CN215031854U - High-frequency pneumatic solenoid valve control device - Google Patents

Abstract

The utility model discloses a high frequency pneumatic solenoid valve controlling means, including the support frame, the top of support frame is equipped with the workstation, installs electromagnetism valves structure on the workstation, and one side of electromagnetism valves structure is equipped with electromagnetism break-make structure, and the one end of electromagnetism break-make structure is equipped with jet-propelled structure, and the both sides of jet-propelled structure are connected with flexible air supply structure, and electromagnetism valves structure includes a fixed plate, solenoid valve draw-in groove, baffle, total inlet port, total venthole, monomer solenoid valve, and electromagnetism break-make structure includes coil, relay, valve body, break-make pipeline, jet-propelled structure includes slide rail, slider, fixed block, shower nozzle, electric putter, connecting block. Has the advantages that: the utility model discloses the electromagnetism valves that are equipped with can carry out self-cleaning operation through the cooperation of electromagnetism break-make structure and jet-propelled structure in normal working use, can prevent effectively that electromagnetism valves structure from taking place to pollute the operational failure who leads to after the long-time function of adverse circumstances.

Description

High-frequency pneumatic solenoid valve control device

Technical Field

The utility model relates to a solenoid valve group production technical field particularly, relates to a high frequency pneumatic solenoid valve controlling means.

Background

The electromagnetic valve is an industrial device controlled by electromagnetism, is an automatic basic element for controlling fluid, belongs to an actuator, and is not limited to hydraulic pressure and pneumatic pressure. Used in industrial control systems to regulate the direction, flow, velocity and other parameters of a medium. The solenoid valve can be matched with different circuits to realize expected control, and the control precision and flexibility can be ensured. There are many types of solenoid valves, with different solenoid valves functioning at different locations in the control system, the most common being one-way valves, safety valves, directional control valves, speed control valves, etc.

The electromagnetic valve group in the prior art has different working environments, wherein the electromagnetic valve group has a severe dust environment, and the service life of the electromagnetic valve group operated in the dust environment is shortened due to the severe working environment, so that the operation cost is reduced, and the effective increase of the service life is particularly important.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The not enough to prior art, the utility model provides a high frequency pneumatic solenoid valve controlling means possesses solenoid valve group from the function of clearing up, and then solves among the prior art problem that solenoid valve group life is shorter under the bad environment.

(II) technical scheme

For realizing the function of above-mentioned electromagnetism valves self-cleaning, the utility model discloses a specific technical scheme as follows:

the utility model provides a high frequency pneumatic solenoid valve controlling means, includes the support frame, the top of support frame is equipped with the workstation, install electromagnetism valves structure on the workstation, one side of electromagnetism valves structure is equipped with electromagnetism break-make structure, the one end of electromagnetism break-make structure is equipped with jet-propelled structure, the both sides of jet-propelled structure are connected with flexible air supply structure.

Further, the electromagnetism valves structure includes a fixed plate, solenoid valve draw-in groove, baffle, total inlet port, total venthole, monomer solenoid valve, the last joint of fixed plate has the solenoid valve draw-in groove, install the baffle on the solenoid valve draw-in groove, one side of baffle is equipped with total inlet port, the bottom of total inlet port is equipped with total venthole, total inlet port is keeping away from one side of baffle is equipped with the monomer solenoid valve.

Furthermore, the electromagnetic on-off structure comprises a coil, a relay, a valve body and an on-off pipeline, wherein the relay is arranged on one side of the coil, the valve body is arranged at the bottom end of the coil, and the on-off pipeline is arranged at the bottom end of the valve body.

Further, the air injection structure comprises a sliding rail, a sliding block, a fixing block, a spray head, an electric push rod and a connecting block, the sliding block is arranged on the sliding rail, the fixing block is connected onto the sliding block, the spray head is connected onto the fixing block, the connecting block is connected to one side of the sliding block, and the electric push rod is connected to the top end of the connecting block.

Furthermore, flexible air supply structure includes that the tee bend connects plug, flexible air supply pipe, fixed air supply pipe soon, the bottom of tee bend connects plug soon is connected with flexible air supply pipe, one side of tee bend connects plug soon is connected with fixed air supply pipe.

Furthermore, the sliding block is matched with the sliding rail.

(III) advantageous effects

Compared with the prior art, the utility model provides a high frequency pneumatic solenoid valve controlling means possesses following beneficial effect:

(1) the utility model discloses the electromagnetism valves that are equipped with can carry out self-cleaning operation through the cooperation of electromagnetism break-make structure and jet-propelled structure in normal in-service use, can prevent effectively that electromagnetism valves structure from taking place to pollute the operational failure who leads to after the long-time function of adverse circumstances.

