EP1170767A2 - Thermal switchgear - Google Patents

Abstract

The invention relates to a thermally controlled electrical switching device 1, in particular a temperature fuse or temperature limiter, with a switching contact device 2 formed from a fixed contact 3 and a moving contact 4 and a melting element 8 having a melting mass 7, the melting mass 7 prior to a thermal response as a result of exceeding one Tripping temperature supports a transmission element 9 and is displaced from its receptacle 6 when the triggering temperature is exceeded by the end of the transmission element 9 acting on it, a radially projecting, flat melt shield 19 being arranged on the transmission element 9. <IMAGE>

Description

The invention / innovation relates to a thermally controlled, electrical Switching device, in particular a temperature fuse or a Temperature limiter, with the other features of the preamble of Claim 1.

DE 3735334 C 2 describes a thermally controlled electrical switching device known, in which on a carrier element one from a movement contact and a fixed contact formed switching device is arranged. Besides, is a melting element is provided, which before its response due to a Exceeds a trigger temperature supports a transmission element. At the Exceeding the trigger temperature will occur from the end of the Transmission element, the material of the melting element from its cup-like Repressed recording.

The solder that escapes can, depending on the installation position of the thermal Switching device further electrical elements of the switching device or affect other electrical apparatus parts, in particular by the escaping solder solder beads are formed, which lead to thermal disturbances Switching device and its intended security purpose can lead.

To the transmission element in its before the final assembly of the device To secure the target position and facilitate assembly, a ring collar is provided, which increases the diameter of the transmission element.

The invention / innovation is based on the task of a thermal Switching device with the features of the preamble of claim 1 such to further that the risk of electrical interference after a response of the reduced thermal switching device and in particular leaked Fusible link is spatially controlled.

This object is solved by the characterizing part of claim 1, advantageous Further developments of the invention / innovation result from the subclaims.

It has been found that one designed as a melt shield Widening of the transmission element advantageously leads to the fact that leaked fusible link under the umbrella-like widening can be recorded and held because it is due to the Surface tension of molten solder ring-like or in the form of individual solder pearls around the stamp-like end of the transmission element lies around and stays under the intended umbrella. Through the Enamel shielding will also become the prescribed electrical Clearances and creepage distances are observed, even if the leaked Fusible link, in particular the fusible link, the distance between electrical parts, especially between that connected to ground Carrier element of the fusible link insert and the movement contact reduced. This reduction in distance is due to the melt shield in compensated advantageously.

It when the enamel shield on the End of the transmission element remote from the melting element is arranged, so that the transmission element has the overall shape of a mushroom that has a stamp-like part at its lower end and with at its upper end the screen is provided.

The enamel shield advantageously has about twice that Diameter of the stamp-like part of the plunging into the solder Transmission element. The outer edge of the enamel shield is in Pulled down the direction of the fusible link so that within the A cavity is formed, which is particularly advantageous for receiving molten solder can serve.

Overall, the volume of the below the enamel shield should area and the volume of the displaced solder be coordinated. The volume under the bottom of the screen should be larger than the volume of the displaced solder, so that the on the The shield part that melts down does not press the solder radially outwards and thus nullifies the advantageous effect of the screen.

The transmission element and the one advantageously arranged thereon in one piece Melting mass shields are made entirely of an electrical non-conductor made so that an extension of the air and Creepage distances are achieved and electrical insulation between Movement contact and fusible link is ensured.

On the top of the melt shield is a motion contact Supporting projection arranged in a recess of the free end of the Can engage movement contact. The insertion of the transmission element in the prepared switch can then easily be done by that the lower end is inserted into the bowl that the soldering iron insert includes and the movement contact spring element over the projection is snapped. This is a relatively simple assembly process, too can be carried out automatically.

The projection is advantageously shaped like a cone. The Enamel shield can also be slidable on the stamp-like part the transmission element be held so that the umbrella-like Lowering the transmission element to the emerging fusible link and encapsulates this. When the transmission element is sunken, the outer one Edge of the melt mass shield radially over the displaced solder mass protrude or the solder mass at least partially below the umbrella-like widening may be included.

