DE19620222C1 - Earth connection device for linear motor inductor electric conductor - Google Patents

Abstract

A device is disclosed for connecting the electrically conducting jacket of an electrical line inlaid in the grooves of a linear motor inductor to an earth lead. The device is a metal shell (13) which encloses the line (12) around more than half its outer periphery in the confines of the groove. The inner diameter of the shell is slightly smaller than the outer diameter of the line (12) and the shell can be secured in the appropriate groove (11) lying on the inductor (10).

Description

The invention relates to a device for connecting the electrically conductive jacket one in the grooves of the induc Tor of a linear motor inserted electrical line with an earth conductor. A device of this type is known from DE 33 09 051 A1 knows. There the earth conductor is at the end of the groove over more than half the outer circumference led around the electrical wire.

DE 30 06 382 C2 is already a three-phase change current winding for the inductor of a linear motor is known, where the lines of the individual winding strands in the Prefabrication mechanically firmly connected and then be inserted into the grooves of the inductor. The mechanical fixed connection can be realized using brackets that hold the cables together at the end windings and at the same time an electrical connection of the line Make coats with an earth conductor, which runs along the In is passed past the winding heads.

The job of the earth conductor is to do the electrical conductive sheath of the individual lines of the three-phase Connect AC winding to ground potential to kapa  derive citive charging currents, detect earth faults and ei enable fault location. It is also said to be a danger protection against contact with the cables must be guaranteed.

However, it has been shown that the connection of the earth conductor according to DE 33 09 051 A1 and also the clamp connection according to DE 30 06 382 C2 on the end windings no constant low contact resistance, even with long ones timely operation of the three-phase winding guaranteed, because Environmental influences can cause corrosion at the contact points to step.

It is therefore an object of the invention to provide a device for Connect the electrically conductive jacket of an electri line with an earth conductor, which is largely is corrosion-resistant and the assembly of the line is not he sword.

The invention solves this problem by a line in Groove area enclosing more than half the outer circumference Metal shell, the inside diameter of which is slightly smaller than is the outside diameter of the pipe and that in the respective can be fastened to the inductor lying flat in the groove.

The invention makes it possible to line up each a relatively long section on the metal shell elek contact trisch by being inserted into the metal shell is laid. Since the inner diameter of the metal shell is gig is smaller than the outside diameter of the line the best fit of the metal shell on the outer jacket of the Line, so that they are then possibly together with the in it the line can be fastened in a groove of the inductor. The pipe is held in the metal bowl because it is from it on a circumferential section of more than 180 ° is closed. This type of assembly is independent of one electrical connection of the metal shell to the earth conductor.  

It is also possible to insert the cable into the metal shell gene after this is fixed in a groove of the inductor has been.

The metal shell can be as long as the groove. But if that one end of the metal shell over the groove in its longitudinal direction something protrudes, can be there in a very simple way Connection of the earth wire are made, causing corrosion permanent clamping screw connections or welds are applicable. The latter type of connection is particularly suitable for a metal shell that does not protrude beyond the groove or is also shorter than this.

The metal shell can be screwed or clamped in the groove elements are attached. However, it is preferably resilient sch and has outward curved longitudinal edges, their width and Bending angles are dimensioned so that they are when pressed spread into the groove on the inside walls. This is one very simple assembly of the metal shell with the lying in it the line possible, because this unit can go into the groove be pushed in, the two bent outwards Slide the longitudinal edges along the inner walls of the groove and after the insertion process due to the elasticity of the me tall shell are spread apart so that the metal then shell automatically in the groove non-rotatable and non slidably stuck and holds the cable accordingly.

The inner walls of the groove can have longitudinal recesses for receiving them of the long edges of the metal shell. This will make the fe metal seat in the groove of the inductor improved because when the metal shell is pressed into the groove latch the longitudinal edges in their longitudinal recesses.

In the above version, the seat of the metal shell in the groove of the inductor due to the resilient properties shank of the metal shell guaranteed, because it spreads itself in the groove. But it is also possible to use the metal shell  without anchoring this spring property in the groove, whereby the outer contour of the metal shell ent the inner contour of the groove speaks. In this case, the metal shell can fit well from who pushed the end of the inductor into the groove the.

The grooves of the inductor can be made with a plastic be dressed. This enables the grooves to be adjusted well contour to the contour of the metal shell. The plastic can be in the grooves are injected.

The device can also be a metal shell insert which can be inserted into the groove and fastened in this include, the inner contour of the outer contour of the metal shell corresponds. Such a molded part can, for. B. as an art Injection molded part to be formed before or after Fastening the metal shell into the inductor is used. This has the advantage that molded parts of different types for cables of different diameters and / or materials than can be provided, which are designed in the same way Grooves of the inductor can be used.

