PL69148Y1 - Medium-voltage distribution board - Google Patents

Description

Pattern description

The subject of the utility model is a medium voltage switchgear with shielded switching elements. In the prior art, many solutions of medium voltage switchgear are known, which have shielded switching elements against unfavorable weather conditions, such as temperature changes and air humidity. Changeable weather conditions cause condensation of water vapor and, consequently, corrosion of switching contacts, and in winter conditions their icing, which in turn contributes to an increased failure rate of switchboards. The known solutions use hermetic covers of switching elements filled with SF6 gas, which is currently considered one of the most dangerous gases influencing the formation of the so-called greenhouse effect.

For example, such a solution is known from the patent DE 2729571, where in switchgears power disconnectors in separate metal housings are used, each of which has movable finger contacts, additional extinguishing chambers and a special earthing switch. The extinguishing chambers are in the form of hooded, tight boxes filled with SF6 gas, which is introduced into the chambers under appropriate pressure. The busbars supplying electricity are placed in a busbar separate from the metal housing. This requires the use of special seals between the metal housing and the rail box. On the other hand, the patent PL 164 092 discloses a solution in which SF6 gas is also used as a gas shield for disconnectors, but each of the fixed contacts together with the extinguishing device is mounted on a busbar located in the gas tank, which is fixed on supporting insulators, running parallel to the end wall of the gas tank, and the movable contact is formed as a double strip, the axis of rotation of the movable contact being connected to a bushing on the end wall of the gas tank, and the bushing is terminated from the outside with an angled plug with a cable supplied. From the patent description CN 202817589 and WO 2011159248 a high voltage switchgear is known, in which atmospheric air was used as an insulating cover, and individual chambers were separated by insulating partitions.

The purpose of the utility model is to develop a medium voltage switchgear with extended service life and almost failure-free operation.

Medium voltage switchgear with a connection compartment with switch disconnector contacts placed in vacuum chambers separated by insulating barriers, a cable compartment, a drive compartment and a gas tank, all of which are enclosed in a common housing according to the utility model, characterized by the fact that the connection compartment with the rails cumulative tank is closed in a hermetic tank filled with technical dry air, and in the upper part of the hermetic tank there is a valve that passes through the drive chamber and is connected with a pressure gauge to control the dry air pressure in the tank. The pressure gauge is located on the switchgear housing. The insulating partitions are made of plastic.

Medium voltage switchgear is characterized by stable dielectric properties. Double protection of the devices through a vacuum cover and dry air cover gives excellent insulation properties and is safe for the environment. The solution is also characterized by a significantly extended life due to low humidity of dry air and no pollution.

The solution according to the utility model is shown in the drawing, in which Fig. 1 shows the switchgear in perspective view, and Fig. 2 shows a vertical section of the switchgear.

The medium voltage switchgear consists of a housing 1 with a separate cable compartment 2, a drive compartment 3 and a hermetic tank 4 filled with technical dry air with a pressure of 0.1 to 1.25 MPa, preferably with a pressure of 0.15 MPa, dew point minus 40 ° C and with a humidity in the range of 0.1 to 0.2 g / m3, preferably 0.117 g / m3. In the hermetic tank 4 there is a connection compartment 5 with contacts of disconnectors placed in separate vacuum chambers 6 and with busbars 7. Individual vacuum chambers 6 are separated with plastic insulating partitions 8. In the upper part of the hermetic tank 4 there is a valve 9 for filling the tank 4 dry air. The valve 9 passes through the drive compartment 3 and is connected to the pressure gauge 10 for controlling the dry air pressure in the tank 4. The pressure gauge is mounted on the wall of the switchgear housing 1.

Claims (3)

Protective reservations 1.Medium voltage switchgear including a connection compartment with the contacts of disconnectors placed in vacuum chambers, separated by insulating barriers, a cable compartment, a drive compartment and a gas tank, all of which are enclosed in a common housing, characterized in that the connection compartment (5) together with the busbars (7) it is closed in a hermetic tank (4) filled with technical, dry air, and in the upper part of the hermetic tank (4) there is a valve (9) passing through the drive chamber (3) and connected to the pressure gauge (10 ). 2. The switchgear according to claim A device according to claim 1, characterized in that the pressure gauge (10) is located on the switchgear housing (1). 3. Switchgear according to claim 3. A method as claimed in claim 1, characterized in that the insulating baffles (8) are made of plastic.