DE102010027873A1 - Telescopic vertical tube with stop - Google Patents

Abstract

According to the invention is in a telescopic vertical tube, which has an outer tube and an inner tube displaceable in the outer tube, with an end-side head and / or foot plate at one or both free ends, and with a stop which the maximum possible insertion of the inner tube into the outer tube limited, proposed that an impact-reducing damper is provided as a stop.

Description

The invention relates to a telescopic vertical tube, which has an outer tube and an inner tube which can be displaced in the outer tube, with a stop which limits the relative movement of the tubes relative to one another.

Such telescopic vertical tubes are used for setting up ceiling formwork, shoring or scaffolding. Vertical pipes are also referred to as a prop and z. As for formwork, as scaffolding tube as part of a so-called modular scaffolding (spatial structure) or as part of a vertical frame used in facade scaffolding. Regardless of the purpose, these must be adjustable in height. In scaffolding, it is often necessary to adapt the individual vertical tubes or vertical frames formed thereon to the course of the substrate, for example to an inclined floor or steps. For slab formwork, the props must occupy a predetermined defined height. Therefore, the telescopic vertical tubes on an outer tube and an inner tube, which is displaceable and fixable for length and height adjustment in the outer tube and thus telescopic. This height adjustment can be done by moving the inner tube in stages or continuously, for example by inserted in through holes pin or thread.

Such vertical tubes have to increase the footprint on the front side of a head or foot plate at one or both free ends. This serves to increase the footprint, so that a lower contact pressure against the counter surface, for example a floor, a ceiling or a wall, results. Without a foot plate, the vertical tube would possibly press into the ground or it could result in setting movements under load.

Telescopic vertical tubes with an outer tube and an inner tube displaceable therein are subjected to high loads during dismantling and assembly, in particular during stripping, if the unfused, unfixed, telescoping vertical tubes fall unintentionally or deliberately into each other due to gravity. The inner tube falls into the outer tube. It bounce the stop limiting components hard on each other and the entire vertical tube jumps in person hazardous way uncontrollably high and to the side. Furthermore, this leads to strong bang-like noise pollution, since when stripping hundreds of Schalstützen can be solved in a short time. Depending on the construction of the props, the following components are limit stop and thus form, for example, a stop in the sense of the invention:
If the inner tube is longer than the outer tube, it may slide so deep into the outer tube, that the lower edge of the inner tube pops against the base plate of the outer tube or against a corresponding motion-limiting component. There is also a risk of injury here in prior art braces: The footplate on the outer tube usually has a central opening communicating with the tube interior of the outer tube and allowing the fingers of the worker to reach into the inner bottom region of the outer tube. The worker often uses this opening when transporting the horizontally lying on the floor props, in order to comfortably and non-slip grip the lower end of the support. If during transport the support is erected, the inner tube can swing with momentum against the foot plate and thus also fingers of the worker and create injuries.

If the inner tube is shorter than the outer tube, the head of the inner tube may strike against the upper tube wall of the outer tube.

Observations on construction sites have shown that when slipping the inner tube slipping into the outer tube is, so to speak, "standard". Investigations have shown that in the short term invisible but long-term relevant material fatigue is associated, in particular, the roundness of the tubes is impaired, which affects the telescoping and load capacity. Furthermore, the strength of the connection of the head and foot elements, such as foot or head plates or fork elements, may decrease.

It is therefore an object of the present invention to provide an improved telescopic vertical tube with stop

This object is achieved by a telescopic vertical tube with the features of claim 1. Advantageous embodiments are the subject of the dependent claims.

According to the invention it is first proposed that in a telescoping prop with outer tube and therein displaceable inner tube and a stop which limits the maximum possible insertion of the inner tube into the outer tube, the abovementioned disadvantages of the prior art can be avoided by a damper as a stop. If the inner tube with momentum falls into the outer tube, it no longer comes to the undesirable hard metal stop with the associated hazard, noise and material stress. For this purpose, the damper preferably has an elastic material which has a sufficient elasticity for the above purpose. It should be the Damper and the material be designed and dimensioned so that on the one hand hard attacks are avoided, but it does not come to "gummy" rebounds. There is also a spring, z. As steel, optionally with damping elements in consideration, as well as the skilled person known types of damper, z. B. hydraulic or gas spring damper.

In this context, it was recognized that a sleeve-like or tubular damper meets these requirements in a particularly high degree, provided that it can absorb energy when it stops by folding. The sleeve or tube can therefore be compressed.