(2) The utility model discloses the clearance scope increase that the flexible air supply structure cooperation jet-propelled structure that is equipped with can make jet-propelled structure increases, increases the self-cleaning efficiency of electromagnetism valves structure, and inside is that equipment all carries out long-range timing control through electromagnetism structural connection DCS, has reduced the cost of artifical clearance.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a main body of a high-frequency pneumatic solenoid valve control device according to an embodiment of the present invention;

fig. 2 is a top view of a main structure of a high-frequency pneumatic solenoid valve control device according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a solenoid valve set structure of a high-frequency pneumatic solenoid valve control device according to an embodiment of the present invention;

fig. 4 is a schematic diagram of an electromagnetic on-off structure of a high-frequency pneumatic electromagnetic valve control device according to an embodiment of the present invention;

fig. 5 is a schematic diagram of a gas injection structure of a high-frequency pneumatic solenoid valve control device according to an embodiment of the present invention;

fig. 6 is a schematic diagram of a telescopic air source structure of a high-frequency pneumatic solenoid valve control device according to an embodiment of the present invention.

In the figure:

1. a support frame; 2. a work table; 3. an electromagnetic valve group structure; 301. a fixing plate; 302. a clamping groove of the electromagnetic valve; 303. a baffle plate; 304. a main air intake; 305. a main air outlet hole; 306. a single body solenoid valve; 4. an electromagnetic on-off structure; 401. a coil; 402. a relay; 403. a valve body; 404. switching on and off the pipeline; 5. a gas injection structure; 501. a slide rail; 502. a slider; 503. a fixed block; 504. a spray head; 505. an electric push rod; 506. connecting blocks; 6. a telescopic gas source structure; 601. a tee quick-connect plug; 602. a telescopic air source pipe; 603. and fixing the air source pipe.

Detailed Description

For further explanation of the embodiments, the drawings are provided as part of the disclosure and serve primarily to illustrate the embodiments and, together with the description, to explain the principles of operation of the embodiments, and to provide further explanation of the invention and advantages thereof, it will be understood by those skilled in the art that various other embodiments and advantages of the invention are possible, and that elements in the drawings are not to scale and that like reference numerals are generally used to designate like elements.

According to the utility model discloses an embodiment provides a high frequency pneumatic solenoid valve controlling means.

Now combine the attached drawing and detailed description to explain the utility model further, as shown in fig. 1-6, according to the utility model discloses a high frequency pneumatic solenoid valve controlling means, including support frame 1, the top of support frame 1 is equipped with workstation 2, install electromagnetism valves structure 3 on the workstation 2, one side of electromagnetism valves structure 3 is equipped with electromagnetism break-make structure 4, the one end of electromagnetism break-make structure 4 is equipped with jet-propelled structure 5, the both sides of jet-propelled structure 5 are connected with flexible air supply structure 6.

Through above-mentioned technical scheme, workstation 2 on support frame 1 top is solenoid valve group structure 3's main mounting platform, and solenoid valve group structure 3 is connected the operation with the pneumatic structure (not shown) of in-service use, and the air injection structure 5 through the control of electromagnetism break-make structure 4 carries out the clearance to solenoid valve group structure 3 at the in-process of solenoid valve group structure 3 operation, and flexible air supply structure 6 can cooperate air injection structure 5 to use.

As shown in fig. 1 to 6, the electromagnetic valve group structure 3 includes a fixing plate 301, an electromagnetic valve slot 302, a baffle 303, a main air inlet 304, a main air outlet 305, and a single electromagnetic valve 306, the upper clamp of the fixing plate 301 is connected with the electromagnetic valve slot 302, the baffle 303 is installed on the electromagnetic valve slot 302, the main air inlet 304 is disposed on one side of the baffle 303, the main air outlet 305 is disposed at the bottom end of the main air inlet 304, and the single electromagnetic valve 306 is disposed on one side of the main air inlet 304 away from the baffle 303.

The electromagnetic on-off structure 4 comprises a coil 401, a relay 402, a valve body 403 and an on-off pipeline 404, wherein the relay 402 is arranged on one side of the coil 401, the valve body 403 is arranged at the bottom end of the coil 401, and the on-off pipeline 404 is arranged at the bottom end of the valve body 403.

The air injection structure 5 comprises a sliding rail 501, a sliding block 502, a fixed block 503, a spray nozzle 504, an electric push rod 505 and a connecting block 506, wherein the sliding block 502 is arranged on the sliding rail 501, the fixed block 503 is connected onto the sliding block 502, the spray nozzle 504 is connected onto the fixed block 503, one side of the sliding block 502 is connected with the connecting block 506, and the top end of the connecting block 506 is connected with the electric push rod 505.

The telescopic air source structure 6 comprises a three-way quick-connection plug 601, a telescopic air source pipe 602 and a fixed air source pipe 603, the bottom end of the three-way quick-connection plug 601 is connected with the telescopic air source pipe 602, and one side of the three-way quick-connection plug 601 is connected with the fixed air source pipe 603.

The sliding block 502 and the sliding rail 501 are matched with each other.

For the convenience of understanding the technical solution of the present invention, the following detailed description is made on the working principle or the operation mode of the present invention in the practical process.

