RU2526949C2 - Telescopic support stand for construction area - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to a telescopic support stand for construction area. The telescopic support stand for construction area comprises an external pipe and an internal pipe placed in it as capable of axial displacement, and the internal pipe is protected by means of a safety device from removal out of the external pipe, at the same time the safety device comprises a stop element placed on the external pipe for bringing it into contact with at least one stopping facility located on the internal pipe, at the same time the stop element in the area of the external pipe end is fixed on the external pipe and at least partially covers the free surface of the cross section of the external pipe, besides, the stop element is made in the form of a cap or a cartridge and is engaged with the inner and/or outer thread of the external pipe available on the side surface of the external pipe, at the same time the stop element is equipped with a facility of protection against rotation made in the form of a bent tab.

EFFECT: simplified manufacturing, reduced costs, increased reliability and durability.

9 cl, 5 dwg

Description

The invention relates to a telescopic support column for a construction field comprising an outer pipe and an inner pipe located therein with axial movement and protected by a safety device from being removed from the outer pipe, the safety device comprising a locking element located on the outer pipe, with which contacting at least one locking means located on the inner pipe.

Such telescopic support racks are used in the construction industry in a wide variety of situations in which the creation of a support is required, and they are used, for example, when installing floors or mounting to support concrete formwork.

From British Patent Document GB 755 831 A, a telescopic support post for a building sprout is known, wherein the stop element is constituted by a tapering edge portion of the end of the outer pipe facing the telescoping / extension end of the telescopic support post. Also, according to European patent document EP 1 273 740 B1, in the telescopic support column, the outer pipe comprises a locking element formed by the thus narrowing section of the cross section. In European patent publication EP 0 625 622 A1, a telescopic support post is shown in which the stop element is formed by a welded tube element with a smaller inner diameter compared to the outer pipe.

The manufacture of the telescopic support racks in question is technologically time-consuming and therefore expensive.

The objective of the invention is to improve the telescopic support column of the aforementioned type by simple structural measures in such a way as to ensure their simpler and less expensive manufacture.

Advantages of the Invention

The task according to the invention is solved by a telescopic support column with the characteristics described in paragraph 1 of the claims.

In the telescopic support column according to the invention, the inventive locking element is provided in the region of the end of the outer pipe, while the locking element at least partially overlaps the free surface of the cross section of the outer pipe. Moreover, under the overlapping surface of the cross section in the proposed application also refers to at least partial protrusion of the locking element in cross section in the light of the outer pipe. The advantage associated with the invention is essentially that the locking element can simply be located on the outer pipe, and it does not require a laborious change in the inner cross section of the outer pipe or the welding of individual tube elements. In addition, depending on the type of fastening chosen, a retractable device of the inner pipe can be provided with a strong and designed for high permissible loads relative to the axially applied forces. The locking element, according to the invention, is mounted on the outer pipe, preferably without a separate connecting means, and in the simplest embodiment it is only fitted with an interference fit on / in the outer pipe. At the same time, the locking element can also be arranged as a spring retaining ring in a groove made on the outer pipe or by means of a fixing connection or fastening in the form of a pin closure on the outer pipe. The locking element is connected to the outer pipe and specifically in the area of the free end of the outer pipe.

In a preferred embodiment of the invention, the locking element engages in the internal or external thread of the external pipe provided on the side surface of the outer pipe, and the installation of the locking element, which is designed for a particularly high allowable load, is achieved by the locking element of the external and / or internal thread meshing with the corresponding thread of the outer pipe.

In order to prevent the locking element from being accidentally disconnected from the mounting position in practice, it has proven advantageously in practice that the locking element is provided with an appropriate means of protection against rotation. In this case, the rotation protection means comprises, in particular, a safety tab located on the locking element and bent into the thread of the outer pipe. The locking element, here the folding tongue, engages with the passage hole in the outer pipe.

The maximum permissible load of the locking element in relation to axial loads, which, in particular, can occur when the contaminated inner pipe is moved into the outer pipe, is improved due to the fact that the locking element at least partially covers the end surface, i.e. the end section of the wall of one end of the outer pipe.