The undercut is advantageously beneath the enamel shield shaped so that liquid running up at the stamp-like section Enamel in its flow direction after entering the undercut is redirected. Such a deflection behavior is particularly special important if the switch contacts are connected to each other in older switching devices stick or are slightly welded together and after loosening the Contacts of the stamp or the transmission element suddenly in the Melting mass sinks and drives it up very quickly. Through the Redirection is avoided that melt mass splashes radially outwards and electrically sensitive surrounding areas adversely affected.

Claims 14 and 15 still teach the particularly advantageous uses of the transmission element of a thermal switching device as Extension element of electrical air and creepage distances Switching device or as a receiving and shielding element for displaced Fusible.

Fig. 1

eine Seitenansicht einer thermischen Schaltvorrichtung mit geschlossener Kontaktstrecke,

Fig. 2

eine Teilfigur gemäß Fig. 1, teilweise im Schnitt, vor dem Ansprechen der Schmelzmasse,

Fig. 3

eine Teilfigur gemäß Fig. 2 nach dem Ansprechen der Schmelzmasse.

The invention / innovation is shown in the drawing figures using an advantageous embodiment. These show:

Fig. 1

2 shows a side view of a thermal switching device with a closed contact path,

Fig. 2

1, partly in section, before the melt mass responds,

Fig. 3

a partial figure of FIG. 2 after the response of the melt mass.

The shown in drawing figure 1, thermally controlled, electrical Switching device 1 has a switch contact device 2, which by a Fixed contact 3 and a movement contact 4 is formed. Fixed contact 3 and Movement contacts 4 are on a columnar fastening device 5 arranged. In a likewise fastened to the fastening device 5 Recording 6 is a melting element 8 having a melting mass 7 arranged, which supports a first end of a transmission element 9, the its other end 10 the movement contact 4 in the closed position with the Fixed contact 3 holds.

The switching device 1 also includes a bimetallic element 11, with its Fixed end 12 is also arranged on the columnar fastening device 5 is and operated with its pivot end 13 a transmission pin 14. This acts with its end 15 facing away from the bimetallic element 11 Switch spring 16, which interact with the fixed contact 3 Movement contact 17 carries. The fixed contact 3 acts as bilateral Double contact.

In its central region, the switching spring 16 acts with a rotatable one Setting device 18 for setting the switching point together.

At the end 10 of the melting element facing away from the Transmission element 9 is a radially projecting, flat Melting mass shielding 19 arranged in terms of its dimensions about twice the diameter of the has stamp-like section 20 of the transmission element 9. How in particular can be seen in the drawing figures 2 and 3, the outer edge 21 of the Enamel shield 19 mushroom-like in the direction of the melting element 8 pulled down, so that within the melt shield 19 a ring-like undercut 22 results in the in the melt. 7 immersed, stamp-like portion 20 of the transmission element 9 surrounds and is suitable for the partial absorption of leaked melt mass 7. at sunken transmission element 9 according to the drawing in Fig. 3 is the volume of the between the bottom of the Enamel shield 19 and the top of a receptacle 6 for the Melting mass 7 containing the carrier 23 larger than the volume of the displaced melt mass 7, which is in the manner of solder pearls or ring-like around the portion 20 of the immersion in the receptacle 6 Transfer element 9 puts around.

The transmission element 9 and the one arranged thereon Enamel shield 19 are formed from a non-conductor. On the Upper side 24 of the melt mass shield facing away from the melting element 8 19 is a conical projection 25 that supports the movement contact 4 integrally formed, which engages in a recess of the movement contact 4, so that the transmission element 9 by the spring force of the movement contact 4th is clamped between the melting element 8 and the movement contact 4.

