EA000198B1 - Device for vertical arrangement of a pole or post-like object - Google Patents

Abstract

1. Device for the vertical arrangement of a pole or post-like object (4) on a securing device (6) disposed at the ground end. comprising a substantially cylindrical, elongate mounting mandrel (10), extending upwards from free upper side of the securing device (6), which can be inserted into an accommodating bore (12) in the underside of the pole or post-like object (4) and further comprises a support plate (16) from whose plane the mounting mandrel (10) extends upwards and on which the underside (14) of the pole or post-like object (4) rests wherein at least one securing projection (18) protrudes upwards from the support plate (16) and penetrates the material of the pole or post-like object (4). characterized in that the mounting mandrel (10) is substantially thinner than the accommodating bore (12) in the underside of the pole or post-like object (4) such that there is considerable play between the outer surface of journal or mounting mandrel (10) and inner circular surface of the bore (12) surrounding the mandrel (10) in the underside of the pole or post 2. Device according to Claim 1, characterized in that a plurality of security projections (18) protrudes upwards from the support plate (16). 3. Device according to Claim 1, characterized in that at least one security projection (18) in the form of closed ring protrudes upwards from the support plate (16) 4. Device according to one of Claims 1-3, characterized in that at least one said security projection (18) on its upper free end is sharpened like a knife end. 5. Device according to Claim 4, characterized in that said sharpened end is arranged along the central longitudinal axis of the device (2). 6./ is tubular and sharpened like a knife end on its upper circular rim. 7. Device according to one of the preceding Claims, characterized in that the mounting mandrel (10) has near its upper end arranged substantially horizontal a through hole (30) through which a pin (36) is inserted, said pin having lesser size than the hole (30) wherein the pin (36) enters into the cross hole (38) made in the pole or post-like object (4) coaxially to the through hole (30) made in the mounting mandrel (10). 8. Device according to Claim 7, characterized in that the pin (36) has a thread screwing into the through hole (30) made in the mounting mandrel (10). 9. Device according to Claims 7 or 8, characterized in that the support plate (16) can be regulated vertically along the mounting mandrel (10). 10. Device according to Claim 9, characterized in that the support plate (16) rests on a foundation plate (34) which is associated with the outer surface of the mandrel via threaded connection. 11. Device according to Claim 1, characterized in that the mounting mandrel (10) is made of two concentric tubular sections (54, 56), wherein the outer tubular section (54) is vertically movablewith respect to the inner tubular section (56) and when outer tubular section (54) moves upwards, it essentially broadens radially in its upper part. 12. Device according to Claim 11, characterized in that the outer tubular section (54) has on its upper end a plurality of deformable petals (58), which, being moved upwards along the outer tubular section (54) are pushed against stationary support profiles of the inner tubular section (56) and essentially bent radially outward. 13. Device according to one of Claims 1-8, characterized in that the support plate (16) is made together with the securing device (6). 14. Device according to one of Claims 1-8, characterized in that the support plate (16) is an element, made separately from the securing device (6), enabling to be rigidly fixed to the underside of the pole or post-like object (4), forming line of force and/or geometrical locking with at least part of the outer surface of the mounting mandrel (10) when inserting the mandrel (10) into an accommodating bore (12) in the underside of the pole or post-like object (4). 15. Device according to Claim 14, characterized in that the support plate (16) has a central hole (22) which forms the line of force and/or geometrical locking with at least part of the outer surface of the mounting mandrel (10). 16. Device according to Claim 15, characterized in that said hole (22) is polygonal. 17. Device according to Claim 14, characterized in that said hole (22) is round. 18. Device according to any of Claims 14-17, characterized in that the internal diameter of the hole (22) is at least equal, or preferably less, than the outer diameter of the mounting mandrel (10). 19. Device according to any of Claims 14-18, characterized in that the hole (22) in the support plate is surrounded by a plurality of elastic teeth (28). 20. Device according to any of Claims 14-19, characterized in that the outer side surface of the mounting mandrel (10) is knurled (26), said knurling covers al least part of mandrel area.

Description

The invention relates to a device for the vertical installation of the object in the form of a pole or stand on the device for fixing in the soil in accordance with the restrictive part of claim 1.

When installing pillars or poles, for example, when erecting a hedge, installing a road sign or the like, there is always the problem of installing a pole or rack in a strictly vertical position if possible. The vertical position of the pole or pillar can be provided, for example, by checking and possibly correcting the vertical position with a water level or plumb when the pole or rack is fixed or anchored in the ground by driving or embedding into concrete. This is time consuming and takes a lot of time, since, for example, when driving a pole or stand into the ground, the drive must often be interrupted to check and possibly correct the position of the pole or stand. When embedded into a concrete pillar or pillar, their exact vertical position can be corrected without much difficulty until the concrete has hardened, but care must be taken to maintain this exact vertical position until the concrete hardens, so that this vertical position cannot change spontaneously; this means that a pole or a rack must, for example, be supported from the sides or clamped.

