CZ20022917A3 - Fixing device and use thereof when erecting flag poles - Google Patents

Abstract

A securement means is provided with which tubular poles e.g. posts or masts, are erected. A ground peg <B>9</B> with helices <B>11</B> is driven into the ground <B>2</B>. The ground peg is attached to a retaining bolt <B>8</B> which at its upper end is configured as a mounting spindle <B>3</B>. The tubular pole <B>1</B> is mounted on the spindle <B>3</B> with its securement end <B>19</B>. The retaining bolt <B>8</B> has a support and abutment plate <B>10</B> with a support and abutment face <B>5</B>, on which is seated an annular seal <B>18</B>. After mounting the tubular pole <B>1</B>, a granular filler material <B>6</B> such as rolled chip, is poured into the annular space <B>4</B> between the pole <B>1</B> and the spindle <B>3</B>.

Description

Fixing equipment and its use for erection of flagpoles

Technical field

The invention relates to a fastening device by means of which a pole, such as a mast, pile or strut, formed at least on its fastening end in the form of a tube, is detachably fastened on a mounting plane, with a mounting mandrel projecting from the mounting plane. the transverse dimension of the insertion mandrel is smaller than the inner transverse dimension of the column in such a way that an annular space is formed between the insertion mandrel and the column. The invention further relates to the use of a fastening device for erecting flag poles with a cross-sectional shape.

BACKGROUND OF THE INVENTION

A fastening device of this kind is known from DE 295 13 554 U1. This known fastening device is mainly intended for piles and pillars of wood, but also for steel pipe columns. In a known fastening device, the plug-in mandrel is located, for example, on a ground dowel and is provided with a transverse borehole at its upper end. The column mounted with its tubular fastening end on the insertion mandrel can swing on the mandrel due to the annular space between the column and the insertion mandrel. In this way, it can be leveled when the ground dowel is screwed somewhat obliquely into the soil. For fixing, a transversely extending pin is inserted into the borehole located at the upper end of the holding mandrel, which is screwed into corresponding holes in the wall of the column in the form of a tube. Since the drill hole in the retaining pin has a larger dimension than the pin, it remains possibility of swiveling maintained. The fastening end of the column is biased between the transversely extending pin and the retaining plate which is provided at the lower end of the column and can be bolted to the front end of the column by means of a nut.

The known fastening device has proven itself in practice, but requires careful and precise work. In this case, it may happen that, once the nut is tightened, the adjustment position of the column which has already been adjusted is disrupted. The various parts that work together mechanically also require relatively precise production, which is not cheap. Since the mounting pin, the transversely mounted pin, the end of the column, the retaining plate and the nuts have to be perfectly matched to one another, the transition to columns of different diameters is possible only to a limited extent. Multiple types of equipment must therefore be kept in stock. In addition, the known fastening device is intended mainly for wood stakes, which is manifested, for example, in that the retaining plates are provided with teeth or blades on the front side of the column, which are used for embedding in a wooden surface.

Further, DE 199 60 854 A1 discloses a fastening system with anchoring device in which the ground anchor has at its upper end a cup or tube-shaped filling section into which the erected column is inserted. In this case, the inclined positions of the earth dowel can also be compensated by tilting the column end in the filling section. After adjustment, the annular space between the fastening end of the column and the filling section is filled with granular filling material. Surprisingly, it has been shown that even with small grains of the filling material, a strong and reliable connection can be achieved between the column and the earth dowel. The connection is also detachable. In these known fastening devices, the ground dowel filling hole surrounds the column from the outside.

• · · · · · · · · · · · · · · · · · ·

As a result, the ground dowel has a relatively large diameter. The filling opening for the granular filler material is further seen from above.

Thus, in practice, it is closed by a cover, to which a packer of the filling material can also be connected. In total, however, a fastening device with a large diameter is formed, which in many cases can be disruptive. In addition, it is not excluded that in the direct filling of the granular filler material into the filling section, the individual grains of the material may also fall next to this filling section, so that, in the high demands for a satisfactory optical impression, they must be removed individually again.

In many cases, however, pillars, piles, masts and the like have to be erected very quickly, so they cannot be carefully machined, yet a flawless aesthetic effect must be achieved. This is the case, for example, at trade fairs, exhibitions and festivals of all kinds, where flag poles, shuttering and signboards, or lightweight canopy posts are quickly erected and removed again. On similar occasions, masts, columns and piles of different diameters are also contemplated and must be erected quickly, and it is not easy to have a large number of different types of fastening devices in stock.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a fastening device of the above-mentioned type, by means of which it is possible to erect and easily remove tube-shaped columns of different materials and diameters, in different positions and directions. . Moreover, the production of this fastening device should be inexpensive.

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• • • <1 • · · ····

SUMMARY OF THE INVENTION

This object is achieved by a fastening device, such as a mast, pile or strut, formed at least at its pipe-shaped fastening end, detachably fastened to a mounting plane, with a mounting mandrel protruding from the mounting plane on which the fastening end of the pole is mounted, the transverse dimension of the insertion mandrel is smaller than the internal transverse dimension of the column in such a way that an annular space is formed between the insertion mandrel and the column, according to the invention, which is based on granular filler material present in the annular space between the insertion mandrel and the column. This object is further accomplished by the use of the fastening device according to the invention for erecting flag poles with an annular cross-section.

In contrast to the fastening system known from DE 199 60 854 A1, in which a cup or tube-shaped filling section is provided in which it is inserted and in which the seam is adjusted and the annular space formed between the filling section and the column is filled with grained With the filling material, it is provided in the fastening device according to the invention that the column is mounted on the mounting mandrel and the granular material is placed in the interior of the column so that it is finally located in the annular space between the mounting mandrel and the column.

