CN214399995U

CN214399995U - Water purification system

Info

Publication number: CN214399995U
Application number: CN202022652775.0U
Authority: CN
Inventors: 何海; 张涛; 龚圆杰
Original assignee: Chunmi Technology Shanghai Co Ltd
Current assignee: Chunmi Technology Shanghai Co Ltd
Priority date: 2020-11-16
Filing date: 2020-11-16
Publication date: 2021-10-15
Anticipated expiration: 2030-11-16

Abstract

The utility model relates to a water purification system, which comprises a water inlet, a first filtering component, a second filtering component, a detection component and a water intake; the first filtering component is connected with the water inlet, the second filtering component is connected with the water outlet end of the first filtering component, the second filtering component comprises a pure water outlet pipeline and a wastewater outlet pipeline, the pure water outlet pipeline comprises a main pipeline, a first branch pipeline communicated with the main pipeline and a second branch pipeline communicated with the main pipeline, and the first branch pipeline is communicated with the wastewater outlet pipeline; the detection component is arranged on the main pipeline and used for detecting the water quality of the water flowing through the main pipeline, and when the water quality is qualified, the water flows to the second branch pipeline from the main pipeline, and when the water quality is unqualified, the water flows to the first branch pipeline from the main pipeline, and the water intake is communicated with the second branch pipeline. Detect the water in the main pipeline through the determine module to rivers to waste water outlet pipe way with unqualified, rivers to the intake of taking water, thereby the user can be reassured to drink, and user experience is better.

Description

Water purification system

Technical Field

The utility model relates to a technical field of water purification especially relates to a water purification system.

Background

Along with the improvement of living standard of people, people pay more and more attention to water quality sanitation, and water purification equipment is applied to daily life in a large number.

According to the water purifying equipment in the related art, when a water intake is opened to take water, some water received initially is unstable due to the initial filtering stage of the filtering component, the water quality of the water filtered firstly is often unqualified, and the water purifying equipment is not suitable for people to drink, so that the user experience is poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a safer water purification system is drunk to user.

According to an aspect of the utility model, the application provides a water purification system, water purification system includes:

a water inlet for inputting raw water;

the first filtering assembly is connected with the water inlet and is used for filtering raw water entering from the water inlet;

the second filtering component is connected with the water outlet end of the first filtering component and used for filtering water input by the first filtering component, the second filtering component comprises a pure water outlet pipeline and a waste water outlet pipeline, the pure water outlet pipeline comprises a main pipeline, a first branch pipeline communicated with the main pipeline and a second branch pipeline communicated with the main pipeline, and the first branch pipeline is communicated with the waste water outlet pipeline;

the detection assembly is arranged on the main pipeline and used for detecting the water quality of the water flowing through the main pipeline, when the water quality is qualified, the water flows to the second branch pipeline from the main pipeline, and when the water quality is unqualified, the water flows to the first branch pipeline from the main pipeline; and

and the water intake is communicated with the second branch pipeline.

As an embodiment of the utility model, water purification system is still including setting up first ooff valve on the first minute pipeline is in with the setting second ooff valve on the second minute pipeline, first ooff valve with the second ooff valve respectively can with the determine module linkage, works as when determine module detection quality of water is qualified, the second ooff valve is opened so that water certainly the trunk line flow direction the second minute pipeline works as when determine module detection quality of water is unqualified, first ooff valve is opened so that water certainly the trunk line flow direction first minute pipeline.

As an embodiment of the utility model, first filter assembly includes leading filtration filter core, second filter assembly includes the RO filter core.

As an embodiment of the utility model, water purification system is still including the water tank that has the storage chamber, the income water end in storage chamber with the trunk line intercommunication, and work as when detecting element detects qualified, the trunk line to carry water in the storage chamber, the play water end in storage chamber with the intake intercommunication.

As an embodiment of the utility model, the pure water outlet conduit still include with the third minute pipeline of trunk line intercommunication, the third minute pipeline with the storage chamber intercommunication.

As an embodiment of the utility model, water purification system is still including setting up third ooff valve on the third minute pipeline works as when detecting element detects quality of water is qualified, third ooff valve opens so that water certainly the trunk line flow direction third minute pipeline.

