CN219140515U - Pipeline system of water treatment system - Google Patents

Abstract

The utility model discloses a pipeline system of a water treatment system, which comprises a main pump, a system water inlet, a system water outlet and a plurality of electromagnetic through valves, wherein the system water inlet is connected with the main pump through the electromagnetic through valve and the electromagnetic three-way valve, and the main pump is connected with a first process unit; the third process unit is connected with a water outlet of the system through an electromagnetic straight-through valve and an electromagnetic three-way valve; a plurality of quick assembly and disassembly pipes are arranged between each process unit; the electromagnetic three-way valve is connected with the auxiliary pump through an electromagnetic three-way valve ten, and the electromagnetic three-way valve ten is connected with a system water outlet. The electromagnetic three-way valves are all electric valve control valves and are of the same type, and are used for changing the flow direction and sequence of each unit in the system, so that the functions of adjusting the process sequence or performing cyclic operation or drainage operation at a certain process end and the like are realized; the main pump mainly provides power for normal sequential operation, and the auxiliary pump provides power for circulation operation or whole system drainage operation of a certain process section.

Description

Pipeline system of water treatment system

Technical Field

The utility model relates to the field of purified water treatment system devices, in particular to a pipeline system of a water treatment system.

Background

In the field of drinking water treatment, in order to make the quality of the final water reach a certain requirement, certain technological processes need to be executed more than once or gradually improved by grading, for example, the indexes of the contents of substances such as salts, colloids, microorganisms and the like can be met by one reverse osmosis in general, and in order to reach higher requirements and better comprehensive benefits, one-stage or even multi-stage devices are added. In the prior art, the added device not only increases the occupied space required by the construction of the production line, but also increases the construction cost and the subsequent maintenance cost of the system; in addition, in the operation of the water treatment production line or the operation of stopping the line, the pipeline system needs to be manually changed and switched.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides a pipeline system of a water treatment system.

In order to achieve the above object, the present utility model adopts the following technical system: the system comprises a main pump, a system water inlet, a system water outlet and a plurality of electromagnetic through valves, wherein the system water inlet is connected with the electromagnetic through valves, the through valves are connected with one end of the main pump through electromagnetic three-way valves, and one end of the main pump is connected with a water inlet of a process unit I on the process unit I;

the process unit is sequentially connected with the second process unit and the third process unit through a plurality of electromagnetic three-way valves;

a third water outlet of the process unit III is connected with the electromagnetic straight-through valve, and one end of the electromagnetic straight-through valve is connected with the system water outlet through an electromagnetic three-way valve eight;

a plurality of quick assembly and disassembly pipes are arranged among the first process unit, the second process unit and the third process unit;

an electromagnetic three-way valve five connected with the front end of the process unit II is connected with one end of an auxiliary pump through an electromagnetic three-way valve ten, and one end of the auxiliary pump is connected with the electromagnetic three-way valve three through an electromagnetic three-way valve nine;

and the ten ends of the electromagnetic three-way valve are connected with the system water outlet.

As a further description of the above technical system: a water outlet of the first process unit is connected with the electromagnetic three-way valve IV; and one end of the two quick assembly and disassembly pipes is respectively connected with the front end and the rear end of the process unit III.

As a further description of the above technical system: the electromagnetic three-way valve IV is connected with the water inlet of the process unit II through the electromagnetic three-way valve V, and the water outlet of the process unit II is sequentially connected with the electromagnetic three-way valve VI and the electromagnetic three-way valve seven.

As a further description of the above technical system: the electromagnetic three-way valve seven is connected with the three water inlets of the process unit through the quick assembly and disassembly pipe, and the three water outlets of the process unit are connected with the electromagnetic straight-through valve through the quick assembly and disassembly pipe I.

As a further description of the above technical system: and one end of the quick assembly and disassembly pipe II is connected with the electromagnetic three-way valve, and the other end is connected between the electromagnetic straight-through valve and the electromagnetic three-way valve eight.

As a further description of the above technical system: the electromagnetic three-way valve IV and the electromagnetic three-way valve seven are connected together and are connected with one end of the electromagnetic three-way valve one by one, and the electromagnetic three-way valve I is connected with two water storage tanks; the water storage tank is internally provided with a liquid level sensor.

As a further description of the above technical system: the two water storage tanks are connected with an electromagnetic three-way valve II, and the electromagnetic three-way valve I and the electromagnetic three-way valve II are respectively connected with the water inlets and the water outlets of the two water storage tanks.

As a further description of the above technical system: the second electromagnetic three-way valve is connected with the electromagnetic straight-through valve and the third electromagnetic three-way valve.