In addition to driving, digging or fixing a pile or a pillar in concrete, it is also known to use anchoring devices anchored in the ground, which then carry the object in the form of a rack or pillar at its upper free end. An anchoring device for fixing contains, for example, a screw or screw that is screwed into the ground like a corkscrew, after which a pile or pole is screwed into this device for fixing or is inserted into it. Further, it is known to perform an object in the form of a pile or a pillar at the same time with a device that anchors in the ground like a corkscrew, so that the object has at its free end a device for fixing, which is screwed into the soil and anchored in it. With both of these methods or these possibilities of installing piles or pillars, there is essentially the same problem with regard to the vertical arrangement of piles or pillars as with their blockage or concreting. Instead of the driving process, the fixing device should be interrupted here, in order to ensure the subsequent vertical alignment of the pile or post with the help of appropriate measurements and, if necessary, adjustment measures.

From the utility model of the Federal Republic of Germany No. 8903236 a device is known for fastening wooden beams, etc., especially for wooden structures of climbing structures in playgrounds. This known device includes a device for fixing in the ground in the form of an anchor element, which must be fixed in the ground or in the foundation, and the carrier element, which is located on it and adapted for direct connection with a pole or stand. The bearing element is made in the form of a vertical spike, which is held in a cut-out in the lower side of the stand, so that the stand is firmly mounted on the spike, i.e. it has a positive locking with it. Further, a support surface or support platform is provided for the stand, from which a spike extends upwards and on which the lower side of the stand rests. The pad further has a peripheral toothed rim, which cuts into the butt when striking the upper end of the rack and ensures its position is fixed in the transverse direction. As an additional protection against removal or detachment, a transverse finger is provided, which runs horizontally both through the material of the stand and through the material of the spike. In accordance with the utility model of the Federal Republic of Germany No. 8903236, a stand or pole is held by a support shoe at a certain distance from the ground in order to better protect against weather influences from rain, snow, etc., as well as from parasites and vegetation.

Although using the support shoe for the pole according to the utility model of Germany No. 8903236, the goal set there is achieved and, in essence, no problems are expected regarding the installation strength of the fixing device, since the pole is put on the spike without special effort - except for hitting the upper end, This pole shoe or this device for fastening, however, has a significant drawback - due to the tight coverage with the geometric closure of the spike with the pole material or the pole, the pole shoe itself must be fixed in the ground exactly up cial to ensure the vertical position of the held post or pillar.

The utility model of the Federal Republic of Germany No. 9313260 proposes a device for adjustment placed between a device for fastening adapted for anchoring in the ground, for example, an anchor screw, and an object in the form of a rack or pole that is fixed on it. In accordance with this utility model, the adjusting device comprises a generally cylindrical elongated mounting pin jutting upwards from the free upper side of the fixing device and adapted to be inserted into the receiving opening in the lower side of the object in the form of a pole or a stand. The axial length of the mounting pin and the depth of the receiving opening are chosen such that the first one is somewhat longer than the depth of the latter, so that when putting an object in the form of a pole or stand on the mounting pin, the free end of the latter rests on the bottom of the receiving opening. The object in the form of a pole or rack is now placed in an exact vertical position, possibly using a plumb line or a spirit level, after which one or several blows are applied to the upper end of the object so that the free end of the mounting rod cuts into the bottom of the blind hole, and thus the object is fixed in its exact vertical position relative to the device for fastening.

The device according to the utility model of the Federal Republic of Germany No. 9313260 successfully proved itself in practice; nevertheless, it also has a small defect in that, as in the device according to utility model Germany No. 8903236, due to the tight coverage with the geometric closure of the spike with the material of the pole or stand, the pole support shoe must be zankerken in the ground exactly vertically, to ensure the vertical position of the held pillar. Otherwise, the pillar shoe of utility model Germany No. 8903236 may cause problems in relation to the loosening of the device for fastening from the base, if the material of the pole or stand is particularly hard, so pressing the gear ring into the end of the pole or rack requires large amounts of energy. Although in further versions of the device according to utility model Germany No. 9313260, devices are offered for adjustment between the stand and the fixing device for placing the stand in the exact vertical position even in cases where the fixing device is mounted obliquely or not perpendicularly in the ground, these adjusting devices are quite complex and therefore expensive.