Preferably, the damper is formed as follows: The outer tube has at its lower end to an end base plate, which closes the lower end of the outer tube completely or partially. Inside the outer tube, the damper is arranged, which also stands on the inner part of the base plate. When inserting the inner tube, its lower end can strike the damper, which limits the insertion. In this case, there is no hard metallic stop, since the damper optionally intercepts the force of the falling inner tube. If the damper is designed as a sleeve, its inner and outer diameter is to be dimensioned so that it comes in the interior of the outer tube to a compression of the sleeve, in particular with multiple folding of the same. In case of incorrect design, it would be conceivable, for example, that the sleeve buckles at only one point and thus can perform less damping work.

A telescopic vertical tube is understood here to mean that it has an outer tube and an inner tube displaceable therein for length or height adjustment, wherein the inner tube can be displaced and fixed in various positions in steps and / or steplessly and thus telescoped. This height adjustment can be done by moving the inner tube in stages, for example by inserted in through holes pin. The height adjustment and fixation can also be made continuously, for example, characterized in that the inner tube has an external thread, which is screwed into a corresponding mating thread or nut, wherein the mating thread or the nut is supported against the outer tube. The inner tube may therefore be loosely inserted into the vertical tube and related to other components, such as a thread foot plate. A vertical tube can also be installed horizontally, z. B. between walls or scarf walls, which also falls under the spirit of the invention. Any prop, in particular a telescopic, falls here under the term "vertical tube"

If a spindle is used as an inner tube, it may optionally be inserted into the outer tube sufficiently loosely, so that the vertical tube can absorb only compressive forces in the axial direction. The compressive forces are absorbed by a screwed onto the spindle nut or more generally a mating thread, which in turn is supported against the opening of the outer tube or generally against the outer tube. Furthermore, the spindle and nut should be designed so that even with the maximum unscrewing of the spindle, this is performed sufficiently in the outer tube. The nut preferably has wings for turning without tools. The spindle can be inserted at the upper or lower end of the vertical tube and thus form a head or foot spindle. Such spindles preferably comprise a head or foot plate, a threaded tube and a spindle nut. These threaded spindles are z. B. also plugged into modular scaffolding vertical handles or vertical tubes of a facade or supporting framework.

In a particularly advantageous embodiment, the base plate has an opening through which the damper can be inserted into the interior of the outer tube. In this case, if the diameter of the opening is smaller than the inner diameter of the outer tube and the outer diameter of the damper, this can not be pressed through the opening when striking. In this case, the damper may be formed as a sleeve or full part. The damper can be inserted, for example, through the upper opening of the outer tube during assembly.

In a further labor-saving embodiment, the diameter of the opening in the base plate and the inner diameter of the outer tube and the damper is designed and matched to one another such that the damper can be inserted under elastic deformation through the opening in the outer tube, but no longer by the Opening can be pushed out. The expert has numerous options available. Expressly mentioned here are the following: The damper is designed as a full part and can be pushed by squeezing through the opening of the bottom plate in the outer tube. The damper may also be in the form of a sleeve, the side wall of which is pressed in for insertion so that its diameter is temporarily reduced so that the sleeve can be pushed through the foot plate opening into the outer tube. However, particularly advantageous is the provision of a slot in the side wall of the sleeve in the axial direction.

Along the slot thus the side walls can be moved against each other to the diameter of the damper temporarily when inserted through the top plate opening Reduce. Thereafter, the sleeve springs open and the side walls of the slot face each other so that the slotted sleeve can behave almost like a continuous sleeve during the attack: Under load, because of the installation situation inside the pipe, the side walls not dodge against each other. This design is particularly preferred because it combines low material requirements, good compression and damping behavior and ease of mounting together.

Similarly, the serving as a damper sleeve can also be arranged outside of the tube instead of within to perform the same task. In an alternative embodiment, therefore, an end head plate is provided at the upper end of the inner tube. The sleeve formed as a damper is disposed below the top plate and adjoining the outer wall of the inner tube adjacent thereto. When inserting the inner tube into the outer tube, the upper end of the outer tube may hit the damper to limit the insertion. Again, there are various ways of designing the sleeve. This can be slotted, for example, so that it can be placed by temporary spreading around the inner tube around. The sleeve can also be continuous and pushed over the lower end of the inner tube in the direction of the top plate. Finally, the continuous sleeve could also be sufficiently elastic so that it can be pulled directly over the top plate on the inner tube.

