DE2840693C2 - Surveying facility - Google Patents

Description

The invention relates to a measuring device for components to be fastened to bundle conductors, especially spacers.

The bundle conductors of a high-voltage overhead line are spaced apart at certain intervals Mistake. The distances between the spacers in the line direction are usually seen measured on the ground by an assembly group. After measuring, the position of the individual Spacer angled perpendicular to the line direction from the floor and from the assembly column assembled.

This measuring and assembling is associated with a very large amount of personnel, since this is always the case at least two assembly columns are required.

The invention is based on the object of creating a measuring device with which the fastening points of the spacers to be fixed on the bundle ladders can be determined from an elevator that is guided on a ladder and in which there is an assembly column.
The object is achieved in that a metal frame is provided which can be placed on at least two parallel conductors, and to which a load cell and / or an electronic distance measuring device is attached via a detachable holder.

In one embodiment of the invention, the metal frame is formed by two V-profiles that extend over a bridge are connected to each other. This web is in each case at the closed end of the two profiles attached. The free ends of the two V-profiles are provided with U-shaped guides that open downwards Two conductors that run parallel next to each other are accommodated.

The one attached to the survey facility

3d load cell consists of a double cone in its Longitudinal extension of two slits is penetrated.

The bracket through which the load cell is attached to the

Surveying device is attached, is formed by a rod, which is at the top with a

j-, traverse is provided.

In a second embodiment of the invention

the load cell is carried by a holder which comprises a frame made up of several rods is composed and also has a traverse at the upper end.

The holder is advantageously releasably attached to one of the two V-profiles. This gives the option of detaching the bracket from a V-profile and attaching it to the other.
The bracket attached to the upper end is guided at a predeterminable distance parallel to the web connecting the two V-profiles.

In an advantageous manner, the load cell and the electronic distance measuring device are attached via a fastening element attached to the traverse. This fastening element allows the load cell to be pendulum-like to hang up or, if necessary, to be locked rigidly on the cross-beam.

In a further embodiment of the invention the distance between the free ends of each is V-profile adapted to the distance between two parallel conductors.

In another embodiment of the invention, the length of the web connecting the two V-profiles is bo is adapted to the distance between two parallel conductors.

When using this measuring device, the fastening points of the spacers can be can be determined from a car attached to a phase. On additional assembly teams that Carrying out measurements from the ground can be dispensed with here. It's just that usual assembly teams setting the spacers

necessary.

Embodiments of the invention are shown in the drawing and will be described in more detail below described: It shows

F i g. 1 the surveying facility.

2 shows a side view of the measuring device,

3 arranged on a bundle conductor Surveying facility,

FIG. 4 shows a variant of the FIG. 1 shown Surveying facility,

F i g. 5 a second variant of the measuring device.

The in F i g. The measuring device shown in FIG. 1 consists essentially of two V-profiles 2 and 3, a web 4. a load cell 5, a bracket 7, four U-shaped guides 8 and a cross member 10 constructed. the Both V-profiles 2 and 3 together with the web 4 form the frame 1 of the surveying device. The bridge 4 is connected to the two closed ends of the V-profiles 2 and 3 in this embodiment. The opening angle and the length of the two legs forming the V-profile 2 and 3 are chosen so that that the distance between the free ends of the V-profile 2 and 3 equals the distance between two parallel side by side conductor 9 corresponds. At each free end of the V-profile 2 or 3 is a U-shaped, downward guide 8 attached. The guides 8 are supported so that always two in one Flat legs of the two V-profiles 2 and 3 on one and the same head 9 of a bundle etzt will. The web 4 connecting the two V-profiles 2 and 3 to one another is arranged pointing upwards and runs parallel to the conductors 9 on which the measuring device is placed.