In practical application, the single solenoid valves 306 in the solenoid valve group structure 3 are arranged on the solenoid valve slot 302 and fixed by the baffle 303, the main air inlet hole 304 is the main air inlet hole of the valve group, the main air outlet hole 305 is the main air outlet hole of the valve group, and the main air hole corresponds to the air inlet hole and the air outlet hole of the single solenoid valve 306, the relay 402 in the solenoid on-off structure 4 is normally opened, the coil 401 is not electrified, after the relay 402 is operated, the coil 401 is electrified to operate the valve body 403, the on-off pipeline 404 is opened to allow the compressed air to enter the three-way quick-connection plug 601 through the on-off pipeline 404, the compressed air enters the telescopic air source pipe 602 through the three-way quick-connection plug 601, then enters the nozzle 504 through the telescopic air source pipe 602, the nozzle 504 drives the slider 502 to move in the slide rail 501 by the electric push rod 505, and the movable nozzle 504 performs air injection cleaning on the solenoid valve group structure 3, and the automatic cleaning is completed, and each electrical element can be controlled by a timer, so that the timing cleaning of the solenoid valve group structure 3 is realized.

In summary, with the above technical solution of the present invention, the working platform 2 on the top of the supporting frame 1 is the main mounting platform of the electromagnetic valve set structure 3, the electromagnetic valve set structure 3 is connected to the pneumatic structure (not shown) for practical use, the air injection structure 5 controlled by the electromagnetic on-off structure 4 cleans the electromagnetic valve set structure 3 during the operation of the electromagnetic valve set structure 3, the retractable air source structure 6 can be used in cooperation with the air injection structure 5, the single solenoid valves 306 in the electromagnetic valve set structure 3 are arranged on the solenoid valve slot 302 and fixed by the baffle 303, the main air inlet 304 is the main air inlet of the valve set, the main air outlet 305 is the main air outlet of the valve set, and the main air outlet corresponds to the air inlet and the air outlet of the single solenoid valve 306, the relay 402 in the electromagnetic on-off structure 4 is normally opened, coil 401 is uncharged, after relay 402 moves, coil 401 is electrified to make valve body 403 move, open on-off pipeline 404 to make compressed air enter three-way quick-connection plug 601 through on-off pipeline 404, compressed air enters telescopic air source pipe 602 through three-way quick-connection plug 601, then enter spray head 504 through telescopic air source pipe 602, spray head 504 drives slider 502 by electric putter 505 again to make it move in slide rail 501, spray head 504 that removes translation carries out jet-propelled clearance to solenoid valve group structure 3, accomplish automatic clearance, wherein each electrical component can be controlled through the timer, and then play the timing clearance of solenoid valve group structure 3.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a high frequency pneumatic solenoid valve controlling means, its characterized in that, includes support frame (1), the top of support frame (1) is equipped with workstation (2), install solenoid valve group structure (3) on workstation (2), one side of solenoid valve group structure (3) is equipped with electromagnetism break-make structure (4), the one end of electromagnetism break-make structure (4) is equipped with air injection structure (5), the both sides of air injection structure (5) are connected with flexible air supply structure.

2. The control device of a high-frequency pneumatic solenoid valve according to claim 1, wherein the solenoid valve group structure (3) comprises a fixing plate (301), a solenoid valve clamping groove (302), a baffle (303), a main air inlet hole (304), a main air outlet hole (305) and a single solenoid valve (306), the solenoid valve clamping groove (302) is clamped on the upper surface of the fixing plate (301), the baffle (303) is mounted on the solenoid valve clamping groove (302), the main air inlet hole (304) is arranged on one side of the baffle (303), the main air inlet hole (304) is provided with the main air outlet hole (305) at the bottom end, and the single solenoid valve (306) is arranged on one side of the main air inlet hole (304) far away from the baffle (303).

3. A high-frequency pneumatic solenoid valve control device according to claim 2, wherein the electromagnetic on-off structure (4) comprises a coil (401), a relay (402), a valve body (403) and an on-off pipeline (404), the relay (402) is arranged on one side of the coil (401), the valve body (403) is arranged on the bottom end of the coil (401), and the on-off pipeline (404) is arranged on the bottom end of the valve body (403).

4. The high-frequency pneumatic electromagnetic valve control device according to claim 3, wherein the air injection structure (5) comprises a slide rail (501), a slide block (502), a fixed block (503), a spray head (504), an electric push rod (505) and a connecting block (506), the slide rail (501) is provided with the slide block (502), the slide block (502) is connected with the fixed block (503), the spray head (504) is connected with the fixed block (503), one side of the slide block (502) is connected with the connecting block (506), and the top end of the connecting block (506) is connected with the electric push rod (505).

5. The high-frequency pneumatic solenoid valve control device according to claim 4, wherein the telescopic air supply structure (6) comprises a three-way quick-connection plug (601), a telescopic air supply pipe (602) and a fixed air supply pipe (603), the telescopic air supply pipe (602) is connected to the bottom end of the three-way quick-connection plug (601), and the fixed air supply pipe (603) is connected to one side of the three-way quick-connection plug (601).

6. A high frequency pneumatic solenoid valve control device according to claim 5 wherein the slider (502) and the slide rail (501) are mated.

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