NZ207903A - Draw-out switchgear with detachable operating mechanism - Google Patents

Description

FORM 5. Re^(4) Fee: ?80.00 NEW ZEALAND Priority Date(s): ?:}.~ jf.""?2. ^~6i7903 Complete Specification Filod: .'.9.'./f.vl Class: HO.tH)n/l6 Publication Dole: JAN 1988..,, P.O. Journal, uo: . .lv?Q3 PATENTS ACT 195 3 BUZ. '.PATENT OFFICE 19APR1W r.:csiVED Insert number of Provisions I Speci fication(s) (if any) and date(s) of filing; otherwise leave blank.

Number: Da te: COMPLETE SPECIFICATION Insert Title of Invention.

Insert full name, full street address and nationality of (each) applicant.

ELECTRICAL ASSE?4BLY AND DRIVE .MEANS FOR A MOVABLE STRUCTURE THEREIN I/WE Y.S. SECURITIES LIMITED, a British company of fleanwood Road, Leeds, West Yorkshire, LS6 2BN, England O hereby declare the invention for which I/we pray that a patent may be granted to me/us and the method by which it is to be performed, to be particularly described in and by the following statement:-The following page is numbered "1(a)" Indicate if following page is numbered '1(a)1 2 07903 - 1 (a) - This invention relates to electrical assemblies and to drive means for a movable structure therein. The invention is particularly applicable to low voltage distribution and supply networks incorporating fuse and/ or switch means.

In the particular context of low voltage supply distribution from indoor and outdoor sub-stations the network incorporates a fuse board, fuse pillar or fuse cabinet as appropriate to the particular environment. Conventionally, four or five supply bus bars are provided, one for each of the three phases and either a common neutral/earth bar or separate neutral and earth bars.

Each three-phase output taken from the supply has each power-carrying cable connected to the bus bar of the respective phase by way of a fuse, the three fuses being mounted together on a distributor unit. Each fuse is designed to engage and bridge two spaced contacts, one electrically connected to the respective bus bar, and the other to the respective output.

In distribution arrangements of this type manufactured to conform to the requirements of the British Electricity Supply Industry Standard, each pair of fuse contacts is fully exposed when not bridged by their associated fuse. The contacts are bridged by engaging the fuse with one of the contacts and, pivoting 207903 about the point of engagement, driving the fuse manually into engagement with the other contact. A fuse holder _ , permanently or detachably connected, to the Eujse, may be c the operator then grasping tne fuse holder rather than the fuse itself. Speed and firmness are necessary if safe fuse insertion is to be achieved when the bus bar is live. This is particularly so if there should be a fault condition on the output line, as severe arcing is liable to" take place, with consequent hazard to the operator. Removal of a fuse from a live circuit requires a similar firmness of action and can-again be dangerous. These hazards of operation, coupled with the exposure of potentially live contacts when fuses are not present render this type of distribution equipment danger-; ous.

On the continent of Europe equivalent distribution equipment does provide for shrouding of the contacts when , the fuse is not in position, and also includes shrouding to direct arcing away from an operator inserting or removing the fuse, and means to assist in quenching arcs. Nevertheless, there is potential danger, and safe operation still depends on the speed and firmness of the operator while manually removing or inserting fuses.

In other types of distribution equipment insertion and removal of fuses may be assisted by a mechanism permanently associated with each fuse and controllable to effect the necessary operation. Although providing increased operator safety such equipment is expensive.

The present invention seeks to improve the safety and economy of distribution assemblies as aforesaid, and 0 is also applicable to the operation of fuses andyor switches in other types of electrical assembly.

According to the invention there is an electrical assembly comprising a fixed casing with anvopening into the casing; a pair of fixed electrical contacts spaced apart within the casing and set back from the opening into the casing; a contact carrier having contact means fixed thereon defining two electrically connected spaced contact areas; - 3 - 207903 cooperating guide means on the casing and on the contact carrier for guiding the contact carrier to move within the casing along a rectilinear path between a first position adjacent to the opening, in which position the contact areas are spaced from the fixed contacts, and a second position in which the contact areas engage the fixed contacts so that a circuit is closed therebetween; a drive unit for mechanically driving the carrier between the first and second positions, the drive unit being a portable self-contained unit comprising a housing, a drive member movable relative to the housing, and a drive mechanism carried by the housing for effecting movement of the drive member; means for releasably locking the ~* housing in an operational position relative to-the fixed casing; and means for detachably coupling the drive member to the contact carrier when the housing is in the operational posi tion.

