CN213569933U - Water purifier with full-pipeline sterilization function - Google Patents

Abstract

The utility model discloses a water purifier with full-pipeline sterilization function, which comprises a water channel plate, wherein a plurality of pipelines are preset in the water channel plate, and the side surface of the water channel plate is provided with a raw water inlet, a waste water outlet and a pure water outlet; the water circuit board is provided with three mounting holes which are respectively positioned on a first pipeline communicated with the pre-positioned filter element at the raw water inlet, a second pipeline between the pre-positioned filter element and the water inlet electromagnetic valve and a third pipeline between the high-pressure switch and the pure water outlet; the three groups of electrolytic sterilization components are respectively inserted into the three mounting holes; the electrolytic sterilization component is characterized by also comprising a control module, wherein the control module controls the electrolytic sterilization component to work. The utility model discloses respectively set up an electrolysis subassembly that disinfects before pipeline foremost, the rear end of leading filter core and the pure water export, the electrolysis is disinfected the subassembly and is in order to connect the mode insert the pipeline soon, carries out full pipeline to the purifier and disinfects.

Description

Water purifier with full-pipeline sterilization function

Technical Field

The utility model belongs to the technical field of water purification unit, in particular to purifier with full pipeline function of disinfecting.

Background

Integrated form purifier generally includes integrated form water route board and installs the filter core on the water route board, and rivers flow along the pipeline that the water route inboard was established, are filtered by filter core at different levels to obtain clean drinking water. The purifier is when filtering water, and the bacterium also breeds easily in the filter core. Current purifier sets up sterilizing equipment at the delivery end department for pure water sterilization, but can not get rid of the bacterium that has bred in the filter core, lead to the inboard pipeline in water route to be covered with the bacterium, influence the life of purifier, also influence drinking water safety. Meanwhile, the existing commonly-used sterilization device is provided with an ultraviolet sterilization device, but the device depends on a simple physical sterilization mode, the sterilization efficiency is not high, and the ultraviolet lamp needs to be replaced at regular time, so that the sterilization requirement cannot be met.

Disclosure of Invention

The utility model aims at solving the above problem, providing a purifier with full pipeline function of disinfecting can prevent that the filter core from breeding the bacterium.

Therefore, the technical scheme of the utility model is that: a water purifier with a full-pipeline sterilization function comprises a water circuit board, wherein a plurality of pipelines are preset in the water circuit board, and a raw water inlet, a waste water outlet and a pure water outlet are arranged on the side surface of the water circuit board; the water circuit board is provided with a preposed filter element, a water inlet electromagnetic valve, a booster pump, an RO filter element, a check valve and a high-pressure switch; the raw water inlet is connected with a preposed filter element through a built-in pipeline, the preposed filter element is connected with a water inlet electromagnetic valve, the water inlet electromagnetic valve is connected with the water inlet end of the RO filter element through a booster pump, and the pure water end of the RO filter element is connected to a pure water outlet through a check valve and a high-pressure switch;

the method is characterized in that: the water circuit board is provided with three mounting holes which are respectively positioned on a first pipeline communicated with the pre-positioned filter element at the raw water inlet, a second pipeline between the pre-positioned filter element and the water inlet electromagnetic valve and a third pipeline between the high-pressure switch and the pure water outlet; the three groups of electrolytic sterilization components are respectively inserted into the three mounting holes, one end of each electrolytic sterilization component is provided with a positive electrode plate and a negative electrode plate, the positive electrode plate and the negative electrode plate are inserted into the pipelines, and the other end of each electrolytic sterilization component is provided with a positive lead post and a negative lead post which are positioned above the water way plate; the electrolytic sterilization component is characterized by further comprising a control module, wherein the control module is connected with the positive lead post and the negative lead post through leads and used for controlling the electrolytic sterilization component to work.

Preferably, the electrolytic sterilization assembly comprises a cylindrical body and an insertion end, the diameter of the insertion end is smaller than that of the body, the positive and negative electrode plates are positioned at the end part of the insertion end, the positive lead column and the negative lead column are positioned at the end part of the body, and the positive and negative electrode plates are electrically connected with the positive lead column and the negative lead column; the inserting end is arranged in the water channel plate, and the cylindrical body is positioned above the water channel plate.

Preferably, still install combination flushometer on the water route board, the waste water end of RO filter core connects combination flushometer, and combination flushometer is connected to the waste water export.

The utility model is provided with an electrolytic sterilization component respectively at the foremost end of the pipeline, at the rear end of the preposed filter element and in front of the pure water outlet, the electrolytic sterilization component is inserted into the pipeline in a quick connection way, and sterilization gas such as negative hydrogen ions, negative oxygen ions and ozone with certain concentration is generated during working to prevent the filter element from breeding bacteria; the electrolytic sterilization component is electrically connected with the control module, and the electrolytic sterilization component is automatically started at certain time intervals to perform electrolytic sterilization and perform full-pipeline sterilization on the water purifier.

Drawings

The following detailed description is made with reference to the accompanying drawings and embodiments of the present invention

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of an electrolytic sterilizing module;

FIG. 3 is a schematic diagram of the waterway of the present invention;

fig. 4 is a control block diagram of the present invention.

Labeled as: the water inlet device comprises a water channel plate 1, a preposed filter element 2, a water inlet electromagnetic valve 3, a booster pump 4, an RO filter element 5, a combined flushing valve 6, a check valve 7, a high-voltage switch 8, a first electrolytic sterilization component 9, a body 91, an insertion end 92, a positive electrode plate 93, a positive electrode lead column 94, a negative electrode lead column 95, a second electrolytic sterilization component 10, a raw water inlet 11, a control module 12, a third electrolytic sterilization component 13 and a water outlet nozzle 14.

