EP1455050A1 - Ladder and ladder hinge - Google Patents

Abstract

A spring-loaded catch is maintained in a position parallel to the pivot axis for the articulated joint (12, 14, 16) between two ladder beams (18, 20, 22, 24). In the jounce position, a non-rotating form-fit is provided between profiles on the joint ends of the ladder beams, and in the rebound position the connection is released in relation to at least one of the profiles. The articulated joint includes at least two locking positions for the ladder beams in relation to each other. An independent claim is also included for an articulated joint for ladders (10), especially for retro-fitting between ladder sections with hollow beams, which include connections which can be inserted into the beams and fixed inside them using e.g. rivets.

Description

The invention relates to a ladder, according to the preamble of Claim 1.

Ladders with joints have long been known, the ladder bars connect with each other.

Numerous ladders with joints have become known are lockable. Such lockable joints have the Advantage that the spar sections adjacent to the joint in can be aligned to each other at a defined angle, in order to be able to build working platforms and the most varied To cope with climbing tasks. For example are multi-purpose conductors made of aluminum, each conductor have six joints (three on each side of the bar) and so can serve as a single ladder when stretched, but also as a standing or fixed ladder if the middle joints are swung in, but also the formation of a working platform enable. Such ladders can also on stairs or in uneven terrain.

Joints for such conductors have been known for a long time. she usually have a protruding lever, that of unlocking serve and are self-locking. Examples of such Solutions are DE-GM 66 03 088, DE-GM 66 04 454, DE-GM 66 05 348, DE-AS 69 22 078, DE-OS 16 54 934, DE-OS 19 38 696, DE-PS 20 06 846, DE-PS 20 52 584, DE-PS 29 14 476, DE-PS 32 11 164, DE-OS 36 41 845 and DE-OS 37 23 037.

Another solution, which is quite complex to manufacture, is known from DE-PS 39 37 535.

The known solutions have the common disadvantage that that a spreading lever is usually provided, via which the joint must be operated. Usually - straight when used as a single ladder - a ladder is used Comes by hand. This creates through the protruding levers pose a considerable risk of pinching and injury. If the leader user slips, he could protruding levers when unfortunate circumstances come together even cause serious eye injuries.

If the lever is not arranged in a protruding manner, it is bad to use. This is because one considerable locking force or spring force must be overcome, to disengage the joint. For safety reasons the joints must have a certain safety margin snap into place to prevent accidental release to prevent with certainty.

In accident-prone environments and in areas where a safe operation even under unfavorable circumstances (wet, Cold) must have been guaranteed, so far one has therefore waived on joint function, although it offers clear advantages, and uses either a single ladder or a stepladder.

The invention is therefore based on the object of a ladder according to the preamble of claim 1 to create a offers easier usability even under unfavorable circumstances, while reducing the risk of injury and the manufacturing costs can be kept cheap.

This object is achieved by claim 1. Advantageous further developments result from the subclaims.

According to the invention, it is particularly favorable that the locking body spring-loaded parallel to the axis of the joint is stored. This opens up the possibility that To select the actuation direction parallel to the axis instead of radial, so that the operating handle, like a knob, a handle or the like, are located directly in the area of the joint can and not in the direction of the spar or even sideways must extend.

This surprisingly simple measure represents a significant one Improvement that allows it to be a particularly simple one and also extremely reliable and torque-resistant To reach the design of the joint. By this rotation the direction of actuation can be configured accordingly Moldings realize a large number of blocking surfaces, each with tight tolerances with corresponding molded body recesses or angular position recesses interact can. The molded body can preferably be subjected to pressure be, in its main direction of extension is practically under shear stress, which he is extremely good can take up after the molded body recess and the angular position recess can be performed adjacent to each other. This constructive solution enables it to be compared low material thicknesses, so that the invention Joint can build compact and despite its Stiffness and operational safety is comparatively easy.