The fastening device according to the invention is directed to an arrangement with a considerably smaller transverse dimension than in the prior art. The transverse dimension is determined mainly by the column itself, which is usually a tube with a circular cross-section. However, other cross-sectional shapes are also possible. Filling the granular filler material into the column itself from above or through the side opening is easier and cleaner than filling the filler material into an open, circular, 0 00 «· 0« «9 0 0«

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990 9 90 9 0 00 · 9 0 909 funnel immediately on the ground. By tilting the column on the mounting mandrel and adjusting it to different positions relative to the mandrel, the bevel and location of the column relative to the mounting mandrel can be changed, so that alignment is possible by position and direction and the inclined position of the mandrel relative to the column erection plane can be easily and quickly compensated. Thanks to the interchangeable support and stop surfaces, it is possible to quickly adapt the columns with different transverse dimensions and shapes. Moreover, the production of the fastening device according to the invention is very inexpensive and guarantees that, despite the rapid work method, a good upright post can be guaranteed even when untrained workers are employed.

The granular filler material may consist of hard sand, pebble or aggregate and / or a resilient plastic material. Although the dimensions of the individual filler grains are wide range selectable, it has proven particularly advantageous that the mean size d of the filler grains is approximately 0.1 · s <d <0 relative to the average width s of the annular space slits, Especially advantageous and inexpensive is the use of pebble with an average grain size of 2 to 4 mm.

The transverse dimension of the insertion mandrel may be the same over the entire length of the mandrel, or it may be provided that this dimension decreases from the fixing end of the mandrel to its free end. In both cases a good holding effect is obtained.

The case that is most common in practical use is a circular mandrel. In this case, it is particularly advantageous to provide the helix in the manner of one or more threads on the outer periphery of the insertion mandrel. The cross-section of a column in the form of a tube, which is most common in practice, is circular. Attachment mandrel with circular cross-section, equipped with helix,

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however, it can also be used in conjunction with a tubular column whose cross-section differs from a circular one, for example with an oval or polygonal cross-section. The helix allows a particularly strong connection between the tube-shaped column and the setting pin by rotating the post after being placed on the setting pin and thus tightening it to a certain extent. In this case, it is also possible to easily release the tubular column after use without further measures, since the column can be slightly unscrewed again.

The fastening device according to the invention is suitable for many operating positions of the column to be fixed, thus also for its horizontal or inclined arrangement, it is only necessary to ensure that the granular filling material remains reliably positioned in the annular space between the setting pin and the column.

However, a particularly large space for the use of the fastening device according to the invention is where the mounting pin is part of a retaining pin which, at its end opposite to the mounting pin, is designed as an earth dowel. In this case, the fastening device according to the invention serves the vertical position of piles, columns or poles in the soil.

However, a variant of the fastening device according to the invention is also well suited for the same field of application, in which the mounting mandrel is part of a holding pin which is provided at its end opposite the mounting mandrel with a mounting pin for insertion into a separate ground dowel. cup-shaped or tube-shaped to accommodate grainy filler material that holds the fastening pin. In this case, the fastening device is designed according to DE 199 60 854 A1. In this way, even greater possibilities of adjusting the erected column in the form of a pipe can be obtained.

• · · ·

In the vertical position of piles, masts or masts, it must be ensured that the granular filler material does not fall from the bottom of the pile, mast or mast fastening end. First, the missing filler material is missing to achieve proper fastening, and secondly, in many cases it is disturbing when the gravel or the like is adjacent to the fastener on the lawn. For reliable and clean work it is therefore necessary to close the pipe end of the column in the bottom.

A particularly simple embodiment for this purpose may be that the inner dimension of the tube-shaped column is larger than the largest outer dimension of the retaining pin so that the tubular column can be fully pushed over the retaining pin. In fact, the tube-shaped post then rests against the ground or other mounting plane, such as, for example, the pavement surface or the cement ground or the like, with the end face of its fastening end, thereby achieving the necessary bottom closure.

Another advantageous embodiment may be that there is an abutment and abutment surface between the insertion mandrel and the tube-shaped column, which determines the axial position of the column with respect to the retaining mandrel. In this embodiment, the fastening is independent of irregularities or irregularities in the pole mounting surface.

In order to realize this abutment and stop surface, it is possible to provide that the retaining pin is provided with a laterally protruding stop plate, which has at least the transverse dimension of the tubular column, is arranged between the ground anchoring or fastening pin on one side and the mounting pin on the other and is formed on a support and stop surface for a tube-shaped column.

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A particularly robust and stable embodiment is given by the one-piece design of the retaining pin with a mounting pin, a support plate and a stop plate and an earth dowel or a fixing pin.

However, it is also possible for the support plate and the stop plate to be a separate perforated plate which is mounted on the retaining pin and is supported in an oblique position with respect to the retaining pin or pivotable against a collar formed thereon. In this preferred embodiment, on the one hand, the retaining pin is cheaper to manufacture, since the collar must have only a slightly larger diameter than the retaining pin itself. Secondly, due to the arrangement of the various interchangeable perforated plates, it is possible to provide a modular system by which columns with different diameters can be fastened with one and the same retaining pin.

Possibility of oscillation of the perforated plate allows an inclined position and thus adjustment of the tubular column with respect to the retaining pin.

The bending is possible because the collar is at its upper side a tapered bevel or a tapered bevel. The perforated plate and the column-shaped column then form a unit which is adjustable relative to the collar. '

In the simplest embodiment, the pipe end of the column may be supported directly against the support and stop plate or the perforated plate. If, however, a stronger inclination of the column is to be adjusted on the support and stop surfaces, an elastic insert is provided between the pipe-shaped end face of the column and the support and stop surfaces of the retaining pin. The insert may be a sealing ring. With a strong inclination, the front face of the tube-shaped column is immersed in certain regions into an elastic, flexible sealing ring. 4 4 • 04 • · «

441 ···· more, and it remains guaranteed that no filler material may fall unintentionally.

Thanks to the elastic insert and the sealing ring, the gap between the end face of the tube-shaped column and the abutment and stop surfaces can be sealed very reliably, and there are also sufficient elastic materials that are sufficient for multiple use alone. However, in the case of columns of larger diameters, in particularly clean rooms, with the use of sharp-edged grit as filling material, and in the frequent and refitting of the fastening device according to the invention, the use of a sealing body of a rigid material such as steel is more resistant than elastic material.

