtering module 21, so as to determine the service life of the filter element in the filtering module 21. The leak detection switch 254 detects whether the composite purification tank device 70 leaks water. The liquid level sensing detection module 255 is installed in a heat-preservation water tank 60 and a hot water tank 61, and the liquid level sensing detection module 255 is used for detecting the water levels in the heat-preservation water tank and the hot water tank.

When the liquid level sensing module 255 detects that the water levels in the heat-preservation water tank and the instant hot water tank are higher than or lower than the predetermined water levels, the liquid level sensing module 255 sends a signal for controlling the switch to be turned off.

Referring to fig. 1, the kitchen device 1 further includes a touch screen 13, and the touch screen 13 displays information in the composite purification tank device 70, such as water quality and temperature parameters. The first water tap 11, the second water tap 12 and the touch screen 13 are installed on the water tank, and the first water tap 11, the second water tap 12 and the touch screen 13 are respectively installed on two opposite sides of the water tank 10.

In another preferred embodiment, the first tap 11 is a domestic tap and the second tap 12 is a direct drinking tap. In the present embodiment, the number of the water taps is only two. It will be appreciated that in other embodiments, the faucet may be replaced with other types. The sink 10 may alternatively be a double or triple sink configuration.

Referring to fig. 1 and 2, in an embodiment, the under kitchen device 2 includes an integrated machine 20, and the filtering module 21, the active oxygen generator module 22, the instant heating module 23, the sterilization module 24, the sensing device 25 and the control module 26 are installed in the integrated machine 20.

The all-in-one machine 20 connects the sensing device 25 with the first faucet 11 through a first pipeline 30, and connects the sensing device 25 with the second faucet 12 through a second pipeline 31. The first water tap 11 and the second water tap 12 are connected with the all-in-one machine 20 through the cable 40, and are used for controlling the use states of the first water tap 11 and the second water tap 12. The all-in-one machine 20 is connected with the touch screen 13 through the cable 40. The light emitting states of the corresponding icons on the touch screen 13 of the first water tap 11 and the second water tap 12 can be changed. For example, the light emission state changes accordingly by changing the water quality and temperature.

Referring to fig. 2, 3 and 4, in one embodiment, the filtering module 21 may perform multi-stage filtering.

After the water is first filtered by the first filtering element 211 of the filtering module 21, the water flows through the flow detecting module 253 to measure the water flow, and then selectively flows through one of the paths to be connected to the first faucet 11 through the active oxygen generator module 22. Or alternatively, the water can flow to another path, pass through a first solenoid valve 51, pass through a water quality detection module 251 to detect the water quality, and flow to the second filtering element 212 in the filtering module 21 for filtering.

After passing through the second filter assembly 212 of the filter module 21, the water may optionally pass through a booster pump 55 and then flow to the third filter assembly 213 of the filter module 21 for filtration. After the water quality is detected by a water quality detecting module 251, the water flows to a thermal insulation water tank 60, and the impurities filtered by the third filtering component 213 can be discharged out of the pipeline through a drain valve 56. In the heat preservation water tank 60, water can be pumped to a third electromagnetic valve 53 or a check valve 58 through a water pump 57, one end of the third electromagnetic valve 53 is connected to a pipeline between the booster pump 55 and the third filter assembly 213, one end of the third electromagnetic valve is connected to a pipeline between the water pump 57 and the check valve 58, and the check valve 58 is connected to a regulating valve 59.

The water filtered by the second filter assembly 212 of the filter module 21 may optionally pass through another one-way valve 58, the one-way valve 58 being connected to the regulating valve 59 as described above. After passing through the regulating valve 59, the water quality is detected by a water quality detecting module 251, and the water can be directly connected to the instant heating module 23 through a fourth solenoid valve 54 or flow to the instant heating water tank 61 through a second solenoid valve 52, wherein the other end of the instant heating water tank 61 is connected to the instant heating module 23. And then to the second faucet 12 via the instant heating module 23.

The sterilization module 24 is installed in each module to perform sterilization.

The sensing device 25 is connected to each pipeline for detection.

The modules are controlled by a control module 26, the control module 26 is connected with the touch screen 13, and the control module 26 inputs an operation instruction through the touch screen 13.

The active oxygen generator module 22 is used to produce active oxygen water, which is used to oxidize and decompose harmful substances, thereby rendering them nontoxic and maintaining nutritional ingredients. Further, the harmful substances are pesticide residues, hormones, bacteria and the like.

The instant heating module 23 is provided with a plurality of predetermined temperature nodes, and in the present embodiment, the instant heating module 23 is provided with five temperature values, which are 25 °, 45 °, 65 °, 85 °, and 95 °, respectively. It is understood that the temperature nodes may be replaced by other numbers, and the temperature thereof may be adjusted to other temperatures.

The sterilization module 24 adopts an overflowing type deep ultraviolet sterilizer, which has the effects of high radiation flux, low power consumption, no secondary pollution and high sterilization rate.

The sensing device 25 improves the reliability of the system, can detect feedback in real time and predict the service life of components according to the sensing conditions.