Accordingly, it is an object of the present invention to provide a device for vertical installation of an object in the form of a pole or stand on a device for fixing, located on the ground side, in which, after the device for fixing, located at the end of the base, anchored, the exact vertical position of the object is post or rack, which must be rigidly attached to it, can be adjusted subsequently, and the position of the device for fixing in the ground can not be changed, or it cannot t get loose during this adjustment operation.

This problem is solved in accordance with the invention, the features set forth in paragraph 1 of the claims.

According to the invention, the possibility of vertical installation or adjustment is provided in a strikingly simple way due to the fact that the mounting pin is much thinner than the receiving opening in the lower side of the object in the form of a pole or rack, so that between the outer periphery of the mounting pin and the inner peripheral surface of the receiving opening there is a gap. , throughout the axial length of the mounting pin. In other words, in contrast to the solutions for utility model Germany No. 8903236 or No. 9313260, where the material of the post or rack tightly encloses the pin or pin with a positive fit, there is a significant gap between the pin or the mounting pin and the hole surrounding the pin in the bottom of the post or rack , between the outer periphery of the mounting pin and the inner peripheral surface of the receiving opening along almost the entire axial length of the mounting pin. Due to this backlash, the pole or stand can be mounted on the mounting pin so that the pole or stand can be tilted or set obliquely within a given angular range, and this inclined or oblique position allows you to compensate for any position of the device for fixing in the ground deviating from the vertical .

Other advantageous modifications of the invention are the subject matter of the dependent claims.

Preferably, a plurality of fastening protrusions extend upward from the support plate on which the lower end of the object is supported in the form of a pole or pillar, as is known from the utility model of the Federal Republic of Germany No. 8903236. At the same time, the device according to the invention improves the fastening of the object in the form of a pole or rack in any position relative to devices.

Alternatively, the fastening protrusion extending upward from the support plate may be in the form of a closed peripheral ring (crown). Thereby, the same advantages as with a plurality of individual fastening lugs can be obtained.

This at least one fixing protrusion is preferably sharpened at its free upper end like a knife edge. Due to this, the specified at least one mounting ledge can crash into the material of the object in the form of a pole or stand. If the knife sharpening is directed along the longitudinal axis of the device according to the invention, then the risk of splitting or breaking the material of an object in the form of a pole or stand is minimized when at least one mounting protrusion is inserted.

In a preferred embodiment, this mounting pin has a tubular shape and likewise has a knife point on its upper peripheral edge. Due to this, not only at least one mounting protrusion cuts into the material of the object in the form of a pole or stand, but the mounting pin also cuts into the material of the object in the area of the front wall of the receiving opening.

The mounting pin may have at its upper end an approximately horizontally through hole, through which a finger, having a smaller size compared to it, passes. The finger passes in such a way that it precisely fits into the transverse hole, which is made in the object in the form of a pillar or stand strictly coaxially with a through hole in the mounting pin. This measure creates protection against removal or detachment, so that an object in the form of a column or rack can no longer be removed from the device according to the invention with a pulling force directed vertically upwards. Moreover, this fastening ability gives the advantage that even high stands can be securely fastened when it is impossible or difficult to strike at their upper end due to the large length. This fastening option also has special advantages for cases where the tool for striking or pressing under special conditions cannot be used for poles or pillars (for example, in order not to split or leave a dent in the tool at the upper end). Since the finger passing through the through hole in the mounting pin has a size smaller than it itself, this finger does not interfere with the possibly necessary tilt movements of the object in the form of a pole or stand for its vertical installation.

The finger is preferably a screw that is screwed into a transverse hole in the object in the form of a pole or pillar. In this case, the finger can be released only with the help of an appropriate tool, which ensures increased reliability of the connection.

Preferably, the support plate can be vertically adjusted along the mounting pin. This creates the advantage that, firstly, the relative length of the mounting pin can be precisely adapted to the receiving opening in the object in the form of a pole or stand. Further, in this case, the object in the form of a pole or a rack can be rigidly fixed on the device according to the invention, especially in connection with an embodiment including a transverse finger. In accordance with a preferred embodiment, the support plate is vertically adjusted so that it rests on the base plate, which, in turn, is connected by a screw thread to the outer periphery of the mounting pin. When the base plate is rotated on the thread of the mounting pin, the base plate also vertically moves up or down and, accordingly, also displaces the base plate.

In accordance with another preferred embodiment, the mounting pin may include two concentric tubular sections, wherein the outer tubular section is movable relative to the inner tubular section, and in the case of vertical upward displacement of the outer tubular section, it expands horizontally or vertically outward in its part of the upper end. This solution allows the mounting rod to crash from the inside into the receiving opening of an object in the form of a pole or a rack, which provides protection against removal or detachment. Preferably, the outer tubular section has in its upper part a plurality of deformable petals, which, with a vertical upward displacement of the outer tubular section, abut against rigid contact profiles on the inner tubular section and bend them horizontally or radially. This is another preferred embodiment of the present invention because it provides reliable protection against removal or detachment with simple structural means.