According to a further advantageous embodiment of the invention, an annular body is provided of a form-stable material which abuts or is joined in one piece to the support and stop plate and has a cross-section in a boiling circle or trapezoid or is cup-shaped and dimensioned the inclined bearing of the plug-in mandrel and the column securing end reliably seals the gap which, moreover, is formed without the annular body. The tube-shaped column bears on the annular body and, by sliding its inner surface, i.e. on a circular, trapezoidal or cup-shaped cup surface, can pick up different inclined positions, thereby creating an adjustment without the risk of leaking filler bodies. If the annular body is formed as a separate part which abuts against the abutment and abutment surface, it can slide radially on this plate with a sufficiently large inner diameter. In this way, the possibility of adjusting the position of the tube-shaped column relative to the retaining pin is retained. On the other hand, the one-piece design of the annular body with the support and stop plates is cost-effective. An annular body of this kind has an almost unlimited service life, even when used repeatedly.

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The aforementioned embodiment of the insertion mandrel with a transverse dimension decreasing from the fastening end to the free end, e.g. frusto-conical, provides an additional and surprisingly simple possibility of closing the annular space for the filling material downwards: it is possible to determine the respective dimensions such that the stop surface for the tube-shaped column is formed by the outer circumference of the male mandrel. The tube-shaped column, to a certain degree inclined adjustable, thus "rides" on the push-on mandrel and the adjustment interests are thus better aligned with the sealing problems.

Further, for the practical handling of the fastening device according to the invention, it is of great importance how the filling material can be deposited at the erection point of the tube-shaped column in the annular space between the column wall and the space for its mounting. In this case, various solutions are provided according to the invention.

In a particularly simple embodiment of the fastening device according to the invention, it is provided that the column is in the form of a continuous open tube which is provided with a separate plastic lid at its end remote from the fastening end. This embodiment is particularly suitable for columns of relatively low height, since here the granular filler material can be poured through an opening located at the free end of the column. Other solutions must be used for columns with higher heights.

Thus, according to a preferred embodiment, it can be provided that the tube-shaped column has a lateral filling opening for the granular filling material which is scalded by the closure. In this case, the filling aperture is arranged at a certain distance from the end face of the fastening end of the tube-shaped column, which corresponds to approximately 1.5 to 2.2 times the length of the setting pin. In the assembled state, the filling opening is then ♦ ··

«] Sufficiently high above the insertion mandrel so that a uniform distribution of the filling material in the annular space is guaranteed.

Many masts are equally available with a side opening that can be covered with a cap. This is the case, for example, with lighting poles where electrical cables must be accessible. In addition, there are also flagpoles in which cable lines must be located. There is also provided an operating opening which is covered by a flap. It is also possible to point out the numerous cases of masts currently available on the market which already provide the possibility that the filler material needed for their assembly can be placed in the side of the mast, but with a commercially available hole cover that does not disturb the appearance of the mast.

If masts of this kind are out of the question, it is necessary to propose a solution to cover the side filler opening.

The closure may be formed by a rotatable sleeve. which is rotatably mounted on the column and which has a through hole which, when the rotating sleeve is rotated, can be brought into alignment with the filling opening located on the column and then withdrawn therefrom.

However, it is also possible to select a lid-shaped closure adapted to the filling opening which can be inserted into the opening, the edges of the lid engaging, on the two opposite sides, two retaining pins and, secondly, a latch tongue.

In many cases, the aesthetic effect has an impact on whether an externally accessible side filler opening with a corresponding closure can be accepted. In addition, make sure that the mast is not weakened by the side opening. This may be important, for example, for flagpoles that are subject to significant wind loads. In other embodiments of the fastening

In accordance with the invention, it is therefore provided that the granular filler material is deposited in the interior of the tube-shaped network as a pre-measured dose and is emptied into the annular space when the column is erected on the fixing mandrel.

According to this principle of the invention, according to a first embodiment of the invention, the plug-in mandrel can be provided with a tip and the granular filler material is located in the tear vessel prior to assembly, which is fixed in the tube-shaped column at the securing end of the column at such a distance from its front This means that by inserting the tube-shaped column onto the insertion mandrel and bringing it to its stop position, the tear vessel will automatically tear through the tip of the insertion mandrel and discharge the granular filler material.

However, the emptying of the granular filler material present in the tear container may also be resolved so that the tube-shaped column wall is at a height at which the tear container is provided with a plurality of control openings through which the tools for to pierce and rupture the container. These control openings are relatively small and, from a static point of view, weaken the column less than a single large filling opening for the filler material.

Alternatively, however, it may also be provided that the tear container has a perforated control end cord therein, wherein the active end of the cord is discharged from the tube-shaped post and is also accessible for actuation when the post is mounted on the insertion mandrel. .

Decisive for the latter possibility of depositing granular packing material in a tube-shaped column as a batch is a safe method of seating and reliably holding the tear container into the column prior to assembly. Advantageously,

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4 4.4 4 4 4 '·' ¹⁴⁴⁴ tearable container 4 that is mounted in the basket, which can be resiliently compressed and pushed into the securement end of the tubular pole and at this point in the transverse hold tight fit. In many cases, this transverse sealing fit is sufficient to accommodate the tear container. If complete securing is required, it can be provided that the basket edge is additionally fixed to the edge of the tube-shaped column.

In the simplest way, the basket is formed from a strip of elastic material that is bent with a V-shaped transverse rib and deformed into a U-shape by sliding it into the fixing end of the tube-shaped column, the transverse rib serving as a tear vessel holder.

In order to secure the edges of the basket to the edge of the tube-shaped column for additional security, it can be provided that both arms of the elastic strip are bent at their free ends and engage in bayonet grooves which are shaped at the edges of the tube-shaped column. This provides particularly easy handling during assembly. Should these edgings of the erected column be considered too costly, there may be another solution in which both arms of the elastic strip have U-shaped bends at their free ends that engage the pipe-shaped column edges at the deployed state of the strip and They have through holes that are aligned with the boreholes of the tube-shaped column, and locking means such as hollow rivets, screws, wire loops or the like are introduced into the through holes and the bore holes.

However, the basket may also consist of two intersecting sheet metal strips.

