CN211311060U - Three-dimensional concatenation water route - Google Patents

Abstract

The utility model discloses a three-dimensional concatenation water route, including first module, the second module, the third module, fourth module and fifth module, all be equipped with the pipeline in each module, connect through the connecting piece between two adjacent modules, be provided with the exit of intercommunication pipeline in the first module, the second module, the third module, fourth module and fifth module communicate in proper order, first module and third module intercommunication, so that first module, second module and third module constitute first water route, first module, the second module, the third module, the fourth module constitutes the second water route, first module, the second module, the third module, fourth module and fifth module also constitute the third water route. The three-dimensional concatenation water route of this kind, the mould shaping of each module is simple, and the mould is with low costs and easy the maintenance, and assembly process is simple between the module simultaneously, can effectively guarantee production efficiency, reduces manufacturing cost, moreover, the maintenance of being convenient for.

Description

Three-dimensional concatenation water route

Technical Field

The utility model relates to a purifier technical field specifically relates to a three-dimensional concatenation water route that water purifier was used.

Background

At present, the waterway system of the mainstream water purifier in the market is an integrated waterway and an integrated waterway system, and the two waterway systems have the following defects: the integrated water channel adopts a hot-melt welding process, the defects of air holes, misalignment, incomplete fusion and the like are easy to occur in the welding process of the existing welding process, meanwhile, the mold is high in cost and difficult to maintain, and a tool needs to be manufactured in the later period to verify the performance of the water channel plate, so that the overall manufacturing cost of the product is high, and the product is not beneficial to popularization; the integrated waterway system adopts an integrated injection molding process, and has the main defects that the mold is complex to form and is not beneficial to the overhaul of products.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a three-dimensional concatenation water route of modularization concatenation.

The purpose of the utility model is realized like this.

The utility model provides a three-dimensional concatenation water route, including first module, the second module, the third module, fourth module and fifth module, all be equipped with the pipeline on each module, connect through the connecting piece between two adjacent modules, be provided with the exit of intercommunication pipeline on the first module, the second module, the third module, fourth module and fifth module communicate in proper order, first module and third module intercommunication, so that first module, second module and third module constitute first water route, first module, the second module, the third module, the fourth module constitutes the second water route, first module, the second module, the third module, fourth module and fifth module also constitute the third water route. The three-dimensional concatenation water route of this kind, the mould shaping of each module is simple, and the mould is with low costs and easy the maintenance, and assembly process is simple between the module simultaneously, can effectively guarantee production efficiency, reduces manufacturing cost, moreover, the maintenance of being convenient for.

The technical scheme can be further perfected as follows.

More specific scheme, the whole L type that is in three-dimensional concatenation water route, first module constitute the short section in three-dimensional concatenation water route, and second module, third module, fourth module, fifth module link together to constitute the long section in three-dimensional concatenation water route. The three-dimensional spliced water channel has compact integral structure and small volume.

More specifically, the import and export of first module includes running water import, water purification export, pure water export and waste water export, and running water import, water purification export, pure water export and waste water export set up side by side in proper order, and running water import, water purification export all communicate with the third module, and pure water export and third module intercommunication. The inlet and the outlet are arranged on the first module, the first module is close to the shell of the water purifier, the water purifier is convenient to be connected with an external pipeline, and the external pipeline is also convenient to be arranged.

More specifically, the pipeline of the third module comprises a tap water inlet pipeline, a purified water outlet pipeline and a purified water inlet pipeline, the tap water inlet pipeline is communicated with a tap water inlet, the purified water outlet pipeline is communicated with a purified water outlet, and a booster pump is arranged on the purified water inlet pipeline.

More specifically, the third module is wholly T-shaped, the tap water inlet pipeline and the purified water outlet pipeline form the vertical part of the third module, the purified water inlet pipeline is arranged on the tap water inlet pipeline and/or the purified water outlet pipeline in a winding mode, the purified water outlet pipeline and the purified water inlet pipeline and the booster pump are connected through hoses, the water inlet end of the purified water outlet pipeline forms the horizontal part of one side of the third module, the booster pump is arranged between the water inlet end and the water outlet end of the purified water outlet pipeline, and the water outlet end of the purified water outlet pipeline forms the horizontal part of the other side of the third module. The third module is connected with the first module and is connected with the front filter element together with the second module to form a first water path, namely a water purification water path.

