BE726805A - Gas jet arc blow switch - Google Patents

Description

       

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  Arc blowing switch by a gas jet.

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     Arc blowing switches are already known by a gas jet, comprising a female contact part housed in a nozzle and a male contact part, these two contact parts being carried respectively by two movable supports 3 ′ relative to one another. to the other, the male contact part being disposed outside the nozzle in the open position of the switch, but penetrating into the nozzle and into the female part in the closed position of the switch.



   The object of the present invention is to improve the operating conditions of a switch of the aforementioned type, in particular in the case where it is used as a spark arrester, in switches also comprising a main contact connected in parallel with the shield. spark.



   The switch according to the invention is characterized in that the male contact piece is movable relative to its support in a direction substantially coinciding with the axis of the female contact piece, the movement of this male piece being limited by two. stops, the male contact piece being subjected to an elastic action solicited.! towards the female part:
The appended drawing represents, schematically and by way of example, an embodiment of the switch which is the subject of the invention.



   Fig. 1 is an elevational view of a double break switch per pole in the open position.



   Figs. 2 and 3 show part of this switch in the engaged position, and respectively at

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 during the opening movement of the switch. fig. 4 is a section along the line IV-IV of FIG. 1.



   The switch shown comprises a base 1 - in metal connected to the earth potential, on which are fixed two insulating supports ¯2 * and 3 each carrying a contact part .1 cooperating with a conductive pcnt 5, intended to establish the electrical connection -between - the -two-- -Contact parts 4 -of -supports 2 and¯2--
The conductive bridge .2 is closed by two copper strips 6,7 carried by an insulating part 8 intended to transmit a translational movement to the conductive bridge 5.

   This part 8 is carried by the end 8 - * - a rod 9 of a piston sliding in a -cylinder 10 -in insulating material and fixed to part 1. -The rod is also in insulating material.



   This rod is hollow and constitutes a conduit communicating with the interior of the cylinder 10 for supplying the air compressed by the piston in two conduits II- and-- 12 bringing the blowing air to two nozzles 13, 14 arranged at the ends of the transverse arm constituting the conductive bridge 5
The displacement of the bridge ... 2 is ensured by a mechanism,. Not shown, which can act, for example, directly on the piston housed in the cylinder 10. lies fig.

   2 and 3-show on a larger scale the detail of the spark arrester which is combined with the nozzles 13, respectively 14 The nozzle 13 is made of insulating material and has an internal recess 15 in which

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 The older one is a female contact piece 16 in the form of a slit-walled tube, formed by the end of the tube forming the conduit II and generally referred to as the tulip contact piece. The nozzle orifice is designated by
19.



   The end of the support 2 made of insulating material carries a metal plate 20 in connection with the contact part 4, this part 20 being fixed by a screw 21.



   The plate 20 has a bore 22 in which is slidably mounted a conductive finger 23 whose end opposite the nozzle 13 carries a support piece 24 for one end of a spring 25. the other end of which is - pose against the plate 20. This finger 23 is electrically connected to the plate 20 by means of a braid 26 housed in a recess 27 of the end of the arm 2, this braid connecting the plate 20 to the part of support 24. The upper end 28 of the finger 23 is intended to cooperate with the contact piece 16.



   When the switch is in the closed position as shown in fig. 2, the two contact pieces 16 and 23 are engaged, while the copper strips -and 7 clamp between them the contact piece 4. When opening the switch ,, which is obtained by a mon- vement up the rod 9, the contact is interrupted between the copper strips 6 and 7, on the one hand, and the convoy parts 4 on the other hand. but the current to be broken can still pass through the contact pieces 16 and 23, as shown in fig. 3.

   The finger 23 is moved upwards against the action of its spring 25 under the effect of the force.

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 exerted by the female contact piece 16.



   Fig. 3 shows the open position of the switch from which the finger 23 can no longer move upwards, because its support piece 24 abuts against a projection formed by a ring 29 forced into a corresponding range of the plate 20. When the bridge still moves upwards, the contact piece 16 disengages elastically from the ogive 28 of the finger 23, and as soon as this disengagement is completed, the finger 23 is brought back abruptly downwards by its spring 25.

   The arc that is established at the time of the cut between the pieces of
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 contact 15 and n -es: t 3tnc trks-rapidenent stretched, and moreover it is effectively cooled by the blowing air which is compressed by the sliding piston in the cylinder 10 and which, after passing through the pipes 11. respectively 12, escapes through nozzles 13 and 14.



  The device shown is very advantageous, because thanks to the rapid withdrawal of the contact finger 23, the displacement of the bridge .5 upwards can be carried out more slowly than in the switches in which the contact parts of the spark arrester are fixed. , which allows, for a
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 determined breaking rate of the switch, to be content with a mechanical operating power lower than the usual requirements.



   An important advantage of the switch described lies in the fact that, when it is closed, the main contacts: close before the spark arrester. Thus, in the event of a relatively slow closing on a short-circuit, the contacts of the spark arrester are not liable to be disconnected.

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 teriorated.



   It is understood that other arrangements can be envisaged and that the male contact finger could, for example, be carried by an articulated arm, this in particular in the case where the contact piece 16 fe-
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 = she 5ple equals the following-mr arc of a circle. In the embodiment described, the nozzle could, with the female contact piece, also be integral with the support 2, respectively 3, the contact finger 23 then being carried by the bridge 5.



     The switch described is of the double break type, but it goes without saying that the arrangement shown could equally well be applied in the case of a single break switch.



   Finally, it is obvious that the arrangement shown, which is intended to play the role of a spark arrester for a double pole breaker switch, could also be used to form the main contact of a circuit breaker.


    

Claims (1)

CLAIMS 1. Arc blowing switch by a gas jet, comprising a female contact part housed in a nozzle and a male contact part, these two contact parts being carried respectively by two movable supports relative to each other. to the other, the male contact piece being placed outside the nozzle in the open position of the switch, but penetrating into the nozzle and into the female niece in the closed position of: The switch ...... c a - r a c t é r i s in that the. male contact piece is movable relative to its support in a direction coinciding substantially with the axis of the female contact piece, the movement of this male piece being limited by two stops, the male contact piece being subjected to an action elastic biasing it in the opposite direction ¯ of the female part. 2. Switch according to claim 1, charac- terized in that the contact piece is constituted by a finger sliding in a bore of said support, this finger being surrounded by a spring taking support, of on the one hand, against the support and, on the other hand, against a support part integral with the end of the finger opposite the cellē¯ penetrating into the female part. 3. Switch according to claim 1, in that the two contact parts constitute a spark arrester, the switch further comprising a main contact connected in parallel with this @ <Desc / Clms Page number 8> EMI8.1 : the race 3.1re da la. j ±% i a = cez¯r-zct rflle .éant sufficient s * 1-ni will persist from ie; 'ie #, tight in the iron,: twist 1.m ...} el-D ... re d 2I1intelT'.lteror, after the ignition atxincipzziL & 3 1ifj cut off .. - 4- = - -, -, - -, ---% 1erxxpterr - xelan les 1 -e-c 3. EMI8.2 characterized in that the main contacts EMI8.3 are arranged so that when femaetwl and interrupt, irs make contact a-van4 ,. .1 .... s contacts by EMI8.4 spark.