Are also advantageous when using a plastic clothing or a molded part on the metal shell to the outside curved longitudinal edges provided on the inner longitudinal edges lock the molded part.

So that the molded part cannot be rotated in the groove of the inductor stuck, there may be at least one outer longitudinal projection and / or have at least one outer longitudinal recess, wherein the inner contour of the groove ent the outer contour of the molded part speaks. This results in a lock between the shape part and groove against rotation, so that the molded part in its longitudinal direction is to be inserted into the groove when it is in the inductor is mounted. A single longitudinal advance is sufficient jump or a single outer longitudinal depression of the Molded part to realize this type of assembly.  

On at least one longitudinal end, the metal shell can have a Connection element for the earth conductor must be provided. This can for example, be a metal terminal lug with which the Earth conductor z. B. welded, jammed or screwed can. Because such a connection flag is not also at the same time as a mounting element for the lines of the AC winding serves, at this point a corrosion-resistant type finally be produced.

The metal shell suitably consists of steel, preferably made of stainless steel. By choosing a suitable material, optimal cor corrosion resistance also of the connection between metal guaranteed shell and conductive outer sheath of the line.

Several metal shells can be connected via their connecting elements an earth conductor connecting them firmly connected into the Form grooves of an inductor insertable assembly unit. A such assembly unit can be made in a single punching operation Stainless steel sheet can be made. It enables a special quick assembly of a variety of metal shells in the Grooves of an inductor.

An embodiment of a device according to the invention is explained in more detail below with reference to the drawings. In it show:

Fig. 1 is a schematic perspective view of the inductor of a linear motor with a three-phase alternating-current winding,

Fig. 2 shows in perspective a single groove of the inductor with included therein a metal shell,

Fig. 3 shows the cross-section of a metal shell having therein supported tener line in a groove of an inductor,

Fig. 4 shows the cross section of a metal shell in the groove of an inductor,

Fig. 5 is a molded part inserted into an inductor for receiving a line, and

Fig. 6 several metal shells as an assembly unit.

In Fig. 1, a section of the inductor 10 of a Linearmo gate is shown, in the grooves 11, the strands 12 of a three-phase AC winding. These strands consist of insulated electrical cables with a jacket made of an electrically weakly conductive material, the z. B. can be an electrically conductive rubber compound.

The winding strands 12 are held in the grooves 11 of the inductor 10 with metal shells 13 , which each enclose a line over more than half of its circumference and are immovably stuck in the nu 11 . For this purpose, the metal shells 13 have bent longitudinal edges 14 at their longitudinal opening, and these longitudinal edges 14 are dimensioned and angled in such a way that, after the respective metal shell 13 has been pressed into the groove, they are spread out in their recesses and can no longer fall out automatically. Since the metal shell 13 has an inner diameter that is slightly smaller than the outer diameter of the strand 12 , it is slightly pushed apart when the line is inserted, so that it already tightly encloses the line due to its elasticity and a good electrical connection with its conductive outer jacket one goes. The metal shell 13 can then, for. B. with a connection flag, which protrudes beyond the respective groove 11 , can be relatively easily connected to an earth conductor which is guided along the inductor in the area of the metal shells 13 . The connection flag can also be connected directly to earth potential.

Such an earth conductor 15 is shown in FIG. 2. The figure shows part of the inductor 10 in an enlarged view with a groove 11 into which a metal shell 13 is inserted. The two edges 14 of the metal shell 13 are spread on the inner walls of the groove 11 , so that the metal shell 13 is stuck in the groove 11 . The metal shell 13 protrudes from the groove 11 and is provided on its top with a connection flag 16 , the z. B. can be welded to it. This terminal lug 16 is electrically connected at 17 to the earth conductor 15 , for example screwed or welded ver. If the earth conductor 15 is in turn attached to the inductor 10 , the connection of the metal shell 13 to the earth conductor 15 at point 17 results in addition to the electrical connection and an additional mechanical fastening of the metal shell 13 in the inductor 10 .

It is of course also possible to press the respective strand 12 into the metal shell 13 after its installation in the inductor 10 , because the elasticity of the line allows this. Fer ner, the metal shell 13 can also be shorter than the groove 11 , so that the terminal lug 16 is then inserted into the groove 11 .