Such an assembly provides effective shrouding of the fixed contacts by setting these back within the casing 15 from the opening, so materially reducing the possibility of them being touched by an operator. Furthermore, by providing for mechanical driving of the movable contact carrier the operator is further removed from the proximity of the fixed contacts during operation of the contact 20 carrier. The arrangement is thus considerably safer than those previously used.

Use of a detachable, self-contained drive unit leads to further advantage in both cost and security.

Thus, a single drive unit can be used in sequence for moving a number of contact carriers, rather than supply ^ each carrier with its own dedicated drive mechanism. If - .J . v-y the drive unit . is kept secure when not in use then unauthorised operation can be prevented.

Preferably, the cooperating guide means comprise 30 slideway means extending from the opening towards'the fixed • contacts on inner surfaces of walls of the casing, and slide means on the contact carrier and engaged with u " ' the slideway means. x The contact carrier may simply carry directly U connected contacts for bridging the fixed contacts and ^ thus act as a switch. In this case, the pair qf fixed ^ contacts will comprise an input and an output contact, and the output contact may be connected through a fuse 2 07903 to an output line. In an alternative, connection from the output side of the fuse to the output line may also be by way of bridging contacts also carried by the carrier, so that the circuit is switched on both sides of the fuse. 5 In another embodiment, preferred for many applications, the contact carrier will also carry a cartridge fuse electrically connected between the movable contacts.

The assembly may incorporate interlock means TO preventing movement of the carrier between the two positions unless the interlock means are released.

Release of the interlock means may conveniently be effected by proper positioning of the drive unit so that the carrier can only be moved through proper use of such 15 drive unit. A further interlock may prevent operation of the drive unit unless properly positioned on the assembly.

The invention also extends to a self-contained drive unit capable of use in the assembly as aforesaid. Such drive unit is capable of attachment to a structure 20 designed to be driven in either direction between two fixed positions, and the drive unit comprises a housing; a drive member movable relative to the housing from any one of a plurality of positions of rest to any adjacent one of said plurality of positions; means for detachably 25 coupling the drive member to the structure when the drive member is in a position of rest; and a drive mechanism acting between the housing and the drive member and capable of driving the drive member from any one of the positions of rest through an equal movement in either 30 selected one of two opposite senses to finish movement in an adjacent one of the positions of rest.

In the particular context of an assembly according to the invention, the structure to which the drive unit may be detachably coupled is of course the contact carrier. 35 It will be understood that the casing will normally house three pairs of fixed contacts, one pair for each phase of an alternating current supply. A movable contact carrier, usually a fuse carrier, will be 2 07903 associated with each pair of fixed contacts. A self-contained drive unit can then be used in turn to drive each carrier from its first to its second position or vice versa. Usually a bank of casings will be provided on a fuse board, fuse pillar or fuse cabinet, a single drive unit being provided for the bank to be used as desired. The drive unit may be connected to earth by a wander lead, which not only increases safety but also prevents the drive unit from being improperly taken from the assembly.

The invention will be better understood from the following description of specific embodiments of assemblies in accordance therewith, given by way of example only, with reference to the accompanying drawings, in which:- Figure 1 is a side view, partly sectioned, of a first embodiment of assembly; Figure 2 is a front view of the assembly of Figure 1; Figure 3 is a plan view of the assembly of Figure 1; Figure 4 is a sectional scrap view showing a drive unit in position; Figure 5 is an enlarged view of part of one side wall of the assembly; Figure 6 is a section on line VI-VI of Figure 5; Figure 7 is a part section on lines VII-VII of Figure 4; and Figure 8 is a fragmentary view of part of a second embodiment of assembly.