Referring to fig. 5, in other embodiments, the object is drained for better drainage. In the use process of the composite purification tank body device 70, a plurality of accessories 15 can be placed on the water tank 10, and a plurality of accessories 15 can be placed on the water tank 10 at the same time. In this embodiment, the sink 10 includes five parts, and further, the parts 15 are a draining basin, a draining board, a draining curtain, a cutting board, and a turbulence generator. It will be appreciated that the fittings 15 may be replaced with other configurations and numbers depending on the context of the tank.

Referring to fig. 1, 2 and 4, the composite purification tank device 70 is installed in a kitchen cabinet 100. When water needs to be taken from the first water tap 11, the first water tap 11 is opened, and the water passes through a switch 50 and then flows to the all-in-one machine 20 for treatment. Firstly, the water is filtered by the filtering module 21, then the filtered harmful substances are decomposed by the active oxygen generator module 22, and finally the water flows out of the first water tap 11 through the first pipeline 30 after being detected by the sensing device 25, and the sterilization module 24 sterilizes the water flowing through the module. Items to be cleaned are placed on the fitting 15 of the sink 10 for cleaning. The all-in-one machine 20 transmits information to the touch screen 13 through the cable 40, and the touch screen 13 displays data. The used water is discharged from the drainage member 14.

When drinking water needs to be taken from the second water tap 12, for example, a user can input a heating or other mode to the control module 26 by operating the touch screen 13, the touch screen 13 sends a command to the control module 26, and the instant heating module 23 performs a heating action or other modes. The all-in-one machine 20 filters water, heats the water to a predetermined temperature through the instant heating module 23 or reaches a predetermined state in other modes, and transmits information to the touch screen 13 through the sensing device 25 and displays the information. The switch of the second water tap 12 is turned on, and the water flows out of the second water tap 12. The used water is discharged from the drainage member 14.

In the above embodiment, the upper kitchen unit 1 and the lower kitchen unit 2 are used to facilitate the cleaning of the table top by the user and reduce the space occupied by the lower kitchen unit. A large amount of data can be collected in the touch screen 13, and reference contents in aspects of water quality evaluation, consumable filtration and the like are provided.

In summary, the composite purification tank device 70 provided in the above embodiment adopts a compact structural design, so that the safety of the whole use is improved, and the use experience of the user is also improved.

In addition, those skilled in the art should recognize that the foregoing embodiments are illustrative only, and not limiting, and that appropriate changes and modifications can be made without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a compound purification cell body device, includes device and kitchen lower unit on the kitchen, the device includes tap, basin, water tank and drainage component on the kitchen, the drainage component communicate in the basin lower extreme, its characterized in that, the device includes under the kitchen:

a filtration module for filtering water for delivery to the on-board kitchen unit;

the active oxygen generator module is used for oxidizing and decomposing the harmful substances filtered out by the filtering module;

an instant heating module for heating water to a predetermined temperature;

a disinfection module for removing bacteria in the water flow path;

a sensing device for sensing a predetermined parameter of water used in the composite purge tank assembly;

the control module is used for controlling the filtering module, the active oxygen generator module, the instant heating module, the sterilization module and the sensing device.

2. The composite purification tank device of claim 1, wherein: the sensing and detecting device comprises a water quality detecting module, and the water quality detecting module is used for detecting the water quality of inlet water and outlet water.

3. The composite purification tank device of claim 1, wherein: the sensing and detecting device comprises a temperature detecting module, and the temperature detecting module is used for detecting the temperature of water.

4. The composite purification tank device of claim 1, wherein: the sensing and detecting device comprises a flow detecting module, and the flow detecting module is used for detecting and counting the flow in the filtering module.

5. The composite purification tank device of claim 1, wherein: the sensing and detecting device comprises a leakage detecting switch, and the leakage detecting switch detects whether the composite purification tank body device leaks water or not.

6. The composite purification tank device of claim 1, wherein: the sensing and detecting device further comprises a liquid level sensing and detecting module, wherein the liquid level sensing and detecting module is installed in the heat-preservation water tank and the hot water tank, and is used for detecting the water levels in the heat-preservation water tank and the hot water tank.

7. The composite purification tank device of claim 1, wherein: a plurality of preset temperature values are set in the instant heating module.

8. The composite purification tank device of claim 1, wherein: the filtering module comprises a first filtering component, and the water filtered by the first filtering component is discharged through the faucet after being processed by the active oxygen generator module.

9. The composite purification tank device of claim 8, wherein: the filtering module comprises a second filtering component, water can flow to the second filtering component for filtering after being filtered by the first filtering component, flows to the instant heating module after being filtered by the second filtering component, and is discharged from the faucet after being treated by the instant heating module.

10. The composite purification tank device of claim 9, wherein: the filtering module further comprises a third filtering component, the third filtering component receives the water flowing from the second filtering component for filtering, then conveys the water to the water tank for storage, and the sensing device senses the water quality of the water passing through the third filtering component;

when the water quality of the used water does not meet the preset parameters, the used water flows back to the third filtering component from the water tank again for secondary filtering.

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