Particularly expedient is an embodiment in which the tear container is formed by a plastic bag which is at its end in the assembled state. 9 9 9 · φ φ * * <<<<<<< 9.999 99 '999 upper, provided with a fastening loop which is designed to engage the transverse ribs of the elastic strip. A plastic bag of this kind can be particularly easily ruptured when the granular filling material is to be poured into the annular space. To prevent damage to the plastic pouch when introduced into the tube-shaped column, the pouch may additionally be protected by a cardboard wrapper during this process.

When the fastening device according to the invention is to be released again, the tube-shaped column can be rotated in the release direction so that the grained filler material is loosened until the column can be lifted from the support and stop surfaces. However, this method is often made difficult because the smooth cylindrical outer surface of the column cannot be firmly gripped. When releasing the fastening device, it is therefore worthwhile removing granular filler material from the annular space.

The first possibility in this case is that the tube has at least one U-shaped discharge opening extending into the face at its fastening end in the form of a door arch which is covered by a sliding sleeve adapted to the outer circumference This opening is movable in the longitudinal direction of the tube-shaped column. In this case, it is sufficient to lift the sliding sleeve so that the outlet opening is released and the granular filling material can escape out. Alternatively, it is possible to help hitting the hammer into the column.

When the abutment and abutment surfaces, which may be provided on the abutment and abutment plate or the perforated plate, leave enough space, it may also be provided that drain plates in the form of annulus portions are placed in said plates, under the abutment and stop surface or below the perforated plate. plate is rotatably mounted φφφ · φφ .Φφ ♦> φ'φ φ φ φ

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It has already been mentioned that the fastening device according to the invention is also conceivable for erecting masts in which power lines are accommodated. For example, for lighting poles or poles for infrared installations. For these poles, electrical cable routing equipment in the ground is often provided. In order to maintain this connection possibility for the fastening device according to the invention, according to a further preferred embodiment of the invention it is provided that the retaining pin is provided with a longitudinal borehole. In this way, the electrical connection cable can be inconspicuously led outwards by the holding pin.

It is particularly advantageous to use the fastening device according to the invention in the installation of flag poles with an annular cross section. Often all kinds of flagpoles with different diameters are erected at trade fairs, exhibitions and public events of all kinds, while maintaining an impeccable overall impression without major preparatory and additional work. The fastening device according to the invention is particularly suitable in this case, since it allows easy adaptation to different pipe diameters with only a small number of interchangeable parts, and since the fastening device can also be used with untrained personnel and for a short period of time in a clean manner.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will be explained in more detail below with reference to the accompanying drawings in which: FIG

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Fig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. 5 Fig. 6 Fig. 7 Fig. 8 Fig. 9 Fig. 10 shows a first embodiment of the fastening device shown in partial section, a second embodiment of the fastening device according to the invention shown also in partial section, the possibility of the granular filling material of the fastening device being fed when erecting the column from the side, the section along the line AB of Fig. 3, the lid for closing the filling opening of the filling material, In the present invention, a granular filler material is introduced, reproducing the condition prior to introduction of the material into the tube-shaped column, as shown in Fig. 6, showing the condition after assembling the parts but before the column mounting situation, detail showing how they can the edges of the basket for the tear-pot are fastened, showing the first possibility of removal of the baking container; of the liner material when releasing the fastening device, showing a second possibility of removing the filler material in the fastening device according to the invention, a section along the line CD in Fig. 10, Fig. 11 Fig. 12 shows various possibilities for closing down the annular space for storing granular filling material in the fastening device up to 16 according to the invention, yet it is still possible to adjust the tube-shaped column to the desired position and direction.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 1 shows a tube-shaped column 6 which can be used, for example, as a clothesline fastening pole, a fence construction pole or a flagpole. This post should be erected quickly but as accurately as possible on the mounting plane 2, at the designated location and with the appropriate orientation. For this purpose, there is provided a one-piece retaining pin 8 which, in the embodiment of FIG. 1, has a cylindrical central part and two pointed ends. The upper end is formed as a snap-on mandrel 3. The lower end of the retaining pin 8 forms an earth dowel 9 by means of which the retaining pin 8 can be screwed into the ground. For this purpose, the earth plug 9 has a helix 11 which serves as thread movements. The insertion opening 21, located in the retaining pin, serves to insert a tool, such as a round iron bar, to facilitate rotation of the earth dowel. If a plurality of columns 8 are to be erected in the form of a pipe, it is also possible to use a motor screw device. Moreover, ground dowels of this kind are known, so that a closer description can be omitted in this case.

In this case, the retaining pin 8 is connected in one piece to the support and stop plate 10, the diameter of which is larger than the diameter of the tube-shaped column 8 to be erected. The upper side of the support and stop plate 10 forms a support and stop surface 5. A soft elastic sealing ring 18 abuts on this surface. The upper region of the retaining pin 10 serving as a mounting mandrel 3, with the direction &quot;

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4444 conically tapers upwardly and is provided with a tip 3 1. In the conical region of the insertion mandrel, helices 7 are also provided.

The tube-shaped column 1 is shown in the break in FIG. The fastening end 19 of the column 7 is provided with a corresponding reference numeral. This fastening end 19 has a face 19A at its bottom, which, in the attached state, abuts the sealing ring 18.

The upper or free end 20 of the tube-shaped column 7 is closed by a cap 12 in the form of an elastic plastic cap.

FIG. 1 shows a fastened state of a fastening device according to the invention. Between the pipe-shaped column 7 and the mounting pin

3. an annular space 4 is provided in which the granular filler material A is provided. This can be composed of hard sand or pebble grit or aggregate. However, a resilient plastic material is also contemplated. The mean grain size of the individual bodies which form the filler material is matched to the average slot width in the annular space. In general, the ratio between the mean grain size d and the average width s of the slits of the annular space 4 should be roughly determined according to

0.1 s < d < 0.7 s.

The average grain size of 2 to 4 mm has proved to be suitable in practice.

The erection and fastening of the tube-shaped pole shown in Fig. 1 proceeds as follows:

First, a holding pin formed as an earth dowel is inserted into the ground in a known manner. For this purpose, the dowel can be rotated by means of a circular rod which is inserted into the insertion opening 21, or a motor device is also possible. Then at> ·· (* · ·· * 'φ · · ·

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9999 the supporting and stop plate 10 is applied by the sealing ring 18 and then the pipe column is inserted with its fastening end 19 onto the mounting pin 3 of the retaining pin 8.

