CN215635127U

CN215635127U - Double-flow electromagnetic valve with sampling structure

Info

Publication number: CN215635127U
Application number: CN202122050298.5U
Authority: CN
Inventors: 史和平; 余丰田
Original assignee: Wenzhou Yiheng Automation Technology Co ltd
Current assignee: Wenzhou Yiheng Automation Technology Co ltd
Priority date: 2021-08-27
Filing date: 2021-08-27
Publication date: 2022-01-25
Anticipated expiration: 2031-08-27

Abstract

The utility model relates to a double-flow electromagnetic valve with a sampling structure, which comprises a valve body, a valve cover, a diaphragm component and an electromagnetic component, wherein an oil inlet and an oil outlet are arranged on the valve body, one end of the valve cover is connected with the valve body through the diaphragm component, the other end of the valve cover is connected with the electromagnetic component, the valve body controls the connection or disconnection between the oil inlet and the oil outlet through the electromagnetic component, a sampling port is arranged on the valve body, a main connecting port and a sampling connecting port are arranged on the valve cover, the oil outlet is communicated with the main connecting port, the sampling port is communicated with the sampling connecting port, and the electromagnetic component independently controls the connection and disconnection of the main connecting port and the sampling connecting port. The utility model aims to design a double-flow electromagnetic valve with a sampling structure, and independently control a main connecting port and a sampling connecting port through the electromagnetic valve, so that a medium in the electromagnetic valve is sampled in real time as required, and reference data for maintaining a liquid and air pressure system are provided.

Description

Double-flow electromagnetic valve with sampling structure

Technical Field

The utility model relates to the technical field of valves, in particular to a double-flow electromagnetic valve with a sampling structure.

Background

The electromagnetic valve is an automatic element for controlling fluid, is widely applied in the industrial fields of hydraulic pressure, pneumatic pressure and the like, can be controlled by matching with different circuits and is used for adjusting the direction, flow rate, speed and other parameters of a medium. Sometimes, in order to accurately know the condition of liquid in the hydraulic system and further take corresponding synergistic measures, the medium in the hydraulic system needs to be sampled in real time, so that the condition of the medium in the electromagnetic valve is known.

Disclosure of Invention

In order to overcome the defects of the background art, the utility model aims to design the double-flow electromagnetic valve with the sampling structure, and independently control the main connecting port and the sampling connecting port through the electromagnetic valve, so that a medium in the electromagnetic valve is sampled in real time according to the requirement, and reference data for maintaining a liquid and air pressure system are provided.

The technical scheme adopted by the utility model is as follows: the utility model provides a double flow solenoid valve with sample structure, includes valve body, valve gap, diaphragm part and electromagnetic component, is equipped with oil inlet and oil-out on the valve body, the one end of valve gap is passed through diaphragm part and is connected with the valve body, and the other end and the electromagnetic component of valve gap are connected, and the valve body passes through the electromagnetic component and controls switch-on or disconnection between its oil inlet and the oil-out, be equipped with the sample connection on the valve body, be equipped with main connector and sample connector on the valve gap, oil-out and main connector intercommunication, sample connection and sample connector intercommunication, the electromagnetic component independent control main connector, the switch-on and the disconnection of sample connector.

Furthermore, the electromagnetic component is provided with two groups of movable iron cores, and the on and off of the main connecting port and the sampling connecting port are independently controlled through the corresponding movable iron cores.

By adopting the technical scheme, two groups of independently controlled movable iron cores are arranged in the electromagnetic valve, and when the oil inlet and the oil outlet need to be communicated, the movable iron cores corresponding to the main connecting port are adsorbed by the electromagnetic action, so that a medium in the oil inlet flows to the oil outlet through the main connecting port; when the medium in the solenoid valve is sampled, the movable iron core corresponding to the sampling connecting port is adsorbed through the electromagnetic action, so that the medium in the oil inlet flows to the sampling port through the sampling connecting port, the state of the medium in the solenoid valve is monitored, the whole structure is simple, the electromagnetic components are controlled in a one-to-one mode, and the operation is convenient in practice.

The utility model is further arranged in that the main connecting port and the sampling connecting port are provided with convex grooves, and one surface of the movable iron core facing the valve cover is connected with the convex grooves.

Furthermore, the oil inlet of the valve body is provided with a first shunt port and a second shunt port, and the main connecting port and the sampling connecting port are communicated with the oil inlet through the first shunt port and the second shunt port respectively.

Furthermore, the oil outlet of the valve body is provided with a conveying pipe, and the main connecting port is connected with the oil outlet through the conveying pipe.

When the oil inlet and the oil outlet need to be communicated, the medium in the oil inlet of the valve body enters the main connecting port of the valve cover from the first diversion port and then enters the oil outlet through the conveying pipe of the valve body; when the medium in the electromagnetic valve needs to be sampled, the medium in the oil inlet of the valve body enters the sampling connecting port of the valve cover through the second shunt port and then flows out through the sampling port of the valve body; the two flow passages are distinct and are not easy to conflict.

The utility model is further provided that the sampling port is provided with a sealing cover.

Adopt above-mentioned technical scheme, the closing cap is connected with the sample connection through detachable connected mode for the sample connection is plugged up the sample connection when need not the sample, avoids the inside corrosive medium that has of sample connection to flow, leaves the potential safety hazard.

The embodiments of the present invention will be further described with reference to the accompanying drawings.