As an embodiment of the present invention, the third on/off valve is an electromagnetic valve.

As an embodiment of the utility model, water purification system still includes water level detection subassembly, water level detection subassembly sets up in the storage cavity, be used for detecting the height of the water level in the storage cavity, water level detection subassembly can with the linkage of third ooff valve works as when the water level in the storage cavity reaches and predetermines the water level, third ooff valve closes.

As an embodiment of the utility model, water purification system still includes the suction pump, the suction pump sets up the play water end in storage chamber with between the intake, be used for the drive the rivers in the storage chamber flow to the intake.

As an embodiment of the utility model, the water purification system still includes booster pump and fourth solenoid valve, the fourth solenoid valve sets up first filtering component with between the second filtering component, the booster pump is used for driving water among the first filtering component flows to the second filtering component.

Implement the embodiment of the utility model provides a, will have following beneficial effect:

through the dual filtration of first filtering component and second filtering component, improvement filter effect that can be very big detects the water in the trunk line through the determine module convection current to with unqualified rivers to waste water outlet pipe way, with qualified rivers to the intake, and then make the water that flows to the intake be the water that quality of water is qualified, thereby the user can feel relieved and drink, and user experience is better.

Drawings

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

Fig. 1 is a schematic structural diagram of a water purification system according to a first embodiment of the present invention;

wherein: 10. a water inlet; 20. a water intake; 100. a first filter assembly; 200. a second filter assembly; 210. a pure water outlet pipeline; 211. a main pipeline; 212. a first branch duct; 213. a second branch pipe; 214. a third branch pipeline; 220. a wastewater outlet pipe; 300. a detection component; 400. a water tank; 410. a storage chamber; 510. a first on-off valve; 520. a second on-off valve; 530. a third on-off valve; 540. a fourth solenoid valve; 600. a water level detection assembly; 700. a water pump; 800. a booster pump.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. 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. The terms "vertical," "horizontal," "left," "right," 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. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, an embodiment of the present invention provides a water purification system, which includes a water inlet 10, a first filter assembly 100, a second filter assembly 200, a detection assembly 300, a water tank 400 and a water intake 20, wherein the water inlet 10 is used for inputting raw water, the water intake 20 is used for extracting drinkable pure water, the first filter assembly 100 and the second filter assembly are used for filtering water, wherein the first filtering component 100 is connected with the water inlet 10 to filter raw water, the second filtering component 200 is connected with the water outlet end of the first filtering component 100 to filter water input by the first filtering component 100, through the double filtration of first filter assembly 100 and second filter assembly 200, can very big improvement quality of water, whether detection component 300 is used for detecting the quality of water after second filter assembly 200 filters qualified, and water tank 400 is used for storing the qualified water of detection after second filter assembly 200 filters.

In an embodiment, the second filtering component 200 includes a pure water outlet pipe 210 and a waste water outlet pipe 220, the pure water outlet pipe 210 includes a main pipe 211, a first branch pipe 212 communicated with the main pipe 211 and a second branch pipe 213 communicated with the main pipe 211, the first branch pipe 212 is communicated with the waste water outlet pipe 220, the second branch pipe 213 is communicated with the water intake 20, the detecting component 300 is disposed on the main pipe 211, and is used for detecting the water quality of the water flowing through the main pipe 211, when the water quality is qualified, the water flows from the main pipe 211 to the second branch pipe 213, and then the water can be directly taken from the water intake 20 for drinking, when the water quality is unqualified, the water flows from the main pipe 211 to the first branch pipe 212, and then flows to the waste water outlet pipe 220 for discharging. Detect the water of convection current in the trunk line 211 through determine module 300 to rivers to waste water outlet pipe 220 that will be unqualified, with qualified rivers to intake 20, and then make the water that flows to intake 20 be the water that quality of water is qualified, thereby the user can feel relieved and drink, and user experience is better.