Figures 1 to 3 show a three-phase outlet assembly capable of being mounted in a fuse board, fuse pillar, fuse cabinet or similar installation, the installation including three bus bars 1 to 3, one for each phase of a supply. The assembly includes a casing, shown generally as 4, made up of two similar plastics moulded sections 5, 6 secured together in any suitable manner. Each section 5, 6 has a part defining a wall 8, 9 respectively, the wall terminating at an opening 10 into the casing. / 707903 - &xr The casing sections locate between them three pairs of fixed contact assemblies. Thus, input and output contact assemblies 11, 12 are positioned in the lowermost part of the casing in association with the bus bar 1, 5 input and output contact assemblies 13 and 14 are positioned in the centre part of the assembly for association with the bus bar 2, and input and output contact assemblies similar to the assemblies 13, 14 are mounted in the upper part of the casing for association 10 with the bus bar 3. The three input contact assemblies are identical and, for example, assembly 11 comprises contact sections 15 capable of gripping the bus bar 1 and fixed contact sections 16. Leaf springs 17, 18 bias the opposed members of each contact set together. The three 15 output contacts are also identical to each other in construction, and thus contact assembly 12 comprises contact sections 19 and fixed contact sections 20, opposed members in the set being biased together by leaf springs 21, 22. The contact sections 20 have an 20 associated arc-quenching arrangement 23. The contact sections 19 engage a first outlet conductor 24, while similar contact sections of the other two output contact assemblies are in contact with output conductors 25, 26 respectively.

The assembly as thus far described is securely mounted on the fuse board or other installation. It will be seen that the two fixed contact sections 16, 20 for each of the three phases are well shrouded by being set back from the opening 10 into the casing, and further by additional 30 shrouding 27, 28 moulded into the two casing sections. Accidental touching of the contacts by an operator is thus virtually impossible.

In order to connect the supply bus bars 1 to 3 to the respective output conductors 24 to 26 it is usual 35 for the fixed contacts 16 and 20 of each phase to be bridged by a fuse. The lowermost phase of Figure 1 is shown with a fuse fitted, but in the open position, the centre phase of Figure 1 and of Figure 2 is shown with a 2i>79fl3 fuse fitted and in a closed position, while the lower phase of Figure 2 is shown without a fuse present- Each fuse comprises a moulded fuse carrier 29, having contacts 30, 31 secured thereto by bolts 32, 33, the bolts also securing 5 between the contacts a cartridge fuse element 34. Each fuse carrier has two outwardly projecting stems 35, 36 each fitted with an upstanding pin 37, 38 respectively. Each side of each fuse carrier is formed with a slide 39, each slide engaging a matching slideway 40 moulded on the inner 10 surface of the respective walls 8, 9 of the casing and extending from the opening 10 towards the fixed contacts. The slide and slideway arrangements locate and guide each fuse carrier along a rectilinear path so that the movable contacts thereon are properly aligned to move into and out 15 of engagement with the fixed contacts 16, 20.

Each fuse carrier is designed to be moved between its open and closed positions by a self-contained drive unit shown in position on the uppermost phases of Figures 1 and 2 and also shown in Figures 3 and 4. The drive unit 20 comprises a housing 50 within which is rotatably mounted a cylindrical sleeve 51 having a circular cross-section and having four cam grooves 52 formed therein. Each cam groove extends for slightly more than 90° around the circumference of the sleeve 51. Each cam groove has an operative starting point 53 and an 25 operative finishing point 54 spaced apart by 90°, the starting points 53 of all the grooves lying in a first plane extending perpendicular to the sleeve axis, and the finishing points 54 of all the grooves lying in a second plane parallel to the first plane. The starting point 53 30 of one groove and .the finishing point 54 of the next adjacent groove lie in a common axial plane. A coil spring mechanism is contained within a case 55 and is controlled by an operating member 56 driving the mechanism by way of a square-section shaft 57. The spring mechanism as such 35 is known, and a suitable mechanism is supplied by IMI Santon Ltd. of Somerton Works, Newport, Gwent, under the '*s ^designation Santon Snap-Action Mechanism SC2/3034/TB3/HR1 . :vVf The mechanism operates so that rotation of the ■ operating f 31JUUM7 •'-cr:', 2 07 9 03 member in either sense serves to charge one or the other of two coil springs, which when fully charged is automatically released by stop means, and on release causes rotation of the sleeve 51 in the same sense as that 5 in which the operating member was moved during charging. The mechanism is such that movement of the operating member in either sense of rotation can be accommodated and will result in driving the sleeve in the appropriate sense. Thus, the mechanism does not need resetting 10 between successive operations.