The locking element in one embodiment of the invention is preferably in the form of a cap or sleeve. This allows, firstly, to prevent the penetration of contaminants, for example, fresh concrete into the outer pipe, which favorably affects maintenance and increases its reliability. Secondly, the locking element can thus serve as a sliding support and at the same time as a cleaning element of a contaminated inner pipe. Provided that the locking element is in the form of a cap or sleeve, additional processing measures are not required to install the locking element on the outer pipe.

In order to ensure an anti-fall function independent of the orientation of the inner pipe in the outer pipe, the means for locking the inner pipe are preferably made in the form of a widened, for example flanged, end of the inner pipe. This ensures that the inner pipe itself, at very high applied forces, which may in practice arise, cannot be removed from the outer pipe.

So that the locking element itself at high bending moments of the extended inner pipe could not be disconnected from its mounting position, the inner pipe in another embodiment of the invention contains at least one protrusion radially protruding laterally from its outer side surface, which is located with axial removal of a relatively widened end of the inner pipe, i.e. means of locking. The protrusion is preferably made integrally with the inner pipe and, in particular, is made on the inner pipe by pressure molding. The protrusion is preferably formed in the form of a spike or corrugation protrusion and can extend in the circumferential direction of the inner pipe at a preferably large inscribed angle. According to one embodiment of the invention, several protrusions can also be provided, which are arranged to run with respect to each other along the outer perimeter of the inner pipe and preferably placed in a plane orthogonally relative to the longitudinal axis of the inner pipe.

In order to increase the accuracy of positioning and the reliability of the support position on the locking element and / or on the inner side surface of the outer pipe, the inner pipe is moved axially, preferably with a geometric closure with a sliding gap. In this case, the inner tube is moved on the inner side surface of the outer tube expediently with a locking means, here, for example, with a flanged edge of its end located in the outer tube and / or with at least one protrusion.

The locking element, which is preferably made in the form of a cap, comprises, in a particularly preferred embodiment of the invention, an internal thread that is engaged with the external thread of the outer pipe, and the external thread is additionally engaged with the internal thread of the lowering nut, on which safety pin, made with the possibility of passing through the outer and inner pipe transverse to the longitudinal axis the support column. This ensures, on the one hand, precise regulation along the entire functional length of the telescopic stand, as well as lightweight formwork, and, on the other hand, the locking element can be screwed directly onto the thread already provided. In this case, the locking element works simultaneously as a lock nut or locking element for a lowering nut, so that its installation on a telescopic support column eliminates the possibility of accidental disconnection.

If we talk about a particularly advantageous cost-effective manufacturing of a telescopic support column, then the outer pipe preferably has an inner diameter that remains essentially unchanged along its entire axial length.

In General, the inventive building support pillar has the advantage that it is mounted (final installation) in the simplest way. The outer, as well as the inner pipe, can be machined and manufactured without additional elements, and only when assembling the outer and inner pipes, the lowering nut is screwed together with the elements connected to them onto the outer pipe. Also, before assembling the inner pipe with the outer pipe, a safety pin is mounted on the outer pipe. If the construction pillar according to the invention is assembled, a safety pin can only be used in the area of the through hole, since the locking element has an outer diameter that is greater than the width in light of the corresponding locking bolt enclosing the outer pipe.

Other advantages and preferred embodiments of the subject of the invention result from the description, drawings and claims.

Blueprints

Below in the drawings, the invention is explained in more detail based on an example implementation. Moreover, the drawings show:

Figure 1 is a perspective view of a telescopic support post according to the invention, shown with a cut-out, with a cap element made in the form of a cap;

Figure 2 is a partial longitudinal section corresponding to figure 1 of a telescopic support rack;

Figure 3 is a perspective view of the cap of figure 1;

Figure 4 is a sectional view of the cap shown in figure 3;

Figure 5 shows the individual components of a telescopic support column according to the invention before assembling the inner pipe with the outer pipe.

Description of the implementation example

Figure 1 shows a separate section indicated generally by the position 10 of the telescopic support column for the construction area. The telescopic support stand has an outer tube 12 and an inner tube 14 arranged axially movable therein. The inner tube 14 has a known base plate 18 in its free end 16 shown above, and the outer tube 12, in turn, is not shown in detail the end side of the base has a base plate for reliable positioning on a suitable base.