As a further description of the above technical system: the electromagnetic three-way valve eight is connected with the electromagnetic three-way valve nine.

As a further description of the above technical system: the connections are all connected by pipelines, and a plurality of switches are arranged on the pipelines.

The utility model has the following beneficial effects:

1. according to the utility model, through the plurality of electromagnetic three-way valves, highly-automatic system loop adjustment is achieved, so that the change of the water flow direction of a pipeline system is realized, and the production process steps can be quickly and flexibly adjusted and corrected; meanwhile, the drainage operation of the whole system can be realized very conveniently.

2. According to the utility model, through a plurality of quick-assembly and disassembly pipes, the cyclic multi-execution of different process sections is realized under the condition of not obviously increasing the equipment space and the cost, so that a certain single parameter is improved; meanwhile, the operation sequence of each process section can be flexibly adjusted.

Drawings

FIG. 1 is a schematic diagram of a piping system of a water treatment system according to the present utility model;

FIG. 2 is a schematic diagram illustrating sequential switching of process segments of a piping system of a water treatment system according to the present utility model;

FIG. 3 is a schematic diagram of a drainage system of a water treatment system according to the present utility model;

FIG. 4 is a schematic illustration of a single process segment cycle operation of a plumbing system for a water treatment system in accordance with the present utility model;

FIG. 5 is another schematic illustration of a single process segment cycle operation of a plumbing system for a water treatment system in accordance with the present utility model;

FIG. 6 is another schematic illustration of a single process segment cycle operation of a plumbing system for a water treatment system in accordance with the present utility model;

FIG. 7 is another schematic illustration of a single process stage cycle operation of a plumbing system for a water treatment system in accordance with the present utility model.

Legend description:

15. a first process unit; 16. a second process unit; 17. a third process unit; 19. the first pipeline is quickly assembled and disassembled; 20. quick assembly and disassembly pipe II 101 and system water inlet; 102. a system water outlet; 103. a system drain; 111. a main pump; 112. an auxiliary pump; 130. an electromagnetic three-way valve I; 131. an electromagnetic three-way valve II; 132. an electromagnetic three-way valve III; 133. an electromagnetic three-way valve IV; 134. an electromagnetic three-way valve V; 135. an electromagnetic three-way valve six; 136. an electromagnetic three-way valve seven; 137. an electromagnetic three-way valve eight; 138. an electromagnetic three-way valve nine; 139. an electromagnetic three-way valve ten; 141. an electromagnetic straight-through valve; 151. a water inlet of the process unit I; 152. a water outlet of the process unit I; 161. a second water inlet of the process unit; 162. a second water outlet of the process unit; 171. a third water inlet of the process unit; 172. a third water outlet of the process unit; 181. a water storage tank; 182. a liquid level sensor.

Detailed Description

The following description of the technical system according to embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-7, one embodiment provided by the present utility model is: the system comprises a main pump 111, a system water inlet 101, a system water outlet 102, a system water outlet 103 and a plurality of electromagnetic through valves 141, wherein the system water inlet 101 is connected with the electromagnetic through valves 141, the through valves 141 are connected with one end of the main pump 111 through electromagnetic three-way valves 132, and one end of the main pump 111 is connected with a process unit one water inlet 151 on a process unit one 15; the first process unit 15 is sequentially connected with the second process unit 16 and the third process unit 17 through a plurality of electromagnetic three-way valves; the third water outlet 172 of the process unit III 17 is connected with an electromagnetic through valve 141, and one end of the electromagnetic through valve 141 is connected with the system water outlet 102 through an electromagnetic three-way valve eight 137; a plurality of quick assembly and disassembly pipes I19 are arranged among the first process unit 15, the second process unit 16 and the third process unit 17; an electromagnetic three-way valve five 134 connected with the front end of the process unit II 16 is connected with one end of the auxiliary pump 112 through an electromagnetic three-way valve ten 139, and one end of the auxiliary pump 112 is connected with an electromagnetic three-way valve three 132 through an electromagnetic three-way valve nine 138; one end of the electromagnetic three-way valve 139 is connected with the system water outlet 103; the electromagnetic three-way valves are all electric valve control valves and are of the same type, and are used for changing the flow direction and sequence of each unit in the system, so that the functions of adjusting the process sequence or performing cyclic operation or drainage operation at a certain process end and the like are realized; the main pump mainly provides power for normal sequential operation, the auxiliary pump provides power for circulation operation of a certain process section or drainage operation of the whole system, and the main pump and the auxiliary pump are both water pumps.

