WO2004020241A1 - Frictional strip arrangement for a pantograph - Google Patents

Abstract

The invention relates to a frictional strip arrangement (6) comprising a frictional strip carrier (7) which is arched on the longitudinal extension thereof, having a cross-sectional profile section made of an electrically conductive material and having a plurality of longitudinal chambers (13). Said frictional strip arrangement also comprises a frictional strip (15) which is made of carbon and is fixed to a flat side of said frictional strip (7) by means of electrically conductive adhesion. Said frictional strip (15) is bordered at least in the central longitudinal section thereof (17) on both sides by respectively a supporting metal sheet which is made of an electrically conductive material. A longitudinal channel (24), which is impinged upon by air pressure, is arranged in the frictional strip (15). An air connection (25) is associated with said longitudinal channel (24) on one end thereof. The inventive frictional strip arrangement (6) can be fixed to a rocker of the pantograph by means of a stud (33).

Description

 Contact strip arrangement for a pantograph

The invention relates to a contact strip arrangement for a current collector, which can be used both in slow and in fast-moving electrically powered traction vehicles (trams, electric locomotives).

Such a contact strip arrangement has a contact strip carrier and an associated contact strip made of carbon. In addition, a longitudinal channel charged with air is provided in the contact strip arrangement. The contact strip arrangement usually forms part of the rocker of a pantograph in a paired composition.

If the contact strip is destroyed, especially in the case of contact wires in poor condition, the compressed air in the longitudinal channel can relax, which then leads to suitable mechanisms that move the pantograph away from the contact wire. In practice, since in many cases Even bad contact wires cannot be exchanged easily, for example if the associated costs cannot be paid for, this leads to a comparatively high maintenance outlay for the pantographs as a comparatively minor problem.

Starting from the prior art, the invention is based on the object of creating a contact strip arrangement for a current collector which, even in the case of poor contact wire conditions, does not require any maintenance outlay which goes beyond the requirements which are usually required from an operational point of view.

This object is achieved with the features specified in claim 1.

By providing a trapezoidal cross-sectional profile with at least one longitudinal chamber made of an electrically conductive material, such as aluminum in particular, care is first taken to ensure that the grinding strip carrier is comparatively light in weight and is nevertheless sufficiently resistant to bending and warping. The contact strip, which can extend over the entire length of the rectilinear or curved curved contact strip holder or consists of several, in particular three, longitudinal sections placed against one another, of which only the middle section comes into contact with a contact wire in practical use glued to the upper flat side of the grinding strip support facing away from the respective vehicle. It is important that the adhesive used or the adhesive connection is electrically conductive.

The middle length section of the contact strip is preferably bordered on both sides by a supporting plate, in particular made of an electrically conductive material such as aluminum. These supporting plates consequently protect the break-prone carbon contact strip against, in particular, sudden loads on a contact wire that no longer has a smooth contact zone. Since the support plates are made of aluminum or copper they are worn and / or rubbed to the same extent as the contact strip due to the frictional contact with the contact wire. The function of proper power consumption is therefore not affected. The rapid lowering of a pantograph is also guaranteed if the contact strip is destroyed by whatever effects and the compressed air in the longitudinal channel can relax.

The support plates thus form a kind of corset for the contact strip with the aim of a long service life of the contact strip with little maintenance, even if the contact wire is in a very bad condition.

To further improve the embedding of the contact strip between the support plates, the features of claim 2 provide that each support plate is connected to the contact strip by an electrically conductive adhesive.

With the features of claim 3, according to which joints are formed from the cross-section between the contact strip and the support plates and these joints are filled with an electrically conductive flexible adhesive, even extremely hard impacts on the contact strip can be absorbed by impact energy from the elastic adhesive Deformation energy is converted.

According to the features of claim 4, it is possible that the support plates are attached to the outside of the grinding strip support. The support plates can be attached to the grinding strip support, for example by rivets. Other types of attachment, such as Gluing or welding are of course applicable.

According to claim 5, it is also conceivable that the support plates form one-piece components of the grinding strip support. Such an embodiment proves to be particularly advantageous when the grinding strip carrier is produced as a drawn profile. Another advantageous embodiment of the invention is seen in the features of claim 6. In this case, the support plates form the legs of a rail, which in particular has a trapezoidal cross-section, which surrounds the contact strip on three sides and is attached to the contact strip support via its web. The possibly also rectangular rail consists of an electrically conductive material, in particular aluminum or copper. It covers the contact strip in such a way that it is held securely in its operating position. They are preferably attached to the grinding strip support using an electrically conductive adhesive. The contact strip can also be fixed to the web and the legs of the rail by an electrically conductive adhesive.

