DE20101299U1 - Welding strap for an earthing bridge - Google Patents

Description

WEITKOWITZ ELECTRIC GMBH

5585 Br/fr-js **·..**

24.01.2001 - Description - · · · ·

Weld-on lug for a grounding bridge

The invention relates to a welding lug for an earthing bridge with a connection area for receiving a reinforcement, and a compressible metal sleeve connected to the connection area for receiving a cable.

Earthing bridges are used to earth reinforced concrete elements to ensure an electrical connection between the steel reinforcements and, for example, with the outside of the concrete element. Since concrete is not electrically conductive, the steel reinforcements can ensure electrical discharge and a short circuit with the ground. Such earthing is particularly necessary near high-voltage lines, e.g. overhead lines on railway tracks, in order to ensure safe discharge of the high voltage if the lines break and come into contact with the concrete elements and to minimize the risk of arcing to neighboring areas and people.

The connection of the earthing bridges to steel reinforcements, especially rebar, is usually done via welded lugs, which are connected directly or via a cable to a connection socket or another welded lug. After the earthing bridges have been attached, the concrete element in question is cast so that the earthing bridges are cast in with the exception of external connections.

Conventional welding lugs are designed as cable lugs with a flat end area that is connected to the round reinforcement, e.g. by arc welding. The reinforcement rests on one side with its round outer circumference on the flat connection lug. The contact area between the lug and the reinforcement is therefore small. Furthermore, the contact area is difficult to access and can only be inspected from the outside with difficulty.

In order to achieve a high total length of the welds, the reinforcement must be welded to the weld lug at an angle of 45°

WEITKOWITZ ELECTRIC GMBH
5585 Br/fr-js <

24.01.2001 - Description -

The contact between the weld lug and the reinforcement is thus largely established by the weld seam. A shorter weld seam usually leads to a smaller contact area and thus insufficient grounding.
5

In practice, the welding often has to be carried out by the personnel under difficult conditions. There are no assembly aids available. In practice, therefore, functioning earthing often depends on the personnel correctly estimating the welding angle. Often, instead of the desired weld seam, only spot welds can be achieved, without this being directly visible from the outside. However, due to their small cross-sectional area, these spot welds have too high an electrical resistance, so that they can melt when high voltage is applied, which can completely destroy the electrical connection.

Unfavourable space conditions, lack of knowledge or incorrect angle estimation can easily lead to insufficient grounding. Subsequent correction is usually not possible or only possible with great effort.

The invention is based on the object of creating improvements over the prior art and in particular of creating a weld-on lug that ensures a secure connection to a reinforcement that is easy to handle and install. This weld-on lug should advantageously be relatively inexpensive to produce.

This object is achieved according to the invention in that the connection area is designed as a connection angle.

Advantageously, the connection angle is designed as a 90° angle with legs of equal length.

The angled design allows the round reinforcement to be safely and self-centeringly accommodated. It can be inserted by the staff directly into

WEITKOWITZ ELECTRIC GMBH
5585Br/fr-js »*\

24.01.2001 - Description - ·

·

the angled connection area is pressed and is secured against twisting on two sides.

Thus, the direct contact with both sides of the connection area creates a contact surface that is twice as large as in the prior art. During welding, two weld seams that extend over the entire length of the angle piece can be formed safely and with a known length. The weld seams can in particular be designed as V-seams.

This results in a clear and secure positioning of the reinforcement in the connection angle without the operating personnel having to estimate an installation angle. The welding bracket according to the invention also has a more compact design compared to the state of the art, so that installation is possible without any problems even in confined spaces. The length of the connection angle ensures a sufficient welding length, so that only the correct welding of the individual seams, which are clearly visible from the outside, needs to be checked.

The connection angle is advantageously open perpendicular to the axis of the metal cylinder; however, another orientation is also possible.

WEITKOWITZ ELECTRIC GMBH
5585Br/fr-js . »V.

24.01.2001-Description- .'

The invention is explained in more detail below with reference to some embodiments and the accompanying drawings. They show:

Figure 1a is a front view of a welding lug according to the invention in accordance with a first embodiment of the invention;

Figure 1b shows an axial section of the welding lug from Figure 1a;

Figure 2 is a side view of the weld tab of Figure 1 b with inserted and welded reinforcement;

Figure 3 is a side view of an earthing bridge with a connection socket and a weld-on lug according to the invention with welded reinforcement in the cast concrete element; " ,

Figure 4 is a side view of another earthing bridge with two welding lugs according to the invention and welded reinforcements before encasing in concrete.

According to Figures 1 and 2, the welding tab 1 has a metal cylinder, in particular a steel cylinder 6 with a central bore 7. The metal cylinder 6 is welded at an angle α of, for example, 45° to a connecting angle 2, which is also made of steel, in weld seams 5. The metal cylinder 6 is advantageously welded according to Figures 1b, 2 to a flat-pressed end 9 of the connecting angle 2, wherein the weld seam 5 is arranged in particular along the leg 4.

Such a welding lug can thus be produced cost-effectively from two parts, a connection angle 2 and a metal cylinder 6. A copper cable 12 can be inserted into the bore 7 and the metal cylinder 6 can then be pressed in a pressing area 11 in order to achieve a connection.

WEITKOWITZ ELECTRIC GMBH

5585 Br/fr-js ·**..*

24.01.2001-Description- .* &iacgr;*** . * * *" * *

A reinforcement 8 is accommodated in the connection angle according to Figure 2 in such a way that it rests against each leg 3, 4. It is connected to the legs 3, 4 via two weld seams 16 extending in the direction of the reinforcement.
5

Figures 3 and 4 show earthing bridges with connection angles according to the invention.

Figure 3 shows an earthing bridge according to the invention with a welding lug 1 according to the invention, which is connected to a connection socket 14 via a cable 12. A connection outside the concrete element 10 can be made via the connection socket.

This makes it possible to connect to the next concrete element using an earthing bridge.
15

In the earthing bridge 17 of Figure 4, a further connection angle is provided at the other end of the cable 12 via a compression area 11, so that two reinforcements 8 can be connected to each other.

WEITKOWITZ ELECTRIC GMBH

5585 Br/fr-js »"..** ,··, ,· ».

24.01.2001-Description- .*!**«.; * · · ·

List of reference symbols

1. Weld-on lug

2. Connection angle

3. Leg of the connection angle

4. Leg of the connecting angle

5. Weld seam

6. Metal cylinder

7. Drilling
8. Reinforcement

9. flat pressed end

10. Concrete element

11. Crimping area 12. Cable

13. Concrete

14. Connection socket 15.

16. Weld seam 17. Earthing bridge

A axis
&agr; angle

Claims (6)

1. Weld-on lug for an earthing bridge, with a connection area ( 2 ) for receiving a reinforcement ( 8 ), and a compressible metal sleeve ( 6 ) connected to the connection area ( 2 ) for receiving a cable ( 12 ), characterized in that the connection area is designed as a connection angle ( 2 ). 2. Weld-on lug according to claim 1, characterized in that the connection angle has two legs ( 3 , 4 ), preferably two legs of equal length. 3. Weld-on lug according to claim 1 or 2, characterized in that the connection angle ( 2 ) has a 90° angle. 4. Welding lug according to one of the preceding claims, characterized in that the connection angle ( 2 ) is open in a direction perpendicular to an axis (A) of the metal sleeve ( 6 ). 5. Weld-on lug according to one of the preceding claims, characterized in that the metal sleeve is pressed flat at one end, wherein the flat-pressed end ( 9 ) is welded to the connection angle. 6. Earthing bridge with a weld-on lug according to one of the preceding claims.