EP1256500A2 - Running gear with wheels - Google Patents

Abstract

The bogie has a locking element (15) on the traverse bolt (8) either side of the carrying eye (9), secured axially by a fixing element (16) so that it cannot rotate. Each locking element has a nose-like projection (17) which engages in a recess (18) in the carrying eye to limit the eye's turning angle. The recess forms the stops for the projection.

Description

The invention relates to a chassis with wheels according to the preamble of claim 1.

From a company brochure from Carl Stahl, a chassis has already been made (D7215: Carrier clamp with chassis) with two pairs of wheels known on the inside roll off a lower flange of a carriageway girder, with the inner sides are located on both sides of a central web. The insides form the treads for the Impellers. The undercarriage consists of two parallel side plates, on both sides two wheels are rotatably mounted, so that seen in the direction of rotation two in a row Impeller pairs are. Below the impellers and in the operating state below the The two side plates are connected with a crossbeam on the lower flange. For this each side plate has a threaded hub, which each has one end of the Truss bolt. It is a truss bolt end with a right and the other has a left-hand thread. The distance between the side plates and thus the wheelbase of the wheels is turned by turning the crossbeam Steplessly adjusted longitudinal axis. A lock nut, which is attached to the Truss bolt is turned on. On the side plates there is also a lifting eye over four Support bracket supported. For this purpose, the bracket supports are at one end on the side plates articulated. The second bearing eye of this bracket carrier takes the axis of the lifting eye on. In this way, the lifting eye is located in the middle of the side plates.

The disadvantage of this solution is that the anti-rotation only by Non-positive and non-positive is produced. This is due to the flow of force Axial force in the lock nut with load attached depending on the load height. This in the thread Effective variable axial load can loosen the lock nut from its Lead face contact surface, whereby their securing effect is canceled. such Screw locks using a lock nut are therefore in these applications as insufficient to look at. Consequently, the wheelbase is in the known chassis Impellers can be adapted to a desired flange width, but not ensures that the adjustment of the wheelbase throughout Service life remains unchanged.

Another disadvantage is the large number of components used and the separation caused by truss bolts and lifting eye large height that the under Road girder available usable work space of the attached Hoist reduced. In addition, the height of the attachment point for the hoist is from depending on the beam flange width and not constant.

It is also known from DE 30 42 225 A1, a truss bolt with a continuous thread and both the lifting eye and one of the two Side plates can be moved axially on the truss bolt by turning it. The Anti-rotation is done via a pin that crosses through a receiving hub Side plate and the truss bolt is driven.

This solution has the disadvantage that when setting the side plates to different Beam flange widths the hanging plate and the side plate with different distances have to be moved to the fixed side plate. So that the hanging plate always is positioned centrally under the roadway, the side plate must be double Execute the displacement path like the hanging plate. That means the side panel and the Hanging plate partly must be turned independently on the stud. To do this, the chassis must be removed from the carrier beforehand, which is why the Side plate serves. This procedure is relatively cumbersome. Another disadvantage is that the thread is twisted during load swinging, which is caused by the relative movement in the Over time to uncontrolled wear and damage to the highest stressed point of the stud, in the worst case lead to the load falling.

The object of the invention is to provide a running gear in which the wheel spacing is infinitely adjustable by rotating the crossbeam bolt and its longitudinal axis with the carrying eye in the center, without having to dismantle the running gear. At the same time, the running gear should allow the shortest possible height from the running surface to the attachment point (e.g. a hoist or other object to be moved) as well as a wear-free design of the connection points between the running gear and the attached load.
The solution to this problem is given by the features specified in claim 1; by the characterizing features of the subclaims, the undercarriage is advantageously further developed.

The solution provides that the truss bolt carries a securing element on each side of the carrying eye, which is secured axially and in a rotationally fixed manner by means of a fixing element. This structurally simple positive locking of the crossbeam bolt only requires a securing element on both sides of the lifting eye, which can thereby be axially fixed after adjusting the wheelbase. The power flow does not go through the fixing element in this embodiment, so that it can be simple.
In order to limit the pendulum angle, each securing element has a nose-like projection which, in order to limit the pendulum angle, engages in each case a recess formed on the lifting eye, which forms stop elements for the associated projection and whose size corresponds to the desired limit pendulum angle.

Advantageously, the securing element is a securing ring that can be slid onto the truss bolt.
Since the flow of force does not pass through the fixing element, the invention proposes that each fixing element is a stud screw with a hardened ring cutter that can be radially screwed into the crossbeam from the outside.
In the simplest case, the lifting eye is formed from a bracket made of round material, which is guided around the crossbeam bolt, and at the free ends of which a lifting device and the like can be fastened below the crossbeam bolt.
The projections expediently interact with the mutually opposite inner sides of the two round material legs of the bracket in such a way that they form the stop elements.
In order to ensure simple wheel spacing adjustment, it is proposed that the crossbeam bolt have a hexagonal hole at least on one end face for rotating the crossbeam bolt about its longitudinal axis.