The longitudinal channel acted upon by compressed air can be formed directly in the contact strip according to claim 7. By gluing the contact strip on the upper flat side of the contact strip support, the longitudinal channel is properly sealed pressure-tight. A connection for supplying the compressed air is then provided at one end or at both ends of the longitudinal channel, in particular in an area of the contact strip which does not come into contact with the contact wire. This connection extends through the grinding strip support.

To improve the electrical contact, it is provided in accordance with the features of claim 8 that the underside of the contact strip adjacent to the contact strip carrier is provided with an electrically conductive metallic coating. This coating preferably also extends over the longitudinal channel and at least at the edge of the side surfaces of the contact strip, which are in contact with the support plates.

According to claim 9, the longitudinal channel acted upon by compressed air can also be formed in the grinding strip support. It is then closed off from the contact strip by an elastic sealing lip. If the contact strip is destroyed due to high loads, it can also the sealing lip no longer holds in position and releases the longitudinal channel so that the compressed air can escape and the pantograph is immediately lowered.

According to the features of patent claim 10, the grinding strip carrier is preferably equipped with three longitudinal chambers running side by side, which are suitably closed at the ends. The middle longitudinal chamber can be used to accommodate threaded inserts that can be moved longitudinally in it. Screw bolts can then be screwed into these threaded inserts, which serve to fix the grinding strip support on a base, in particular a rocker.

The invention is explained in more detail below on the basis of exemplary embodiments illustrated in the drawings. Show it:

Figure 1 in side view of a pantograph for an electric locomotive;

Figure 2 is a side view of a contact strip arrangement of the

Current collector of Figure 1 according to arrow II;

Figure 3 shows the contact strip arrangement of Figure 2 in plan view according to arrow III;

Figure 4 is a side view of a contact strip for a contact strip arrangement;

Figure 5 shows the contact strip of Figure 4 in plan view corresponding to the

Arrow V;

Figure 6 in vertical longitudinal section in an enlarged view the detail

VI of Figure 2;

FIG. 7 shows an enlarged illustration of a vertical cross section along the line VIII-VIII of FIG. 2 in the direction of the arrows VIII; Figure 8 also on an enlarged scale a vertical cross section through the representation of Figure 2 along the line Vll-Vll, seen in the direction of the arrows Vlla, according to a further embodiment;

Figure 9 is an enlarged view of a vertical cross section through the

Figure 2 along the line Vll-Vll, seen in the direction of the arrows Vlla, according to a third embodiment;

Figure 10 seen on a larger scale a cross section through the representation of Figure 6 along the line X-X in the direction of arrows Xa;

FIG. 11, seen on an enlarged scale, a vertical cross section through the representation of FIG. 6 along the line Xl-Xl in the direction of the arrows Xla, according to a fourth embodiment and

12 shows, on an enlarged scale, a vertical cross section through FIG. 2 along the line Vll-Vll in the direction of the arrows Vlla according to the fourth embodiment.

In FIG. 1, 1 denotes a pantograph, which is attached to insulators 2 on the roof 3 of an electric locomotive (electric locomotive) that is otherwise not shown in detail. At the free end of the pantograph 1 there is a rocker 5 with two contact strip arrangements 6.

A grinding strip arrangement 6, which can be seen in more detail in FIGS. 2 and 3, has, as can also be seen in FIGS. 6 and 7, a grinding strip carrier 7 which is curved in the longitudinal direction and is made of an electrically conductive material, in particular aluminum. The grinding strip carrier 7 has a trapezoidal cross section with an upper flat side 8 and a lower, narrower flat side 9 and inclined side surfaces 10. The cross section of the grinding strip carrier 7 is in three by two longitudinal webs 11 adjacent longitudinal chambers 12, 13, 14 divided. The cross section of the longitudinal chambers 12-14 remains the same over the entire length of the grinding strip support 7.

A grinding strip 15 made of carbon with a rectangular cross section is glued to the upper flat side 8 of the grinding strip carrier 7. The adhesive 16 used for this purpose is electrically conductive.

As can be seen in FIGS. 2, 3 and 6, the contact strip 15 is divided into three length sections 17, 18, 19. The middle length section 17 has a length which is sufficient for all relative movements between the contact strip arrangement 6 and a contact wire 20 (Figure 1) only the middle length section 17 comes into contact with the contact wire 20. The butt joints 21 between the central longitudinal section 17 and the arcuately curved end longitudinal sections 18, 19 run at an angle which extends obliquely to the vertical central longitudinal plane VMLE of the contact strip arrangement 6 (FIG. 3).