More specifically, the pipeline of the second module comprises a U-shaped pipeline, the water inlet end of the U-shaped pipeline of the second module is communicated with a tap water inlet pipeline, and the water outlet end of the U-shaped pipeline of the second module is communicated with a purified water outlet pipeline through a front filter element. The second module and the third module are jointly fixed and communicated with the front filter element.

More specifically, the pipeline of the fourth module comprises a pure water outlet pipeline and a secondary pure water pipeline, the water inlet end of the pure water outlet pipeline is communicated with the water outlet end of the pure water outlet pipeline through an RO (reverse osmosis) filter element, the wastewater outlet end of the RO filter element is communicated with a wastewater outlet, and the secondary pure water pipeline is communicated with the pure water outlet. The fourth module and the third module are fixed jointly and communicate the RO filter core, constitute the second water route between first module, second module, third module, the fourth module, constitute the pure water route promptly, constitute the waste water route between first module and the RO filter core.

More specifically, the fourth module further comprises a primary pure water pipeline, the primary pure water pipeline is communicated with the pure water outlet pipeline, the pure water outlet is provided with two water inlets, one water inlet is communicated with the secondary pure water pipeline, and the other water inlet is communicated with the primary pure water pipeline. And the water in the second water channel and the water in the third water channel both flow out from the pure water outlet.

More specifically, the pipeline of the fifth module comprises a U-shaped pipeline, the water outlet end of the pure water outlet pipeline is communicated with the water inlet end of the U-shaped pipeline of the fifth module through a rear filter element, and the secondary pure water pipeline is communicated with the water outlet end of the U-shaped pipeline of the fifth module. The fifth module and the fourth module are jointly fixed and communicated with the rear filter element, and the first module, the second module, the third module, the fourth module and the fifth module form a third water path, namely an ultrapure water path.

More specifically, the second module and the fifth module are arranged in a left-right symmetrical mode. Further reducing the manufacturing cost of the die.

The utility model has the advantages as follows:

(1) the three-dimensional spliced water channel is compact in overall structure and small in size, the die of each module is simple to form, the die is low in cost and easy to maintain, meanwhile, the assembling process between the modules is simple, the production efficiency can be effectively guaranteed, the manufacturing cost is reduced, and the three-dimensional spliced water channel is convenient to maintain and repair.

(2) Secondly, set up import and export on first module, first module is close to the purifier casing, be convenient for the purifier and external tube coupling, also make things convenient for external tube set up, first module is connected to the third module, and together connect leading filter core with the second module, in order to form the water purification water route, fourth module and third module are fixed jointly and communicate the RO filter core, first module, the second module, the third module, constitute the pure water route between the fourth module, constitute the waste water route between first module and the RO filter core, fifth module and fourth module are fixed jointly and communicate rearmounted filter core, first module, the second module, the third module, fourth module and fifth module constitute the ultrapure water route.

(3) And the second module and the fifth module are arranged in a bilaterally symmetrical mode, so that the cost of the die is further reduced.

Drawings

Fig. 1 is a schematic structural view of a three-dimensional spliced waterway.

Fig. 2 is a schematic structural view (another view angle) of the three-dimensional spliced waterway.

Fig. 3 is a front view of the three-dimensional spliced waterway.

Fig. 4 is a schematic cross-sectional view of a three-dimensional spliced waterway.

Detailed Description

The invention will be further described with reference to the following drawings and examples:

in a first embodiment, referring to fig. 1 to 4, a three-dimensional spliced waterway includes a first module 1, a second module 2, a third module 3, a fourth module 4 and a fifth module 5, each module is provided with a pipeline, two adjacent modules are connected by screws, and interfaces are sealed by double sealing rings. The whole L type that is in three-dimensional concatenation water route, second module 2, third module 3, fourth module 4, fifth module 5 links together, and constitute the longer section in three-dimensional concatenation water route, first module 1 communicates with third module 3, first module 1 constitutes the shorter section in three-dimensional concatenation water route, be provided with the exit of intercommunication pipeline on the first module 1, second module 2, third module 3, fourth module 4 and fifth module 5 communicate in proper order, so that first module 1, second module 2 and third module 3 constitute first water route, first module 1, second module 2, third module 3, fourth module 4 constitutes the second water route, first module 1, second module 2, third module 3, fourth module 4 also constitutes the third water route with fifth module 5.

