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Post time: May-21-2022

How does a Solenoid valve work?

What is a solenoid?

Solenoid is the generic term for a coil of wire used as an electromagnet. It also refers to any device that converts electrical energy to mechanical energy using a solenoid. The device creates a magnetic field from electric current and uses the magnetic field to create linear motion. Common applications of solenoids are to power a switch, like the starter in an automobile, or a valve, such as in a sprinkler system.

How a Solenoid Works

A solenoid is a coil of wire in a corkscrew shape wrapped around a piston, often made of iron. As in all electromagnets, a magnetic field is created when an electric current passes through the wire. Electromagnets have an advantage over permanent magnets in that they can be switched on and off by the application or removal of the electric current, which is what makes them useful as switches and valves and allows them to be entirely automated.

Like all magnets, the magnetic field of an activated solenoid has positive and negative poles that will attract or repel material sensitive to magnets. In a solenoid, the electromagnetic field causes the piston to either move backward or forward, which is how motion is created by a solenoid coil.

How Does a Solenoid Valve Work?

In a direct-acting valve, electric current activates the solenoid, which in turn pulls a piston or plunger that would otherwise block air or fluid from flowing. In some solenoid valves, the electromagnetic field does not act directly to open the conduit. In pilot-operated valves, a solenoid moves the plunger, which creates a small opening, and pressure through the opening is what operates the valve seal. In both types, solenoid valves require a constant flow of electrical current to remain open because once the current is stopped, the electromagnetic field disperses and the valve returns to its original closed position.

Electric Solenoids

In an automobile ignition system, the starter solenoid acts as a relay, bringing metal contacts into place to close a circuit. The starter solenoid receives a small electric current when the car’s ignition is activated, usually by the turn of the key. The magnetic field of the solenoid then pulls on the contacts, closing the circuit between the car’s battery and the starter motor. The starter solenoid requires a constant flow of electricity in order to maintain the circuit, but because the engine is self-powering once started, the solenoid is inactive for most of the time.

Uses for Solenoids

Solenoids are incredibly versatile and extremely useful. They’re found in everything from automated factory equipment to paintball guns and even doorbells. In a chime doorbell, the audible chime is produced when a metal piston strikes a tone bar. The force that moves the piston is the magnetic field of a solenoid that receives electric current when the doorbell is pushed.

Choose correct fittings according to the different types of fittings

DIFFERENT TYPES OF FITTINGS

Fittings come in all shapes and sizes, and can be connected in a variety of ways. Shaped fittings ensure the effective design of a pneumatic system, with various unions and adaptors to reduce or increase the pipe diameter, or provide a neat continuity across fittings.

The most common types of connection are:

Compression

Compression fittings rely on compressive force to connect, and need no soldering to install. There are several ways to compress the fitting and most need no tools, but rely on a ferrule, ring or metal gasket to make the seal. Some types require a nut to be tightened, while others have a sharpened ferrule which bites the tube when compressed.

Threaded

Threaded fittings have screw threads on the outer (male) or inner (female) surfaces, so that they can match other threaded fittings. Straight threads are the simplest, but tapered threads provide a better seal.

Push-In

Push-in Fittings allow the tube to be secured by pushing it through a collet or grab ring and can be released simply by pushing a release collar.

Push-on (barbed)

The tube is pushed as far as it can go over a barbed end on the fitting, and secured by tightening a nut onto the combined assembly.

T-shaped

A T-shaped intersection connects three flow sections, allowing flow to be split apart or combined. Cross-shaped fittings do the same for four flow sections.

Elbow

Elbow fittings change the flow direction at various angles without the risk of tube kinking. The most common elbow angles are 45° and 90°, but elbows also exist in 22.5°.

Reducer

Reducer fittings connect two or more conduits of differing sizes.

From Internet

Post time: Apr-02-2022

Principle and selection of air source processing unit

Air source processing unit

Air preparation AFR-BFR series Air Filter

The air source processing unit generally consists of three parts, namely filter, pressure regulating valve, lubricator, and sometimes the filter and pressure regulating valve can be assembled together to form a pressure regulating filter. 1 Filter First, let's talk about the working principle of the filter: when the compressed air enters the filter from the air inlet, the compressed air is strongly rotated due to the guidance of the deflector. Under the action of centrifugal force, the compressed air is compressed. Large particles of solid impurities and liquid water droplets mixed in the air are thrown onto the inner surface of the filter cup, and settle to the bottom along the wall under the action of gravity. The compressed air thus pre-purified then flows out through the filter element. The filter element has different filtration pore size (that is, the filtration precision), which can block non-gaseous impurities larger than the pore size.

