CN-224229355-U - Electromagnetic valve integrated pipeline

Abstract

The utility model provides an electromagnetic valve integrated pipeline which is characterized by comprising a shell, wherein a plurality of groups of pipelines are arranged in the shell, a plurality of interfaces extend out of the shell, a flowmeter interface and an electromagnetic valve interface are arranged on the shell, a water inlet and a water outlet are also arranged on the shell, the water inlet is connected with water inlet equipment, and the water outlet is connected with water outlet equipment. The plurality of water inlets and the water outlet are integrated on one part, and the water outlet is shared, so that the number of the electromagnetic valves is reduced. The electromagnetic valve and the pipeline of the flowmeter are integrated on one part, so that the space required by installation is reduced, and the equipment space is convenient to optimize.

Inventors

• LING TONGQIANG
• REN HONG

Assignees

• 四川优普超纯科技有限公司

Dates

Publication Date

20260512

Application Date

20250423

Claims (5)

1. 1. The electromagnetic valve integrated pipeline is characterized by comprising a shell, wherein a plurality of groups of pipelines are arranged in the shell, a plurality of interfaces extend out of the shell, a flowmeter interface (4) and an electromagnetic valve interface (5) are arranged on the shell, a water inlet and a water outlet (3) are further arranged on the shell, the water inlet is connected with water inlet equipment, the water outlet (3) is connected with water outlet equipment, the flowmeter interface (4) and the electromagnetic valve interface (5) are positioned on mutually perpendicular planes, so that a flowmeter and an electromagnetic valve are not interfered with each other when being installed, and a communicating pipeline between every two interfaces on the shell is an L-shaped pipeline so as to ensure high integration of the pipeline.
2. 2. The electromagnetic valve integrated pipeline according to claim 1, wherein the flowmeter interface (4) is provided with a flowmeter water inlet (9) and a flowmeter water outlet (10), and the electromagnetic valve interface (5) is provided with an electromagnetic valve water outlet (7) and an electromagnetic valve water inlet (8).
3. 3. The electromagnetic valve integrated pipeline according to claim 2, wherein a plurality of water inlets are arranged, the water inlets are communicated with a flowmeter water inlet (9), the water outlet (3) is communicated with an electromagnetic valve water outlet (7), and the electromagnetic valve water inlet (8) is communicated with a flowmeter water outlet (10).
4. 4. A solenoid valve integrated circuit according to claim 2, characterised in that said flow meter inlet (9) and flow meter outlet (10) are connected to the flow meter inlet and outlet, respectively.
5. 5. A solenoid valve integrated circuit according to claim 2, characterised in that the solenoid valve water outlet (7) and the solenoid valve water inlet (8) are connected to the outlet and inlet of the solenoid valve respectively.

Description

Electromagnetic valve integrated pipeline Technical Field The utility model relates to the technical field of connection of overhead transmission lines, in particular to an electromagnetic valve integrated pipeline. Background In a purified water system, an electromagnetic valve is used as a key control element, and special requirements of high cleanliness, corrosion resistance, low dead water residue and the like are required to be met. However, the prior art has the following drawbacks: The single-channel function limit is that the existing electromagnetic valve is of a single-channel structure, and when the equipment needs to control multi-channel water flow, a plurality of electromagnetic valves need to be connected in parallel, so that the cost is high, the volume is large, and the pipeline layout is complex. The pipeline connection is complex, namely, the water inlet and the water outlet of the conventional electromagnetic valve are not in the same straight line, and a pipeline is additionally bent or an adapter is used during installation, so that the leakage risk and the assembly difficulty are increased. The function is single, the existing electromagnetic valve lacks integrated design, functional modules such as flow monitoring and the like are not integrated, and the requirements on flow control and valve linkage are difficult to meet. In view of the foregoing, there is a need for an integrated, multi-channel solenoid valve solution that facilitates plumbing. Disclosure of utility model The utility model aims to provide an electromagnetic valve integrated pipeline to solve the problems of high multichannel control cost, complex pipeline layout and single function in the prior art. The electromagnetic valve integrated pipeline is realized by adopting the following technical scheme, and is characterized by comprising a shell, wherein a plurality of groups of pipelines are arranged in the shell, a plurality of interfaces extend out of the shell, a flowmeter interface and an electromagnetic valve interface are arranged on the shell, a water inlet and a water outlet are also arranged on the shell, the water inlet is connected with water inlet equipment, and the water outlet is connected with water outlet equipment. Further, a flowmeter water inlet and a flowmeter water outlet are arranged on the flowmeter interface, and a solenoid valve water outlet and a solenoid valve water inlet are arranged on the solenoid valve interface Further, the water inlets are arranged in a plurality, the water inlets are communicated with the water inlet of the flowmeter, the water outlets are communicated with the water outlets of the electromagnetic valves, and the water inlets of the electromagnetic valves are communicated with the water outlets of the flowmeter. Further, the water inlet and the water outlet of the flowmeter are respectively connected with the inlet and the outlet of the flowmeter. Further, the electromagnetic valve water outlet and the electromagnetic valve water inlet are respectively connected with the outlet and the inlet of the electromagnetic valve. Further, the flowmeter interface and the electromagnetic valve interface are positioned on mutually perpendicular planes, so that the flowmeter and the electromagnetic valve are not interfered with each other during installation. Furthermore, the communicating pipes between every two connectors on the shell are L-shaped pipes, so that the high integration of the pipes is ensured. The electromagnetic valve integrated pipeline has the beneficial effects that: The plurality of water inlets and the water outlet are integrated on one part, and the water outlet is shared, so that the number of the electromagnetic valves is reduced. The electromagnetic valve and the pipeline of the flowmeter are integrated on one part, so that the space required by installation is reduced, and the equipment space is convenient to optimize. Drawings In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described, and the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art. FIG. 1 is a schematic diagram of an integrated circuit of solenoid valves; FIG. 2 is a front plan view of an integrated solenoid valve circuit; FIG. 3 is a bottom view of a solenoid valve integrated circuit; In the figure, a first 1-water inlet, a second 2-water inlet, a 3-water outlet, a 4-flowmeter interface, a 5-electromagnetic valve interface, a 7-electromagnetic valve water outlet, a 8-electromagnetic valve water inlet, a 9-flowmeter water inlet and a 10-flowmeter water outlet are arranged. Detailed Description For the purpose of making t