Preferably, the water purification system further includes a first switch valve 510 disposed on the first branch pipe 212 and a second switch valve 520 disposed on the second branch pipe 213, the first switch valve 510 is used for controlling the on/off of the water flow of the first branch pipe 212, the second switch valve 520 is used for controlling the on/off of the water flow of the second branch pipe 213, the first switch valve 510 and the second switch valve 520 are respectively linked with the detection component 300, when the detection component 300 detects that the water quality is qualified, the first switch valve 510 is closed, the second switch valve 520 is opened, so that the water flows from the main pipe 211 to the second branch pipe 213, and the user can take water, and when the detection component 300 detects that the water quality is not qualified, the first switch valve 510 is opened, and the second switch valve 520 is closed, so that the water flows from the main pipe 211 to the first branch pipe 212, and then flows to the waste water outlet pipe 220.

In one embodiment, the first filter assembly 100 includes a pre-filter cartridge for preliminary filtering of raw water.

In one embodiment, the second filter assembly 200 includes an RO filter cartridge for fine filtering of water filtered by the pre-filter cartridge.

Preferably, the second filter assembly 200 further comprises an activated carbon filter element, wherein the water inlet end of the activated carbon filter element is connected with the water outlet end of the RO filter element, so that the taste of the water filtered by the RO filter element is adjusted by the activated carbon filter element.

In one embodiment, the water tank 400 has a storage chamber 410 for storing water, the water inlet end of the storage chamber 410 is communicated with the main pipe 211, and when the detection assembly 300 detects the water is qualified, the main pipe 211 sends water into the storage chamber 410, and the water outlet end of the storage chamber 410 is communicated with the water intake 20.

In a specific embodiment, the water inlet end of the storage cavity 410 is communicated with the second branch pipeline 213, the water outlet end of the storage cavity 410 is communicated with the water intake 20, the second branch pipeline 213 stores the qualified water flow detected by the detection component 300 into the storage cavity 410, and then when a user needs to drink water, the water in the storage cavity 410 can be directly discharged through the water intake 20, so that the situation that the user cannot drink water in time when the water quality is unqualified can be avoided, and the user experience is better.

In another specific embodiment, the pure water outlet pipe 210 further includes a third branch pipe 214 communicating with the main pipe 211, the third branch pipe 214 communicating with the storage chamber 410. When the quality of water in the main pipeline 211 that detects the determine module 300 is qualified, the main pipeline 211 can flow to the third minute pipeline 214, and then stores in flowing to the storage chamber 410 through the third minute pipeline 214 to the user can't in time drink water when avoiding quality of water unqualified, makes user's experience better.

Preferably, the water purification system further includes a third on/off valve 530 disposed on the third branch pipe 214, and when the detection assembly 300 detects that the water quality is qualified, the third on/off valve 530 is opened to allow the water to flow from the main pipe 211 to the third branch pipe 214. In this embodiment, the water intake 20 is in communication with both the storage chamber 410 and the second branch pipe 213, so that the user can receive both the water flowing out of the second branch pipe 213 and the spare water flowing out of the storage chamber 410.

Preferably, an on-off valve is provided between the water tank 400 and the water intake 20 to control the flow of water from the storage chamber 410 to the water intake 20.

In one embodiment, the water purification system further includes a water level detection assembly 600, the water level detection assembly 600 being disposed in the storage chamber 410 for detecting a height of the water level in the storage chamber 410, the water level detection assembly 600 being capable of cooperating with the third on/off valve 530, the third on/off valve 530 being closed when the water level in the storage chamber 410 reaches a preset water level, and the third on/off valve 530 being opened when the water level in the storage chamber 410 does not reach the preset water level. In this embodiment, the water level detection assembly 600 can prevent the water level in the storage chamber 410 from being too high and overflowing the storage chamber 410, and can also prevent the water in the storage chamber 410 from being too little for emergency use.

In one embodiment, the water purification system further comprises a water pump 700, the water pump 700 being disposed between the water outlet end of the storage chamber 410 and the water intake 20 for driving water in the storage chamber 410 towards the water intake 20. The rate of flow of water in the storage chamber 410 to the intake 20 can be increased by the suction pump 700.

