REGULATORS Regulator Voltage Regulator,High Pressure Regulator,Gas Regulator Changzhou Edaweld Trading Company Limited , https://www.edaweld.com
Explosion-proof integrated camera with the industry's highest level of protection IP68, can be used in any harsh environment. Explosion-proof integrated camera built-in multi-function decoder, explosion-proof integrated camera with high speed and reliability, the decoder supports OSD menu, you can set the camera parameters, support for preset positions, cruise scanning, pattern scanning Other advanced features.
Explosion-proof integrated camera features:
â— Adopting Sony 480 original movement, the product is stable and the picture quality is clear.
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â— a variety of power supply mode to facilitate the choice.
â— Universal RS-485 communication interface, compatible with many common control protocols.
â— The glass surface of the window is treated with nanotechnology, which has high luminous flux, non-stick water, non-stick oil, and repulsion of dust.
â— waterproof and dustproof design, suitable for indoor and outdoor installation.
â—High hardness special carbon steel is sprayed with fluorocarbon, explosion-proof, dustproof and waterproof.
Explosion-proof integrated camera description:
Explosion-proof integrated camera explosion-proof performance in line with GB3836.1-2010 "electrical equipment for explosive gas atmospheres Part 1: General requirements", GB3836.2-2010 "explosive gas environment with explosion-proof electrical equipment Part 2: flameproof type" d The provisions of "" are made of flameproof structures. Explosion-proof integrated camera is suitable for places with IIA, IIB, IIC flammable gas, ignition temperature group T1-T6 group 1 zone, 2 zone, flammable gas or explosive mixture of steam and air, also It is applicable to areas 20, 21, and 22 where the ignition temperature group is T1-T6 and contains combustible dust mixture. Such as: petroleum, chemicals, mines, military, medicine, oil depots, ships, drilling platforms, gas stations, fireworks production, food processing and storage.
Protective cover, PTZ, decoder, camera, high integration, easy installation, automatic cruise and preset position function, support line scan, surface scan, preset position cruise. Nano stealth wiper, non-stick water, non-stick oil, repel dust. High hardness special carbon steel is treated with fluorocarbon spray, explosion-proof, dust-proof and waterproof. The explosion-proof integrated camera is available in stainless steel for corrosive environments.
You must be able to reduce the high-pressure gas in a cylinder to a working pressure before you can use it. This pressure reduction is done by a Regulator or reducing valve. The one basic job of all regulators is to take the high-pressure gas from the cylinder and reduce it to a level that can be safely used. Not only do they control the pressure but they also control the flow (volume of gas per hour).
Regulators come in all sizes and types. Some are designed for high-pressure oxygen cylinders (2,200 psig), while others are designed for low-pressure gases, such as natural gas (5 psig). Some gases like nitrous oxide or carbon dioxide freeze when their pressure is reduced so they require electrically heated regulators.
Most regulators have two gauges: one indicates the cylinder pressure when the valve is opened and the other indicates the pressure of the gas coming out of the regulator. You must open the regulator before you get a reading on the second gauge. This is the delivery pres-sure of the gas, and you must set the pressure that you need for your particular job.
The pressures that you read on regulator gauges is called gauge pressure. If you are using pounds per square inch, it should be written as psig (this acronym means pounds per square inch gauge). When the gauge on a cylinder reads zero, this does not mean that the cylinder is empty. In actuality, the cylinder is still full of gas, but the pressure is equal to the surrounding atmospheric pressure. Remember: no gas cylinder is empty unless it has been pumped out by a vacuum pump.
There are two types of regulators that control the flow of gas from a cylinder. These are either single-stage or double-stage regulators.
Single-Stage Regulators
Regulators are used on both high- and low-pressure systems. Figure 4-8 shows two SINGLE-STAGE regu-lators: one for acetylene and one for oxygen. The regulator mechanism consists of a nozzle through which the gases pass, a valve seat to close off the nozzle, a diaphragm, and balancing springs. These mechanisms are all enclosed in a suitable housing. Fuel-gas regulators and oxygen regulators are basically the same design. The difference being those designed for fuel gases are not made to withstand the high pressures that oxygen regulators are subjected to.