Drawings

FIG. 1 is a cross-sectional view of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a schematic structural view of view A of FIG. 2 according to the present invention;

fig. 4 is a schematic structural view of the valve cover 2 of the present invention;

fig. 5 is a perspective view of the valve body 1 of the present invention;

fig. 6 is a front view of the valve body 1 of the present invention;

FIG. 7 is a cross-sectional view taken along line B of FIG. 6 in accordance with the present invention;

Detailed Description

As shown in fig. 1-7, a dual-flow electromagnetic valve with a sampling structure includes a valve body 1, a valve cover 2, a diaphragm component 3 and an electromagnetic component 4, an oil inlet 11 and an oil outlet 12 are provided on the valve body 1, one end of the valve cover 2 is connected with the valve body 1 through the diaphragm component 3, the other end of the valve cover 2 is connected with the electromagnetic component 4, the valve body 1 controls the connection or disconnection between the oil inlet 11 and the oil outlet 12 through the electromagnetic component 4, the valve body 1 is provided with a sampling port 14, the valve cover 2 is provided with a main connection port 21 and a sampling connection port 22, the oil outlet 12 is communicated with the main connection port 21, the sampling port 14 is communicated with the sampling connection port 22, and the electromagnetic component 4 independently controls the connection and disconnection of the main connection port 21 and the sampling connection port 22. Furthermore, the electromagnetic component 4 is provided with two sets of movable iron cores 41, and the on and off of the main connection port 21 and the sampling connection port 22 are independently controlled through the corresponding movable iron cores 41. Two groups of independently controlled movable iron cores 41 are arranged in the electromagnetic valve, and when the oil inlet 11 and the oil outlet 12 need to be communicated, the movable iron cores 41 corresponding to the main connecting port 21 are adsorbed through the electromagnetic action, so that a medium in the oil inlet 11 flows to the oil outlet 12 through the main connecting port 21; when the medium in the electromagnetic valve needs to be sampled, the movable iron core 41 corresponding to the sampling connecting port 22 is adsorbed through the electromagnetic action, so that the medium in the oil inlet 11 flows to the sampling port 14 through the sampling connecting port 22, the state of the medium in the electromagnetic valve is monitored, the overall structure is simple, the electromagnetic components 4 are controlled one to one, and the operation is convenient in practice.

The main connection port 21 and the sampling connection port 22 are provided with a convex groove 26, and one surface of the movable iron core 41 facing the valve cover 2 is connected with the convex groove 26. Further, the oil inlet 11 of the valve body 1 is provided with a first branch port 16 and a second branch port 17, and the main connection port 21 and the sampling connection port 22 are respectively communicated with the oil inlet 11 through the first branch port 16 and the second branch port 17. Further, the oil outlet 12 of the valve body 1 is provided with a delivery pipe 18, and the main connecting port 21 is connected with the oil outlet 12 through the delivery pipe 18. When the electromagnetic component 4 does not work, the movable iron core 41 enables the rubber block 43 to be constantly connected with the convex groove 26 through the acting force of the spring 46, so that the main connecting port 21 and the sampling connecting port 22 are disconnected with media inside the valve body 1, when the oil inlet 11 and the oil outlet 12 need to be communicated, the media inside the oil inlet 11 of the valve body 1 enter the main connecting port 21 of the valve cover 2 through the first shunting port 16 and then enter the oil outlet 12 through the conveying pipe 18 of the valve body 1; when the medium in the electromagnetic valve needs to be sampled, the medium in the oil inlet 11 of the valve body 1 enters the sampling connecting port 22 of the valve cover 2 through the second shunt port 17 and then flows out through the sampling port 14 of the valve body 1; the two flow passages are distinct and are not easy to conflict.

The sampling port 14 is provided with a sealing cover 9. The closing cap 9 is connected with the sample connection 14 through detachable connected mode for the sample connection 14 is plugged up the sample connection 14 when need not the sample, avoids the inside corrosive medium that has of sample connection 14 to flow out, leaves the potential safety hazard.

The skilled person should understand that: although the utility model has been described in terms of the above specific embodiments, the inventive concept is not limited thereto and any modification applying the inventive concept is intended to be included within the scope of the patent claims.

Claims

1. The utility model provides a double flow solenoid valve with sample structure, includes valve body, valve gap, diaphragm part and electromagnetic component, is equipped with oil inlet and oil-out on the valve body, the one end of valve gap is passed through diaphragm part and is connected with the valve body, and the other end and the electromagnetic component of valve gap are connected, and the valve body passes through the electromagnetic component and controls switch-on or disconnection between its oil inlet and the oil-out, its characterized in that, be equipped with the sample connection mouth on the valve body, be equipped with main connector and sample connector on the valve gap, oil-out and main connector intercommunication, sample connection mouth and sample connector intercommunication, the electromagnetic component independent control main connector, the switch-on and the disconnection of sample connector.

2. The dual-flow solenoid valve with a sampling structure of claim 1, wherein: the electromagnetic component is provided with two groups of movable iron cores, and the on and off of the main connecting port and the sampling connecting port are independently controlled through the corresponding movable iron cores.

3. The dual-flow solenoid valve with a sampling structure of claim 2, wherein: the main connector and the sampling connector are provided with convex grooves, and one surface of the movable iron core facing the valve cover is connected with the convex grooves.

4. The dual-flow solenoid valve with a sampling structure of claim 1, 2 or 3, wherein: the oil inlet of the valve body is provided with a first shunt port and a second shunt port, and the main connecting port and the sampling connecting port are communicated with the oil inlet through the first shunt port and the second shunt port respectively.

5. The dual-flow solenoid valve with a sampling structure of claim 4, wherein: the oil outlet of the valve body is provided with a conveying pipe, and the main connecting port is connected with the oil outlet through the conveying pipe.

6. The dual-flow solenoid valve with a sampling structure of claim 1, wherein: and a sealing cover is arranged on the sampling port.