NO154820B - EQUIPMENT FOR WORK EARTH IN ELECTRICAL SYSTEMS. - Google Patents

Description

The invention relates to a device for working earthing

of the phase conductors in an electrical installation, which device comprises a number of fixed contact elements corresponding to the number of phase conductors which are connected to each phase conductor, and a plurality of insulator elements which carry the contact elements and are provided with a through hole for a grounding rod that can be inserted into the contact elements. The device is preferably intended for use in low-voltage systems, i.e. systems for a system voltage of no more than 1000 V.

In order to protect staff during inspection work in electrical installations, it is prescribed, among other things, that the various phase conductors must be earthed and short-circuited at the workplace (so-called work earthing). It is previously known in connection with cabinet-enclosed high-voltage transformers to carry out such working earthing with the help of an earthing rod that sky-

is inserted through a hole in the casing of the silencer, so that contact means which are arranged on the various phase rails are connected together and connected via the rod to a protection's earthing contact (SE patent 352 203). In this known device, the contact members are hoop-shaped and provided with magnetic cores for contact pressure amplification. This design is, among other things, not applicable in low-voltage systems for reasons of space, but instead a design has been used with a contact rail mounted separately on each phase conductor in which a hole intended for the grounding rod is arranged, possibly equipped with a contact sleeve. In this way, it has been possible to reduce the space required, but the implementation involves difficult and expensive adjustments and fits to make the earthing rod pass through all rails.

It is also known to make a three-phase ring cable station switch with an earthing device which comprises a number of fixed contact means corresponding to the number of phase conductors which are connected to each phase conductor (DE-OS

2,323,386). A number of insulation plates arranged behind each other carry the contact members and are provided with a through hole for an earthing rod that can be inserted into the contact members. This grounding device has the disadvantage that all insulation plates must be fitted individually, so that it becomes difficult to get the holes for the grounding rod to lie exactly in line with each other. You must therefore use a flexible earthing rod. Pushing such a rod in is difficult, and the wear on the rod and contacts is relatively great. The known grounding device is also built together with a switch and thus cannot be used as a separate construction unit.

The purpose of the invention is to provide an earthing and short-circuiting device, preferably intended for low-voltage installations, which is not affected by the above-mentioned disadvantages. This is achieved according to the invention with an earthing device of the type indicated at the outset which is characterized by the features indicated in the characterizing part of patent claim 1.

The invention will be described in more detail below with reference to the drawings, where fig. 1 shows a schematic front view of the upper part of two cabinets which are included in a panel-encased low-voltage switchgear where the front doors of the cabinets have been removed, fig. 2 shows a side view of a first embodiment of an earthing device which is part of the still according to fig. 1, fig. 3a and 3b show a front view respectively. a side view, partly in section, of an insulator element which is part of the grounding device according to fig. 2, fig. 4 shows a partially cut-away side view of a first embodiment of a contact sleeve for an earthing device of the type shown in fig. 2, fig. 5 similarly shows a second embodiment of such a contact sleeve, fig. 6a and 6b respectively show a side view and a front view of a second embodiment of a grounding device for the still according to fig. 1, fig. 7 shows an alternative embodiment of a grounding rod according to the invention, fig. 8 shows a side view of a third embodiment of a grounding device for the still according to fig. 1, fig. 9 shows a front view of the grounding device according to fig. 8, fig. 10 shows a central section through one of the contact pieces included in the grounding device according to fig. 8 and 9, fig. 11 shows a front view of an apparatus group with a grounding device according to the invention, and fig. 12 shows a section through this apparatus group along the line A - A in fig. 11.

Fig. 1 shows the upper part of an appliance cabinet 1 with

a side cable cabinet 2. Horizontal busbars 3 extend through the upper part of the cabinets to which vertical busbars 4 are connected. The vertical busbar system, in turn, is connected to a device group 5 for higher rated current (up to approx. 800 A) and a device group 6 for lower rated current (up to 63 A). The device group 5 can, for example, contain a load switch 7 with series-connected blade fuses 8. The group's outlet rails on the load side are connected to connection rails 9a, 9b, 9c which extend into the cable cabinet 2 for connecting outgoing cables to the load objects. The coupling rails 9a, 9b, 9c are permanently • connected to an earthing device 10 which will be described in more detail below in connection with fig. 2-5.

