NO122135B - - Google Patents

Description

Device at holders for handle protection.

The present invention relates to a device for holders for handle fuses, i.e. a holder for fuses in electrical installations where the fuses have metallic power connection devices which are to be connected to the circuit through sockets which press against the devices with the desired force, the fuse being provided with devices to hold it firmly in a special handle that is used when connecting and disconnecting.

In hitherto known constructions of

such holders for handle fuses, the contact pressure is created by the fact that the contact surfaces are designed as part of a spring bracket, the pressure being reinforced in between by means of additional inserted spring elements. However, the contact pressure is limited with such devices by pressing the handle safety into the spring hoops with the hand and to make this possible the contact pressure must of course not be too high. Further other constructions are known, where the contact pressure can be increased mechanically, but where the devices are made so that the person who installs the handle safety can forget or intentionally fail to increase the contact pressure to the necessary extent, whereby a very unsatisfactory pressure is achieved. As is known, a poor contact pressure can lead to a very strong heating of both the fuse holders and the handle fuse, which can cause the most serious operational disturbances and accidents.

The invention first and foremost goes out

to overcome these disadvantages and to make it possible mechanically to achieve a very high contact pressure and to force the person who inserts the fuse into the fuse holders to

carry out this mechanical increase of the contact pressure in order to be able to remove the operating handle which is required for inserting and removing the group fuse.

The invention is particularly related to the kind of handle fuses where the fusible link is provided with means with which it can be retained in a special handle that is used when switching on and off and where means are arranged for influencing the contact pressure of the sockets. These organs essentially consist of a two-armed barbell, one arm of which forms a contact and pressure organ in the socket and the other arm of which can be influenced by means of a screw arranged in each of two fixed clamping jaws which can be adjusted, and the characteristic feature of the invention consists in that the heads of the screws constitute locking devices that interact with the handle in such a way that it cannot be removed from the fuse until the locking devices have been moved out of the locking position by tightening the screws, in order to create the desired contact pressure.

The invention will now be explained in more detail with reference to an embodiment example which is shown schematically in the attached drawing and in connection with it further properties which are peculiar to the invention will be indicated. Fig. 1 shows in perspective a holder for a handle fuse with a fuse placed therein as well as an operating handle for inserting or removing the fuse. Fig. 2 shows the operating handle and a device for placing the fuse in the handle.

With reference to the drawing, I denotes a plate of insulating material which serves as a support for the holder for the fuse. This consists of two fixed clamping jaws 2 and 3 which are placed at a distance from each other on the plate. On each of these fixed clamping jaws 2 and 3, connection means 4 and 5, respectively, are attached for connecting cables that are not shown. As can be seen from fig. 1, the fixed clamping jaws 2 and 3 have inner circular arc-shaped surfaces 6, where movable clamping jaws 7 and 8 with corresponding circular arc-shaped surfaces are rotatably mounted. These rotatable clamping jaws 7 are, as shown in fig. 1 designed as angle weight bars with a vertical part 9, which is to serve as contact and pressing means, as well as with a horizontal weight bar part 10. The fuse which is placed in the holder shown in fig. 1 is designated 11 and has at each end a projecting contact member 12 and 13, respectively, which is held sandwiched between the fixed trays 2 and 3, respectively, and the rotatable trays 7 and 8.

In the fixed clamping jaws 2 and 3 respectively, screws 14 and 15 with cylindrical heads are screwed vertically down. Each such screw is provided with a fixed ring or a shoulder-shaped member 16, which presses a spring 17 down against the arm 10 of the rotatable clamping jaw 7 or 8. The screws also have, for example, hexagonal holes 18 in the head for lowering a key 19 which is shown schematically in fig. 2 with dashed lines for adding or removing the screws.

With continued reference to fig. 1, the fuse itself has a hook-like member 20 at each end which must be able to be inserted into bayonet-like grooves 21 in plates 22 and 22a, respectively, which are fixed on an operating handle 23. This operating handle must be able to be moved down over the fusible link 11 with the holes 21 straight out for the hook members 20, and then shifted in the longitudinal direction of the fusible link so that the hook members are fixed in narrower parts 24 of the holes 21. In such a displaced position, the fusible link 11 and the handle 23 are thus attached to each other.