Referring to fig. 2, water flows into the water treatment system through the water inlet 101, reaches the main pump 111 through the electromagnetic through valve 141 and the electromagnetic three-way valve two 131, reaches the first water inlet 151 of the process unit from the main pump 111, enters the first process unit 15, and flows out of the first water outlet 152 of the process unit; the water enters the third water inlet 171 of the process unit through the first quick assembly and disassembly pipe 19, flows out from the third water outlet 172 of the process unit into the other quick assembly and disassembly pipe 19 to reach the fourth electromagnetic three-way valve 133, then reaches the second water inlet 161 of the process unit through the fifth electromagnetic three-way valve 134 to enter the second process unit 16, flows out from the second water outlet 162 of the process unit, and reaches the second quick assembly and disassembly pipe 20 through the sixth electromagnetic three-way valve 135; and then flows out from the water outlet 102 through the electromagnetic three-way valve eight 137.

Referring to fig. 3, water flows out of the first water outlet 152 of the process unit, flows into the third 17 of the process unit from the third water inlet 171 of the process unit through the first quick release pipe 19, flows out of the third water outlet 172 of the process unit into the first quick release pipe 19 of the other quick release pipe to the fourth 133 of the electromagnetic three-way valve, flows into the second 16 of the process unit through the fifth 134 of the electromagnetic three-way valve to the second water inlet 161 of the process unit, flows out of the second water outlet 162 of the process unit, and flows out of the second water inlet of the process unit through the sixth 135 of the electromagnetic three-way valve to the second 20 of the quick release pipe; then the water reaches the auxiliary pump 112 through the electromagnetic three-way valve eight 137 and the electromagnetic three-way valve nine 138, flows out of the auxiliary pump 112, and flows out of the system water outlet 103 through the electromagnetic three-way valve ten 139.

Referring to fig. 4, water flows out of the first water outlet 152 of the process unit, enters the water storage tank 181 through the electromagnetic three-way valve four 133 and the electromagnetic three-way valve three 130, flows out of the water outlet of the water storage tank 18 into the other water storage tank 181 when the water level in the water storage tank 181 reaches a certain position and is sensed by the liquid level sensor 182, and flows out of the water storage tank 181 into the first process unit 15 through the first water inlet 151 of the process unit when the water level in the other water storage tank 181 reaches the detection value of the other liquid level sensor 182, and is discharged from the water outlet, and the water flows through the electromagnetic three-way valve two 131 and the electromagnetic three-way valve three 132 to the main pump 111.

Referring to fig. 5, water flows out of the first water outlet 152 of the process unit, enters the water storage tank 181 through the electromagnetic three-way valve four 133 and the electromagnetic three-way valve one 130 to be stored, and discharges water in the other water storage tank 181 from the water outlet, and the water flows through the electromagnetic three-way valve two 131 and the electromagnetic three-way valve three 132 to reach the main pump 111, and flows into the first process unit 15 through the first water inlet 151 of the process unit to be circulated.

Referring to fig. 6, water flows out of the second water outlet 162 of the process unit, enters the water storage tank 181 through the electromagnetic three-way valve six 135, the electromagnetic three-way valve seven 136 and the electromagnetic three-way valve one 130 to be stored, and then discharges water in the other water storage tank 181 from the water outlet, the water flows through the electromagnetic three-way valve two 131, the electromagnetic three-way valve three 132 and the electromagnetic three-way valve nine 138 to reach the auxiliary pump 112, and the water flowing out of the auxiliary pump 112 flows into the second water inlet 161 of the process unit through the electromagnetic three-way valve ten 139 and the electromagnetic three-way valve five 134 to circulate.

Referring to fig. 7, water flows out of the second water outlet 162 of the process unit, enters another water storage tank 181 through a sixth electromagnetic three-way valve 135, a seventh electromagnetic three-way valve 136 and a first electromagnetic three-way valve 130 to be stored, and then the water in the water storage tank 181 is discharged from the water outlet, the water flows through the second electromagnetic three-way valve 131, the third electromagnetic three-way valve 132 and the ninth electromagnetic three-way valve 138 to reach the auxiliary pump 112, and the water flowing out of the auxiliary pump 112 flows into the second water inlet 161 of the process unit through a tenth electromagnetic three-way valve 139 and a fifth electromagnetic three-way valve 134 to flow into the second water inlet 16 of the process unit, so that the circulation is different from the water storage tank 181 used in reference to fig. 7, and therefore the pipelines through which the water flows are different.