The inlet and outlet of the first module 1 comprise a tap water inlet 11, a purified water outlet 12, a pure water outlet 13 and a wastewater outlet 14, the tap water inlet 11, the purified water outlet 12, the pure water outlet 13 and the wastewater outlet 14 are sequentially arranged side by side, the tap water inlet 11 and the purified water outlet 12 are communicated with the third module 3, and the pure water outlet 13 is communicated with the third module 3.

The pipelines of the third module 3 include a tap water inlet pipeline 31, a purified water outlet pipeline 32 and a purified water inlet pipeline 33, the tap water inlet pipeline 31 is communicated with the tap water inlet 11, the purified water outlet pipeline 32 is communicated with the purified water outlet 12, and a booster pump (not shown in the figure) is arranged on the purified water inlet pipeline 33.

The third module 3 is integrally T-shaped, the tap water inlet pipeline 31 and the pure water outlet pipeline 32 form a vertical part of the third module 3, the pure water inlet pipeline 33 is arranged on the tap water inlet pipeline 31 and/or the pure water outlet pipeline 32 in a winding way, the pure water outlet pipeline 32 is connected with the pure water inlet pipeline 33 and the pure water inlet pipeline 33 is connected with the booster pump through hoses, namely, the pure water inlet pipeline 33 is formed by hoses, the water inlet end of the pure water outlet pipeline 32 forms a horizontal part on one side of the third module 3, the booster pump is arranged between the water inlet end and the water outlet end of the pure water outlet pipeline 32, and the water outlet end of the pure water outlet pipeline 32 forms a horizontal part on the other side of the third module 3.

The pipeline of the second module 2 comprises a U-shaped pipeline, the water inlet end of the U-shaped pipeline of the second module 2 is communicated with a tap water inlet pipeline 31, and the water outlet end of the U-shaped pipeline of the second module 2 is communicated with a purified water outlet pipeline 32 through a preposed filter element.

The fourth module 4 comprises a pure water outlet pipeline 41, a primary pure water pipeline 42 and a secondary pure water pipeline 43, wherein the water inlet end of the pure water outlet pipeline 41 is communicated with the water outlet end of the pure water outlet pipeline 32 through an RO filter element, the primary pure water pipeline 42 is communicated with the pure water outlet pipeline 41, the wastewater outlet end of the RO filter element is communicated with the wastewater outlet 14, and the secondary pure water pipeline 43 is communicated with the pure water outlet 13. The pure water outlet 13 is provided with two water inlets, one of which is communicated with the secondary pure water pipeline 43, and the other is communicated with the primary pure water pipeline 42 through a hose.

The pipeline of the fifth module 5 comprises a U-shaped pipeline, the structures of the second module 2 and the fifth module 5 are arranged in a bilateral symmetry mode, the water outlet end of the pure water outlet pipeline 41 is communicated with the water inlet end of the U-shaped pipeline of the fifth module 5 through a rear filter element, and the secondary pure water pipeline 43 is communicated with the water outlet end of the U-shaped pipeline of the fifth module 5.

Tap water enters the first module 1 from the tap water inlet 11, flows into the U-shaped pipeline of the second module 2 through the tap water inlet pipeline of the third module 3, then enters the purified water outlet pipeline 32 of the third module 3 after being filtered by the front filter element, and finally flows out from the water inlet outlet of the first module 1, so that a first water channel, namely a purified water channel, is formed.

The purified water in the purified water outlet pipeline 32 of the third module 3 flows into the purified water inlet pipeline 33, is pressurized by the booster pump, enters the fourth module 4 after being filtered by the RO filter element, flows out of the primary purified water pipeline 42 of the fourth module 4, the primary purified water pipeline 42 is connected with the purified water outlet 13 through a hose, and finally flows out of the purified water outlet 13 of the first module 1, so that a second water channel, namely a purified water channel is formed, and the wastewater of the RO filter element flows from the wastewater end to the wastewater outlet 14 of the first module 1 through a hose, so that a wastewater channel is formed.

Pure water of the fourth module 4 flows into the post-filter through the pure water outlet pipeline 41, the pure water is filtered by the post-filter and flows into the secondary pure water pipeline 43 of the fourth module 4 through the U-shaped pipeline of the fifth module 5, and finally flows out from the pure water outlet 13 of the first module 1, so as to form a third water channel, namely an ultrapure water channel, wherein the ultrapure water in the ultrapure water channel and the pure water in the pure water channel are controlled by an electromagnetic valve, and then respectively flow out from the primary pure water pipeline 42 or the secondary pure water pipeline 43 through the pure water outlet 13.