According to the invention, it is particularly favorable if the joint parts and the molded body is made of steel. Steel has opposite Aluminum has a greater compressive strength, which is according to the invention can be exploited to achieve a compact design. By implementing the locking function on the circumference of the molded body a symmetrical load situation can be created, which are particularly easy to absorb and their powers particularly are easily derivable. The force-transmitting surfaces can be pretty big, so the surface pressure accordingly is reduced. It is understood that the invention Solution to not using regular polygons is limited. Rather, any other can Shaped bodies are used, the peripheral surface is out of round is so that it is suitable for exercising a locking function. Symmetrical configurations, at least mirror-symmetrical, are preferred Refinements and preferably based on the Joint axis point-symmetrical configurations of the molded body. If a regular polygon is used, the Possibility of reaching a triangle or a square. When using a pentagon or hexagon instead of the straight side surface also used concave peripheral surfaces so that the molded body has a more pronounced star character having. It is understood that both the molded body recess in the leading joint part as well as the angular position recess one in the locking joint part should have a suitable shape, it being understood that the Angular position recess in the locking joint part one Allow multiple positions in the desired angular division should. The exact definition of the angular positions there are no limits here.

In an advantageous embodiment, the material thickness of the locking Joint part slightly larger than the material thickness leading Joint part, for example twice as large. This configuration is particularly useful when realizing the angular position recess cheap with a variety of "star tips", after then providing a smaller area the locking function is available.

When realizing the molded body with a square cross section can be between the two adjacent 90 ° positions of the joint either implement a 45 ° position, for which purpose an eight-pointed construction of the angular position recess is used or two angular positions, for example at 20 and 50 °, for which a twelve-point structure of the angular position recess can be used.

It is particularly favorable that a compression spring is used as the spring element can be used. This allows the actuation path for the molded body and the locking member by plant limit the spring turns to each other. As a handle can both a pull knob and a corresponding handle are used are, for reasons of operational security the Use of a tension element is preferred.

It is particularly favorable if the train movement by a Screwing movement is implemented. This allows the operating forces reduce even further. The is preferred Actuation knob then about 180 ° or for example by one full rotation rotated from the release position to the Locked position in the spring-loaded state of the spring-loaded Arresting member. The pitch of the corresponding thread can be chosen so that the spring force automatically sets the rebound condition. Through this Measure, the joint according to the invention is self-locking to a certain extent. In a further advantageous embodiment, the provided thread run flat for this. If the Actuation knob there, i.e. in the flat section of the thread, supported, automatic rebound is prevented, so that the ladder can pivot freely around the joint is.

Further advantages, details and features result from the following description of an embodiment based on of the drawings.

Fig. 1

eine perspektivische Ansicht einer erfindungsgemäßen Leiter in einer zusammengeklappten Stellung und in einer Ausführungsform des erfindungsgemäßen Gelenks;

Fig. 2

eine Schnittansicht eines Teils einer erfindungsgemäßen Leiter in einer Ausführungsform des erfindungsgemäßen Gelenks;

Fig. 3

eine Draufsicht auf das Gelenk in der Ausführungsform gemäß Fig. 2;

Fig. 4

eine weitere Schnittansicht des Gelenks gemäß Fig. 3, wobei das Gelenk in einer Raststellung dargestellt ist;

Fig. 5

eine weitere Ausführungsform eines Gelenks in Schnittdarstellung in eingefedertem Zustand des Sperrglieds;

Fig. 6a, 6b und 6c

je Einzelteile zur Bildung des Gelenks gemäß einer Ausführungsform; und

Fig.

7 eine Darstellung eines Gelenkteils gemäß Fig. 6b, jedoch in einer weiteren Ausführungsform.

Show it:

Fig. 1

a perspective view of a ladder according to the invention in a folded position and in an embodiment of the joint according to the invention;

Fig. 2

a sectional view of part of a ladder according to the invention in an embodiment of the joint according to the invention;

Fig. 3

a plan view of the joint in the embodiment of FIG. 2;

Fig. 4

3 shows a further sectional view of the joint according to FIG. 3, the joint being shown in a latched position;

Fig. 5

a further embodiment of a joint in a sectional view in the compressed state of the locking member;

6a, 6b and 6c

individual parts to form the joint according to one embodiment; and

FIG.

7 shows a joint part according to FIG. 6b, but in a further embodiment.

The perspective in a first embodiment in Fig. 1 The illustrated conductor 10 has three joints on each side of the spar on, of which the joints 12, 14 and 16 are clearly visible. Spar sections 18, 20 extend at the end of the joints, 22 and 24. Each joint has two joint parts 26 and 28, which end in connecting pieces that extend into the flat cross-tubular Spar sections 18 to 24 extend into it. The connecting pieces extend in a manner known per se up to rungs 30, optionally in addition to further stiffening fingers of the connecting piece the rungs reach over to the side.