Preferably, the vertical tube is part of a scaffolding, z. B. as scaffolding tube or as the two vertical posts in a scaffolding frame. In a scaffolding frame, two parallel vertical tubes in the lower and upper regions of the outer tube are connected to each other by horizontal beams to form a frame. So-called modular scaffolds are preferably connected by means of prefabricated system components and have corresponding connection options. This may, for example, be a system with vertical stem stakes and wedge heads on the bars and diagonals for hanging in the plates. Alternatively, this may be a system with prefabricated frames that are connected and stiffened by means of bars and diagonals.

The vertical tube is preferably used for formwork or support purposes, for. B. as a prop. Also, the tube or the support is reversible used, so that the terms "top" "bottom", "top plate" and "base plate" are meaningfully interchangeable and not limiting.

Further advantages will become apparent from the following description and the accompanying drawings. Likewise, according to the invention, the features mentioned above and even further can be used individually or in any desired combinations with one another. The mentioned embodiments are not exhaustive and have exemplary character. Showing:

1 a telescopic vertical tube according to the invention in a maximally extended position in side view;

2 : the bottom of the pipe 1 on average; and

3 : a detail view of the bottom of the pipe 2 on average.

1 shows the telescopic vertical tube according to the invention 1 in a maximum extended position. At the bottom and top 21 . 31 of the vertical tube 1 are foot or head plates 4 stated. About the length of the inner tube 3 Through holes extend 34 which fixes the tubes relative to one another by means not described in more detail fixing means 24 allowed. These are well known in the relevant field and are therefore not deepened.

2 shows a detailed view of the lower area 21 the prop 1 , The inside of the outer tube 2 on the foot plate 4 standing damper according to the invention 7 limits the insertion of the outer tube 2 guided inner tube 3 at its lower end. The inner tube 3 is therefore on the damper 7 on. The inner tube 2 is with clear play in the outer tube 2 guided to ensure easy displacement under construction site conditions. So that the inner tube is still defined and not loosely guided in the outer tube, the inner tube 3 in the lower area a tube expansion 33 on, which ensures a corresponding sliding seat in the outer tube. In the area of in 1 addressed fixative 24 There is a comparable sliding seat.

3 explains a preferred embodiment of the damper 7 , This is designed as a sleeve which is designed such that it the lower open end 33 of the inner tube 3 can carry. Diameter and wall thickness correspond therefore with the profile of the lower end 33 of the inner tube 3 ,

The foot plate 4 on which the outer tube 2 is fixed, for example by welding, has a central opening 44 on, smaller than the circumference of the sleeve 7 is. Thus, the sleeve can not pass through the opening 44 fall out. Through the slot 71 However, which extends in the wall of the sleeve from top to bottom, however, the sleeve can be rolled up so that it passes through the opening 44 can be inserted and inside the outer tube 2 can jump up again.

In addition, but also expressly completely independent of the above-described embodiment of a vertical tube with stop limiting damper, the below-explained vertical tube is claimed with special head / foot plate. Any features from the above-described vertical support can be combined with the following features:
The invention further relates to a telescoping vertical tube, which has an outer tube and an inner tube displaceable in the outer tube, with an end-side head and / or foot plate and a method for aligning the same.

Already installed telescopic props or vertical tubes must often be aligned vertically. This happens, for example, slab formwork when the props are already under load, for example, by the overhead slab formwork elements. Moving the prop under load is difficult, especially since the ground is often rough, such as a raw concrete pavement with friction-enhancing sand and pebbles. The lotgerechte alignment requires large forces, usually with a variety of targeted hammer blows against the head or Fußplattennahen area of the vertical tube. This leads disadvantageously to damage. As a result of the surface damage, the tubes rust faster in this area or the altered geometry may affect telescopability and / or load bearing capacity. Therefore, it has been proposed to provide the outer tubes of such supports with a shock protector. This intercepts the blows and prevents damage to the pipes. However, the impact protectors require a material and manufacturing effort and lead because of their impact absorbing effect to more violent blows of the user.

It is therefore an object of the present invention to provide an improved telescopic vertical tube with frontal head and / or foot plate and a method for aligning the same.

This object is achieved by a telescopic vertical tube having the features of claim 1 and the method of claim 7. Advantageous embodiments are the subject of the dependent claims.