Selection Notes:

(1) Flow rate: Select the appropriate flow rate according to the gas consumption of the downstream equipment. In general, we choose a filter with a slightly larger gas consumption than the actual gas consumption, so as to avoid insufficient gas consumption and affect the operation of the equipment. There is no need to choose a filter with excessive flow, as it will be wasted. Our Rexroth filter flow ranges from 1000L/min to 50000L/min, we have many choices. Corresponding nozzle diameters are from G1/4 to G2. To meet the different gas demands of customers.

(2) Filtration accuracy: The pore diameter of the filter element determines the filtration accuracy of the filter. Because the downstream equipment has different requirements on the quality of the gas source. For example, industries such as metallurgy, iron and steel, coal and other industries do not require very high gas quality, so a filter with a larger pore size can be selected. Food, medicine, electronics and other industries have high requirements for gas quality, so we can choose a precision filter with a small pore size. The filter precision of our Rexroth filter ranges from 0.01um to 40um. The maximum pore size is 60um. Generally, the main filter will use a filter with a larger pore size, and the filter on the specific equipment should be selected according to the needs of the equipment. The more precise the filter, the greater the resistance to the compressed air, which will reduce the air pressure.

(3) Drainage: The water and oil in the filter cup must be kept below the highest water line, otherwise the rotating compressed air will suck the water, oil and solid impurities into the downstream pipeline, causing the filter element to be polluted and blocked, and the flow rate will drop. It will also cause secondary pollution of the gas. Automatic drainage and semi-automatic drainage are divided into automatic drainage, semi-automatic drainage, manual drainage, etc. Automatic drainage can be divided into two types: no-pressure opening and no-pressure closing. Pipelines that are inconvenient to control, such as high places, narrow places, places where people do not often reach, and pipelines that cannot stop downstream gas use. Semi-automatic is generally suitable for pipelines that are convenient for personnel to control, such as the outside of the machine, the accessories of the console, and the pipelines where the downstream gas consumption can be suspended.

(4) Use environment: Due to the different use environments of various occasions, the material requirements for the filter will also be different. For example, in high temperature occasions and corrosive occasions, it is necessary to choose high temperature and corrosion resistance filters. Our Rexroth has a variety of filters suitable for different use environments, and different materials are available for your convenience.

Pressure regulating valve

The working principle of the pressure regulating valve is: by rotating the knob to change the opening range of the diaphragm, the airflow through the aperture changes, and the airflow through the volume changes. The gas volume also increases. When the downstream gas consumption decreases, the diaphragm is forced to make the through hole smaller, reducing the gas volume, and excess gas will overflow from the overflow air. This adjustment keeps the air pressure stable. Generally, the pressure regulating valve of the triplet is a pilot diaphragm type, which can automatically adjust the air pressure, while the pressure reducing valve on the execution pipeline is generally a braking type (the upstream air source pressure is relatively stable and does not need self-adjustment).

Selection Notes:

(1) Flow rate: Under normal circumstances, the pressure regulating valve in the triplet should be selected with the same flow rate as the corresponding filter. For example, the pressure regulating filter does not need to be selected separately. If it is used alone, it is necessary to calculate the downstream gas consumption before selecting it. The flow of our Rexroth pressure regulator corresponds to the flow of the same filter, and there are also some small flow pressure regulators. Flow from 300L/min to 50000L/min.

(2) Adjustment accuracy: Generally, different equipments have different requirements for air pressure stability. For example, when performing simple actions does not require high output force stability, a common pressure regulating valve can be used. However, it is required that each movement should be precise and precise, and the output force should not be too large each time.

Post time: Feb-18-2022

The introduction of air source treatment components

Air source treatment is the component working by using the pressure of the gas or the expansion of the force. It Includs air filter, pressure regulating valve, oil lubricator, etc. Pneumatic products are widely used in metallurgical mechanical and electrical, construction, transportation equipment, home appliances, light industry, machine tools, medical, packaging industry and other industries automation production. However, because the compressed air can not be directly used t, it contains a certain amount of moisture, oil and dust. After compression, the air temperature is as high as 140-170℃, and some of the water and oil have become gaseous. Therefore, it is necessary to use the compressed air after purification treatment to run the mechanical equipment.