The holder 7 for the load cell 5 is fixed to one of the two V-profiles 2, 3. The bracket consists of a frame made up of 3 rods 7 ;;, Tb and 7c '. The rods 7; / and Tb are of the same length, while the rod Tc connecting the two rods Ta and Tb is kept somewhat shorter. Each of the two rods Tu and Tb is releasably attached to one leg of the V-profile 2, 3. They are arranged in a plane perpendicular to the web 4 and protrude a few centimeters. The holder 7 is preferably fastened with screws (not shown here). This gives the possibility of detaching the holder from the V-profile 2 and fixing it to the V-profile 3 or vice versa, as required. The frame 7 has a cross member 10 at the upper end. This is positioned at a predeterminable distance above the web 4. The load cell 5 is attached to this traverse 10 via a fastening element 11. In addition to or instead of the load cell 5, an electronic distance meter 12 can also be held on the cross member 10.

As Fig. 2 shows in a side view, the fastening element 11 is designed so that the load cell 5, regardless of the angle of inclination at which the measuring device is arranged, always vertical can hang to the ground. On the other hand, the load cell with the fastening element 11 can also rigidly lock on the cross member 10 so that it always maintains the position once it has been determined.

The load cell 5 is an already known arrangement, in particular a double cone, which is provided with a strap on one side for fastening. Furthermore, the double cone has so-called viewing slits 6. The viewing slits 6 are on

Double cones arranged so that they both run in the longitudinal direction, completely enforce it and intersect in its longitudinal axis. This turns the double cone into four equal on its surface divided into diamond-shaped sectors. Double cones with a different arrangement of the viewing slits are also available known and can be used with this measuring device.

The mode of operation of the measuring device is described below. If, for example, the conductors 9, 9a and 9b are to be provided with spacers between the masts 16 and 17 shown in FIG. 3 at a predeterminable distance rf from the mast 16, an elevator 18 is attached to the outermost or uppermost phase. This elevator is provided with a counting wheel, with the help of which the point can be determined which has the vertical distance d from the mast 16. A check as to whether the point with the distance d from the mast has actually been reached can be carried out with the electronic distance measuring device attached to the measuring device. If the point predetermined by the distance d is reached, the first spacer between the two conductors 9 is installed by the fitter located in the elevator 18. Then the surveying device with the U-shaped. downwardly directed guides 8 placed on the two conductors 9, in accordance with the aligned guides 8, so that two legs of the two V-profiles 2 and 3 lying in one plane are each supported on one and the same conductor. In addition, the measuring device must be positioned so that a viewing slit 6 of the double cone forming the load cell lies in a plane with the spacer that has just been installed. Since the load cell, as already mentioned above, can be suspended movably, it can always rotate into a position perpendicular to the ground, so that the mentioned viewing slit 6 can be brought into a plane with the spacer. By looking through the viewing slot 6, the fitter in the elevator 18 can now precisely define the fastening points of the other spacers to be fastened to the conductors 9, 9; f, 9b. All points determined by the fitter lie in one plane, in the event that the ladder runs horizontally. The fitter located in the elevator 18, while looking through the viewing slit 6, is able to indicate to the other fitters who are in other elevators attached to ladders the exact points at which the spacers on the corresponding ladder 9 <i, 9b are to be attached.

Using this measuring device ensures that all spacers have the same vertical distance d from the mast. The measuring device can also be used when the spacers are not arranged perpendicular to the conductors, but rather are to lie in a plane which encloses a predeterminable angle with the conductors. For this purpose, the viewing slit of the load cell is made to coincide with this imaginary plane. In addition, a spacer is placed between two conductors in the desired direction. By looking through the viewing slit, the fastening points of the remaining spacers on the ladders can now be set.

4 shows a second embodiment of the measuring device. It is essentially like that constructed like the one shown in FIG. I shown surveying

direction, only the holder 7 of the load cell 5 is here designed as a rod. This one is preferred attached to the closed end of one of the two V-profiles 2 or 3 by means of screws, so that he can if necessary released from the V-profile 2 and on the V-profile 3 or vice versa can be fixed. The rod also has a cross member 10 at its upper end, which can be predefined The distance runs parallel to the web 4. Via a fastening element 11, the load cell 5 and / or a distance measuring device can be attached to the traverse 10. The fastening element 11 is also here like this designed so that the load cell 5 can hang freely movable or firmly locked on the cross member 10.