Support plates 22 made of an electrically conductive material, in particular aluminum, are riveted to the side surfaces 10 of the grinding strip support 7 over the major part of the length of the central length section 17. The support plates 22 laterally enclose the length section 17 of the contact strip 15. An electrically conductive adhesive 16 can be introduced between the support plates 22 and the length section 17.

Furthermore, FIGS. 6 and 7 show that a longitudinal channel 24 is formed in the underside 23 of the contact strip 15, which is located frontally opposite the upper flat side 8. The longitudinal channel 24, which extends over the entire length of the middle length section 17 and partial lengths of the end length sections 18, 19 of the contact strip 15, is acted upon by compressed air during the operation of the contact strip arrangement 6. For this purpose, an air connection 25 is provided at the end of the length section 18. As can be seen in FIGS. 6 and 10, the air connection 25 comprises a longitudinally channeled one Screw bolt 26, which is rotated into a threaded insert 27, which is displaceable in the central longitudinal chamber 13 of the grinding strip support 7. A washer seal 29 is located between the screw bolt 26 and the perforated upper wall 28 of the central longitudinal chamber 13.

The position of the screw bolt 26 is secured by a lock nut 30. A compressed air hose can be connected to the free end of the screw bolt 26.

The other end of the longitudinal channel 24 in the length section 19 of the contact strip 15 also includes an air connection 32 (FIG. 2). However, this is closed by a stopper.

The grinding strip support 7 is fixed on the rocker 5 by means of four screw bolts 33. As can be seen in this context in particular FIGS. 6 and 11, 7 threaded inserts 27 are inserted into the central longitudinal chamber 13 of the grinding strip support. The screw bolts 33 are screwed into these threaded inserts 27, which then together with nuts 34 and washers 35 serve to fix the contact strip arrangement 6 on the rocker 5.

The contact strip arrangement 6a according to FIG. 8 differs from that of FIGS. 2, 3, 6 and 7 in that the side support plates 22a form integral parts of a contact strip support 7a. Otherwise, the contact strip arrangement 6a corresponds to that of FIGS. 2, 3, 6 and 7, so that further explanations are unnecessary.

FIG. 9 illustrates a contact strip arrangement 6b which corresponds in principle to that of FIGS. 2, 3, 6 and 7. In addition, it can be seen that 22 joints 36 are formed between the contact strip 15 and the support plates. The cross-section of these joints 36 is kept somewhat larger than a conventional joint gap with sliding play, so that an electrically conductive flexible joint is provided therein Adhesive 37 can be embedded. The adhesive 37 can then additionally absorb shocks from driving.

It can also be seen that the underside 23 of the grinding strip 15, which is adjacent to the grinding strip support 7, is provided with an electrically conductive metallic coating 38. This coating 38 also extends over a short length section of the side surfaces 39 of the contact strip 15 and over the longitudinal channel 24 in the contact strip 15.

Further explanations are unnecessary, since this embodiment otherwise corresponds to that of FIGS. 2, 3, 6 and 7.

FIGS. 4, 5, 11 and 12 show a contact strip arrangement 6c, in which the ends 40 of the central length section 17a of a contact strip 15a and the end sections 18a, 19a of the contact strip 15a have a rectangular cross-sectional configuration, while the central length section 17a has a predominant one Part of its length has a trapezoidal cross-sectional configuration.

In this length section 17a, the contact strip 15a is encompassed on three sides 42, 43, 44 by a trapezoidally curved rail 41 made of an electrically conductive material, such as in particular aluminum. The support plates 22b form the legs of the rail 41. The contact strip 15a can be connected to the rail 41 by an electrically conductive adhesive 16 on the three sides 42, 43, 44.

The rail 41 is connected via its web 45 by an electrically conductive adhesive 16 to the upper flat side 8 of the grinding strip support 7b. The flat side 8 forms part of an upper recess 46 of the grinding strip support 7b. Silicone 47 is provided as a sealing compound in the longitudinal edge areas. In order to compensate for a height difference, flat strips 48, which can be seen in FIGS. 6 and 11, are inserted into the transition regions from the ends 40 of the trapezoidal length section 17a to the rectangular length sections 18a, 19a.

