EP2513389A1

EP2513389A1 - Telescopic structural support

Info

Publication number: EP2513389A1
Application number: EP10787467A
Authority: EP
Inventors: Wilfried Haeberle
Original assignee: Peri GmbH
Current assignee: Peri GmbH
Priority date: 2009-12-14
Filing date: 2010-12-08
Publication date: 2012-10-24
Anticipated expiration: 2030-12-08
Also published as: RU2012129890A; CN102695839B; ES2680674T3; EP2513389B1; US20120248391A1; BR112012014453B1; CA2783676C; PL2513389T3; KR101534188B1; WO2011073064A1; BR112012014453A2; HK1171487A1; CN102695839A; KR20120104313A; CA2783676A1; DE102009054627A1; HRP20181289T1; US8783658B2; RU2528319C2

Abstract

The invention relates to a telescopic push-pull prop (10) for the construction field, having an outer tube (12) and having at least one threaded rod or inner tube (14) disposed axially adjustable therein. An outer thread (22) of the inner tube (14) engages with an inner thread (24) of the outer tube (12). According to the invention, the inner thread (24) of the outer tube (12) is disposed at an axial distance from a free end (26) of the outer tube (12) associated with the inner tube (14), wherein the inner thread (24) of the outer tube (12) is produced by an at least partially circumferential reduction of the outer tube (12) over a mandrel positioned in the outer tube (12), wherein said mandrel comprises an external thread. The outer tube (12) comprises an edge section (34) at the free end (26) thereof having a reduced pass-through cross section (32') relative to a nominal width (36) of the outer tube.

Description

Telescopic prop

The invention relates to a telescoping directional support for the construction sector, with an outer tube and with at least one axially adjustable threaded rod or inner tube, which engages with an external thread in an internal thread of the outer tube.

Such stabilizers are used in construction to align wall formwork for concrete walls and to secure against possible wind loads or other cross-loads occurring during a construction operation.

Usually, the directional supports on both ends of threaded hub, which engage in mutually opposite internal thread of the outer tube. The threaded rod of one end is thereby struck rotationally fixed in operation on a solid surface, while the threaded rod at the other end of the directional support on a formwork element to be supported or the like. Attacks. A length adjustment of the directional support is effected by corresponding rotation of the outer tube relative to the drehfixierten threaded rods.

In the above directional supports the respective internal thread of the outer tube is made either by a welded onto the respective end of the outer tube threaded nut or by tapering the respective end and simultaneously impressing the thread or by a subsequent machining the outer tube.

In view of the conditions of use of the directional supports, impurities often occur in the region of the internal thread, for example due to fresh concrete, which can lead to a malfunction or to an increased thread wear of the directional support. In addition, unavoidable sometimes mechanical damage can lead to direct damage to the internal thread, which can cause a failure of the straightening support.

The object of the invention is to provide a directional support mentioned at the beginning, which is better protected against contamination and damage and which can be manufactured at the same time in a cost-effective manner.

This object is achieved in that the internal thread of the outer raw rs is axially spaced from a the inner tube associated free end of the outer tube, wherein the internal thread of the outer tube is made by an at least teilumfängliche reduction of the outer tube via a r raw outside positioned ror Dorn having an external thread and wherein the outer tube has at its free end an edge portion with a reduced compared to a nominal diameter of the outer tube passage cross-section.

The inventive positioning of the internal thread this better protected against direct damage during a labor or transport. At the same time penetration of impurities, such as fresh concrete, is counteracted in the region of the threaded engagement, whereby the risk of blocking and excessive thread wear is reduced. The internal thread can be made in addition to the inventively designed edge region of the outer tube in a single operation, the reduced pipe section is solidified at largely preserved wall thickness and has a high surface quality, which is advantageous for the resilience and ease of the thread. Costly welding or a machining of the outer tube are completely eliminated. Furthermore, an ergonomic shaping of the edge section is made possible with a reduced risk of injury when handling the directional support.

A particularly effective protection of the internal thread is achieved in one embodiment of the invention in that the passage cross-section of the edge portion is reduced in full and at a distance to the outer diameter of the threaded rod or the inner tube. The passage cross section of the edge portion may be concentrically reduced according to a preferred embodiment of the invention over the nominal diameter of the outer tube.

According to embodiments of the invention, the passage cross-section of the edge section can also taper conically and / or stepwise in the axial direction.

The load capacity of the edge portion at the threaded end of the outer rough rs can be further increased, that the edge portion at least partially an axially curved, i. cambered, outer circumferential surface has. This also provides a particularly secure, i. little empowering, handling of the directional support allows.

The edge portion of the outer tube may also have an inflected edge, wherein the edge is preferably designed to be doubled for a further increase in the stability of the edge portion of the outer tube.

So that the gap between the edge portion of the outer tube and the threaded rod or the inner tube is sealed even more effectively against a possible ingress of contaminants, the edge portion according to the invention may comprise at least one, preferably fitting on the inner tube, sealing element. The sealing element is preferably annular and arranged in particular in the sense of a cap on the free edge of the outer tube. The sealing element may be formed as a rubber-elastic element or in a favorable manner with respect to a frictional resistance as a brush element.

To stiffen the directional support against attacking bending forces, the internal thread of the outer tube is preferably interrupted by a plurality of, for example web-shaped, intermediate webs which define a larger compared to the passage cross-section of the internal thread inner diameter of the outer tube. The inner and the outer tube are preferably made of steel or a steel alloy and / or made of a light metal and may be formed in each case as a round or as an edge profile.