Each joint part 26 and 28 is in the manner of a circular disk formed with connecting piece, for which purpose, for example, on Fig. 2 and 3 is to be referred. Each joint 12 to 16 has one Knob 34 on the side, so next to the spar extends outside and in the illustrated embodiment is designed as a pull or screw knob.

While there are three in the illustrated embodiment Rungs extend between joints, i.e. each spar section three rungs and the two outermost an additional one Having floor sprouts, it goes without saying that any different number of joints and rungs is possible, without leaving the scope of the invention. It is also possible the protrusion of knob 34, which is shown in FIG Embodiment approximately in the order of the spar width is to decrease significantly. This configuration is then useful if a pure turn of the knob is desired is, which then expediently out of round or on its outer circumference has at least corrugated peripheral surfaces that rotate lighten by hand.

However, it is understood that a mushroom shape of the knob 34 is favorable when pulling is desired is.

2 shows details of the design of the joint 12 seen. The same parts are here as in the others Figures with the same reference numerals. The joint is Can be actuated about a hinge axis 36, two hinge parts 26 and 28 each have spar connecting pieces 38 and 40 and in Are essentially circular disk-shaped. About one Bearing pin, which is preferably designed as a semi-tubular rivet 42 is, the hinge parts 26 and 28 are hinged together. A molded body extends around the bearing journal 44, with which the joint parts 26 and 28 can be fixed to one another are, in each of the selected locking positions. In the embodiments according to Figures 2 and 3 are eight locking positions provided that are evenly distributed so that each Rest position extends at an angle of 45 ° to the neighboring.

Both joint parts 26 and 28 can also be used as ends of the spar are considered after they are connected to their connecting pieces, for example by rivets 46, fixed to the associated spar section are connected.

The molded body 44 is movable in the direction of the hinge axis guided. In the illustrated embodiment, it has the form of a flat cuboid with a square plan and extends symmetrical to the journal 42. Between the is the upper end of the journal 42 and the guide body a compression spring 46 is added, which follows the molded body 44 presses down into the locked position. Between the compression spring 46 and the molded body or the knob 34 extends a sleeve 48. These elements together form the locking member 50, which allows between the release position and the to switch the locked position of the molded body 44.

The molded body 44 is in a molded body recess 52 of the leading joint part 28 rotatably guided. The molding recess 52 has an inner circumference that is the outer circumference of the shaped body 44 corresponds. Coaxial to the shaped body recess 52 extends an angular position recess 54 of the locking joint part 26, which the different angular positions the joint parts 26 and 28 to each other.

In the illustrated embodiment, the knob 34 is on provided on its underside with a threaded inclined surface 56. The threaded bevel 56 works with a threaded bevel 58 a cover 60 together, the joint 12 on covering its top.

The hinge 12 is also on its underside by a cover plate 62 covered. The knob 34 preferably consists of the Cover 60 and the cover plate 62 made of plastic, for example made of polyamide, while the joint mechanism by the way preferably consists of steel.

From Fig. 3 it can be seen how the angular position recess 54 can be formed. In the illustrated embodiment it is shaped like an 8-pointed star, so that the molded body 44 is spaced 45 ° apart Can bring angular positions there. It goes without saying that also any other configurations of molded body 44, angular position recess 54 and molded body recess 52 possible are without leaving the scope of the invention. For example The shaped body 44 can be essentially rod-shaped and the angular position recess 54 can then have a plurality of recesses matching this rod, that overlap each other and each in the desired Extend angles to each other.

4 shows the manner in which the locking member 50 in the locked position of the molded body 44 in the Joint extends. The knob 34 is in this position in the screwed lowest position, and the molded body 44 is in contact the corresponding torque transmission surfaces on the outer circumference both the angular position recess 54 and the Shaped body recess 52. In this way, torques be transferred over a large area between the joint parts.

A modified configuration of the joint 12 is shown in FIG. 5 seen. This solution is a pure train operation the locking member 50 is provided. By slightly swiveling the The shaped body 44 comes into contact with adjacent spar sections to areas of the joint part 26 laterally next to the angular position recess 54 so it doesn't snap again. The Rather, snapping takes place only when the next one Detent angular position is reached.

6a shows the shaped body 44 in a top view. The comparison with FIG. 6b shows that it is in a total of eight different angular positions in the one there Angle position recess 54 fits. It is from the molded body recess 52 of the joint part 28 carried along according to FIG. 6c.