F i g. 5 shows a further variant of the measuring device. This embodiment is also in essentially constructed like the device shown in FIG. Just the length of the two V-profiles connecting web 4 is adapted to the distance between two parallel conductors of a bundle that are led next to one another. The U-shaped, downwardly open, arranged at the free ends of the two V-profiles Guides 8 are aligned so that a V-profile 2, 3 is placed on a ladder. Of the The opening angle and the length of the legs forming the two V-profiles 2 and 3 are in this way too choose that the device experiences a stable seat on the two ladders. There is also the possibility Instead of the V-profiles 2 and 3, two U-profiles can also be used to form the frame 1. The U-profiles are also in this embodiment via a web 4 in the same way as the V-profiles connected with each other. The web 4 can be arranged so that it has the middle of the closed U-profile ends together. However, there is also the option of two diagonally opposite one another to connect opposite corner points of the closed U-profile ends with the web 4. the Bracket 7 can optionally be attached to one or the other U-profile in the manner described above will. There is also the option of using the Train the surveying device so that in each case a U-profile on one of the two parallel side by side guided ladder is put on, or that one leg of one Ü-Protiis and one leg of the second U-profile are placed on the same ladder. In this case it is the length of the web 4 to match the distance between the two conductors.

The guides attached to the free ends of the U-profiles must be aligned accordingly, depending on the design of the measuring device.

All of the measuring devices described here can be provided with a locking device (not shown here) which enables the arrangement to be additionally attached to the conductors 9, 9a, 9b.

In addition 5 sheets of drawings

Claims (11)

Patent claims: 1. Measuring device for components to be fastened to bundled conductors, in particular spacers, characterized in that one led to at least two parallel side by side Ladders (9) attachable metal frame (1) is provided on which a detachable bracket (7) a load cell (5) and / or an electronic distance measuring device (12) is attached. 2. Measuring device according to claim 1, characterized in that the metal frame (1) is formed by two V-profiles (2 and 3), which over a web (4) are connected to one another. 3. Measuring device according to claim 1 or 2, characterized in that the web (4) in each case is attached to the closed end of the two V-profiles (2 and 3) and that the free ends of the V-profiles (2 and 3) with U-shaped guides (8) open at the bottom to accommodate two parallel conductors (9) running next to one another are provided. 4. Measuring device according to one of claims 1 to 3, characterized in that the Load cell (5) is a double cone. which is penetrated in its longitudinal extent by two viewing slits (6) is. 5. Vennessungseinrichtung according to any one of claims 1 to 4, characterized in that the Bracket (7) is formed by a rod (7) provided at the upper end with a cross member (10). 6. Measuring device according to one of claims 1 to 4, characterized in that the holder (7) is a frame formed from a plurality of rods (7a, 7b, 7c) which is provided at the upper end with a cross member (10). 7. Measuring device according to claim 5 or 6, characterized in that the holder (7) on the V-profile (2 or 3) is detachably attached. 8. Measuring device according to claim 5 or 6, characterized in that the traverse (10) in A predeterminable distance is guided parallel over the web (4). 9. Measuring device according to one of claims 5 to 8, characterized in that the Load cell (5) and / or the electronic distance measuring device via a fastening element (11) on the Traverse (10) are attached. 10. Measuring device according to one of claims 1 to 9, characterized in that the Distance between the free ends of a V-profile (2, 3) the distance between two parallel side by side guided conductor (9) is adapted. 11. Measuring device according to one of the Claims 1 to 9, characterized in that the length of the web (4) is parallel to the distance between two side by side led conductor (9) is adapted.