The water booster pump, which is related to the water system, is produced to be used in the system of increasing the water pressure and is expressed as the pumps working with electricity. Thanks to the applied pressure, it is ensured that the water reaches far points. These pumps, which have a very important service life, are suitable for use in certain periods. It is useful to check the air settings of the booster tank in the pump every three months during use. Especially when the water booster is as far away from the tank as possible, it will be more efficient. If the water booster used is of the stepped type, care should be taken not to operate it without water. In order to keep this under control, it is useful to install the water level switch in the tank. When choosing the booster that offers all these features in the best way, it will be useful to have knowledge of how it works, what it is used for, in which areas it can be used.
What are the Features of the Booster Pump?
When the elements of the booster pump are examined, there are ball valve or bell, safety valve, check valve, pressure switch, air supply element, manometer, level electrode and solenoid valve. Among the purposes of using the booster pump, there is a ball valve or a valve, and when necessary, cutting off the water flow. The safety valve on it throws out the excess pressure in the system and makes the system safer. To learn the pressure, the manometer in the system is used and a connection is made to the air zone. The elements in the system are complementary and connected to each other. With the pressure switch located inside, the operation of the pump is determined depending on the pressure of the tank. The level electrode, which is one of the parts, is attached to the water area and allows the water level to be controlled.
What Should Be Considered While Buying a Booster Pump?
Our company will provide you with uninterrupted support in the purchase of booster pumps for which you will need technical information. In order for the product you buy to be more efficient, you should have information about the things to consider when buying a booster pump. For this purpose, you should give priority to features such as the friction coefficient of the water in the water system, the number of apartments and the height of the building, the vertical and horizontal pipes in the water system in the building, the location and location of the tank. Our technical officials will offer you special solutions in such matters and will make your shopping more advantageous.
The hydraulic pump, which is a kind of circuit element, enables the conversion of mechanical energy into hydraulic energy. Although it is generally thought that these products create pressure, this is not the case and a pressure occurs against the incoming resistance. These parts, which are used as power sources for many dynamic machines, create suction power. With the pressure difference created, they create a vacuum effect in the hydraulic oil in the oil tank. However, the oil taken is compressed between the parts that provide mechanical movement in the hydraulic pump and pressure is provided. With this application, mechanical energy is increased and converted into hydraulic energy. This system is valid for all hydraulic pump types.
What are the Types of Hydraulic Pumps?
There are three different types of hydraulic pumps: gear hydraulic pumps, reciprocating hydraulic pumps and vane hydraulic pumps. Piston hydraulic pump makes a difference among others with its high efficiency and pressure characteristics. It has varieties such as constant flow, variable and tilted axis. With the working principle, they provide the pistons to create the suction power. Gear hydraulic pump, which is another type, is divided into two parts as internal gear and external gear. These pumps, which have a simple structure, consist of two spur gears working together. The oil taken from the suction line is passed between the gears and sent to the pressure line. This type of hydraulic pump is widely used because it is both economical and easy. However, the loudness of the piece is seen as an important disadvantage. The last type, vane pumps, can reach up to 100 pressures and are known for their variable displacement. These pumps, which consist of circularly movable blades, create a strong vacuum effect and with this effect, a pressure difference occurs.
What is the Working Principle of Hydraulic Pump?
The operation of hydraulic pumps, which work according to the displacement principle, first starts with the creation of suction. The oil taken by the pressure difference is sent to the other parts where it gets stuck between the parts. The hydraulic pump, which includes different design principles, is produced by considering the functional features such as the required pressure range, working environment, drive type. This makes it more useful. Thanks to our wide product range, you can supply all the products you need from our store.