According to the invention is proposed in relation to the latter task to provide the top or bottom plates with recesses so that a lever tool can be introduced into this between the plate and mating surface, By the lever tool takes place a power amplification, which allows the vertical tube along the mating surface also to move on a very anti-slip surface. The edge-side recesses offer, in contrast to the impact protector according to the prior art, the possibility of being introduced without additional material expenditure and with low production costs, for example by means of proven production steps for producing and attaching the head or foot plate. By the lever, the displacement of the pipes can be very metered and without the hammering associated material stress and noise development done. "Edge recesses" here do not mean that they may only be on the edge. Of course, the recesses can also extend inwards. It is crucial that at least the edge offers suitable points of attack for a lever tool.

Preferably, the recesses in the plates are designed such that by means of leverage the static friction between the footprint and counter surface can be overcome on the site and can use a lower resistance forming sliding friction. The person skilled in the art will therefore choose the height and depth of the recess in such a way that conventional construction tools, such as a bar iron / Qfoot, can be used in such a way that a sufficiently high lateral pushing force can be generated by engaging the lever tool in the mating surface when the lever movement begins. If the recess is too shallow, the lever tool can not be used or generate sufficient lateral force. If the recess is too high, the lever factor is reduced. If the recess is too deep, that is, extends too far toward the post, under unfavorable circumstances the lever tool may be inserted too deep and essentially only a vertical force and not the desired sideways force is generated. If the recess is not sufficiently deep, the vertical force is hardly generated when levering and there is - if any - only a very short sideways movement. Furthermore, the operator has to adjust and operate the lever tool again and again.

In one embodiment, it is provided that the recesses are such that, by actuating the lever tool inserted therein, the head or foot plate is lifted off the opposing surface. This reduces the contact or sliding friction between footprint and mating surface and the alignment requires less force.

Preferably, the two above-mentioned force actions of the lever, namely friction-reducing lifting of the head or foot plate from the counter surface and applying a carried lateral displacement force, simultaneously by a single pivotal movement of the lever. At the point of contact between the outer edge of the recess and the lever, a force vector is created when levering away from the mating surface and in the direction of the vertical tube longitudinal axis.

The dimensions named for the vertical tube, the head or foot plate and the recess have proven to be particularly suitable for construction sites and are user-friendly.

Further advantages will become apparent from the following description and the accompanying drawings 4a, 4b, 5 and 6, wherein the following reference numerals refer only to these drawings. Likewise, according to the invention, the features mentioned above and even further can be used individually or in any desired combinations with one another. The mentioned embodiments are not exhaustive and have exemplary character. Showing:

4a . 4b : a respective telescopic vertical tube according to the invention in a perspective view;

5 : the foot region of the vertical tube according to the invention in a perspective view as well

6 : An embodiment of the top or bottom plate without pipe section as a technical drawing.

4a shows a telescopic vertical tube 1 with a circular outer tube 2 and a circular inner tube guided displaceably therein 3 , which is designed here as a threaded spindle. The spindle 3 is thus in the outer tube 2 can be inserted and the height adjustment can be made continuously, the thread through a correspondingly shaped counter-threaded piece in the form of a manually rotatable nut 21 at the head of the outer tube 2 is supported against the outer tube. The outer tube 2 So wear the mother 21 with the spindle screwed into it 3 ,

The spindle 3 , which serves here only as an example of an inner tube of a telescopic vertical tube, has at its free - here upper - end 31 a substantially square top plate 4 on - here with rounded corners. The same applies to the lower free end 41 of the outer tube 2 , The head or foot plates 4 Here are the alignment aids according to the invention in the form of recesses 42 which are explained in more detail below. The pipe 1 can also be reversed standing around, z. B. be installed as a scaffold on uneven ground.

4b shows another embodiment of the prop 1 that only work in the attachment principle 21 from 1a different. This height adjustment can be done by moving the inner tube in stages by inserted into aligned through holes through inner and outer tube pins. This is done coarse adjustment. For fine adjustment is a stepless adjustment by means of thread, as in 4a , provided, however, only in sections, ie to bridge the area between two through holes. Here is the thread cost and production cost saving only on a short section of the outer tube 2 intended

5 shows an example of a foot plate according to the invention 4 in detail, with all explanations are of course transferable to a corresponding headstock. At the bottom 21 of the outer tube 3 is the footplate according to the invention 4 set, which is usually by inserting a pipe end 21 in a circular recess of the Fußplattenrohlings 4 or by placing a pipe end 21 on the Fußplattenrohling 4 around this circular recess followed by point or section welding takes place.

The foot plate 4 corresponds to the material and dimensions of the commonly used foot plates. On all four sides 43 the square or rectangular base plate are the recesses 42 brought in. These extend only in the middle region of the edge 43 , thus in the area of recesses 42 higher forces can be introduced without causing deformations of the foot plate 4 comes. The recess 42 was created by deformation of the base plate, for example by punching. Preferably, this is a bow-like segment.