Claims (10)

1. A three-dimensional spliced waterway is characterized by comprising a first module (1), a second module (2), a third module (3), a fourth module (4) and a fifth module (5), wherein pipelines are arranged on the modules, the adjacent modules are connected through a connecting piece, an inlet and an outlet which are communicated with the pipelines are arranged on the first module (1), the second module (2), the third module (3), the fourth module (4) and the fifth module (5) are sequentially communicated, the first module (1) is communicated with the third module (3), so that the first module (1), the second module (2) and the third module (3) form a first water channel, the first module (1), the second module (2), the third module (3) and the fourth module (4) form a second water channel, and the first module (1), the second module (2), the third module (3), the fourth module (4) and the fifth module (5) also form a third water channel.

2. The three-dimensional spliced waterway according to claim 1, wherein the three-dimensional spliced waterway is L-shaped as a whole, the first module (1) forms a shorter section of the three-dimensional spliced waterway, and the second module (2), the third module (3), the fourth module (4) and the fifth module (5) are connected together to form a longer section of the three-dimensional spliced waterway.

3. The three-dimensional spliced waterway according to claim 1, wherein the inlet and the outlet of the first module (1) comprise a tap water inlet (11), a purified water outlet (12), a purified water outlet (13) and a wastewater outlet (14), the tap water inlet (11), the purified water outlet (12), the purified water outlet (13) and the wastewater outlet (14) are sequentially arranged side by side, the tap water inlet (11) and the purified water outlet (12) are communicated with the third module (3), and the purified water outlet (13) is communicated with the third module (3).

4. The stereoscopic splicing waterway according to claim 3, wherein the pipelines of the third module (3) comprise a tap water inlet pipeline (31), a purified water outlet pipeline (32) and a purified water inlet pipeline (33), the tap water inlet pipeline (31) is communicated with the tap water inlet (11), the purified water outlet pipeline (32) is communicated with the purified water outlet (12), and the purified water inlet pipeline (33) is provided with a booster pump.

5. The three-dimensional spliced waterway according to claim 4, wherein the third module (3) is integrally T-shaped, the tap water inlet pipeline (31) and the purified water outlet pipeline (32) form a vertical part of the third module (3), the purified water inlet pipeline (33) is arranged on the tap water inlet pipeline (31) and/or the purified water outlet pipeline (32) in a winding manner, the purified water outlet pipeline (32) and the purified water inlet pipeline (33) and the booster pump are connected through hoses, the water inlet end of the purified water outlet pipeline (32) forms a horizontal part on one side of the third module (3), the booster pump is arranged between the water inlet end and the water outlet end of the purified water outlet pipeline (32), and the water outlet end of the purified water outlet pipeline (32) forms a horizontal part on the other side of the third module (3).

6. The stereoscopic splicing waterway according to claim 4, wherein the pipeline of the second module (2) comprises a U-shaped pipeline, the water inlet end of the U-shaped pipeline of the second module (2) is communicated with the tap water inlet pipeline (31), and the water outlet end of the U-shaped pipeline of the second module (2) is communicated with the purified water outlet pipeline (32) through a preposed filter element.

7. The stereoscopic splicing waterway according to claim 6, wherein the pipelines of the fourth module (4) comprise a pure water outlet pipeline (41) and a secondary pure water pipeline (43), the water inlet end of the pure water outlet pipeline (41) is communicated with the water outlet end of the pure water outlet pipeline (32) through an RO filter element, the wastewater outlet end of the RO filter element is communicated with the wastewater outlet (14), and the secondary pure water pipeline (43) is communicated with the pure water outlet (13).

8. The stereoscopic splicing waterway according to claim 7, wherein the fourth module (4) further comprises a primary pure water pipeline (42), the primary pure water pipeline (42) is communicated with the pure water outlet pipeline (41), the pure water outlet (13) is provided with two water inlets, one water inlet is communicated with the secondary pure water pipeline (43), and the other water inlet is communicated with the primary pure water pipeline (42).

9. The stereoscopic splicing waterway according to claim 7, wherein the pipeline of the fifth module (5) comprises a U-shaped pipeline, the water outlet end of the pure water outlet pipeline (41) is communicated with the water inlet end of the U-shaped pipeline of the fifth module (5) through a rear filter element, and the secondary pure water pipeline (43) is communicated with the water outlet end of the U-shaped pipeline of the fifth module (5).

10. The stereoscopic splicing waterway according to claim 7, wherein the second module (2) and the fifth module (5) are arranged in a left-right symmetrical structure.

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