In addition, according to one embodiment of the invention, the support plate can be made integral with the device for fastening. This design has a particularly simple construction and is easy to handle with due to the absence of any moving parts.

According to another embodiment, the support plate is separate from the device for fastening an integral part, which can be attached to the lower end of the object in the form of a pole or rack and which creates a force and / or geometric circuit with at least part of the outer periphery of the mounting pin, when the mounting pin is inserted into the receiving hole at the bottom of the object in the form of a pole or rack. It does not require a strong blow or blows to the upper end of the object in the form of a pillar or rack in order to fix the lower side or the end of the object in the form of a pillar or rack on the support plate and, accordingly, at least one of its mounting lugs with that in order to further, in addition to the deepening of the upper end of the mounting pin in the bottom of the receiving opening, bury at least one mounting protrusion into the end of the object in the form of a pole or stand. In this way, the impact force and the force acting on the fixing device located at the end of the base are significantly reduced when the object is fixed in the form of a pole or pillar, and the risk of loosening is reduced accordingly. This solution in a simple way makes it possible to vertically install or adjust the position of an object in the form of a pole or rack without the risk of loosening the device for fastening installed in the ground during the process of fastening the object.

In the latter embodiment of the invention, the support plate preferably has a central opening, the peripheral edge of which forms a force and / or geometric closure with at least a part of the area of the outer periphery of the mounting pin. This design of the base plate is easy to manufacture and in practice requires minimal effort to secure the base plate to the mounting pin.

The hole may have a polygonal or round profile depending on the cross-section of the mounting pin and possible specifications. However, in practice, a round profile may prove to be the most beneficial, considering the cost and laboriousness of manufacturing both the mounting pin and the receiving opening in the lower side of the object in the form of a pole or stand, and in relation to making the hole in the support plate itself.

The inner diameter of the hole is at least equal to, and preferably smaller than, the outer diameter of the mounting pin. Due to this, and especially when, in accordance with another embodiment of the invention, the hole in the support plate is surrounded by a plurality of elastic teeth, the hole of the support plate is automatically fixed on the mounting pin.

This locking effect can be enhanced and, therefore, further improved by the fact that at least part of the surface area of the mounting pin has a knurling. Especially in combination with the preferred embodiment of the invention, when the hole in the support plate is surrounded by a plurality of elastic teeth, as a result of which the inside diameter of the hole is even smaller than the outer diameter of the mounting pin, reliable position fixing and, especially, reliable protection against deformation of the attached object in the form of a pole or stand are achieved that the tips of the retaining teeth cut into the knurling performed on the mounting pin.

Further details, aspects and advantages of the present invention will be clear from the following description of several embodiments of the invention with reference to the drawings.

FIG. 1 shows a device according to the invention (disassembled);

in fig. 2 is a view corresponding to FIG. 1 complete;

in fig. 3 - base plate in the top view;

in fig. 4 - base plate in another design in the form corresponding to the view of FIG. 3;

in fig. 5A and 5B are another embodiment of the present invention;

in fig. 6A and 6B are another embodiment of the present invention;

in fig. 7 is another embodiment of the present invention;

in fig. 8 is another embodiment of the present invention.

The following description of preferred embodiments of the present invention should be considered solely as illustrative examples; the examples presented in the figures and the corresponding description are not limiting.

FIG. 1 shows a first embodiment of the present invention for vertical installation of an object in the form of a pole or a rack (hereinafter referred to as a pole) on a fastening device located on the ground.

FIG. 1 and 2 represent the design of the device 2 according to the invention, which serves for the vertical mounting of the column 4 on the fixing device 6, which is adapted, for example, for anchoring in the ground. The fixing device 6 can be dug into the ground or embedded in concrete or screwed into the ground, preferably, like a corkscrew. A particularly preferred embodiment of the device for fixing 6 is described in the utility model of the Federal Republic of Germany No. 9313258 of the same applicant. Here reference is made in full to the content of this document.

In the design of device 2 of FIG. 1 and 2, the device includes, on the upper free end of the device for fixing 6, a stepped portion or a shoulder 8, centrally supporting the tubular mounting pin 10. As best seen in FIG. 2, the outer diameter of the mounting pin 1 0 is definitely smaller than the internal diameter of the receiving or blind hole or socket 1 2 formed at the lower free end of the pole 4. The depth of the hole 1 2 in this case is preferably less than the height of the mounting pin 1 0.