Make sure that the retaining pin is screwed into the ground in a vertical position. This is often not possible because the soil is not completely homogeneous due to the presence of roots, stones or foreign bodies. The exact vertical position of the retaining pin also further depends on how skillfully and with what experience and meticulousness this work is performed. If the positioning mandrel is to have a position which differs from the vertical position, it is possible to align it in the fastening device shown, without further action. After the vertical column 7 has been mounted on the mounting mandrel X, it can be adjusted to a perpendicular position and fixed in this position. In this case, the tube-shaped column X is tilted on the resiliently flexible sealing ring 18 until it is seated in the desired position. Through the aperture located at the free end 20, a granular filler material is introduced into the vertical column X and falls into an annular space formed between the insertion a, CLmtr-X and the inner wall of the column X completely filling the material. Compaction of the granular filler material can be aided by hammer blows from the outside of the column. The sealing ring 18 also prevents unwanted dropping of individual grains of the filling material 6 even when the longitudinal axis of the vertical column X runs obliquely to the longitudinal axis of the retaining pin 8 as a result of the adjustment. After insertion of the cover 12, the tube-shaped column X is reliably erected and securely held.

The fastening device shown in FIG. 2 corresponds essentially to the device of FIG. 1, but differs in some construction details.

The retaining pin 13 here has a substantially continuous cylindrical contour.

Push-on mandrel X, which is located at the upper end of the retainer «,» · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · Here, the pin 13 also has a cylindrical shape. At its lower region, the retaining pin 13 is provided with a cylindrical fixing pin 14. Generally, it is not necessary for the cylindrical fastening pin 14 to include a cylindrical fastening mandrel X. Rather, it is possible to combine the embodiments of the holding mandrel illustrated in FIGS. 1 and 2 and the ground anchor or fastening bolts.

In the fastening device shown in FIG. 2, the retaining pin 13 is inserted into a separate ground dowel 15 having a filling section 16. Also in this filling section there is a granular filling material 17. Ground dowels of this kind are known and have been described and shown in FIG. DE 199 60 854 A1. A closer explanation of the earth dowel 1 5 can therefore be omitted.

A collar 13A is formed on the retaining pin 13 of the fastening device of FIG. 2, which has a substantially smaller diameter than the support and stop plate 10 of the retaining pin of FIG. 1. The manufacture of the retaining pin 13 is therefore particularly economical. The rotary slide plate 48, the perforated plate 3A and the sealing ring 18 known from FIG. 1 are supported on the collar 13A. The perforated plate 3A here has the function of a support and stop plate. The rotary slide plate 48 will be explained in more detail with reference to FIGS. 10 and 11.

The fixing of the pipe-shaped column, which must be pushed over the mounting pin X with its fastening end 19, takes place in the same manner as described in FIG. 1. However, the embodiment of FIG. 2 offers additional possibilities for adjusting the column because of the separate ground dowel 15, the retaining pin 13 can be additionally provided in the filling section 16 before the granular filling material V7 is poured there. In both cases, i.e. in the embodiment according to FIGS. 1 and 2, there is also the possibility that the tube-shaped column X not only pivots with its fixing end 19 relative to the mounting mandrel 3, but this end is also positioned on the sealing ring 18 in different positions. The position of the tube-shaped column 7 can thus also be adjusted. This possibility is useful when the columns are mounted in rows one after the other, where the human eye registers deviations in their positions very significantly.

The filling of the granular filler material 6 into the annular space 4 between the tube-shaped column 7 and the insertion pin 3 can then be carried out through an opening which is located at the free end 20 of the column 1 if this opening is not too high. However, this method of filling is no longer possible for long poles or masts such as flagpoles.

Giant. 3 and 4 thus show the fastening end 19 of a column-shaped column in which a lateral filling opening 22 is provided. This is shown in dashed lines in FIG. It is located above the upper end of the pin 3 with the tip 31. In the area of the filling opening 22, the tube-shaped column 7 is covered by a rotating sleeve 23 in which the through opening 24 is located. By rotating the rotary sleeve, the two holes can be brought into the same position or displaced against each other. The pivot sleeve rests on a support ring 25 which is welded on the fastening end 19 of the column 11. Upward locking may be provided by one or more retaining angles 26.

Fig. 4 is a cross-section along line A-B in Fig. 3 and the function is readily apparent from the drawing. However, it would be sufficient to provide a sliding sleeve instead of a rotating sleeve 23, which is only necessary to be lifted when filling the column 1 in the form of a pipe filler material <5. However, the sliding sleeve must be retained during filling.

······································

Another possibility to close the filling opening is shown in FIG. 5. There is provided a cover 27 adapted to the curvature of a column-shaped column with two lower retaining pins 28. The cover further has a pivot latch 29 by means of which the tongue 30 can be moved. it is precisely fitted into the filling opening 22, with the retaining pins 28 engaging the lower edge of the opening. By manipulating the pivot latch 29, the tongue 30 can then also be inserted below the edge of the filling opening and the lid 27 is thus securely seated in the opening, which at the same time represents an improvement in static terms.

Each side filler opening must attenuate the upright column from a static point of view. If wind load is taken into account, this can lead to problems with flagpoles. In many cases, for aesthetic reasons, it is necessary to dispense with the side filler openings with the corresponding covers.

In these cases, the fastening device according to the invention is designed in such a way that, within the tube-shaped column, the granular filler material is placed in pre-packaged batches when the column with its fastening end is slid onto the mounting mandrel. While there are various ways to remove the supply of granular filler material inside the tube-shaped column from the annular space surrounding the insertion mandrel, it is in any case necessary to ensure that the metered filler material is erected in the column when erecting the tube-shaped column. held securely. The necessary details for this purpose are explained in Figures 6 and 7.

In the fastening device according to the invention shown in FIG.