In order for the fuse carrier to be driven by the drive unit it is necessary for the drive unit to be fitted properly to the assembly. This engaged position ' •- is shown in the upper phase of Figure 1 and in Figures 3 and 4. From these it will be seen that each side of the housing 50 is provided with upper and lower locating slots 58, 5 9 engageable respectively with upper and lower locating dowels 60, 61. The lower locating dowels at each phase also form the upper locating dowels for the 20 phase immediately below. When the slots are fully engaged with the dowels the pins 37 and 38 engage diametrically opposed operative finishing or starting points of two of the cam grooves 52 in the sleeve 51. Thus, engagement of the pins with the cam grooves detachably couples the 25 drive sleeve 51 to the contact carrier and the engagement of the grooves and the dowels releasably lock the drive housing to the fixed casing.

In order to ensure that the fuse carrier cannot inadvertently be moved between its open and closed 30 positions unless the drive unit is present an interlock arrangement is provided. For each phase, each side of the casing is provided with a guideway 62 in which a locking member 63 is guided for vertical sliding movement. Each locking member is biased to an uppermost 35 position by a compression spring 64. The locking member has a projection 65 capable of lying in alignment either with an opening 66 in the side of the fuse carrier or a projection 67 above that opening. When aligned with the X 707903 opening 66 the fuse carrier is free to move between its open and closed positions, when the projections 65 and 67 are in alignment the locking member prevents such movement of the fuse carrier, as will be apparent from 5 the centre phase of Figure 1. The locking member includes a cross-piece 68 lying in a plane parallel to the walls of the casing, one end of the cross-piece being capable of reception in a groove 6 9 in the housing of the drive unit. With the unit properly fitted as shown in Figure v j ^ 10 1 the locking member 63 lies in its lower position wherein projection 65 and opening 66 are aligned and the fuse carrier is free to move. On removal of the drive unit by lifting this upwards and then outwards from engagement ^ with the dowels 60 and 61 the locking member 63 moves ^ 15 under the action of the biasing spring 64 to its upper position wherein projections 65 and 67 are aligned so preventing movement of the fuse carrier.

The drive unit also incorporates an interlock device 'j designed to ensure that the unit cannot be operated while improperly attached to the assembly. At each side of the housing 50 there is provided an interlock arm 70 pivoted to the housing at 71 about an axis lying below the axis of rotation of the sleeve 51. The two arms are secured at upper ends 7 2 to a plate 73 having an upper 25 part 74 that can be manually engaged through an opening 75 in the top of the housing 50. The plate 73 terminates in a lower extension 76 formed with a key-hole slot 77. A tension spring 78 biases the plate and arms into the positions shown in Figure 4, in which the square shaft 30 55 lies within the part-circular section of the key-hole slot and is thus free to rotate. In this position, it will be seen that shoulders 78 of the arms 70 lie adjacent to the upper dowel 60 and effectively lock the drive unit against inadvertent release from those dowels. 35 In order to remove the drive unit it is necessary to grasp the part 7 4 and pull the plate and arms towards the operating member 56, during which movement the square-section shaft 55 moves into the rectangular section of © 207903 -P; I -ft the key-hole slot 77 so preventing rotation of this shaft f and thus operation of the drive unit. The plate and arms similarly need to be moved to enable the drive unit to be fitted to the casing.

In operation, if a fuse is to be fitted to any phase of the circuit the fuse is first manually placed in 'the position shown in the lowermost phase of Figure 1, the slide and slideways being engaged, but further movement of the fuse towards the fixed contacts being prevented ^ 10 by the interlock members 63. The drive unit is then fitted to the casing by moving the interlock arm 70 out of the way as described, engaging the slots 58 and 59 with the dowels 60 and 61 and lowering the drive unit on the ^ dowels to the position shown in the upper phase of Figure 1 and in Figure 4. This causes the projection 65 of the interlock member 63 to move into alignment with the opening 66, so allowing movement of the fuse carrier. The act of properly locating the housing of the drive mechanism with relation to the dowels also automatically 20 correctly positions the cam grooves with respect to the pins 38 and 37 and engages those pins with starting points 53 of two diametrically opposite cam grooves.

