EP1277503A2 - Telescopic extension arm in models - Google Patents

Abstract

Telescopic arm comprises at least three tubes inserted into each other like a telescope. When the tubes (3, 4) are extended, the locking bar (10) protrudes with its front locking surface (11) out of the hole (9) in the side wall and a rear locking surface (13) faces the rear edge (14) of the hole. When two of the tubes are pushed together, the larger outer tube (3) with a front tube region pushes the locking bar back through the hole so that the rear locking surface moves away from the rear edge of the hole.

Description

The invention relates to a telescopic boom in model construction, in which at least Three tubes are provided in series, in one direction of the series to a free end of the boom towards the outside in cross-section from tube to tube and getting smaller telescopically pushed into each other in pairs, guided against each other in a fitting manner are displaceable, in which the pipes can be pushed together and pulled apart with each of the three tubes facing the free end of the boom Pipe end forms an abutment breakthrough in the pipes pulled apart a bolt protrudes, which acts on the inserted tube by a spring element is provided, in which the bolt projecting into the abutment opening on the Free end of the boom facing a front abutment edge of the abutment opening the facing bolt surface forms and in which the bolt face starting from the front face of the transom forms a bevel towards the a lower abutment edge, the bar lowers.

In miniature model construction there are miniature model devices or machines, e.g. Miniature model cranes, equipped with a telescopic boom in model construction are. The telescopic boom forms an inner one with the largest tube in the outer cross section or rear end, which is attached to the model device or to the model machine itself is or will and is / will be equipped with a device at the free end of the boom, which is assigned to the function of the model device. The telescopic boom will completely pushed together by hand until protrusions, e.g. Flanges, the pipes against each other butt and pulled apart completely by hand until all latches function have arrived. As soon as when pulling apart the bolt of an inner tube If the abutment breakthrough of the assigned outer tube occurs, the bolt occurs in this abutment breakthrough and takes up by abutting its front abutment surface at the front abutment edge of the abutment opening with the outer tube.

In a telescopic boom known from practice of the type mentioned if the tubes are pulled apart, the bolt with the front bolt surface still limited to the abutment breakthrough and with the bevel at the rear Abutment edge turned. When two pipes are pushed together, the front one works Pipe area of the larger outer pipe on the latch of the inner smaller pipe not a. Rather, when pushing together each latch is assigned by rear Abutment edge immediately back out of the abutment opening through the bevel pressed. As a result, each time the free end of the boom is pressed The telescopic boom is pushed together, since each bolt gives way as soon as it is applied from the associated rear abutment edge. This total uncontrollability the pushing together is perceived as disturbing.

An object of the invention is therefore a telescopic boom of the type mentioned Type to create where the pipes can be pushed together by engagement the bars are controllable. The telescopic boom according to the invention has this task dissolving, characterized in that when tubes are pulled apart the bolt with the front bolt surface out of the abutment opening protrudes and the rear abutment edge turns a rear locking surface, and that when pushing two pipes together the larger outer pipe with one front pipe area pushed back the bolt of the abutment opening holds that the rear locking surface has moved away from the rear abutment edge.

If the telescopic boom according to the invention is completely pulled apart, then he initially against pushing together simply by pressing on the free end of the boom secured, since each of the protruding bolts has the rear bolt surface of a rear one Abutment edge facing. You can now hold one of the bars in your hand Push back abutment breakthrough so that it touches the rear abutment edge Face bevel turned. It is now possible to form the rear abutment edge Push the outer tube together with the inner tube carrying the bolt. If now the front tube area of this outer tube when the abutment breakthrough smaller pipe meets the protruding bolt of the next smaller pipe it push this bolt back into its abutment opening so that the smaller one Tube can be pushed together with the next smaller tube. So it's collapsibility of the pipes by manual intervention on the bolts and by pushing them back the externally outstanding bolt is controllable.

It is particularly expedient and advantageous if in each case the bolt on a support piece sits and reaches behind the pipe at the abutment opening and if the overhang of the bolt over the shoulder on the front bolt surface is greater than that is twice the wall thickness of the pipes. The outstanding bar is in held by the shoulder in this position, the wall thickness of his, smaller, passes Pipe, passes through the wall thickness of the assigned larger pipe and protrudes from it out.

It is also particularly expedient and advantageous if the degree of excellence of the Bolt and the same dimension of the rear bolt surface are approximately the same. This it makes it easier, by pushing the latch back, to make the rear To reach bolt surface.

It is also particularly expedient and advantageous if the larger outer tube forms an inner tube edge at the tube end facing the free end of the boom, which when pushing the two pipes together on the bevel of the transom of the inner smaller pipe runs up. This describes the interaction of the pipes in order to push them back the outwardly outstanding bolt by means of the second larger one, outer tube.

As a rule, the telescopic boom has more than three pipes, e.g. four or five pipes on. The tubes usually have a non-circular cross-section, so that two tubes pushed into one another or inserted into one another cannot be rotated relative to one another are. It is e.g. the latch is provided on a pin which is in a bore of a slider can be pushed against the force of a compression spring serving as a spring element, which is clamped between the bolt and the slider.