A modified embodiment of the joint part 26 is out Fig. 7 can be seen. In this embodiment of the joint can be the same molded body 44 as in the embodiment 6a are used. The apparent from Fig. 7 Embodiment of the angular position recess 54 allows a total of twelve different, each at unequal intervals spaced angular positions.

Relative to a first angular position 66, one extends second angular position 68 at an angle of 30 °. Relating to the second angular position 68 extends a third angular position 70 at an angle of 20 °. Relative to the third angular position 70 extends a fourth angular position 72 in Angle of 40 ° so that the first angular position referred to the fourth angular position again at an angle of 90 ° extends and thus a shaped body 44 with a square Cross section can be used.

Claims (20)

Ladder, in particular stepladder, with a joint that connects two ladder rails, the joint having at least two locking positions for different relative positions of the ladder rails, characterized in that a locking member (50) is provided which is spring-loaded parallel to the joint axis (36) and in the spring-loaded state each connects a molded body (44) in a form-fitting manner against one another at the articulated end of the spar and in the spring-loaded state releases the connection to at least one molded body (44). Ladder according to claim 1, characterized in that the shaped body (44) is mounted coaxially to the hinge axis (36). Ladder according to one of the preceding claims, characterized in that the shaped body (44) is designed as a regular polygon. Ladder according to one of the preceding claims, characterized in that the shaped body (44) can be brought into a release position, whereby the joint (12, 14, 16) can be pivoted freely and the shaped body (44) is disengaged from at least one of the joint parts ( 26, 28). Ladder according to Claim 4, characterized in that the shaped body (44) is always connected in a rotationally fixed manner to the other joint part. Ladder according to one of the preceding claims, characterized in that the shaped body (44) is essentially star-shaped and a joint part (28) guiding the shaped body (44) has a shaped body recess (52) whose shape matches the shaped body (44). Ladder according to one of the preceding claims, characterized in that a locking articulated part allows the engagement of the shaped body (44) in at least two angular positions. Ladder according to one of the preceding claims, characterized in that a latching joint part allows a plurality of angular positions of the shaped body (44) by engagement in an angular position recess (54) therein, in particular at least two angular positions being offset by 45 °. Ladder according to one of the preceding claims, characterized in that the locking member (50) is movable between the sprung-in and the sprung-out state by pulling or pushing from the outside. Ladder according to one of the preceding claims, characterized in that the locking member (50) is rotatably guided on at least part of a thread and by turning a knob (34) of the locking member (50) the locking member (50) from the sprung into the sprung Condition is transferable. Ladder according to claim 10, characterized in that the thread ends in a straight surface in which the locking member (50) is held in the compressed state. Ladder according to one of the preceding claims, characterized in that each joint (12, 14, 16) on bars (18, 20, 22, 24) spaced apart from one another by rungs (30) or steps are formed symmetrically and the locking members (50) are one have symmetrical actuation direction to each other. Ladder according to claim 12, characterized in that the locking member (50) is mechanically fixed in the pull / push direction and in particular rotatably connected to the shaped body (44). Ladder according to one of the preceding claims 1 to 12, characterized in that the locking member (50) is non-rotatably connected to the shaped body (44) and rotates with the leading joint part. Ladder according to one of the preceding claims, characterized in that the shaped body (44) has a thickness which corresponds approximately to half the spar thickness and is in particular 20 to 60 and preferably approximately 40% of the spar thickness. Ladder according to one of the preceding claims, characterized in that the guide of the shaped body (44) is covered on both sides by cover plates (62) or covers (60), which consist in particular of plastic. Ladder according to one of the preceding claims, characterized in that the hinge axis (36) passes through the shaped body (44) and in particular at least part of the locking member (50). Ladder according to one of the preceding claims, characterized in that a total of six joints, that is to say three joints (12, 14, 16) per side of the spar, are arranged uniformly distributed over the course of the ladder (10). Ladder joint, in particular for retrofitting between conductor sections which have hollow bars, characterized in that the ladder joint (12, 14, 16) has connecting pieces (38, 40) which can be inserted into the hollow bars and fastened to them, for example, by rivet connections (46) are and that the joint is designed in particular according to one of claims 1 to 18. Ladder joint, in particular according to claim 19, characterized in that the ladder joint (12, 14, 16) has connection pieces (38, 40) which can be inserted into the hollow spars and have recesses which fix the connection piece (38, 40) together with allow the step or rung in the spar, especially by crimping.

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