Fig. 3 shows the sectional view of the arrangement shown in Fig. 2 with the strand 12 of a line, but without the electrical connection of the metal shell 13 with a Erdlei ter. Again, it will be appreciated that the metal shell 13, 12 surrounds the strand over more than half of its outer periphery and has at its opening outwardly bent longitudinal edges 14 that are stuck to the inner wall of the groove 11, so that the Me tallschale 13 with the in their held line stuck in the groove 11 . It can also be seen that the metal shell 13 ensures a large-area electrical connection with the outer jacket of the line.

Fig. 4 shows two longitudinal recesses 20 on the right and the left inside wall of the groove 11 of the inductor 10 degrees. The metal shell 13 is locked with its longitudinal edges 14 in these longitudinal recesses 20 . Here, too, a line not shown in FIG. 4 is held by the spring elasticity of the metal shell 13, possibly in conjunction with its own resilience.

Fig. 5 shows a type of line attachment that is based only on the compliance of the line material. In the groove 11 'of the inductor 10 , a molded part 25 is inserted, the z. B. can be a plastic injection molded part. It has upper longitudinal projections 27 and lower longitudinal recesses 28 which form an outer contour, which is adapted to the inner contour of the groove 11 ', so that the molded part 25 is inserted in its longitudinal direction into the groove 11 ' and then non-rotatably stuck in it.

Near its opening, the molded part 25 has on both sides in nere longitudinal edges 26 on which the outwardly bent longitudinal edges 14 of the metal shell 13 latch when it is inserted into the molded part 25 . You do not necessarily have to be made of fe derelastic material, but this favors the tight fit of the metal shell 13 in the molded part 25th

Also, the strand is shown schematically in FIG. 5 12 an electrical rule line, the direction in the arrow shown is pressing into it from below into the mold part 25 and then is firmly seated therein. The resilient Lei line material is compressed, but can stretch again when the strand 12 has reached its end position in the metal shell 13 .

The outside of the line is advantageous for this purpose a lubricious, electrically conductive coating verse hen.

Fig. 6 shows an assembly unit consisting of several metal shells 13 , on them provided connecting lugs 16 and an earth conductor 15 connecting them. This has ge cranked points 18 , which serve to compensate for spacing tolerances of the grooves in the inductor, and is connected with a cable 19 , which is to be connected to earth potential.

Claims (12)

1. A device for connecting the electrically conductive man means one inserted into the grooves of the inductor of a linear motor electrical line with an earth conductor, characterized by a line ( 12 ) in the groove area over more than half the outer circumference surrounding metal shell ( 13 ), the Inner diameter is slightly smaller than the outer diameter of the line ( 12 ) and lying in the respective groove ( 11 ) on the inductor ( 10 ) can be fixed. 2. Apparatus according to claim l, characterized in that the metal shell ( 13 ) is resilient and has outwardly curved longitudinal edges ( 14 ), the width and angle of which are dimensioned such that they press against them in the groove ( 11 ) Spread inside walls. 3. Apparatus according to claim 2, characterized in that the inner walls of the groove ( 11 ) longitudinal recesses ( 20 ) for receiving the longitudinal edges ( 14 ) of the metal shell ( 13 ) ha ben. 4. Device according to one of the preceding claims, characterized in that the outer contour of the metal shell ( 13 ) corresponds to the inner contour of the groove ( 11 ). 5. Device according to one of the preceding claims, characterized in that the groove ( 11 ) is lined with a plastic. 6. The device according to claim 5, characterized by a metal shell ( 13 ) receiving, in the groove ( 11 ') insertable and fixable in this molded part ( 25 ), the inner contour of the outer contour of the metal shell ( 13 ) speaks ent. 7. Apparatus according to claim 5 or 6, characterized in that the metal shell ( 13 ) has outwardly bent longitudinal edges ( 14 ) which on the inner longitudinal edges ( 26 ) of the clothing or the molded part ( 25 ) latch. 8. The device according to claim 6 or 7, characterized in that the molded part ( 25 ) has at least one outer longitudinal projection ( 27 ) and / or at least one outer longitudinal recess ( 28 ), and that the inner contour of the groove ( 11 ') of the outer contour of the molded part ( 25 ) corresponds. 9. Device according to one of the preceding claims, characterized in that the metal shell ( 13 ) has at least one longitudinal end at least one connecting element ( 16 ) for the earth conductor ( 15 ). 10. The device according to claim 9, characterized in that the connecting element is a metal connecting tab ( 16 ). 11. Device according to one of the preceding claims, characterized in that the metal shell ( 13 ) consists of steel, preferably stainless steel. 12. Device according to one of claims 9 to 11, characterized in that a plurality of metal shells ( 13 ) via their connecting elements ( 16 ) with a connecting Erdlei ter ( 15 ) firmly connected in the grooves ( 11 ) of an In ductor ( 10 ) form usable assembly unit.