6, the fastening end 19 of the column 7 is again provided. The granular filler material is contained in a tear container 32, which is here formed as a plastic bag. There is a cord 41 in the pouch, the control end of which is the end of the cord. · · ····

41A protrudes from tear vessel 32. At its upper end, the tear container 32 has a fastening loop 44.

For later installation and reliable fastening of the tear container 32 in the fastening end 19 of the column-shaped column 1, a basket 35 is used, which in the illustrated embodiment consists of multiple bent strips 37 of elastic material. Here, for example, steel sheet is possible. The belt 37 has a transverse rib 38 with two legs 39A and 39B that project from the rib on both sides. These arms are V-shaped and project from the transverse rib 38 with springing. The free ends of the legs 39A and 39B are not bent.

The U-shaped folds 36 are provided with through holes 42A and 42B into which locking means such as hollow rivets, screws or wire loops can be introduced.

In the fastening process, the plastic bag forming the tear container 32 is fastened by its fastening loop 44 to the transverse rib 38 of the elastic band 37. Then the elastic bands 37 forming the basket 35 are inserted into the fastening end 19 of the column-shaped column 7. In this case, the legs 39A and 39B of the elastic belts 37, which previously stood V-shaped, bend inwardly, so that the V gradually changes in U. The insertion continues until the U-shaped bend 36 hits the face 19A of the fastening end 19 The basket 35 is then the friction itself between the legs 39A and 39B and the inner walls of the column

1. is truly reliably retained on this column. For the sake of certainty, however, additional safeguards are provided by means of a U-shaped bend 36. The through holes 42A and 42B of these bends, after insertion of the basket, are flush with the bore holes 43 which are located in the fixing end 19 designed as through holes or tapped holes. Inserting and securing the locking devices

In fact, means such as hollow rivets, screws or wire loops through the apertures 4 2A and 4 2B as well as the boreholes 4 3 are ultimately and reliably secured the retracted position of the basket 3 5 with the tear container 32. it does not entail any major costs for conventional poles or masts.

If a somewhat more exemplified cost is allowed, the fastening end 19 of the tubular column 7 may also be provided with bayonet grooves 40 as shown in FIG. 8. The bent ends 36 of the elastic strips 37 may be inserted and secured into the bayonet grooves 37, which simplifies erection on site erection.

FIG. 7 shows the state after the basket has been inserted into the fastening end 19 and the tube-shaped column 7 has been placed on the mounting pin 3 of the retaining pin 8. The tear vessel 32 now clearly hangs over the annular space 4. 19, in which the tool 34 can be inserted. This tool then pierces the tear container until the granular filler material has poured into the annular space 4.

Another possibility consists in pulling the cord 41 which is received in the tear container 32 and whose control end 41A is led out. For this purpose, the support and stop plate 10 has a cord opening 10A.

A further possibility is to arrange the tear magazine at a distance from the end face 19A of the fastening end 19 that its lower end pierces when the tube-shaped column 1 is inserted onto the setting mandrel 3 and tears through the tip of the mandrel so that the grained filler material In this way, particularly fast assembly is possible, however

0 * 0

2S - 4 0 0 4 »* • ώ -ž« * d 0 0 0 0 * • 5 0 0 0 0 0 * W ······ 0 0 · 00 0 4 · 0 · 0 0 0 0 0 · With this method of erecting the column-shaped column 1, it is not possible to adjust it longitudinally with respect to the pin 3.

If the erected tube-shaped column 7 is to be removed again, it may be sufficient to rotate it and to a certain extent to unscrew it. This can be done particularly well if the insertion mandrel is helical. However, cylindrical columns or masts with smooth surfaces are often not well gripped, so that in practical conditions the torque generated is not sufficient.

In the fastening device according to the invention, it is therefore necessary to provide that the filling material which is located in the annular space is removed before the tube-shaped column is removed.

A first embodiment of this method is shown in FIG.

9. Here, a discharge opening 45 is provided at the fixing end 19 of the tube-shaped column X, which is approximately U-shaped and trapezoidal and extends downwardly into the end face 19A of the fixing end. At the fastening end 19 there is a sliding sleeve 46 which surrounds this end and has no opening. Thus, in any position of rotation, this discharge opening 45 reliably covers. If the sliding sleeve 46 is raised high enough as indicated by the double arrow, the filler material located in the annular space falls out, which may be assisted by hammer strikes on the outside of the tube-shaped column.

Giant. 10 and 11 show another possibility of emptying the filling material in the annular space. The aforesaid perforated plate 3A here has discharge slits 47 which are formed as sections of annular ring. Underneath the perforated plate 3 A there is the rotary slide plate 48 mentioned above, in which the cut-outs 49 are also provided.

·

9 in the form of annulus sections. By turning the rotary slide plate 48, the discharge slits 47 can overlap and expose the slots 49. If the slots of the slots coincide, the filler material itself falls out of the annular space downwards.

10 and 11, the rotary slide plate must still have a minimum distance from the ground.

It should also be noted that all moving parts of the fastening device, such as the rotating sleeve 23 of Figs. 3 and 4, the sliding sleeve 46 of Fig. 8, and the rotary slide plate 48 of Figs. 10 and 11, must be in use. the fixing device in public provided with a safety device to prevent abuse. For example, conventional padlocks can be used inconspicuously for this purpose.

Subsequently, further embodiments of the fastening device described so far will be shown based on further illustrations.

Fig. 12 shows one variant of the fastening device according to Fig. 1. However, the retaining pin 8 does not have a support and stop plate there as well as no collar. In this embodiment, the pin has a smooth cylindrical central part 8A which extends upwardly into the mounting mandrel 3 and downwardly into the ground dowel 9. The tube-shaped column 7 has such a large inner diameter that it can be fully slid over its fastening end 19 the retaining pin 8. The front surface 19A of the column 7 partially penetrates into the soil in the mounting plane 2. Without additional mounting devices, the fastening end 19 is tightly closed to the ground, so that the granular filling material 6 is securely held in the annular space 4.