The operating member 56 is then operated to charge the appropriate coil spring and release it to drive the sleeve 25 51 clockwise as seen in Figure 2, the rotary movement being translated by the cam arrangement into a linear movement of the fuse carrier towards the fixed contacts so that the fuse carrier contacts are driven into electrical engagement with the fixed contacts. After releasing 30 the interlock arms 70 the drive unit can then simply be lifted and withdrawn from its operative* position, the interlock member 63 then preventing withdrawal of the fuse carrier. It will be seen that the operator's.hand is well removed from the actual region of engagement 35 between the fuse carrier contacts and the fixed contacts so that he is well protected from the effects of any arcing. Additional protection is afforded by proper shaping of the housing so that arcing products are 'C3 1 JUU9& Yi 2 07903 exhausted out of the rear and the side of the housing rather than the front. Furthermore/ the mechanical spring action and the positive guiding of the fuse ensure that the electrical engagement is made rapidly and firmly, so mitigating the effects of any fault condition. If a fuse carrier is to be removed from the engaged position the operation is simply repeated, but in this instance the finishing point of two opposite cam grooves are engaged over pins 38 and 37 and the sleeve 51 is rotated anti-clockwise so that the carrier is withdrawn to the off position.

Safety of operation is enhanced by the interlocks. It will be appreciated that if for some reason full engagement or withdrawal of the fuse carrier has not occurred on operation of the actuator then it will not be possible to remove the drive unit since the cross member 68 of the interlock 63 will prevent the drive unit from being lifted from its engaged position. Warning is thus given of a fault condition.

It will be seen that the form of the cam grooves 52, and the positive driving of the sleeve through 90° on every operation, ensures that the sleeve can always be suitably engaged with the pins 37, 38 of a fuse carrier whether that carrier is in the closed or open position. No resetting of the drive mechanism between successive driving qoerations in either direction is necessary. It is not necessary to use four cam grooves to achieve this result and any desired number (n) can be used so long as the operative starting points of all grooves lie in one common radial plane, the operative finishing points of all grooves lie in a second common radial plane, the operative starting point of one groove and finishing point of the immediately adjacent groove lie in a common axial plane, and the angle of rotation of the sleeve for each operation is .

It will be appreciated that only a single drive unit need be provided for an installation comprising a number of housings, each providing a three-phase outlet. 207^03 Some part of the framework on which the bus bars are supported is usually earthed and the drive unit can conveniently be connected to earth by a wander lead of sufficient length as to allow the unit to be engaged with a fuse carrier in any required position. Apart from the added safety provided by the earthed connection a wander lead prevents the drive unit from being improperly removed from that installation.

Figure 8 shows a broken-away view of part of one phase of an alternative assembly, broadly similar in layout to the assembly of Figures 1 to 3. An insulated moulded casing 81, of which only one internal face is shown, supports a plurality of vertically spaced bus bars such as 82, each bus bar lying behind a wall section joining the two side plates of the casing. Upper and lower forward extensions 84, 85 from the wall section 83 define a compartment in which is mounted a fuse 86 joining contact sections 87, 88 secured in position within the housing. An upper part 89 of contact section 87 is coplanar with the upper surface of bus bar 82. A lower part 90 of contact section 88 is coplanar with part of an output conductor 91, also supported by the casing.

The inner surfaces of the opposed walls of the casing each have upper and lower slideways 92, 93, and an insulating carrier 94 is movable on the slideways into and out of the compartment containing the fuse. The carrier carries upper and lower conductive strips 95, 96. The strip 95 has contact sections 97, 98 engageable respectively with the bus bar 82 and the part 89 to close a circuit therebetween when the carrier is in the position shown. The strip 96 has contact sections 99, 100 engageable respectively with the part 90 and output conductor 91 when the carrier is in the position shown. Thus, the output conductor is connected to the bus bar through the fuse. On movement of the carrier to the left as shown in Figure 8, the circuit is broken on each side of the fuse. The carrier for each individual phase i « 2 07903 may be driven between its two positions by a drive mechanism similar to that described.

In some installations it is only necessary to switch on the output side of the fuse# and in such case the 5 contact section 88 is in fact the upper part of the output conductor, and the lower strip 96 and its contact is omitted from the carrier.