Working principle: according to the prior art, the main pump 111 and the auxiliary pump 112 provide water flow power for system operation and operation, the electromagnetic straight-through valve is used for controlling the through flow and the cut-off state of the pipeline system, the electromagnetic three-way valve can change the water flow direction, the automatic adjustment of a system loop is realized, and different treatments of water are realized by each process unit; the electromagnetic three-way valve is matched with the quick assembly and disassembly pipe, so that the pipeline system can realize multi-cycle execution of a certain single process section and flexibly adjust the operation sequence of each process section.

Finally, it should be noted that: the foregoing description of the preferred embodiments of the present utility model is not intended to be limiting, but rather, although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the technical system described in the foregoing embodiments, or equivalents may be substituted for parts thereof, and any modifications, equivalents, improvements or changes that fall within the true spirit and principle of the present utility model are intended to be included in the scope of the present utility model.

Claims (10)

1. The pipeline system of the water treatment system comprises a main pump (111), a system water inlet (101), a system water outlet (102), a system water outlet (103) and a plurality of electromagnetic through valves (141), and is characterized in that the system water inlet (101) is connected with the electromagnetic through valves (141), the electromagnetic through valves (141) are connected with one end of the main pump (111) through electromagnetic three-way valves (132), and one end of the main pump (111) is connected with a process unit one water inlet (151) on a process unit one (15);

the first process unit (15) is sequentially connected with the second process unit (16) and the third process unit (17) through a plurality of electromagnetic three-way valves;

a process unit three water outlet (172) on the process unit three (17) is connected with the electromagnetic through valve (141), and one end of the electromagnetic through valve (141) is connected with the system water outlet (102) through an electromagnetic three-way valve eight (137);

a plurality of quick-assembly and disassembly pipes I (19) are arranged among the first process unit (15), the second process unit (16) and the third process unit (17);

an electromagnetic three-way valve five (134) connected with the front end of the process unit II (16) is connected with one end of an auxiliary pump (112) through an electromagnetic three-way valve ten (139), and one end of the auxiliary pump (112) is connected with the electromagnetic three-way valve three (132) through an electromagnetic three-way valve nine (138);

one end of the electromagnetic three-way valve (139) is connected with the system water outlet (103).

2. A plumbing system for a water treatment system as recited in claim 1 wherein: a first water outlet (152) of the first process unit (15) is connected with a fourth electromagnetic three-way valve (133); two quick assembly and disassembly pipe one (19) ends are connected between the first water outlet (152) of the process unit and the fourth electromagnetic three-way valve (133), and one ends of the two quick assembly and disassembly pipe one (19) are respectively connected to the front end and the rear end of the third process unit (17).

3. A plumbing system for a water treatment system as recited in claim 2 wherein: the electromagnetic three-way valve IV (133) is connected with the water inlet 161 of the process unit II through the electromagnetic three-way valve V (134), and the water outlet 162 of the process unit II is sequentially connected with the electromagnetic three-way valve VI (135) and the electromagnetic three-way valve V (136).

4. A plumbing system for a water treatment system as recited in claim 3 wherein: the electromagnetic three-way valve seven (136) is connected with the three water inlets (171) of the process unit through the quick assembly and disassembly pipe one (19), and the three water outlets (172) of the process unit are connected with the electromagnetic straight-through valve (141) through the quick assembly and disassembly pipe one (19).

5. A plumbing system for a water treatment system as recited in claim 4 wherein: one end of the quick assembly and disassembly pipe II (20) is connected with the electromagnetic three-way valve VI (135), and the other end is connected between the electromagnetic straight-through valve 141 and the electromagnetic three-way valve 137.

6. A plumbing system for a water treatment system as recited in claim 5 wherein: the electromagnetic three-way valve IV (133) and the electromagnetic three-way valve seven (136) are connected with one end of the electromagnetic three-way valve I (130), and the electromagnetic three-way valve I (130) is connected with two water storage tanks (181); the water storage tank (181) is internally provided with a liquid level sensor (182).

7. A plumbing system for a water treatment system as recited in claim 6 wherein: the two water storage tanks (181) are connected with electromagnetic three-way valves II (131), and the electromagnetic three-way valves I (130) and II (131) are respectively connected with the water inlets and the water outlets of the two water storage tanks (181).

8. A plumbing system for a water treatment system as recited in claim 7 wherein: the electromagnetic three-way valve II (131) is connected with the electromagnetic straight-through valve (141) and the electromagnetic three-way valve III (132).

9. A plumbing system for a water treatment system as recited in claim 1 wherein: the electromagnetic three-way valve eight (137) is connected with the electromagnetic three-way valve nine (138).

10. A plumbing system for a water treatment system as recited in claim 1 wherein: the connections are all connected by pipelines, and a plurality of switches are arranged on the pipelines.

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