The device group 6 can, for example, contain a thread protection central with or without a group switch and is provided with connection contacts in plug-in design. The cable connection to the load objects takes place via a terminal

row which is arranged in direct connection to the fixed plug-in contacts on the appliance group's load side. The terminal strip contains connection terminals 11 for the phase conductors and a number of terminals 12 for signal and control cables. By

at one end of the terminal strip there is an earthing device 13 which will be described in more detail below in connection with fig. 8 - 10.

Fig. 2 shows a side view of the grounding device 10 arranged for the larger apparatus group 5. This grounding device consists of a number of molded insulator elements 14 of the one in fig. 3a and 3b shown embodiment, which together with the required number of contact sleeves 15 with connection conductors 16 are arranged in a stack held together by means of four screws 17 which extend through the stack between a rear end plate 18 and a front end plate 19. The earthing device is attached directly to the connecting rail 9b

in which one of the earthing device's contact sleeves is fixed. The other two connection rails 9a and 9c are connected to each contact sleeve in the grounding device via connection conductors 16a, 16c. Between the phase conductors' contact sleeves

15a, 15b, 15c and the grounding device's front end plate 19, a further contact sleeve 15j is arranged which is connected via a connecting conductor 16j to a grounded protective conductor. All contact sleeves are arranged coaxially and can be connected to each other by means of an earthing rod 20 which, when a working earthing is to be carried out, is inserted through a central hole in the end plate 19 to the one in fig. 2 shown position. All phase conductors are thereby short-circuited and grounded.

In fig. 4 and 5 show two different designs of contact sleeves for the one in fig. 2 shown grounding device. The contact sleeve 15' according to fig. 4 is externally threaded and provided with a shoulder 21 and a nut 22 for screwing on a connecting conductor 16. Both contact sleeves are internally provided with contact plates 23 with bent tabs for reducing the transition resistance, for example of the design shown in DE-AS 1 286 170. The connecting conductors 16 are made up of several parallel copper lamellae, each of which has a thickness of, for example, approx. 1 mm, so that the conductors get a certain flexibility. The contact sleeves 15, which incidentally have a certain freedom of movement between the plate insulators 14, thereby have the opportunity to align themselves correctly in relation to the grounding rod 20 when this is pushed in.

In fig. 6a and 6b show a side view respectively. a front view of an earthing device, which is intended for groups with a lower rated current where the connection between the phase conductors and the earthing device takes place by means of cables that are screwed onto outlet rails 24a, 24b, 24c on the earthing device. In the example shown, a rail 24j is used for the protective earthing connection. The end plates 25, 26 of the grounding device are designed as fixing angles for screwing the device onto a mounting plate which is directed perpendicular to the front of the stillwork cabinet. Otherwise, this earthing device is constructed in essentially the same way as the one in fig. 2 shown device.

In the case of a grounding device according to the invention, either the grounding rod can be plain and the fixed contact sleeves 15 internally provided with contact lamellae 23 according to the one in fig. 2-5 shown design, or the earthing rod can be provided with contact slats while the contact sleeves have smooth contact surfaces. Fig. 7 shows an earthing rod 20' of the latter design which is provided with spring contact plates 23' which surround the rod at the places which, when the rod is pushed in, lie in the middle in front of the fixed contact means. The contact pieces are made up of relatively thin sheets of e.g. beryllium bronze which is provided with punched, outwardly bent contact tabs. The eyes are fixed in circular grooves in the rod using 0-rings or the like. Fig. 7 also shows the position of the grounding device's fixed contact rails 15a, 15b, 15c which are intended to be connected to the relevant group's phase conductors, as well as the position of the protective grounding contact 15j. If the earthing rod is provided with contact slats in this way (instead of the fixed contact elements), a substation's total cost for earthing can be significantly reduced, as the earthing rod can be shared by several groups, but an earthing device must be found on each group.