The air source treatment includes air filter, pressure reducing valve and oil lubricator. Some companies’ solenoid valve and cylinder can do oil-free lubrication (lubricating air by grease), which does not need to use oil mist device. The filtration degree is generally 50-75μm, the pressure regulating range is 0.5-10MPa, if the filtration accuracy is 5-10μm, 10-20μm, 25-40μm, and the pressure regulating is 0.05-0.3Mpa, 0.05-1Mpa three large pieces of no pipe connected components called three coupling. The three components are indispensable air source devices in most pneumatic systems. They are installed near the gas equipment and are the final guarantee of compressed air quality. The installation sequence of the three pieces is air filter, pressure reducing valve and oil mist device according to the inlet direction. The combination of air filter and pressure reducing valve are called pneumatic coupling. We can also set air filter and pressure reducing valve together, it becomes a filter regulator (function and air filter and pressure reducing valve combined with the use of the same). Oil mist in the compressed air is not allowed in some occasions. It is necessary to use the oil mist separator to filter out the oil mist in the compressed air. In summary, these components can be selected as needed, and they can be used in combination. The air filter is used to clean the air source. It can filter the moisture in the compressed air and avoid the moisture entering the device with the gas. The pressure reducing valve can stabilize the pressure of the air source, so that the air source is in a constant state, and the damage to the hardware such as the valve or actuator can be reduced due to the sudden change in the air pressure of the air source. The filter is used to clean the air source. It can filter the water in the compressed air and avoid the water entering the device with the gas. The oil mist can lubricate the moving parts of the machine body, and can lubricate the parts that are not convenient to add lubricating oil, thus greatly prolonging the service life of the machine body.

How to select the right solenoid valve

Solenoid valve selection should first follow the four principles of safety, reliability, applicability, economy, followed by six aspects of the field conditions (namely, pipeline parameters, fluid parameters, pressure parameters, electrical parameters, mode of action, special requirements to choose).

Selection basis:

First, according to the pipeline parameters to select solenoid valve: diameter specification (i.e.), interface mode according to the field pipe diameter size or flow requirements to determine the size of diameter 0.Interface mode, general > to choose flange interface,< can be freely selected according to user needs.

Second, according to the fluid parameters of the solenoid valve: material, temperature groupCorrosive fluid: should choose corrosion resistant solenoid valve and all stainless steel; Edible ultra-clean fluid: food grade stainless steel solenoid valve should be selected.High temperature fluid: the solenoid valve made of high temperature resistant electrical materials and sealing materials should be selected, and the type of piston structure should be selected.Liquid state: large to gaseous, liquid or mixed state, especially when the diameter is larger than the order must be distinguished., fluid viscosity: usually in the following can be arbitrarily selected, if more than this value, to choose high viscosity solenoid valve.

Third, according to the pressure parameters to choose the solenoid valve: principle and structure varietiesNominal pressure: this parameter and other general valve meaning is the same, is based on the nominal pressure of the pipelineWorking pressure: if the working pressure is low, it must choose direct motion or step by step direct motion principle; When the minimum working pressure difference is above, direct acting type, step by step direct acting type and pilot type can be selected.

Fourth, electrical selection: voltage specifications should be preferred as far as possible, more convenient.

Fifth, according to the length of continuous working time to choose: normally closed, normally open, or sustainable electricityWhen the solenoid valve needs to open for a long time, and the continuous time is more than the closing time should be used normally open.If the open time is short or open and close time is not much, then choose normally closed type.However, some working conditions for safety protection, such as furnace and kiln flame monitoring, can not choose normally open, should choose long-term electrified type

Sixth, according to the environmental requirements to select auxiliary functions: explosion-proof, check, manual, waterproof fog, water spray, diving explosive environment: the corresponding explosion-proof solenoid valve must be selectedWhen there is a backflow of fluid in the tube, the solenoid valve with check function can be selected.When you need to manually operate the solenoid valve on site, you can choose the solenoid valve with manual function.Open air installation or dust more occasions should choose waterproof, dustproof varieties (protection grade above).

Post time: Oct-16-2021

Right way of using Cylinders

One of the important parts of the pneumatic components is the cylinder. In order to ensure the normal use of the cylinder and avoid unnecessary situations, for the use of the pneumatic components and cylinder, let’s check the right way to use cylinder. When using the cylinder, the air quality requirements are very high. Clean, dry compressed air should be used. The air should not contain organic solvents, synthetic oils, salts, corrosive gases, etc., in order to avoid bottle and valve failure.