It will be understood that many modifications can be made to the units as described. The drive unit shown is 10 designed to drive the carrier at two points equally spaced to the centre of the carrier so providing a balanced drive that does not induce the carrier to twist on the slide way. Alternatively a single drive point at the centre of the carrier could be used. Rather 15 than drive each carrier separately the three carriers associated with the three phases of a single output may be mounted together as a common assembly, and the drive unit used to drive that assembly so that all three carriers are inserted or removed simultaneously. Drive 20 units other than that described may be used, and changes may also be made to the casing, fixed contact arrangements and interlock means. v| i

Claims (9)

- 14 - 207903 WHAT l/WE CLAIM IS:

1. An electrical assembly comprising a fixed casing' with an opening into the casing; a pair of fixed electrical contacts spaced apart within the casing and set back from 5 the opening into the casing; a contact carrier having, contact means fixed thereon defining two electrically connected spaced contact areas; cooperating guide means on the casing and on the contact carrier for guiding the contact carrier to move within the casing along a 10 rectilinear path between a first position adjacent, to the opening, in which position the contact areas are spaced from the fixed contacts, and a second position in which the contact areas engage the fixed contacts so that a circuit is closed therebetween; a drive unit for mechanically 15 driving the carrier between the first and second positions, the drive unit being a portable self-contained unit acirprising a housing, and a drive.-member movable relative to the housing, and a drive mechanism carried by the housing for effecting movement of the driv.e member; means- for 20 releasably locking the housing in an operational position relative to the fixed casing; and means for detachably coupling the drive member to the contact carrier when the housing is in the operational position.

2. An electrical assembly according to claim 1 in 25 which the cooperating guide means comprise slideway means extending from the opening towards the fixed contacts on inner surfaces of walls of the casing, and slide means on the contact carrier and engaged with the slideway means.

3. An electrical assembly according to claim 1 or 30 claim 2 in which the contact areas are electrically connected by a cartridge fuse.

4. An electrical assembly according to claim 1 or claim 2 in which the contact areas are directly connected by a conductor, the fixed contacts comprTse~~~an - 15 - input contact and an output contact, and the casing supports a fuse between the output contact and an output line.

5. An electrical assembly according to any one of 5 the preceding claims and incorporating interlock means acting between the casing and the carrier, the interlock means having a locking condition preventing movement of the carrier between the first and second positions, and a released condition allowing movement of the carrier between 10 the first and second positions, the interlock means being released by locking the housing in its operational position on the casing.

6. An electrical assembly according to any one of the 15 preceding claims in which the drive member is movable frcm any one of a plurality of positions of rest to any adjacent one of said plurality of positions of rest; the means for detachably coupling the drive member to the contact carrier only allow coupling and detachment when the drive member is in a 20 position of rest; and the drive mechanism acts between the housing and the drive member and is capable of driving the drive member from any one of the positions of rest through an equal movement in either selected one of two opposite senses to finish movement in an adjacent one of the 25 positions of rest.

7. An electrical assembly according to claim 6 in which the contact carrier has cam followers therein; the drive member is rotatable relative to the housing from one position of rest to an adjacent position of rest, and 30 comprises a cylindrical member of circular cross-section having a plurality of cam means formed around the circumference thereof and each subtending an equal angle to the axis of the cylindrical member, which is also the axis of rotation, the cam means being detachably couplable to 35 the cam followers and the cam means and cam followers together forming the means for detachably coupling the drive member to the contact carrier, each cam means having an operative starting point lying in a first plane - 16 - extending radially of the cylindrical member and common to the operative starting points of all the cam means, and an. operative finishing point lying in a second plane parallel to and axially spaced from the first plane and common to 5 the operative finishing points of all the cam means, the operative starting point of each cam means and the operative finishing point of the immediately adjacent cam means lying in a common plane extending axially of the cylindrical member; and the drive mechanism is operative to 10 rotate the cylindrical member either clockwise or anticlockwise as selected, from any starting position of rest through an angle equal to said subtended angle to finish in a position of rest adjacent to the starting position of rest.

8. An electrical assembly according to claim 9 in 15 which the cam means comprises four cam grooves formed through the circular-cylindrical member and each subtending an angle of 90° to the axis thereof.

9. An electrical assembly according to claim 7 or claim 8 in v/hich the drive mechanism includes an operating 20 member and chargeable spring means between the operating member and the drive member, rotation of the operating member in either sense serving to charge the spring means, the spring means being releasable when charged to drive the drive member in the same sense as the operating member was 25 moved during charging. Patent Attorneys for the Applicant(s). un 2 PJ987 ^