Since the part of the crossbeam that is subjected to the highest stresses, the middle part is smooth and smooth on the outside is carried out without thread, the lifting eye can swing on the truss bolt Roll freely without the crossbeam pin being able to wear out in an incalculable manner. The contact areas lying on top of each other at this point are designed so that their Stress always remains below the wear limit of the materials used.

Fig. 1

einen Querschnitt durch das Fahrwerk und

Fig. 2

eine Seitenansicht des Fahrwerks gemäß Fig. 1.

An embodiment of the invention is shown in the drawing and will be described in more detail below. Show it:

Fig. 1

a cross section through the chassis and

Fig. 2

2 shows a side view of the undercarriage according to FIG. 1.

Fig. 1 shows a cross section through a chassis 1, which is longitudinally movable on a carriageway girder 2, which has a central web 3 and a lower flange 4. The inner sides 5 of the lower flange 4 form running surfaces for wheels 6 rotatably mounted on the chassis 1, through which the chassis 1 can be moved on the lower flange 4. The wheels 6 are rotatably mounted on side plates 7, which are connected to one another by means of a crossbeam 8. A supporting eye 9 is supported on the crossbeam 8, at the ends of which a hoist 10 hangs.
As further shown in FIG. 1, a receiving hub 11 and 12 are formed in each side plate 7 below the two pairs of impellers (see FIG. 2), the receiving hub 11 being provided with a right-hand thread and the receiving hub 12 with a left-hand thread. Correspondingly, the crossbeam 8 is provided with a right-hand thread 11a at one end and with a left-hand thread 12a at the other end. 1, each receiving hub 11, 12 takes up a thread of the crossbeam 8. At the end, the two ends of the crossbeam 8 are each formed with a hexagonal bore 13, with which the crossbeam 8 can be rotated about its longitudinal axis, the wheelbase of the two running wheels 6 changing accordingly.

1 further shows that the lifting eye 9 is secured in its axial position by locking elements 15 in the form of locking rings arranged on both sides of the lifting eye 9 with a small spacing A. The locking rings 15 are connected to the crossbeam 8 by means of locking elements 16 in the form of a stud screw which can be screwed radially into the associated locking ring from the outside. The distance A allows the lifting eye 9 to swing about its vertical axis.
1 shows below the center line of the crossbeam 8 on the securing elements 15 in each case a nose-like projection 17 which engages in a recess 18 (see FIG. 2) of the lifting eye 9.

As can be seen from Fig. 2, the lifting eye 9 is formed from a bracket 14 which is made of a round material is bent. The inner sides 19 of the two bracket legs 20 form the Stop elements of the projections 17. At the free ends 20a of the bracket leg 20 is a hoist 21 is attached. The pendulum angle is due to the stop elements Tragose 9 limited to the angle α.

Claims (6)

Running gear (1) with running wheels (6), which roll on both sides of a central web (3) on a lower flange (4) of a carriageway girder (2), the lower flange (4) having corresponding running surfaces for the running wheels (6), must also have two parallel side plates (7), on which the impellers (6) are rotatably mounted parallel to one another and which each have a threaded hub (11, 12) below the impellers (6), the threaded hub (11, 12) of one side plate (7) having a Right and that of the other is provided with a left internal thread,
with a traverse bolt (8), which is provided at both ends with an external thread corresponding to the internal threads (11a, 12a) and the thread ends of which are received by the threaded hubs (11, 12),
the distance between the side plates (7) and thus the wheelbase of the running wheels (6) being infinitely adjustable by turning the crossbeam bolt (8) about its longitudinal axis, and
with a lifting eye (9) for a load, which is supported centrally between the side plates (7) on the crossbeam bolt (8),
characterized in that the crossbeam (8) carries a securing element (15) on both sides of the carrying eye (9), which is secured axially and by means of a fixing element (16)
is secured against rotation, each securing element (15) having a nose-like projection (17) which, in order to limit the pendulum angle of the lifting eye (9), engages in a recess (18) formed on the lifting eye (9), the stop elements for the associated projection (17) forms and their size corresponds to the desired limit pendulum angle. Running gear according to claim 1,
characterized in that each securing element (15) is designed as a securing ring. Running gear according to claim 1 or 2,
characterized in that each fixing element (16) is a stud screw which can be screwed radially into the crossbeam bolt (8) from the outside and has a hardened ring cutting edge. Running gear according to one of claims 1 to 3,
characterized in that the lifting eye (9) is formed from a bracket made of round material which is guided around the crossbeam bolt (8) and on the free ends (20a) of which a lifting device (21) and the like can be fastened below the crossbeam bolt (8). Running gear according to claim 4,
characterized in that the mutually opposite inner sides (19) of the two round material legs (20) of the bracket form the stop elements for both projections (17). Running gear according to one of claims 1 to 5,
characterized in that the crossbeam bolt (8) has at least on one end face a hexagonal bore (13) for rotating the crossbeam bolt (8) about its longitudinal axis.

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