Preferably, for stability reasons, the deformed area of the edge is made 43 only 30 to 60%, preferably 35 to 45% of the edge length.

The deformed section, which the recess 42 forms, in the supervision arc-shaped, whereby the Bogenlinien on the outer edge 43 the foot plate 4 at an obtuse angle less than 65 °, preferably less than 45 °. This embodiment serves for improved fatigue strength and prevents tearing in the region of the edge 43 the recess 42 ,

The foot plate can also be round with circumferential recess. It could then be applied at any point of the lever and thus made a shift directly in any direction. Theoretically, only 3 recesses distributed in 120 ° intervals would suffice. Also more recesses are conceivable analogously. However, 4 recesses distributed at 90 ° intervals are preferred, as they correspond to the usual thinking at right angles and ensure higher strength of the edge against bending up. This applies regardless of the geometry of the foot plate.

6 Finally, is a technical drawing of the base plate according to the invention with exemplary dimensions in mm.

• – die Kopf- und/oder Fußplatte (4) randseitig Ausnehmungen (42) aufweist, derartig, dass ein Hebelwerkzeug zwischen die Kopf- und/oder Fußplatte (4) und Gegenfläche bringbar ist und durch Bewegen des Hebelwerkzeuges ein Verschieben des Vertikalrohres entlang der Gegenfläche möglich ist, und/oder
• – die Ausnehmungen (42) derart sind, dass durch Einsetzen und Betätigen des Hebelwerkzeuges die Haftreibung an der Kontaktfläche zwischen Aufstandsfläche und der Gegenfläche überwindbar ist und Gleitreibung einsetzen kann, und/oder
• – die Ausnehmungen (42) derart sind, dass durch Einsetzen und Betätigen des Hebelwerkzeuges der Kontaktdruck an der Kontaktfläche zwischen Aufstandsfläche und der Gegenfläche derart reduziert werden kann, dass ein Verschieben des Vertikalrohres entlang der Gegenfläche möglich ist, und/oder
• – die Ausnehmungen (42) derart sind, dass bei in die Ausnehmung eingesetztem Hebelwerkzeug durch Schwenken des Handhabungsteils des Hebelwerkzeuges durch des Benutzer in Richtung auf das Vertikalrohr, durch das Hebelwerkzeug gleichzeitig die Kopf- und/oder Fußplatte (4) von der Gegenfläche angehoben wird und die Kopf- und/oder Fußplatte (4) in Richtung der Schwenkbewegung entlang der Gegenfläche verschoben werden kann, und/oder
• – die Kopf- und/oder Fußplatte (4) im Bereich der Ausnehmung um 5–20 mm, vorzugsweise 6–10 mm aus der Ebene der Aufstandfläche angehoben ist, und/oder
• – die Kopf- und/oder Fußplatte (4) eine Kantenlänge von 100–140 mm, vorzugsweise 110–130 aufweist und/oder eine Dicke von 4–12, vorzugsweise 5–9 mm aufweist und/oder Löcher zum Befestigen der Platte mittels Befestigungsmitteln, insbesondere Schrauben oder Nägeln an der Gegenfläche aufweist.

Generally speaking, the second invention includes a
Telescopic vertical tube ( 1 ), which an outer tube ( 2 ) and one in the outer tube ( 2 ) displaceable inner tube ( 3 ), with a frontal head and / or foot plate ( 4 ) at one or both free ends ( 21 . 31 ), wherein the head and / or foot plate ( 4 ) a footprint ( 41 ) for supporting the vertical support against mating surfaces, in particular a floor, ceiling or wall, which is characterized in that

• - the head and / or foot plate ( 4 ) on the edge recesses ( 42 ), such that a lever tool between the head and / or foot plate ( 4 ) and counter surface can be brought and by moving the lever tool, a displacement of the vertical tube along the counter surface is possible, and / or
• - the recesses ( 42 ) are such that by inserting and pressing the lever tool, the static friction at the contact surface between footprint and the mating surface can be overcome and can use sliding friction, and / or
• - the recesses ( 42 ) are such that by inserting and pressing the lever tool, the contact pressure at the contact surface between footprint and the mating surface can be reduced so that a displacement of the vertical tube along the mating surface is possible, and / or
• - the recesses ( 42 ) are such that when inserted into the recess lever tool by pivoting the handling part of the lever tool by the user in the direction of the vertical tube, by the lever tool at the same time the head and / or foot plate ( 4 ) is raised by the counter surface and the head and / or foot plate ( 4 ) can be moved in the direction of pivotal movement along the mating surface, and / or
• - the head and / or foot plate ( 4 ) is raised in the region of the recess by 5-20 mm, preferably 6-10 mm from the plane of the footprint, and / or
• - the head and / or foot plate ( 4 ) has an edge length of 100-140 mm, preferably 110-130 and / or has a thickness of 4-12, preferably 5-9 mm and / or has holes for fastening the plate by means of fastening means, in particular screws or nails on the mating surface.