The support plate 1 6 may be located between the ledge 8 and the end face 1 4 of the pole in which the hole 1 2 is made. The support plate is configured in its configuration and surface in accordance with the configuration and surface of the end face 1 4, i.e., it is usually round as shown in FIG. 3 and 4. At least one, and preferably several fastening protrusions 1 8 extend upwards from the upper side of the support plate 1 6 in the direction of the end face 1 4. In this case, the plate 1 6 moves upwards into the set of fastening projections 1 8 in the form of teeth or spines; the mounting protrusion 18 may also have the form of a closed ring (crown) surrounding the supporting plate 16 along the periphery.

The mounting protrusion (ledges) 1 8 preferably pointed (s) at its (their) upper end (upper ends) of the type of knife with the direction of tapering along the central longitudinal axis of the device 2.

In the same way, the upper free end of the mounting pin 1 0 is sharpened by the type of knife. If the tapers are directed along the central longitudinal axis of the device 2 according to the invention, then the risk of splitting or cracking of the material of the column 4 is minimized when the protrusions are introduced.

The fastening of the pillar 4 on the device 2 is carried out in such a way that at first the device for fastening 6 becomes enclosed in the soil, for example, by screwing it or embedding it in concrete.

After that, the support plate is superimposed on the lower side or the end 14 of the column 4 and connects to the end 14. For this purpose, mounting plates 18 are provided on the support plate, which are embedded in the material of the column with one or two hammer blows on the support plate 16. Alternatively, the mounting flanges 18 shown in FIG. 1 and 2 in the form of teeth, which are embedded in the material of column 4, the fastening protrusion 1 8 may, as already mentioned, have the form of a closed ring surrounding the periphery of the support plate 16. As another alternative, in accordance with FIG. 3 for fastening the support plate 1 6 at the end of the pole 4, a plurality of holes 20 can be made there, allowing passage through the material of the plate of nails or special nails with a wide head or the like. In any case, the support plate 1 6 has a central hole 22 made in the support plate 1 6 in such a way that it is located approximately coaxially with the hole 1 2 at the lower end of column 4 after the support plate 1 6 is attached to the end 1 4.

After fixing the support plate 1 6 pillar 4 in accordance with FIG. 1 is mounted on the fixing device 6 from above, the mounting pin 1 0 is inserted into the hole 1 2 through the hole 22 with a predetermined force. In this case, the pole 4 rests on the upper edge of the mounting pin 1 0 bottom 24 of the hole 1 2. Further, in accordance with FIG. 2, the column is tilted, preferably using a plumb line, so that possible deviations of the fixing device 6 are compensated, and the column 4 is installed exactly vertically. Column 4 may be inclined with respect to the device for fastening 6 due to the fact that the outer diameter of the mounting pin 1 0 in accordance with the invention is substantially smaller than the internal diameter of the hole 1 2, so that the mounting pin 1 0 can go slanted or different from the perpendicular position in The hole 1 2, as shown in FIG. 2. As soon as the column 4 is installed exactly vertically, one or several blows are applied to the top of the column with a hammer or other suitable tool, so that the upper peripheral edge of the mounting pin 1 0 cuts into the bottom 24 of the hole 1 2, and thus the pillar 4 in accordance with FIG. 2 is held in relation to the fixing device 6.

In addition, when the intermediate position of the support plate 1 6 with respect to the mounting rod 1 0 column 4 is held close to the ledge 8, and the support plate

6 rests on the ledge 8 in whole or in part, depending on the magnitude of the slope of the pillar 4.

Installation of the support plate 16 on the mounting rod 1 0 is that the inner diameter of the hole 22 does not exceed, and preferably less than the outer diameter of the mounting pin 1 0. This ensures the power and / or geometric closure of the support plate with at least part surface of the outer periphery of the mounting pin 1 0, so that the position of the column 4 is fixedly fixed with respect to the fixing device 6. This is a force and / or geometric closure of the support plate and the hole 22 with the mounting rod 1 0 It should be reinforced by the fact that at least part of the surface of the outer periphery of the mounting pin 1 0 is provided with a knurling 26. In accordance with FIG. 3, the hole 22 in the support plate 1 6 may also be surrounded by a plurality of elastic teeth 28, which are elastically deformed (i.e., bent upward) when the pole 4 is put on the mounting pin 1 0, and the mounting pin 1 0 passes through the hole 22 so that, especially with knurling 26, the support plate 1 6, and accordingly, the column 4 is securely fixed with respect to the fixing device 6. Due to the flexibility of the teeth 28, the column 4 can be tilted in a wider range with respect to the mounting rod 1 0 and in this way uw to a device for fixing 6.