In addition, in the embodiment of FIGS. 11 and 12 it can be seen that here the longitudinal channel 24a to which compressed air can be applied is formed in the grinding strip support 7b, for which purpose the upper wall 49 of the central longitudinal chamber 13 is thicker than the upper walls 50 of the lateral longitudinal chambers 12, 14 , From the upper wall 49 two arcuate strips 51 extend in recesses 52, 53 of the web 45 of the rail 41 and the flat strip 48. The gap between the two strips 51 is sealed by a T-shaped sealing lip 54 made of an elastic material.

REFERENCE NUMBERS

1 - pantograph

2 - isolators

3 - roof v. 4

4 - electric locomotive

5 - seesaw

6 - contact strip arrangements 6a - contact strip arrangement 6b - contact strip arrangement 6c - contact strip arrangement

7 - grinding strip support 7a - grinding strip support 7b - grinding strip support

8 - upper flat side v. 7, 7a, 7b

9 - lower flat side v. 7, 7a, 7b

10 - side faces of 7

11 - longitudinal webs in 7, 7a, 7b

12 - longitudinal chamber in 7, 7a, 7b

13 - longitudinal chamber in 7, 7a, 7b 14 - longitudinal chamber in 7, 7a, 7b

15 - contact strip 15a - contact strip

16 - adhesive

17 - middle length section from 15 17a - middle section of v. 15a

18 - length section from 15

19 - end section of v. 15 20 - contact wire

21 - joints of 17 with 18, 19

22 - support plates f. 15 a- support plates b- support plates 3- underside v.15 4 - longitudinal duct in 15 a - longitudinal duct in 7b 5 - air connection to 24, 24a 6 - screw bolt v.25 7 - threaded insert 8- wall v.13 9- washer seal 0 - lock nut 1 - free end v.26 2 - air connection 3 - screw bolts 4- nuts 5- washer 6- joints 7 - adhesive 8 - coating 9 - side surfaces v.15 0- ends v.17a 1 - rail 2- side v.15a 3- Side v.15a 4- Side v.15a 5 - Bridge v.41 6 - Recess v.7b 7- Silicone 8- Flat strips 9- Upper wall v.13 0 - Upper walls v.12, 14 51 - Last on 49

52 - recess in 45

53 - recess in 48

54 - sealing lip

VMLE - vertical median longitudinal plane v. 6

Claims

claims

1. A contact strip arrangement for a current collector (1) which has a contact strip support (7, 7a, 7b) with a trapezoidal cross-sectional profile comprising at least one longitudinal chamber (12, 13, 14) made of an electrically conductive material and at least one by means of electrically conductive adhesive (16) comprises a carbon grinding strip (15, 15a) fixed on a flat side (8) of the grinding strip carrier (7, 7a, 7b) and at least in its central longitudinal section (17, 17a) on both sides by a supporting plate (22, 22a, 22b) ) and is at least indirectly connected to a longitudinal channel (24, 24a) loaded with compressed air.

2. Contact strip arrangement according to claim 1, in which each support plate (22, 22a, 22b) is connected to the contact strip (15, 15a) by an electrically conductive adhesive (16).

3. Contact strip arrangement according to claim 2, in which between the contact strip (15) and the support plates (22) joints (36) are formed and the joints (36) are filled with an electrically conductive, flexible adhesive (37).

4. contact strip arrangement according to one of claims 1 to 3, in which the support plates (22) on the outer sides (10) of the contact strip support (7) are attached.

5. Sanding strip arrangement according to one of claims 1 to 3, in which the support plates (22a) form one-piece components of the grinding strip support (7a).

6. contact strip arrangement according to one of claims 1 to 3, wherein the support plates (22b) the legs of the contact strip (15a) on three Form sides (42, 43, 44) and via their web (45) attached to the grinding strip support (7b) rail (41).

7. contact strip arrangement according to one of the claims 1 to 6, in which the compressed air along the longitudinal channel (24) is formed in the contact strip (15).

8. contact strip arrangement according to one of the claims 1 to 7, in which the contact strip (7) adjacent underside (23) of the contact strip (15) is provided with an electrically conductive metallic coating (38).

9. contact strip arrangement according to one of the claims 1 to 6, in which the compressed air compressed longitudinal channel (24a) in the contact strip support (7b) is formed and sealed by a sealing lip (54) relative to the contact strip (15a).

10. contact strip arrangement according to one of claims 1 to 9, in which in the contact strip support (7, 7a, 7 b) three adjacent longitudinal chambers (12, 13, 14) are provided, of which the central longitudinal chamber (13) for receiving displaceable thread inserts (27) is formed.