Based on the position shown in fig. 1 and the condition that the fuse II is then in, namely mounted with the desired contact pressure between the connecting elements and the slopes in the holder, and it is then desired to remove the fuse from this connected position, the handle 23 must be moved downwards as described above over the fusible link and shifted in its longitudinal direction . The key 19 is then guided down into vertical holes 25 in the handle which are arranged so that, when the handle 23 is shifted, they fit vertically over the heads of the screws 14 and 15. Then, as shown in fig. 2 to turn the key several times against the direction of movement for the clockwise in the holes 25, of course with engagement between the key 19 and the screws 14 and 15 respectively, the heads of these screws will be raised and penetrate through holes in the plate 22 and 22a respectively in the holes 25 in the handle. In this mutual position of the individual parts, the handle 23 cannot be pushed back, whereby the engagement between the operating handle 23 and the fuse 11 is secured. At the same time as the screws are raised in this way, however, due to the interaction between the screws' lugs 16, the springs 17 and the weight arms 10, the rotatable slopes 7 and 8 are swung in such a way that the contact pressure becomes less and less until finally, by pulling the handle 23, it is possible to detach the fuse 11 from the holder, When the operating handle 23 and the fuse 11 have been pulled out in this way, the fuse 11 can be easily removed by the aforementioned relative displacement between them, as the heads of the screws 14 and 15 are no longer in the holes 25 and block this displacement. If it is necessary to replace the fuse 11, the old fuse must be removed and a new one inserted and pressed down into the holder for the handle fuse between the clamping jaws. In doing so, however, the handle is blocked again by the new fuse by the heads of the screws 14 and 15 again penetrating into the handle's hole 25. To now secure the engagement between the fuse's contact means and the clamping jaws, the key 19 is used and the screws 14 and 15 are screwed down by turn the key in a clockwise direction until the heads of the screws 14 and 15 are lowered flush with the surface of the fixed clamping jaws. In this position, there is no blocking between the operating handle and the fuse so that the handle can be removed. However, the desired contact pressure is now automatically created by the screws, through mediation of the projections 16 and the springs 17, influencing the arms 10 so that the rotatable clamping jaws 7 and 8 are pressed against the contact members 12 and 13 in the fuse 11.

However, this contact pressure can vary within certain limits as a result of wear of the contact members in the fuses or due to variations in the thickness of these members in different fuses. For this reason, the springs 17 are inserted between the screws and the arms 10. Thereby, the influence of the screws on the pivotable or rotatable trays is sufficiently yielding that at least a certain minimum contact pressure is always maintained. Finally, it can be mentioned that when the screws 14 and 15, as described above, are screwed all the way down and the fuse is thus mounted in its final

position with the desired contact pressure, the handle 23 can be removed by displacing the screws

no longer blocks this shift.

It is thus not possible to forget

or intentionally fail to set the contact pressure correctly.

Claims (2)

1. Device for holders for handle fuses, i.e. holders for electric ones fuses with knife-shaped metallic current connection devices, which must be pressed firmly into sockets, since the fuse-. is provided with means to be held firmly in a special handle which is used when switching on and off, and as means are arranged for influencing the contact pressure of the sockets, which latter means essentially consists of a two-armed weight bar, one arm of which forms contact and pressure device in the socket and the other arm of which can be influenced by means of a screw that can be adjusted, characterized in that the heads of the screws (14, 15) constitute locking devices that interact with the handle (23) in such a way that the handle (23) cannot be removed from the fuse before the blocking means have been moved out of the blocking position by tightening the screws (14, 15) to create the desired contact pressure. 2. Device as stated in claim 1, characterized in that the second arm (10) of the two-armed barbell is influenced by means of screws (14, 15) over a yielding element (17) which, when the screws (14, 15) are located in the attracted position, constantly maintains a minimum contact pressure, even with thickness deviations at different fuses' connecting devices (12, 13).