Fig. 1

eine Draufsicht auf einen Teleskop-Ausleger in Modellbauweise,

Fig. 2

einen Schnitt gemäß Linie II-II in Fig. 1, in einem gegenüber Fig. 1 vergrößerten Maßstab, und

Fig. 3

einen Schnitt gemäß Linie III-III in Fig. 2.

In the drawing of the then shown in a preferred embodiment of the invention and shows:

Fig. 1

a plan view of a telescopic boom in model construction,

Fig. 2

a section along line II-II in Fig. 1, in an enlarged scale compared to FIG. 1, and

Fig. 3

a section along line III-III in Fig. 2nd

The telescopic boom according to the drawing is at one end by means of a holding device 1 attached to a miniature model device 2 and forms on that of the holding device opposite end of a free boom end, not shown. From the telescopic boom four tubes 3, 4, 5, 6 are shown, namely in an pulled apart Status. The rear end of the first tube 3 is seated on the holding device 1 and the tubes each have a circumferential flange or ledge at the front end 7. The second pipe 4 and the following pipes protrude in the pulled apart Condition in each case with a rear pipe area 8 in the previous pipe. In the collapsed state, not shown, of the tubes, all of the ledges 7 lie Pipes close together. Apart from forming a foremost tube all tubes 3, 4, 5, 6 have an abutment opening 9 at the front tube end a distance from the front end of the tube that is slightly less than the length of the rear Pipe area 8 is. Apart from the rearmost tube 3, each tube 4, 5, 6 is at the rear Pipe area 8 provided with a bolt 10, which when pulled apart the pipes protrude into the abutment opening 9.

The latch 10 forms a front latch surface 11, which is perpendicular to the central axis of the Pipes runs, assigned to a front abutment edge 12 of the abutment opening 9 is and towers above this according to FIG. 3. The bolt 10 forms a rear bolt surface 13, which is perpendicular to the central axis of the tubes, a rear abutment edge 14 of the abutment breakthrough is assigned and does not tower over it according to FIG. Furthermore, the latch 10 has an end bevel 15 on the end face, which extends from the front Bolt surface 11 drops towards the center axis of the tubes. Every pipe, except the foremost tube, forms a front tube area 16, which when pushed together to the abutment breakthrough of the first pipe 4 and thus comes to the bolt 10 of the second preceding tube 5 and this bolt over whose bevel 15 pushes back so far that the rear locking surface 13 the rear Abutment edge 14 releases. It can now the first pipe the bolt of the press the previous pipe back over its bevel 15 and are pushed over the second preceding pipe.

The bolt 10 sits on a support piece 16 which is arranged in the associated tube 4 from which the bolt protrudes through a guide hole 17. The support piece 16 engages behind the tube 4 with shoulders 18. The support piece 16 sits on a pin 19 which in a slider 20 can be pushed in, namely against the compressive force of a spring element 21, which is clamped between the support piece 16 and the slider 20. The Slider 20 protrudes into a receiving hole of the inner tube 4 and is against the outer Tube 3 supported. It forms the larger tube 3 at the front tube end inner tube edge 22.

Claims (4)

Model construction telescopic boom
in which at least three pipes are provided in a row, in a direction of the row towards a free end of the boom, in the outer cross-section from pipe to pipe, and each pair is telescopically pushed into one another, guided in one another, can be moved relative to one another,
where the pipes can be pushed together and pulled apart,
in which each of the three tubes forms an abutment breakthrough at the tube end facing the free end of the boom, into which, when the tubes are pulled apart, a bolt projects which is provided on the inserted tube by a spring element,
in which the bolt protruding into the abutment opening forms on the side facing the free end of the boom a locking surface facing a front abutment edge of the abutment opening and
in which the bolt, starting from the front bolt surface, forms a bevel that drops towards the rear abutment edge, shortening the bolt,
characterized in that when the tubes (3, 4, 5, 6) are pulled apart, the bolt (10) with the front bolt surface (11) protrudes outwards from the abutment opening (9) and the rear abutment edge (14) has a rear bolt surface 13 turns and
that when pushing together two tubes (3, 4) the larger outer tube (3) with a front tube area (16) holds the bolt (10) back into the abutment opening (9) in such a way that the rear bolt surface (13) from the rear abutment edge (14) is moved away. Telescopic boom according to claim 1, characterized in that in each case the bolt (10) is seated on a support piece (16) which engages behind the tube (4) at the abutment opening with shoulders (18), and in that the bolt projects beyond the shoulders ( 18) on the front locking surface (11) is greater than twice the wall thickness of the tubes. Telescopic boom according to claim 1 or 2, characterized in that the dimension of the protrusion of the latch (10) and the rectified dimension of the rear latch surface (13) are approximately the same. Telescopic boom according to claim 1, 2 or 3, characterized in that the larger outer tube (3) forms an inner tube edge (22) on the tube end facing the free end of the boom, which when the two tubes (3, 4) are pushed together onto the Front bevel (15) of the bolt (10) of the inner smaller tube (4) runs up.

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