In an embodiment, the water purification system further includes a booster pump 800 and a fourth solenoid valve 540, the fourth solenoid valve 540 is disposed between the first filter assembly 100 and the second filter assembly 200, the fourth solenoid valve 540 is capable of controlling the on/off of water flowing from the first filter assembly 100 to the second filter assembly 200, the booster pump 800 is disposed between the first filter assembly 100 and the second filter assembly 200, and the booster pump 800 is used for driving water in the first filter assembly 100 to flow to the second filter assembly 200.

Preferably, the first switch valve 510, the second switch valve 520, the third switch valve 530 and the fourth switch valve are all solenoid valves, but may be mechanical valves.

In the above embodiment, the first switch valve 510, the second switch valve 520, the third switch valve 530 and the fourth switch valve may be automatically controlled by a control system or may be manually controlled.

In one embodiment, the detecting assembly 300 includes a TDS detector, and thus can detect the TDS value of the water flowing through the main conduit 211, when the TDS value is higher, the water with higher TDS value is required to flow to the waste water outlet conduit 220 through the first branch conduit 212, and when the TDS value is in the normal range, the water with normal TDS value is required to flow to the second branch conduit 213 and the third branch conduit 214.

In the specific operation of the water purification system of this embodiment, the first switch valve 510 and the fourth switch valve are first opened to allow the first cup or the first cups of water with higher TDS to flow to the waste water outlet pipe 220 through the first branch pipe 212 and then to be discharged, when the TDS value detected by the detecting component 300 is qualified, the second and third on/off

valves

520 and 530 are opened, and water with a normal TDS value is supplied into the storage chamber 410 through the third branch pipe 214 for storage, water with normal TDS can flow into the intake port 20 or the storage chamber 410 through the second branch pipe 213, when the water level in the storage chamber 410 reaches the preset water level, the second and

third switching valves

520 and 530 are closed, the supply of water into the storage chamber 410 is stopped, when the water dispenser is used for drinking, the second on-off valve 520 can be opened to receive water flowing from the second branch pipe 213 to the water intake 20, or water in the storage chamber 410 can be received.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. A water purification system, its characterized in that, water purification system includes:

a water inlet for inputting raw water;

and the water intake is communicated with the second branch pipeline.

2. The water purification system of claim 1, further comprising a first switch valve disposed on the first branch pipe and a second switch valve disposed on the second branch pipe, wherein the first switch valve and the second switch valve are respectively linked with the detection component, when the detection component detects that the water quality is qualified, the second switch valve is opened to allow the water to flow from the main pipe to the second branch pipe, and when the detection component detects that the water quality is unqualified, the first switch valve is opened to allow the water to flow from the main pipe to the first branch pipe.

3. The water purification system of claim 1, wherein the first filter assembly comprises a pre-filter cartridge and the second filter assembly comprises an RO cartridge.

4. The water purification system of claim 1, further comprising a water tank having a storage chamber, wherein a water inlet end of the storage chamber is in communication with the main pipe, and when the detection component detects a passing condition, the main pipe delivers water into the storage chamber, and a water outlet end of the storage chamber is in communication with the water intake.

5. The water purification system of claim 4, wherein the pure water outlet conduit further comprises a third branch conduit in communication with the main conduit, the third branch conduit being in communication with the storage chamber.

6. The water purification system of claim 5, further comprising a third on-off valve disposed on the third branch pipe, wherein when the detection component detects that the water quality is qualified, the third on-off valve is opened to allow the water to flow from the main pipe to the third branch pipe.

7. The water purification system of claim 6, wherein the third on/off valve is a solenoid valve.

8. The water purification system of claim 6, further comprising a water level detection assembly disposed in the storage chamber for detecting a height of the water level in the storage chamber, the water level detection assembly being capable of being linked with the third on/off valve, and the third on/off valve being closed when the water level in the storage chamber reaches a preset water level.

9. The water purification system of any one of claims 4-8, further comprising a water pump disposed between the water outlet end of the storage chamber and the water intake for driving water in the storage chamber to flow to the water intake.

10. The water purification system of any one of claims 1-8, further comprising a booster pump and a fourth solenoid valve, the fourth solenoid valve being disposed between the first and second filter assemblies, the booster pump being configured to drive water in the first filter assembly to the second filter assembly.