• a. Einführen eines Endes des Hebelwerkzeuges in die Ausnehmung (42) zwischen die Kopf- und/oder Fußplatte (4) und die Gegenfläche; und
• b. Bewegen des Hebelwerkzeuges und dadurch Verschieben des Vertikalrohres entlang der Gegenfläche.

A method according to the second invention is feasible as follows:
Method for aligning by means of a lever tool from a telescoping vertical tube under load ( 1 ), preferably according to one of the preceding claims, with a frontal head and / or foot plate ( 4 ) on at least one of its two free ends ( 21 . 31 ), wherein the head and / or foot plate ( 4 ) with their footprint ( 41 ) is supported against a counter surface and wherein the head and / or foot plate ( 4 ) on the edge recesses ( 42 ), such that a lever tool between the head and / or foot plate ( 4 ) and the counterface is engageable, with the following steps:

• a. Inserting one end of the lever tool into the recess ( 42 ) between the head and / or foot plate ( 4 ) and the counter surface; and
• b. Moving the lever tool and thereby moving the vertical tube along the mating surface.

Preferably, in carrying out the step b) the lever tool during pivoting of the handling part of the lever tool by the user in the direction of the vertical tube, at the same time the head and / or foot plate ( 4 ) lifts from the counter surface and the head and / or foot plate ( 4 ) shifts in the direction of pivotal movement along the mating surface.

Claims (10)

Telescopic vertical tube ( 1 ), which an outer tube ( 2 ) and one in the outer tube ( 2 ) displaceable inner tube ( 3 ), with a frontal head and / or foot plate ( 4 ) at one or both free ends ( 21 . 31 ), and with a stop ( 7 ), which limits the maximum possible insertion of the inner tube into the outer tube, characterized in that a damper ( 7 ) is provided as a stop. Pipe according to claim 1, characterized in that the damper ( 7 ) comprises an elastic material. Pipe according to claim 1 or 2, characterized in that the damper ( 7 ) Is a sleeve, in particular a laterally slotted sleeve and / or made of elastic material, for. Gum. Pipe according to one of the preceding claims, characterized in that the sleeve is designed and designed such that it can absorb energy when folded by folding. Pipe according to one of the preceding claims, characterized in that the outer pipe ( 2 ) at the lower end ( 21 ) an end foot plate ( 4 ), and in the outer tube of the damper is arranged standing on the base plate, such that upon insertion of the inner tube ( 3 ) whose lower end ( 32 ) can strike the damper to limit the insertion. Pipe according to one of the preceding claims, characterized in that the foot plate ( 4 ) an opening ( 44 ) to the interior of the outer tube ( 2 ), wherein the diameter of the opening ( 44 ) smaller than the inner diameter of the outer tube at its lower end ( 21 ) and the outer diameter of the damper is. Pipe according to one of the preceding claims, characterized in that the opening ( 44 ), the inner diameter of the outer tube and the damper are designed and matched to one another that the damper can be inserted under elastic deformation through the opening in the outer tube, but can not be pushed through the opening when striking the lower end of the inner tube. Tube according to one of the preceding claims, characterized in that the inner tube ( 3 ) at the upper end ( 31 ) an end face plate ( 4 ), and the sleeve designed as a damper is arranged below the top plate and adjacent to it around the outer wall of the inner tube around, such that upon insertion of the inner tube ( 3 ) in the outer tube whose upper end can strike the damper, so as to limit the insertion. Pipe according to one of the preceding claims, characterized in that the damper has a height of 40-100 mm, preferably 55-85 mm. Pipe according to one of the preceding claims, characterized in that the head and / or foot plate ( 4 ) has an edge length of 100-140 mm, preferably 110-130 and / or has a thickness of 4-12, preferably 5-9 mm and / or has holes for fastening the plate by means of fastening means, in particular screws or nails on the mating surface.

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