On the head, that is, facing the base plate 18 of the inner pipe 14, the end 20 of the outer pipe 12 is placed a cap 22, which serves as a locking element for the inner pipe 14 and by which axial removal or loss of the inner pipe 14 from the outer pipe 12 is eliminated.

The cap 22 is suitably designed to use a union nut and has a substantially cylindrical wall portion 24 with internal thread 26. The edge region 28 of the cap 22 adjacent to the cylindrical wall portion 24 adjoins the figure 28 above the cylindrical wall portion 24, which, unlike the cylindrical wall portion 24 made with a radial tilt in the direction of the longitudinal axis 30 of the telescopic support column 10 and partially overlaps the free surface of the cross section 32 of the outer pipe 12.

The cap 22, respectively, its internal thread 26, is meshed with the external thread 36 located on the outer side surface 34 of the outer pipe 12. The so-called lowering nut 38, on which the rotary handle 38 'is placed, is simultaneously engaged in the external thread 36 of the outer pipe 12. and which rotates around the longitudinal axis 30 of the telescopic support post 10 in the axial direction along the outer pipe 12.

On the lowering nut 38 across the longitudinal axis 30 of the telescopic support post 10, a locking bolt 40 drawn through the outer and inner pipe is supported. The outer pipe 12 comprises in this connection two first two opposed to each other and running in the longitudinal direction parallel to the longitudinal axis 30 of the telescopic support post 10 through holes (longitudinal holes) 42, while the inner pipe 14 contains a large number of circular through opposed to each other (coaxial) second through holes 44, respectively substantially uniform with each other along the length of the inner pipe 14 at intervals below or above one another.

For an approximate adjustment along the length of the telescopic support post 10, the inner pipe 14 is first extended to the desired length of the telescopic support post 10, and then through the first through holes 42 of the outer pipe 12, and also through the second through holes 44 of the inner pipe 14 coaxially aligned with them, the safety pin 40 is inserted .

Further, by rotating the lowering nut 40, which is lower than the safety pin 40, in a figure, its relative position along the length of the outer pipe 12 is stepwise changed. Thus, at the same time and as necessary, the axial support position of the safety pin 40 is precisely regulated on the outer pipe 12, respectively connected to it by the inner pipe 14, along the outer pipe 12, that is, the length of the telescopic support column 10.

As follows, in particular, from the longitudinal section shown in FIG. 2 of a separate section of the telescopic support column 10, the cap 22 with its inclined edge zone overlaps the end surface 46 of the end 20 of the outer pipe 12. The inner pipe 14 has a locking means made in the form of a widened end 48, which, in order to prevent the inner pipe 14 from falling out of the outer pipe 12, is brought into contact with the cap 22, respectively, with its inclined edge zone 28, so that no other fuse is used s elements.

The inner tube 14 has an additional several tenon-shaped protrusions 50, which are spaced relative to the locking means (wider end) 48 of the inner pipe 14 and radially protrude beyond the outer side surface 34 of the inner pipe 14. The tenon-like protrusions 50 when reaching a predetermined maximum amount of extension of the inner pipe 14 are brought into contact with the cap 22 and thus fix the minimum length of the inner pipe 14 remaining in the outer pipe 12. Therefore, when bending moments occur in Morning tube 14 is supported on the inner side surface 52 of the outer tube 12, thereby reliably avoided squeezing of the cap 22 with the outer tube 12.

The stud-shaped protrusions 50 have the function of a locking means 48 and limit the length of the extension / retraction of the telescopic support post 10.

The internal thread 26 of the cap 22, as shown in more detail in FIGS. 3 and 4, is made with a rectangular profile and has a profile 54 interrupted along the length of the thread.

Figure 4 shows that on the cylindrical section 24 of the cap 22 is arranged in the form of an folding tongue anti-rotation means 56, which, after screwing the cap onto the external thread 36 (Figs. 1 and 2) of the external pipe 12, is bent into the external thread 36 of the external pipe 12 and firmly engaged in the hole (see figure 5) in the external thread 36 of the outer pipe 12.