Giant. 13 shows a variant of the fastening device shown in FIG. 2. The support and stop plate is also here in the form of a perforated plate 3A, but the collar 13A is conical. As a result, the perforated plate 3A can be tilted relative to the retaining pin 14. Thus, the tube-shaped column, mounted with its fastening end 19 on the perforated plate 3, can be positioned obliquely with respect to the retaining pin 14 and the mounting pin 3. That is, it can be positioned as exaggerated by dashed lines for highlighting. Moreover, by shifting the fastening end on the perforated plate, it is possible to change the position of the tube-shaped column after the retaining pin 14 has been fixed in the ground, and so the column can be adjusted in its position and direction.

In the fastening device according to FIG. 14, the holding mandrel 3 and the support and stop plate 10 are connected in one piece to the holding pin 8. An annular body 50 having a trapezoidal profile adjoins the support and stop plate 10. Here, once the tube-shaped column 7 has been threaded with its fastening end 19 over the retaining pin 8, it slides on the conical shell of the annular body 50 and can thus be adjusted. In addition, since the annular body 50 can slide radially on the support and stop body 10, this also provides for the possibility of adjusting the position. FIG. 14 also shows how a pipe-shaped column 7 is adjusted in position and direction when the retaining pin 8 is inserted obliquely into the soil in the mounting plane. The annular body 50 is noticeably offset radially to the left relative to the mounting mandrel 3. The fixing of the position achieved during the alignment of the tube-shaped column is performed here, as in all other cases, by pouring grained filler material. The annular body may also have a profile in the form of a part of the ball, whereby adjustment is particularly possible. A cost-effective variant of the embodiment shown in FIG. 14 may consist in that the annular body 50 is formed in one piece with the support and retaining plate 110, but then the possibility of radial positioning is eliminated.

• 4 44

Giant. 15 shows a fastening device according to the invention, in which the retaining pin 8, the insertion pin 3 and the tube-shaped column 1 have a circular cross-section. The insertion mandrel 3 is conical and the circular tube column 11 has an inner diameter which is smaller than the largest diameter of the retaining mandrel 3. As a result, the fixing end 19 of the pillar 7 slides on the conical casing of the mounting mandrel 3 when being fitted. This provides a simple possibility to correct the orientation of the column in the shape of a pipe.

Giant. 16 shows a fastening device similar to that of FIG. 14. The cross-section of the annular body 50 on the abutment and stop surface 10 has a profile whose inwardly oriented cup-like side serves to receive the fastening end 19. In particular, The tube shape slides on an inwardly facing surface whereby the column can be adjusted. This surface is preferably conical or concave.

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Claims (38)