Fig. 8 and 9 show in side view respectively. front view of an earthing device 13 which is intended for small groups with a rated current of up to 63 A. The earthing device is made up of a number of molded insulator elements 27 which fix contact pieces 28 between them. mounting on a carrier rail of standard design, so that the grounding device can be mounted together with ordinary terminal blocks in a row, as can be seen from fig. 1. The insulator elements 27 and the contact pieces 28 have a through hole 31 for an earthing rod 20. The pieces 28 are provided with connection means 32 for connection lines 33a, 33b, 33c, 33j through which the earthing device is connected to the associated group's phase conductor or protective earth conductor. Closest to hole 31

inwardly directed contact tongues 34 are punched in the pieces. As can be seen from fig. 10, the contact tongues have a U-shaped deflection in the middle whereby the tongues can spring in a radial direction so that a good contact system against the earthing rod is achieved without the rod's insertion or extraction being made difficult.

Figs. 11 and 12 show an apparatus group 35 mounted in a control cabinet which contains a load switch and an earthing device 10 of the one in fig. 2 showed embodiment. The device's hatch 36 is provided with a hole 37 through which a grounding rod 20, which is provided with a removable handle 38, can be pushed into the grounding device. Work grounding can thus be carried out behind a closed hatch. The hole is provided with a on the inside of the hatch there is a cover 39 which is connected via a link mechanism 40 to the load switch's maneuvering handle 41. With the help of this interlock, it is achieved that the earthing rod cannot be pushed in until the switch is switched off.

The invention is not limited to the embodiments shown, but several modifications are conceivable. For example, the grounding device's insulating stem does not have to consist of a plurality of congruent insulator elements arranged in a stack that are held together by bolts running axially through the stack, but the stem can also be made in two halves that are held together by screws and which in their opposite surfaces have cutouts for the contact elements and the earthing rod. Furthermore, the grounding device's fixed contact means do not necessarily need to be made up of special contact sleeves or contact plates,

but can in principle also be made up of e.g. single rails with through holes for the earthing rod.

Claims (9)

1. Device for working grounding of the phase conductors in an electrical installation, which device comprises a number of fixed contact elements (15, 28) corresponding to the number of phase conductors which are connected to each phase conductor, and a plurality of insulator elements (14, 27) which carry the contact elements and is lined with a through hole (31) for an earthing rod (20) that can be inserted into the contact members, characterized in that the insulator elements (14, 27) with contact members (15, 28) form a separate structural unit that can be permanently mounted in the plant, and that the insulator elements (14 , 27) are stacked on top of each other and are compressed by bolts (17, 29) which extend axially through the stack, the contact members (15, 28) being fixed in recesses between adjacent insulator elements. 2. Device according to claim 1, characterized in that it comprises a protective grounding contact (15j) which is mounted together with the phase contact members (15a, 15b, 15c) in the insulator elements in such a way that the grounding rod (20) during insertion first hits the protective grounding contact (15j ) before the rod makes contact with the phase contact members. 3. Device according to claim 1 or 2, characterized in that the grounding rod (20') at its contact points is provided with spring contact plates (23') which enclose the rod (20") (fig. 7). 4. Device according to claim 1 or 2, characterized in that the fixed contact members are formed by sleeves (15', 15") in which spring contact plates (23) are arranged (fig. 4 and 5). 5. Device according to claim 1 or 2, characterized in that the fixed contact means consist of pieces (28) with holes (31) for the grounding rod (20), in that in the part of the pieces located closest to the hole, inwardly directed, springy contact tongues (34) have been punched out. 6. Device according to one of the preceding claims, characterized in that the contact means (15, 28) are connected to their respective phase conductors via flexible connection conductors (16, 33). 7. Device according to one of the preceding claims, characterized in that the insulator elements are mutually congruent. 8. Device according to one of claims 1-6, characterized in that the structural unit consists of two halves held together by screws which have recesses for the contact members and the grounding rod in their opposite surfaces. 9. Device according to one of the preceding claims, where the device is mounted in a silencer cabinet, characterized in that the contact members (15, 28) are arranged in line with a hole (37) arranged in the front (36) of the silencer cabinet for the earthing rod (20), the hole being provided with a lid (39) which is latched to a switch for the group line in which the earthing device is arranged, so that the earthing rod (20) cannot be inserted before the switch is switched off.