Due to the knife sharpening of the upper peripheral edge of the mounting pin 1 0, this part can easily penetrate into the material of the column

4. Further, since the knife point is made constant along the central longitudinal axis of the device 2, there is no splitting force directed to the material of column 4, so that the entire lower part of column 4, with the exception of the insertion of the fixing protrusion (s), remains untouched and thus less exposed to the atmosphere, parasites, plants, etc.

The cross section of the hole 22 is largely dependent on the cross section of the mounting pin 10. That is, if the mounting pin 1 0 is tubular with a circular cross section, the hole 22 also preferably has a circular cross section, as shown in FIG. 3B, where possible, elastic teeth are also performed. Hole 22 can equally well have a square or polygonal cross section (shown in FIG. 4 with solid and dashed lines). A polygonal cross section of the hole 22 can also be used with a circular cross section of the mounting pin 1 0. Even in cases where the hole 22 is made square or polygonal, resilient teeth may be provided.

Since the support plate 16 is attached to the front surface (end) 14 of the pole 4 before the pole 4 is put on the mounting pin 10 of the fixing device 6, the efforts required to fix the pole 4 on the fixing device 6 are reduced to the efforts needed for putting the pole 4 on the mounting pin 10, while the latter passes through the hole, which is preferably smaller than the mounting pin 1 0, and to the efforts required to push or insert the mounting pin 10 into the bottom 24. Thus, This reduces the risk that the device for fixing 6 will be loosened in the ground by the forces that are applied to column 4 to fix it.

FIG. 5A-8, further embodiments of the present invention are shown for vertical installation of an object in the form of a pole or stand on a fixing device located at the base.

In the construction of the device 2 according to FIG. 5A and 5B, this device includes at the upper free end of the device for fixing a 6-step section or step 8, which in turn carries a tubular mounting pin 1 0. Here, the outer diameter of the mounting pin 10, as best seen in FIG. 5B, significantly or by a certain amount less than the internal diameter of the receiving or blind hole 12. The depth of the hole 12 does not exceed, and preferably is slightly less than the height of the mounting pin 1 0.

At least one mounting protrusion 1 8 extends upwardly radially outward from the ledge or base plate 8. Here also, from the ledge 8, a plurality of projections 1 8 in the form of teeth or spikes can move upwards or the projection 1 8 can be made in the form of a closed ring surrounding on the periphery of the ledge 8.

In accordance with FIG. 5A and 5B, as in the embodiment of FIG. 1-3, the securing protrusion (lugs) 1 8 are pointed at their free upper ends like a knife edge, while the cusp extends along the central longitudinal axis of the device 2. In the same way, the upper free end of the mounting pin 1 0 is pointed like a knife edge.

Column 4 is fixed on the device 2 in such a way that again at first the device for fixing 6 is anchored into the soil, for example, by screwing or embedding it in concrete. After this, the column 4 is mounted on top of the fixing device 6 in accordance with FIG. 5A with the insertion of the mounting pin 1 0 into the hole 1 2. Column 4 rests on its lower surface or end 14 on the fastening protrusion (lugs) 18, and the end or bottom of the hole 12 rests on the upper edge of the mounting pin 1 0. Then, according to FIG. 5B, the pole is tilted, preferably using a plumb bob or a spirit level, so that possible distortions of the fixing device 6 are compensated, and the pole 4 occupies an exact vertical position. These inclined movements of the pole 4 relative to the fixing device 6 are allowed due to the fact that the outer diameter of the mounting pin 1 0 is substantially smaller than the internal diameter of the hole 1 2, so that the mounting pin 1 0 can be inclined or different from the perpendicular in the hole 12, as shown in FIG. 5B. As soon as pole 4 is set vertically, one or more strong blows are applied to the upper free end of the pole with a hammer or other suitable tool, so that the fastening protrusion 1 8 cuts into the lower surface 1 4 of the pole 4, and in addition, the upper edge of the periphery of the mounting pin 1 0 cuts into the bottom 24 of the hole 1 2 so that, in accordance with FIG. 5B, the column 4 is held in relation to the fixing device 6. Further, the column 4 rests part of its lower surface 1 4 on the ledge 8, which, therefore, in its function together with the fixing protrusion (lugs) 18 corresponds to the support plate 16 FIG. 1-3.

The embodiment of FIG. 5A-5B is sufficient for those cases when, with further use, the device is not subjected to upward-directed traction, that is, for example, when it serves as a support for beams or belts that perceive direct pressure forces. However, if such upward tensile forces can be expected, it is preferable to use one of the designs of FIG. 1-3 or 6A-8.

FIG. 6A-8, the same reference numerals denote the same or equivalent parts as in FIG. 5A and 5B.