Detailed Description

See the drawings. The water purifier comprises a water channel plate 1, wherein a plurality of pipelines are preset in the water channel plate, and a raw water inlet 11, a waste water outlet and a pure water outlet are arranged on the side surface of the water channel plate; the water circuit board is provided with a preposed filter element 2, a water inlet electromagnetic valve 3, a booster pump 4, an RO filter element 5, a combined flushing valve 6, a check valve 7 and a high-pressure switch 8; raw water inlet 11 is through the end of intaking of leading filter core 2 of first tube coupling, and leading filter core 2's play water end is through second tube coupling solenoid valve 3 that intakes, and the solenoid valve 3 that intakes passes through booster pump 4 and connects RO filter core 5's the end of intaking, and RO filter core 5's waste water end connects combination flushometer 6, and the combination flushometer is connected to the waste water outlet, and RO filter core 5's pure water end is connected to the pure water outlet through check valve 7 and high-voltage switch 8.

The water circuit board 1 is provided with three mounting holes, the first mounting hole is positioned on a first pipeline communicated with the raw water inlet 11 and the preposed filter element 2, the second mounting hole is positioned on a second pipeline between the preposed filter element and the water inlet electromagnetic valve, and the third mounting hole is positioned on a third pipeline between the high-pressure switch and the pure water outlet. The first electrolytic sterilization component 9, the second electrolytic sterilization component 10 and the third electrolytic sterilization component 13 are respectively inserted into the three mounting holes, all the electrolytic sterilization components comprise a cylindrical body 91 and an insertion end 92, the diameter of the insertion end is smaller than that of the body, the positive electrode plate 93 and the negative electrode plate 95 are positioned at the end part of the insertion end 92, the positive electrode lead post 94 and the negative electrode lead post 95 are positioned at the end part of the body 91, and the positive electrode plate and the negative electrode plate are respectively electrically connected with the positive electrode lead post and the negative electrode lead post; the inserting end is arranged in the water channel plate, and the cylindrical body is positioned above the water channel plate. The first and second electrolytic sterilization components are inserted into the first and second mounting holes, and the positive and negative electrode plates are inserted into the pipeline and are subjected to electrolytic reaction with water flow in the pipeline after being electrified.

The purifier still includes control module 12, and control module is connected through the wire with anodal wire post, negative pole wire post, separates the fixed time, and the automatic start electrolysis subassembly that disinfects, and control module connects power adapter and display keypad, controls the work of the solenoid valve of intaking, booster pump and combination flushometer.

Raw water enters the water channel plate 1 through the raw water inlet 11, flows to the preposed filter element 2 through the first pipeline, water after rough filtration of the preposed filter element 2 flows into the RO filter element 5 through the water inlet electromagnetic valve 3 and the booster pump 4 for fine filtration, pure water generated by the RO filter element 5 flows to a pure water outlet through the check valve 7 and the high-pressure switch 8, the pure water outlet is connected with the water outlet nozzle 14, and the pure water flows out of the water outlet nozzle 14. Simultaneously, the wastewater produced by the RO cartridge is discharged from the wastewater outlet via the combination flush valve 6. Simultaneously, control module starts first electrolytic sterilization subassembly 9, second electrolytic sterilization subassembly 10 and third electrolytic sterilization subassembly 13, carries out full pipeline and disinfects, and electrolytic sterilization subassembly during operation produces sterilizing gas such as certain concentration negative hydrogen ion, negative oxygen ion, ozone and prevents that the filter core from breeding the bacterium.

Claims (3)

1. A water purifier with a full-pipeline sterilization function comprises a water circuit board, wherein a plurality of pipelines are preset in the water circuit board, and a raw water inlet, a waste water outlet and a pure water outlet are arranged on the side surface of the water circuit board; the water circuit board is provided with a preposed filter element, a water inlet electromagnetic valve, a booster pump, an RO filter element, a check valve and a high-pressure switch; the raw water inlet is connected with a preposed filter element through a built-in pipeline, the preposed filter element is connected with a water inlet electromagnetic valve, the water inlet electromagnetic valve is connected with the water inlet end of the RO filter element through a booster pump, and the pure water end of the RO filter element is connected to a pure water outlet through a check valve and a high-pressure switch;

the method is characterized in that: the water circuit board is provided with three mounting holes which are respectively positioned on a first pipeline communicated with the pre-positioned filter element at the raw water inlet, a second pipeline between the pre-positioned filter element and the water inlet electromagnetic valve and a third pipeline between the high-pressure switch and the pure water outlet; the three groups of electrolytic sterilization components are respectively inserted into the three mounting holes, one end of each electrolytic sterilization component is provided with a positive electrode plate and a negative electrode plate, the positive electrode plate and the negative electrode plate are inserted into the pipelines, and the other end of each electrolytic sterilization component is provided with a positive lead post and a negative lead post which are positioned above the water way plate; the electrolytic sterilization component is characterized by further comprising a control module, wherein the control module is connected with the positive lead post and the negative lead post through leads and used for controlling the electrolytic sterilization component to work.

2. The water purifier with full pipeline sterilization function as claimed in claim 1, wherein: the electrolytic sterilization assembly comprises a cylindrical body and an insertion end, the diameter of the insertion end is smaller than that of the body, the positive and negative electrode plates are positioned at the end part of the insertion end, the positive lead column and the negative lead column are positioned at the end part of the body, and the positive and negative electrode plates are electrically connected with the positive lead column and the negative lead column; the inserting end is arranged in the water channel plate, and the cylindrical body is positioned above the water channel plate.

3. The water purifier with full pipeline sterilization function as claimed in claim 1, wherein: still install the combination flushometer on the water route board, the waste water end connection combination flushometer of RO filter core, combination flushometer is connected to the waste water export.

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