In drawing figure 3 it can be clearly seen that when sunken Transmission element 9, the outer edge 21 of the melt shield 19 protrudes radially beyond the displaced melt mass 7, whereby at sunken transmission element 9, the displaced melt mass 7 is at least partially enclosed under the melt shield 19.

In the illustrated embodiment, the transmission element 9 and the molten mass shield 19 arranged thereon and the conical one Projection 25 designed as rotationally symmetrical components. It is also possible other forms, e.g. B. polygonal, rectangular or square Provide cross-sectional shapes if the structural conditions of the Switching device 1 make this appear useful.

REFERENCE NUMBERS

1

switching device

2

Switching contact device

3

fixed contact

4

moving contact

5

mounting direction

6

admission

7

frit

8th

fuse

9

transmission element

10

The End

11

bimetallic

12

fixed end

13

pivoting

14

transmission pin

15

The End

16

switching spring

17

moving contact

18

adjustment

19

Fusible mass shield

20

stamp-like section

21

outer edge

22

undercut

23

top

24

head Start

Claims (15)

Thermally controlled, electrical switching device (1), in particular temperature fuse or temperature limiter, with a switching contact device (2) formed from a fixed contact (3) and a movement contact (4) and a melting element (8) having a melting mass (7), the melting mass ( 7) supports a transmission element (9) before a thermal response as a result of a triggering temperature being exceeded and is displaced from its receptacle (6) by its end of the transmission element (9) acting upon it when the triggering temperature is exceeded,
characterized in that
a radially protruding, flat enamel shield (19) is arranged on the transmission element (9). Switching device according to claim 1,
characterized in that
the melt mass shield (19) is arranged on the end (10) of the transmission element (9) facing away from the melt element (8). Switching device according to claim 1 or 2,
characterized in that
the melt mass shield (19) has approximately twice the diameter of the stamp-like section (20) of the transmission element (9) immersed in the melt mass (7). Switching device according to one of the preceding claims,
characterized in that
the outer edge (21) of the melt shield (19) is pulled down in the direction of the melt element (8) to form an undercut (22). Switching device according to one of the preceding claims,
characterized in that
when the transmission element (9) has sunk in, the volume of the space between the underside of the melt shield (19) and the top of a support (23) containing the holder (6) is greater than the volume of the displaced melt (7). Switching device according to one of the preceding claims,
characterized in that
the transmission element (9) and the melt-mass shield (19) arranged thereon in one piece are formed from an electrical non-conductor. Switching device according to one of the preceding claims,
characterized in that
a projection (25) supporting the movement contact (4) is arranged on the top (24) of the melt mass shield (19). Switching device according to claim 7,
characterized in that
the projection (25) is shaped like a cone. Switching device according to claim 1,
characterized in that
the melt shield (19) is slidably held on the stamp-like section (20) of the transmission element (9). Switching device according to one of the preceding claims,
characterized in that
when the transmission element (9) is sunken, the outer edge (21) of the melt mass shield (19) projects radially beyond the displaced melt mass (7). Switching device according to one of the preceding claims,
characterized in that
when the transmission element (9) has sunk in, the displaced melt mass (7) is at least partially enclosed under the melt mass shield (19). Switching device according to one of claims 4-11,
characterized in that
the undercut (22) under the melt mass shield (19) is shaped in such a way that liquid melt mass (7) running up on the stamp-like section (20) is reversed in its flow direction after entering the undercut (22). Switching device according to claim 12,
characterized in that
the undercut (22) has a rounded cross section. Use of a transmission element with an umbrella-like Widening that between a switch contact and a Melting element of a thermally consisting of solder mass Switching device is clamped and a movement contact of the Switch contact supports in the closed position and an opening movement of the switching contact caused as soon as one Trigger temperature, the solder mass liquefies and that Transmission element sinks into the solder mass and this from it Replace intake, as an extension element of electrical air and Creepage distances of a thermally controlled, electrical switching device. Use of a transmission element according to claim 14 as Receiving and shielding element for displaced solder.

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