According to FIG. 6A, the device 2 again includes a mounting pin 10, which is preferably integral with the device for fastening. The mounting pin 10 has at its upper free end a through hole 30 extending approximately horizontally. Directly next to the mounting rod 1 0 on the device for fixing 6 is made external thread 32, which interacts with an internal thread made in the base plate 34. The support plate 16, which can freely move along the external thread 32, i.e. not screwed on the thread 32 , rests on the upper side of the base plate 34. From the base plate 16 also moves up the mounting ledge (ledges) 18.

According to FIG. 6B, a horizontally located finger 36 passes through the through hole 30 and is inserted into the horizontal hole 38 in column 4. The finger 36 has a much smaller size compared to the through hole 30, so that according to FIG. 6B, the finger 36, and hence the column 4, can be inclined with respect to the fixing device 6, and, due to the smaller size of the finger 36, it can be slanting obliquely in the through-hole 30.

Preferably, the finger 36 is inserted so that it fits tightly in the hole 38 of the column 4; in a particularly preferred embodiment, it is screwed in so that it is held securely in column 4.

To fix the post to the fixing device 6, first, the post 4 is put on top of the mounting pin 10, and then it is fixed with a finger 36 in the opening 30. Thus, the pin 36 prevents the post from being removed or detached. After that, the base plate 34 is rotated (rotated) so that it moves upwards along the external thread 32 and involves in this movement the support plate 1 6, as can be seen in FIG. 6 A and 6B. When screwing upwardly, the base plate 34 and, thus, the support plate 1 6, the fastening protrusion (lugs) 18 cuts into the bottom surface 14 of the pole 4. According to FIG. 6B, the pillar 4 can be tilted with respect to the fixing device 6 before the base plate 34 is screwed up so as to compensate for possible distortions of the fixing device 6. The column 4 is fixed in any desired position on one side of the base plate 34 and therefore , the base plate 16, and on the other hand, the working connection of the finger 36 with a through hole 30, serving as protection against removal or detachment.

FIG. 7 shows a modification of the embodiment shown in FIG. 6A and 6B.

According to FIG. 7 from the support plate 1 6 extends upward into the material of the post a bolt 42 with the installation of an intermediate washer 40. The threaded part of the bolt interacts with an internal thread 44 made in the pin 46, which extends approximately horizontally in the hole 48. In accordance with FIG. 7, the finger 46 has a size smaller than the diameter of the hole 48. The hexagon head 50 of the bolt 42 can be accessed through the recess 52 in the fixing device 6; notch 52 has a certain length along the periphery, for example, by 90 °. The bolt 42 is rotated with an open-end wrench or similar tool that is applied to the head of the bolt 50 through a recess 52. As shown directly in FIG. 7, when the bolt 42 is tightened, the threaded portion of the bolt moves upwardly relative to the finger 46, and this upward movement of the bolt is converted to a downward movement of the column 4 in FIG. 7 due to the location of the finger 46 in the hole 48, so that the mounting protrusion (protrusions) 18 cuts into the bottom surface of the post, and the tubular mounting pin 1 0 cuts into the end surface 24 of the hole 1 2 in post 4, and thus the post 4 is fixed relative to to the device for fastening 6.

FIG. 8 shows a further embodiment of the present invention. The embodiment of FIG. 8 differs, in particular, in that the mounting pin 1 0 consists of two concentric tubular sections, namely, the outer tubular section 54 and the inner tubular section 56. The outer tubular section 54 is preferably formed in its lower part along with the supporting plate 1 6, including mounting ledge 18, departing from it upwards. The support plate 16 is supported, as in the embodiment of FIG. 6A and 6B to the base plate 34, which interacts respectively with a part of the mounting pin 1 0 having an external thread and with the inner tubular section 56. At the upper free end, the inner tubular section 56 expands in the shape of the socket, as can be seen in FIG. 8, and the outer section 54 has a plurality of petals 58. Petals 58 are formed by the fact that several openings 60 are made in the material of the outer tubular section 54 in its upper free part. The conical or flared expansion of the inner tubular section 56 forms the corresponding conical or bell-shaped abutting surface 62, adjoined with petals 58.

To fix the post, not represented in FIG. 8, on the device 2 in accordance with the invention in the embodiment of FIG. 8, the pole is put on the mounting pin 1 0 so that the lower side (end) of the pole rests on the knife points of the fixing protrusion (lugs) 18. Then the base plate 34 is rotated, possibly with the help of a suitable tool, with upward movement along the inner tubular section 56 along the section with external thread, as a result of which the support plate 1 6 in FIG. 8 also shifts up. This movement of the support plate 1 6 upwards is transmitted through the outer tubular section 54 of the petals 58, so that the petals 58 are bent approximately horizontally or radially outward by the conical abutment surface 62 and cut into the material of the pole inside the hole 1 2. At the same time, the lugs 1 8 crash into the lower end of the pillar, so that it has reliable support. Although not shown in FIG. 8, it is obvious that in this version also the hole in the column interacts with the mounting pin 1 0, so that the vertical installation can be corrected if necessary before the final tightening or clamping of the column.

