DE29802409U1 - Riser - Google Patents

Description

Riser bolts

The invention relates to a riser bolt, in particular for arrangement on lattice masts of overhead power lines.

Such risers are known for a wide range of practical applications. These known risers comprise a tread shaft that is designed to be the width of a shoe sole, with a retaining flange formed on one end, particularly in the form of a hexagonal screw head, which serves to prevent the shoe from sliding sideways. At the other end of the riser bolt, a fastening device is provided that has a stop shoulder formed on the tread shaft and a threaded bolt connected to it for screwing the riser bolt to the lattice mast using a screw nut against the stop shoulder.

These known riser bolts have the disadvantage that, due to the two integrally formed flange sections, i.e. the retaining flange and the stop shoulder, whose diameters are significantly larger than the diameters of the step shaft and the threaded shaft, they can only be manufactured by hot forming, e.g. by hot forging, which requires a high energy and labor expenditure. Furthermore, it is necessary to rework the threaded shaft by turning it to apply the thread. This machining rework not only requires a high manufacturing and material expenditure, but also leads to damage to the

Schaeferstrasse 18 D - 44623 Herne Tel.+49 02323-95440 Fax +49 02323 -12232

Hainstrasse 20/24
D - 04109 Leipzig
Tel.+49 0341-2113818
Fax +49 0341 - 2113818

10. 3 ES - 03002 Alicante Tel.+49 089-745541-0 Fax +49 089 - 7593869

Forstenrieder Allee 59

D - 8147 Munich

Tel.+49 089-745541-0

Fax +49 089 - 7593869

PO Box 71 05 20

Fibre structure of the material structure in the transition area from the upset stop shoulder to the threaded shaft, which significantly increases the risk of breakage at this point and thus poses an increased safety risk.

The invention is therefore based on the object of creating a riser bolt, in particular for arrangement on lattice masts for overhead power lines, which is easy to manufacture with optimized safety.

The object is achieved by a riser bolt with the features of claim 1. Advantageous embodiments of the invention are characterized by subclaims 2 to 5.

According to the invention, the riser bolt is divided into two parts and made of a shaft body, which has a hexagonal holding flange at one end for the tool, in particular a wrench, and the threaded shaft section at the other end, as well as a stop ring manufactured separately for this purpose. This means that the riser bolt body can be manufactured by cold forging and the threaded shaft section does not need to be machined based on the bolt diameter of the riser bolt, which reduces material consumption, but also the manufacturing effort and in particular no interruption of the fiber structure occurs, which is important for the strength of the riser bolt body. The stop shoulder in the form of a shoulder ring can be manufactured separately by hot forging. Overall, this division into two parts results in simplified production with increased breaking strength and thus safety.

The invention will be explained in more detail below using an embodiment with reference to the accompanying drawings. In them:

Figure 1 is a side view of a riser bolt according to the invention, in which
a riser bolt body and a shoulder ring, which serves as a
Riser bolt body is a separate component, shown are
as well as

Figure 2 is a side view of the riser bolt similar to Figure 1 with

separate representation of the shoulder ring and detailed designation of the interacting surfaces and angles of both components.

Figure 1 shows a riser bolt according to the invention. This is composed of two separately manufactured components, namely a riser bolt body S and a shoulder ring 4.

The riser bolt body S comprises a step shaft 2 with a retaining flange 1 formed on one end, in particular as a hexagon screw head, which on the one hand forms a safeguard against the shoe slipping sideways off the step shaft 2 and on the other hand serves as an attachment for a tool, in this case a wrench, for mounting the step bolt on a lattice mast. At the other end, the step shaft 2 is adjoined by a support or stop section, here designed as a conical section 5, and a threaded shaft 3, whereby the threaded shaft 3 is reduced in diameter compared to the step shaft 2 and the conical section 5 creates the surface connection between the outer surface of the step shaft 2 with a larger diameter and the outer peripheral surface of the threaded shaft 3 with a smaller diameter.

The riser bolt body S can be manufactured by cold forging. In contrast to the manufacture of riser bolts using the state of the art, machining of the riser bolt on the threaded shaft section starting from the bolt diameter is not necessary. This reduces the manufacturing effort in terms of energy, material and working time requirements. It is also very important that the fiber structure of the material structure is not damaged by saving on machining to the threaded shaft density, and this significantly reduces the risk of the riser bolt breaking at this particularly stressed point.

The stop shoulder 8 of the fastening device B required for screwing the riser bolt to the lattice masts is formed in the riser bolt according to the invention by a separately manufactured shoulder ring 4 that can be pushed onto the conical section 5 of the riser bolt body S. This shoulder ring 4 expediently has an inner cone 6, which interacts with the outer cone of the conical section 5 on the riser bolt body S. To achieve a

high strength of this cone connection, the cone angle ß' of the inner cone 6 on the shoulder ring 4 should be in the negative tolerance range compared to the nominal value, i.e. it should be slightly (e.g. by 2°) smaller than the nominal value of the cone angle ß of the cone section 5 on the riser bolt body S. In contrast, the cone angle ß of the cone section 5 should have slightly positive deviations from the nominal value. This ensures that the load-bearing contact of the cone surfaces when screwing the riser bolt onto the lattice mast occurs in area A, i.e. in the area of the largest diameters of the inner cone 6 of the shoulder ring 4 and the outer cone 8 of the cone section 5. This is of advantage for the firm fit of the riser bolt on the lattice mast.

To mount the riser bolt on a lattice mast, first the separately manufactured shoulder ring 4 is placed against the cone section 5 on the riser bolt body S. Then a washer is applied and the riser bolt body with its threaded shaft section 3 is inserted into a hole in the lattice mast, after which a conventional screw fastening is carried out by putting on a washer, inserting a spring ring and placing a screw nut on the threaded shaft section 3 protruding from the hole. During the screwing process, the retaining flange 1 is countered by a wrench.

Claims (5)

Protection claims 1. Riser bolt, in particular for arrangement on lattice masts of overhead power lines, with a riser bolt body (S) which comprises a tread shaft (2) designed in length to the width of a shoe sole and a retaining flange (1) formed in one piece at one end thereof, in particular as a hexagon screw, and a fastening device (B) arranged at the other end, which has a stop shoulder (8) connected to the riser bolt body (S) and an adjoining threaded bolt (3) for screwing the riser bolt to the lattice mast by means of a screw nut against the stop shoulder (8), characterized in that the stop shoulder (8) is formed by a shoulder ring (4) which is designed as a separate component and has a defined connection to the riser bolt body (S). 2. Riser bolt according to claim 1, characterized in that the defined connection of the shoulder ring (4) to the riser bolt body (S) is formed by the fitting connection of an inner cone (6) formed in the shoulder ring (4) and an outer cone section (5) formed between the step shaft (2) and the threaded shaft (3). 3. Riser bolt according to claim 1 and 2, characterized in that the cone angle (ß') of the inner cone (6) on the shoulder ring (4) is slightly smaller than the cone angle (ß) of the cone section (5) on the riser bolt body (S). 4. Riser bolt according to claim 1, characterized in that the riser bolt body (S) with the holding flange (1), which is designed in particular as a hexagon screw head, the step shaft (2), the conical section (5) and the threaded shaft (3) is designed as a one-piece cold forged part without machining. 5. Riser bolt according to claim 1 and/or 2, characterized in that the shoulder ring (4) is designed as a hot-forged part.