PATENT CLAIMS A fastening device, which is a pole (1), such as a mast, pile or strut, formed at least at its tube-shaped fastening end (19), detachably fastened to a mounting plane (2), with a mounting mandrel (3) projecting from the mounting a plane (2) on which the fastening end (19) of the column (1) is fitted, wherein the transverse dimension of the insertion mandrel (3) is smaller than the internal transverse dimension of the column (1), (1) an annular space (4) is provided, characterized in that a granular filling material (6) is provided in the annular space (4) between the setting pin (3) and the column (1). Fixing device according to claim 1, characterized in that the granular filling material (6) consists of hard sand, pebble or aggregate and / or an elastic plastic material. _ Fastening device according to claim 2, characterized in that the mean grain size d of the individual bodies constituting the filling material (6) is, in relation to the average width s of the slots of the annular space (4), about 0.1 · s <d <0.7 · s. Fastening device according to claim 2 or 3, characterized by the use of a gravel crumb with an average grain size of 2 to 4 mm. Fastening device according to one of Claims 1 to 4, characterized in that the transverse dimension of the pin (3) remains the same over its entire length. φφ φ Fastening device according to one of Claims 1 to 4, φ φ φ · »· φ φ · · · · Φφ φ φ. φ φ φ φ φ φ •>) φφφ characterized by a decreasing transverse dimension of the insertion mandrel (3) from its fixing end to its free end. Fastening device according to one of Claims 1 to 6, characterized by a push-on mandrel (3) of circular cross-section. Fastening device according to claim 7, characterized by a helix (7) in the form of one or more threads on the outer periphery of the mounting mandrel (3). Fastening device according to one of Claims 1 to 8, characterized in that the mounting pin (3) is part of a retaining pin (8) which, at its end opposite to the mounting pin (3), is designed as an earth dowel (9). ). Fastening device according to one of Claims 1 to 8, characterized in that the mounting pin (3) is part of a retaining pin (13) which is provided at its end opposite to the mounting pin (3) with a fixing pin (14) for insertion into a separate ground dowel (15) having on the side of the pin (14) a cup or tube-shaped filling section (16) for receiving a grained filler material (17) holding the fixing pin (14). Fastening device according to claim 8 or 9, characterized in that the inner dimension of the tube-shaped column is larger than the largest outer dimension of the retaining pin (8, 13), so that the tube-shaped column (1) can be fully pushed over holding pin (8, 13). Fastening device according to claim 8 or 9, characterized by a support and stop surface (5) acting between the mounting mandrel (3) and the tube-shaped column (1), which determines the axial position of the column (1) relative to the holding mandrel (3). ). Fastening device according to claim 12, characterized in that the retaining bolt (8, 13) is provided with a support and stop plate (10), laterally projecting from the bolt (8, 13), which has at least a transverse dimension of the column (1) in the form of a tube arranged between the areas of the ground anchor (9) and the fastening pin (14) on the one hand and the mounting pin (3) on the other, and is formed on the abutment and stop surfaces (5) for the column (1) tubing. Fastening device according to claim 13, characterized by a one-piece design of the retaining pin (8, 13) with an insertion mandrel (3), a support and stop plate (10) and an earth dowel (9) or a fastening dowel (14), respectively. Fastening device according to claim 13, characterized in that the support and stop plates are a separate perforated plate (3A) _; which is mounted on the retaining pin (13) and the collar (13A) formed thereon is supported in a transverse position or hinged on the retaining pin (13). Fastening device according to one of Claims 12 to 15, characterized in that an elastic intermediate layer is arranged between the end face (19A) of the tube-shaped column (1) and the abutment and abutment surfaces (5) of the retaining pin (8, 13). Fastening device according to claim 16, characterized in that the elastic intermediate layer is formed as a sealing ring (18). Fastening device according to one of Claims 12 to 15, characterized by an annular body (50) of a form-stable material, which abuts or is joined in one piece to the support and stop plate (10), has a cross-section in the form of a circle or trapezoid, and is dimensioned such that when the sliding pin (3) and the fastening end (19) of the column (1) are inclined relative to each other, the slot to be formed is reliably sealed. Fastening device according to claim 12, characterized in that the support and stop surface for the tube-shaped column (1) is formed by the outer periphery of the mounting mandrel (3). Fastening device according to one of Claims 9 to 19, characterized in that the column (1) is designed as a continuous open tube and is closed at its free end (20) away from the fastening end (19) by a separate lid (12) made of plastic. Fastening device according to one of Claims 9 to 19, characterized in that the tube-shaped column (1) has a side filling opening (22) for the granular filling material (6), which is provided with a closure. Fixing device according to claim 21, characterized in that the filling opening is at a distance from the end face of the fixing end of the tube-shaped column (1), which corresponds to approximately 1.5 to 2.2 times the length of the fixing mandrel (3). Fastening device according to claim 21 or 22, characterized in that the closure is formed by a rotatable sleeve (23) which is rotatably arranged on a column (1) and has a through hole (24) which is rotated by the rotatable sleeve (23). it can be brought into and out of the position in which it overlaps with the filling opening (22) located on the column. • »· ·; E Fastening device according to claim 21 or 22, characterized by a lid-shaped closure (27) adapted to a filling opening (22) which can be inserted into the opening (22) and which engages with two retaining pins behind its two opposite sides (28) and with the tongue (30) of the pawl (29). Fastening device according to one of Claims 9 to 19, characterized in that the insertion mandrel (3) is provided with a spike (31) and that the granular filling material (6) is located in the tear vessel (32) prior to assembly. in the pipe-shaped column (1), at its fastening end (19), fixed at such a distance from its end face (19A) that by inserting the pipe-shaped column (1) onto the pin (3) and bringing it to the stop position tearing of the tear vessel (32) by the tip (31) of the male mandrel (3) and distribution of the granular filler material (6) occurs automatically. Fastening device according to one of Claims 9 to 19, characterized in that the granular filling material (6) is located prior to assembly in a tear vessel (32), which is fixed in the tube-shaped column (1) at its fastening end (6). 19) at a distance from the end face (19A) which is larger than the active surface of the feed mandrel (3) and that the wall of the tube-shaped column (1) is provided with a plurality of control openings (3 3) it is possible to introduce a tool (34) for piercing and tearing the tear container (32). Fastening device according to one of Claims 9 to 19, characterized in that the granular filling material (6) is located prior to assembly in a tear container (32) having a built-in cord (41) with a control end (41A) for tearing the tear a vessel (32) and is mounted in a tube-shaped column (1) at its securing end (19) at a distance from its end face (19A) which is greater than the effective length of the insertion mandrel (3), the actuating end (41A) cords (41) φ »·>:::: '' '' '' '' Φ Φ. · Φ Φ Φ Φ · φ)) Φ Φ Φ φ φ φ, Φ ι Φ Φ «φφ φ. φφφ.φφφφ φφ, φφφ is led out of the column (1) in the form of a tube and after the column (1) has been placed on the pin (3) it is also accessible for manipulation purposes. Fastening device according to one of Claims 25 to 27, characterized in that the tear vessel (32) is fixed in a basket (35) which can be elastically compressed and inserted into the fastening end (19) of the tube-shaped column (1). and stay there in a transverse stationary fit. Fastening device according to claim 28, characterized in that the edge of the basket (35) is additionally fixed to the column (1) in the form of a tube. Fastening device according to claim 28 or 29, characterized in that the basket (35) is formed by strips (37) of elastic material which are bent approximately transversely to the V-shape by the transverse rib (38) and slid into the fastening end (19). The tubular column (1) deforms into a U-shape, the transverse rib (38) serving as a holder for the tear vessel (32). Fastening device according to claim 30, characterized in that the two legs (39A, B) of the elastic strip (37) are bent at their free ends in the transverse direction and engage in bayonet grooves (40) formed at the edges of the column (37). 1) tube-shaped. Fastening device according to claim 30, characterized in that the two legs (39A, B) of the elastic strip (37) have U-shaped folds (36) at their free ends which engage the edges in the deployed state of the strip (37) of the pipe-shaped column (1) and have through holes (42A, B) that are flush with the bore holes (43) in the pipe-shaped column (1) and that into the through holes (42A, B) ♦ · '<99 '99 · ♦ »» »» »» »» »» »9 9 9' ' 9 9 9 9 9 9 9999 9999 ♦ ♦ · 9999 and drill holes (43) it is possible to introduce locking means such as hollow rivets, screws, wire loops or the like. Fastening device according to one of Claims 30 to 32, characterized in that the basket (35) consists of two intersecting sheet metal strips. Fastening device according to one of Claims 30 to 33, characterized in that the tear container (32) is formed by a plastic bag which, at its upper position, is provided with a fastening loop (44) in its upper position. gripping the transverse rib (38) of the elastic strip (37). Fastening device according to one of Claims 9 to 34, characterized in that the tube-shaped column (1) has at least one U-shaped discharge opening (45) at its fastening end (19), protruding in the form of a door arch projecting into a face (19A) which is covered by a sleeve (46) slidable in the longitudinal direction of the tube-shaped column (1), adapted to its outer circumference. Fastening device according to one of Claims 9 to 34, characterized in that there are discharge cut-outs (47) in the supporting and stop plate (10) or in the perforated plate (3A), which are shaped as sections of annular ring, and a rotary slide plate (48) is rotatably supported by a support plate, a stop plate (10) or an apertured plate (3A), which also has slots (49) in the form of annular sections, and depending on the position of the rotary slide plate (48) (47) .open or closed. 9 4 9 9 4 4 · 4 9 β 444 444 Apr '44 • · 4 9 44 4444 The fastening device of one of claims 9 to 24 and 26 to 26 36. characterized in that the retaining pin (13) is provided with a longitudinal bore. Use of a fastening device according to any one of claims 9 to 37 for erecting flag poles with annular cross-section.