Claims (20)

CLAIM 1. Device for vertical installation of an object (4) in the form of a pillar or stand on a fixing device (6) located on the ground side, comprising a substantially cylindrical elongated mounting pin (10) protruding upward from the free upper side of the fixing device ( 6) and made with the possibility of installation in the receiving hole (12) in the lower side of the object (4) in the form of a column or rack, and a support plate (16), on which the lower side of the object (4) rests in the form of a column or rack, and the supporting the plate is provided, at least the least, with one protrusion (18), protruding upward from the support plate (1 6) with the possibility of embedding into the material of the object (4) in the form of a column or stand, characterized in that the mounting pin (10) is made much thinner than the receiving hole ( 1 2) in the lower side of the object (4) in the form of a pillar or stand, so that a backlash is provided between the outer surface of the mounting pin (10) and the inner circumferential surface of the receiving hole (12) substantially along the axis of the mounting pin (10). 2. The device according to claim 1, characterized in that the plurality of mounting protrusions (18) extend upward from the support plate (1 6). 3. The device according to p. 1, characterized in that at least one mounting protrusion (18) in the form of a closed ring on the periphery is directed upward from the base plate (1 6). 4. The device according to one of claims 1 to 3, characterized in that the said at least one mounting protrusion (18) at its upper free end is pointed like a knife edge. 5. The device according to claim 4, characterized in that the taper is located along the central longitudinal axis of the device (2). 6. The device according to one of claims 1 to 5, characterized in that the mounting pin (10) is made tubular and pointed like a knife edge on its upper circumferential edge. 7. The device according to one of claims 1 to 6, characterized in that the mounting pin (10) has a through hole (30) located approximately horizontally at its upper end, through which a finger (36) passes, having a smaller size compared to the hole (30), moreover, the finger (36) is located in such a way that it exactly fits into the transverse hole (38) made in the object (4) in the form of a column or pillar exactly aligned with the through hole (30) made in the mounting pin (10). 8. The device according to claim 7, characterized in that the pin (36) is provided with a thread that is screwed into the transverse hole (30) made in the mounting pin (1 0). 9. The device according to claim 7 or 8, characterized in that the support plate (16) is made with the possibility of vertical adjustment along the mounting pin (1 0). 10. The device according to claim 9, characterized in that the support plate (16) rests on the base plate (34), which is connected by a threaded connection to the outer periphery of the mounting pin (1 0). 11. The device according to claim 1, characterized in that the mounting pin (10) is made of two concentric tubular sections (54, 56), and the outer tubular section (54) has vertical mobility relative to the inner tubular section (56), and with vertical displaced upwardly of the outer tubular section (54), it expands substantially radially in its upper part. 1 2. The device according to claim 11, characterized in that the outer tubular section (54) has at its upper end a plurality of deformable petals (58), which, when displaced vertically upward, the outer tubular section (54) abuts against stationary thrust profiles (62) the inner tubular section (56) and bend them essentially radially outward. 13. The device according to one of claims 1 to 8, characterized in that the support plate (16) is made integral with the device for fixing (6). 14. The device according to one of claims 1 to 8, characterized in that the support plate (16) is an element made separately from the device for fixing (6) and with the possibility of hard mounting to the bottom surface (14) of the object (4) in the form a column or rack with the formation of a power and / or geometric circuit, at least with a part of the surface of the outer periphery of the mounting pin (10), when installing the mounting pin (10) in the receiving hole (12) in the lower part of the object (4) in the form pillar or rack. 1 5. The device according to p. 1 4, characterized in that the support plate (16) is provided with a Central hole (22), which forms a power and / or geometric circuit, at least with part of the surface of the outer periphery of the mounting pin (1 0) . 16. The device according to p. 15, characterized in that the hole 22 is made polygonal. 17. The device according to p. 15, characterized in that the hole (22) is made round. 18. The device according to one of paragraphs. 14-17, characterized in that the inner diameter of the hole (22) is at least equal to, and preferably less than, the outer diameter of the mounting pin (10). 19. The device according to one of paragraphs. 14-18, characterized in that the hole (22) in the base plate (16) is surrounded by many elastic teeth (28). 20. The device according to one of paragraphs. 14-19, characterized in that the outer side surface of the mounting pin (10) has a knurling (26), at least in part of its area.