Figure 5 shows the individual parts of the telescopic support column 10 according to the invention before assembling the inner pipe 14 with the outer pipe 12. The base plate 18 already mentioned is welded to the inner pipe 14, while the base plate 58 is welded to the end of the outer pipe 12 from the base side 58 The lowering nut 38 is screwed onto the external thread 36 of the outer pipe 12, and the safety pin 40 is pushed over the thread area of the outer pipe 12 above the lowering nut 38, and the cap 22 is worn on the inner pipe 14 and secured with a tenon shape in steps of 50 or with a support plate 18 against the possibility of axial removal from the inner pipe 14. To assemble the inner pipe 14 with the outer pipe 12, the inner pipe with its widened end 48 (locking means) is pushed from the head end 20 of the outer pipe 12 into the outer pipe 12 until until at least the tongue-shaped protrusions 50 are placed inside the outer pipe 12. Subsequently, the cap 22 is screwed onto the external thread 36 of the outer pipe 12 and the folding tongue 56 is bent into the hole 57 of the outer pipe 12.

The invention relates to a telescopic support column 10 for a construction area comprising an outer pipe 12 and an axial pipe 14 located therein, protected by a safety device from being removed from the outer pipe 12. The safety device comprises a locking element located on the outer pipe 12, which adjoins at least one locking means 48 located on the inner pipe 14. According to the invention, in the region of the end 20 of the outer pipe 12, there is provided a supporting element, while at least partially overlapping the free surface of the cross section of the outer pipe 12. The locking element is preferably made in the form of a cap 22 and has an internal thread 26 that mates with the external thread 36 of the outer pipe 12. The external thread 36 is in meshing with a lowering nut 38, on which a safety pin 40 is supported, made with the possibility of passing through the outer and inner pipe 12, 14 across the longitudinal axis 30 of the telescopic support column 10.

Claims (9)

1. Telescopic support column (10) for the construction area, containing the outer pipe (12) and located inside it with axial movement of the inner pipe (14), protected by a safety device from removal from the outer pipe (12), while the safety device contains a locking element located on the outer pipe (12) for bringing into contact with at least one locking means (48) located on the inner pipe (14), while the locking element is fixed in the region of the end (20) of the outer pipe (12) yen on the outer pipe (12) and at least partially overlaps the free cross-sectional surface (32) of the outer pipe (12), characterized in that the locking element is made in the form of a cap (22) or a sleeve and engages with the lateral surface (34; 50) of the outer pipe (12) with an internal and / or external thread (36) of the outer pipe (12), while the locking element is provided with rotation protection means made in the form of an folding tongue (56). 2. Telescopic support column according to claim 1, characterized in that the locking element with an external and / or internal thread (26) engages with an external or external thread (36) located on the lateral surface (34; 50) of the external pipe (12) outer pipe (12). 3. The telescopic support post according to claim 1, characterized in that the folding tongue (56) is engaged with a recess, in particular, with a through hole in the outer pipe (12). 4. The telescopic support column according to one of claims 1 to 3, characterized in that the locking element at least partially overlaps the end surface (46) of the end (20) of the outer pipe (12). 5. The telescopic support post according to claim 1, characterized in that the locking means (48) is made in the form of a widened end of the inner pipe (14). 6. Telescopic support post according to claim 5, characterized in that the inner tube (14) contains at least one protrusion that projects radially laterally from its outer side surface and is located axially removed relative to the locking means (48) of the inner tube (14) ) 7. Telescopic support post according to claim 1, characterized in that the inner pipe (14) moves on the locking element and / or on the inner side surface (52) of the outer pipe (12) in the axial direction, preferably with a geometric closure with a sliding gap. 8. The telescopic support column according to claim 1, characterized in that the locking element has an internal thread (26) that engages with the external thread (36) of the outer pipe, while the external thread (36) is engaged with the lowering nut ( 38), made with the possibility of supporting a safety finger (40) on it, made with the possibility of passing through the outer and inner pipe (12; 14) across the longitudinal axis of the telescopic support (10). 9. The telescopic support post according to claim 1, characterized in that the outer pipe (12) has an inner diameter that remains essentially unchanged along its entire axial length.

Images