The submersible liquid level gauge is an instrument that can be utilized for liquid level measurement in a variety of systems and industries, including those that deal with petroleum, chemicals, light textiles, metallurgy, electric power, pharmaceuticals, beer, water treatment, ship oil tanks, water supply and drainage, as well as environmental protection. Among the other systems and industries that can make use of liquid volume sensor the submersible liquid level gauge are those that deal with environmental protection. Users enjoy a high level of convenience as a result of the streamlined and versatile installation process, in addition to the accurate structure that provides it.

Within the compensation temperature, the temperature drift is low; there are no moving parts, Solid structure, long service life, high-precision measurement from water, oil to high viscosity, not affected by foaming, deposition, and electrical interference; the drop-in liquid level gauge is directly put into the measured medium, which makes it exceptionally convenient to install and use; the drop-in liquid level gauge is directly put into the measured medium, which is exceptionally convenient to install and use; the drop-in liquid level gauge is directly put intoTwo of the features that are included on the submersible liquid level gauge are protection from reverse polarity in the power supply as well as overload current limiting protection.

Caution should be exercised at all times, both when using and when maintaining:The next step in the process of cleaning the drop-in water level gauge involves removing any debris that may have become attached to the liquid level transmitter. This debris may include aquatic plants, plankton, and other such things. After opening the screw cap of the iron pipe of the drop-in water level gauge and carefully removing the liquid level transmitter, the next step in the cleaning process involves removing any debris that may have become attached to the liquid level transmitter. When you need to clean the pressure hole of the water level gauge, you can use trichlorethylene or alcohol to inject the pressure hole to half of its height and soak for about five minutes. This will allow you to sludge measuring device clean the pressure hole thoroughly. After that, give it a gentle shake, and then proceed to repeat the previous steps as many times as necessary until it is clean. It is strictly forbidden to use any kind of implement when cleaning the pressure hole in order to prevent the pressure-sensitive diaphragm of the sensitive core from being damaged. This is done to protect the diaphragm from being damaged.

When cleaning the pressure port and pressure hole of the transmitter, you should never use brushes or metal tools with an excessively high level of hardness. Doing so could potentially cause damage to the sensitive core as well as the thread of the pressure port. Instead, you should use a cleaning solution that can withstand pressure. After cleaning, the liquid level transmitter should be reattached to the iron pipe with extreme caution. After doing so, the screw cap should be reattached to the same position it was in before the cleaning process. The detection value of the secondary instrument needs to be corrected once more by referring to the water level gauge at the same water level as the sluice in order to ensure that the sampling data is accurate. This is necessary because the installation depth will change to some degree after the instrument has been removed, cleaned, and reinstalled. This is done in order to ensure that the data can be utilized in the most effective manner.

In the workplace, high temperature temperature sensors are designed to function in what kinds of environments, specifically.

The thermocouple temperature sensor from the WR series is the pressure transmitter that is used in industrial applications and practical settings at a higher frequency than any other type. It finds widespread application in the measurement of a wide variety of industrial automatic control environments, such as oil pipelines, water conservancy and hydropower, railway transportation, intelligent buildings, production automatic control, aerospace, the military industry, petrochemical, oil well, electric power, ship, machine tool, pipeline air supply, boiler, furnace, and UHT, amongst a great number of other fields of endeavor. UHT stands for ultra-high temperature.

The pressure sensor that is intended for use in conditions that are characterized by high temperatures is built with the intention of carrying out the function of determining the pressures that are relative to those of a variety of gases and liquids. The thermocouple temperature sensor known as the WR series makes use of a thermal element that was produced by a brand that is well-known all over the world. As a consequence, this sensor is more accurate, has improved product stability, and has a longer life span in service. Because the incorporation of internationally advanced production technology and equipment helps to reduce the accuracy error that is brought on by the packaging process, this in turn ensures that the sensor is accurate and has a long life span. Case in point: Case in point: Case in point: Case in pointThis specific series of sensors is typically put to use in conjunction with a variety of other components, including amplifiers, displays, PLC/DCS, and other components of a similar nature.

Direct measurement of liquids in the temperature range of 0-1300 degrees Celsius in a variety of production processes. This technique is primarily utilized to measure the pressure in boilers, pipelines, high-temperature reaction vessels, downhole pressure, and pressure in various engine cavities, as well as high-temperature oil level and detection, and high-temperature oil detection. The measurement requirements in explosion-proof areas can be simultaneously met by gas and steam media as well as the temperature of the solid surface. This makes them applicable to oil well pressure measurement as well as measurement requirements in other fields as well.

The electrodes that are used in the construction of the thermocouple use two different kinds of conductors in order to achieve the desired results. When there is a temperature difference between the measuring end and the reference end, a thermoelectric potential will be produced. This will happen whenever there is a difference. To be more specific, the signal representing the temperature will be converted into a signal representing coriolis type flow meter the thermoelectric potential, and the working instrument will display the value that corresponds to the thermoelectric potential. temperature value. Imported thermal components and production technology, accurate precision, long working life; short thermal response time, reducing measurement error; bendable installation, wide measurement range, good compression performance; along with a variety of process connection forms and extension options. These are some of the benefits that come with purchasing the product. This neck-type thermometer allows the user to determine the amount of depth required for the insertion of the thermocouple.