CS239523B1 - Closed extingushing chamber of electromagnetic air-break contactor - Google Patents

Abstract

Closed · electromagnetic quenching chamber air contactor where internal load-bearing side arms the electromagnet frame is provided with penetrations for storing deionizing foams and coolants chambers formed in the shape of a sheath quadrilateral prism, whose bottom and side walls they are full, the lower and upper walls are formed comb-like teeth, comb-like the lower wall barbs are facing to the contactor contacts and top wall contacts passing passages are bent into recesses the outer walls of the extension arms.

Description

The subject of the invention is a closed quench chamber of an electromagnetic air contactor with a deionization and cooling device.

The known quenching chambers of electromagnetic air contactors use most often steel deionization plates provided with one or more notches to form an arcuate tooth on the side facing the contacts. The deionization plates are generally arranged perpendicular to the arc of the arc formed between the contacts that switch off the electrical load.

The electrodynamic action of the deionization plates on the electric arc leads to its entrainment to the tips of the deionization plates where the arc splits. It then moves along the edges of the teeth towards the heels of the deionization plates, where the arc deionizes, cools and extinguishes.

In addition to the electrodynamic effect of the deionization plates on the electric arc, there are many other influences affecting the movement of the electric arc foot in the space of the expanding contacts. It is eg a thermodynamic effect where the electric arc is carried away from the contact area by a stream of heating air.

For this reason, in many known contactor designs, the contacts in the squeeze chamber are arranged horizontally or obliquely with respect to the vertical axis of the contact system and the vertical movement of the contact bar. The deionization plates are arranged in the plane direction of the horizontally or obliquely placed contacts.

The advantage of such arcing chambers with deionization plates is the high speed of movement of the arc from the pros239 523 contacts and thus achieving a high breaking capacity of the arrester chamber of the contactor, close to the characteristics of the circuit breakers.

The disadvantage of the air contactors with arc chambers with the described deionization plates and the increased breaking capacity is the considerable loss of contact material during normal operation of the contactors, which results in a reduction of the electrical durability of the contacts or contactors. The high breaking capacity of contactors for the control of electrical appliances of the AC3 category becomes unbearable from the point of view of the overall economics of using air contactors, both because of the high cost of silver-based contact material and due to the ever increasing demand for electrical durability *. without changing contacts.

These disadvantages of the existing air contactor arc chutes are greatly reduced by the enclosed air electromagnetic contactor arc chute of the invention, where the walls of the extending siderail chambers covered by the electromagnet support frame are provided with openings for accommodating deionization and cooling chambers. The deionization and cooling chambers are designed in the form of a quadrilateral prism, the bottom and side walls of which are solid. The lower and upper walls of the housing are formed by ridged teeth, wherein the ridges of the lower walls face the contacts and the teeth of the upper wall passing through the passages are bent into recesses of the slide-out sides made of plastic materials.

The closed arc chute according to the invention fulfills the requirements for medium current size air contactors in the area of making and breaking capacity, but has greatly reduced electrical wear of the contact material during normal switching of AC3 appliances.

In the enclosed drawing, the closed arc chute of the air electromagnetic contactor is schematically shown, and FIG. 1 is a sectional view of one pole of the arc chute, including the contact system and the electromagnet, FIG. 2 is an axonometric view of the deionization and cooling chamber.

The air-cooled electromagnetic contactor with the closed arc chute according to FIG. 1 consists of a basic, insulating frame 1 carrying the main fixed contacts 2 with the supply terminals χ. The base frame 1 is provided with insulating ribs which form side walls X

239 523

- ‘r arc extinguishing chambers of 6 poles. The base frame 1 is made of plastic material. The arc chute is closed by two L-shaped extendable side panels 2, also made of plastic material. The outer arms 8 of the sliding slats 2 are full and prevent the passage of ionized gases from the arc chute into the terminal 2 space. The inner arms of the sliding slats 2 covered by the support frame 10 of the electromagnet 11 are provided with passages 12 and recesses 14 on the outer walls.

The dsionization and cooling chambers 15 are made by bending the steel sheets into the shape of a quadrilateral prism, the bottom 16 and the side walls 17 of which are solid. The bottom wall 18 and the top wall 19 are formed by comb-like teeth 20, 21. The ridge teeth 20 are bent and facing the contacts 2.22. The ridge teeth 21 are pushed through the passages 12 and bent into the recesses 14 of the outer walls 13 of the arms 2 of the extendable side walls 2.

The closed arc chute 6 and the deionization and cooling chambers 15, when the electrical load is switched off, contacts 2.22 pull the electric arc through the ridge teeth 20 into the deionization space, where it is cooled down to the bottom 16 or side walls 17 to dissipate the absorbed heat.

The increased deionization and cooling effect of the closed arc chute is manifested when the overcurrents corresponding to AC3 appliances are switched off, while in normal operation when the rated or less current of the appliance is switched off, only the cooling effect prevents the damage of plastic parts.

The construction of the closed arc chute according to the invention can also be used in other switchgear, where the arc is switched off in the air and the switch is switched on by appliances of category AC3 or lower.

Claims (1)

SUBJECT MATTER OF THE INVENTION 239 523 A closed arc chute of an electromagnetic air contactor provided with an arc cooling and deionizing device, with fins separating the individual contact spaces, characterized in that the arms (9) of the extendable sidewalls (7) covered by the electromagnet (11) support frame (10) are provided penetrations (12) for accommodating deionization and cooling chambers (15) in the form of a rectangular prism shell, the bottom (16) and side walls (17) of which are solid, the lower and upper walls (18, 19) are formed by ridges (20) 21), wherein the ridged teeth (20) face the contacts (2,22) and the teeth (21) of the upper wall (19) passing through the passages (12) are bent into recesses (14) of the outer walls (13) of the arms (21). 9) extendable side panels (7) ·