Figure 4-8.-Single-stage regulators.
In the oxygen regulator, the oxygen enters through the high-pressure inlet connection and passes through a glass wool falter that removes dust and dirt. Turning the adjusting screw IN (clockwise) allows the oxygen to pass from the high-pressure chamber to the low-pressure chamber of the regulator, through the regulator outlet, and through the hose to the torch. Turning the adjusting screw further clockwise increases the working pressure; turning it counterclockwise decreases the working pressure.
The high-Pressure Gauge on an oxygen regulator is graduated from 0 to 3,000 psig and from 0 to 220 in cubic feet. This allows readings of the gauge to deter-mine cylinder pressure and cubic content. Gauges are calibrated to read correctly at 70°F. The working pres-sure gauge may be graduated in [psig" from 0 to 150, 0 to 200, or from 0 to 400, depending upon the type of regulator used. For example, on regulators designed for heavy cutting, the working pressure gauge is graduated from 0 to 400.
The major disadvantage of single-stage regulators is that the working gas pressure you set will decrease as the cylinder pressure decreases; therefore, you must constantly monitor and reset the regulator if you require a fixed pressure and flow rate. Keeping the gas pressure and flow rate constant is too much to expect from a regulator that has to reduce the pressure of a full cylinder from 2,200 psig to 5 psig. This is where double-stage regulators solve the problem.
Double-Stage Regulators
The double-stage regulator is similar in principle to the one-stage regulator. The main difference being that the total pressure drop takes place in two stages instead of one. In the high-pressure stage, the cylinder pressure is reduced to an intermediate pressure that was predetermined by the manufacturer. In the low-pressure stage, the pressure is again reduced from the intermediate pressure to the working pressure you have chosen. A typical double-stage regulator is shown in figure 4-9.
Figure 4-9.-Double-stage regulator.
Problems and Safety
Regulators are precise and complicated pieces of equipment. Carelessness can do more to ruin a regulator than any other gas-using equipment. One can easily damage a regulator by simply forgetting to wipe clean the cylinder, regulator, or hose connections. When you open a high-pressure cylinder, the gas can rush into the regulator at the speed of sound. If there is any dirt present in the connections, it will be blasted into the precision-fitted valve seats, causing them to leak This results in a condition that is known as creep. Creep occurs when you shut of the regulator but not the cylinder and gas pressure is still being delivered to the low-pressure side.
Regulators are built with a minimum of two relief devices that protect you and the equipment in the case of regulator creep or high-pressure gas being released into the regulator all at once. All regulator gauges have blowout backs that release the pressure from the back of the gauge before the gauge glass explodes. Nowadays, most manufacturers use shatterproof plastic instead of glass.
The regulator body is also protected by safety devices. Blowout disks or spring-loaded relief valves are the two most common types of devices used. When a blowout disk ruptures, it sounds like a cannon. Spring-loaded relief valves usually make howling or shrieking like noises. In either case, your first action, after you recover from your initial fright, should be to turn off the cylinder valve. Remove the regulator and tag it for repair or disposal.
When opening a gas cylinder, you should just [crack" the valve a little. This should be done before attaching the regulator and every time thereafter. By opening the cylinder before connecting the regulator, you blow out any dirt or other foreign material that might be in the cylinder nozzle. Also, there is the possibility of a regulator exploding if the cylinder valve is opened rapidly.
WARNING
Oil or other petroleum products must never be used around oxygen regulators because these products will either cause a regulator explosion or fire
Explosion-proof integrated camera is a Sony 480 original movement, product stability, clear picture quality equipment. The explosion-proof integrated camera is designed to meet the following special requirements for the IIC gas group (typically hydrogen, acetylene, ethylene, coke oven gas, dimethyl ether, etc.) and flammable dust. The explosion-proof integrated camera complies with GB3836- 2000 and GB12476.1 standards; explosion-proof integrated camera using high-torque stepper motor with high-intensity synchronous belt, explosion-proof integrated camera to ensure its high transmission accuracy and service life.