It is understood that the outer circumferential surface may have polygonal shapes in cross section. The free ends of the outer tube can be retracted to different degrees with respect to the inner tube or the inner rod, so that different Spaitweiten between outer tube and inner tube or inner rod.

Further advantages and advantageous embodiments of the subject invention are the description, the drawings and claims removed.

drawing

The invention will be explained in more detail with reference to an embodiment shown in the drawing. In the drawing shows:

1 shows a longitudinal section of a selected area of a directional support according to the invention;

Fig. 2 is a perspective view of the directional support shown in FIG. 1, and

Fig. 3 is a fragmentary side view of an outer tube of the directional support shown in FIG.

Description of the embodiment

FIG. 1 shows a longitudinal section of a selected region of a telescopic directional support 10 according to the invention for the construction sector. The directional support 10 has an outer raw r 12 and therein axially adjustable arranged inner tube 14. The outer and inner tubes 12, 14 are each a round profile executed. The inner tube 14 has a designed as a mounting flange free end 16 with an insertion opening 18 for a unspecified reproduced Absteckbolzen with which the inner tube 4 can be fixed, for example in an opening of a wall formwork. The inner tube 14 also has two oppositely disposed recesses 20 for a further Absteckbolzen.

The inner tube 14 has an external thread 22 which engages in an internal thread 24 of the outer raw rs 12. In a relative rotation of the inner tube 14 to the outer tube 12, the inner tube 14, depending on the direction of rotation, spindle-like out of the outer tube 12 and are moved into the outer tube 12.

The internal thread 24 of the outer tube 12 is axially spaced from a the inner tube 14 associated free end 26 of the outer raw rs 12 and has a total of four evenly distributed over its circumference groove-shaped threaded portions 28, of which in FIG. 1, however, only two due to recognize.

The internal thread 24 is made by an at least teilumfängliche reduction of the outer tube 12 via a during the Fertigu ngsprozesses positioned in the outer tube 12 mandrel having an external thread. In the Ausführungsbeispiei shown here four, for example, over the circumference evenly distributed grooves with m respective groove bottom arranged thread combs were impressed in the wall of the outer tube 12, wherein the wall of the outer tube 12 was pressed onto the mandrel and each deformed to the groove-shaped threaded portion 28. The outer tube 12 may also have more or fewer than four groove-shaped threaded portions 28.

As is apparent in particular from FIGS. 2 and 3, the groove-shaped threaded portions 28 of the internal thread 24 are respectively interposed web-shaped intermediate portions 30 which define a larger inner diameter relative to a passage cross section 32 of the internal thread 24 of the outer tube 12 and the radially over a through the groove-shaped Thread portions 28 project defined Umfangsiinie. The intermediate areas 30 serve primarily a stiffening of the outer tube 12, ie they counteract a deformation of the outer tube 12 in the region of the internal thread 24, and provide additional protection against direct mechanical damage of the internal thread 24 from the outside.

The outer tube 12 has, at its free end 26 facing the inner tube 14, furthermore an edge section 34, whose passage cross section 32 ^' (see Fig. 1) is completely circumferential and concentric with respect to a nominal width 36 of the outer tube 12 and at a distance to the outer diameter 38 of the inner tube 14 is reduced.

The edge portion 34 has an axially curved and rotationally symmetrical outer surface 40 on the front side, through which u.a. a particularly low risk of injury when handling the Richtstütze 10 is given.

After in the drawing not shown in detail embodiments of the invention, the passage cross-section 32 of the edge portion 34 of the outer tube 12 can taper conically and / or gradually in the axial direction. In addition, the edge portion 34 may also have an inflected and possibly doubled edge 42.

The edge portion 34 of the outer tube 12 also has an annular rubber-elastic sealing element 44 arranged on the edge 42 of the outer tube. The sealing element 44 may be formed according to an embodiment not shown in detail as a brush element, wherein the bristles each project radially with their free end in the direction of the inner tube of the edge portion and at least partially abut the inner tube. The sealing element 44 may also be designed as a rubber-elastic element and be made for example of a plastic.

After an unspecified in the drawing Ausführungsbeispie! the directional support 10 may also have a second axially adjustable inner tube 14, which is arranged in a manner corresponding to the preceding embodiment in the region of the other free end of the outer tube 12. The respective ones Internal thread 24 of the thus formed outer raw rs 12 are formed in opposite directions to each other in this case.

The invention relates to a telescoping directional support 10 for the construction sector, with an outer tube 12 and at least one axially adjustable threaded rod or inner tube 14. The inner tube 14 engages with an external thread 22 in an internal thread 24 of the outer tube 12 a. According to the invention, the internal thread 24 of the outer raw rs 12 axially spaced from a the inner tube 14 associated free end 26 of the outer tube 12, wherein the internal thread 24 of the outer tube 12 is made by an at least teilumfängliche reduction of the outer tube 12 via a positioned in the outer tube 12 mandrel having an external thread. The outer tube 12 has at its free end 26 an edge portion 34 with a comparison with a nominal diameter 36 of the outer tube 12 reduced passage cross-section 32 ^' .

Claims

claims

1. Teieskopierbare directional support (10) for the construction sector, with an outer tube (12) and at least one axially adjustable therein threaded rod or inner tube (14) with an external thread (22) in an internal thread (24) of the outer tube (12) engages, characterized in that the internal thread (24) of the outer tube (12) of an inner tube (14) associated free end (26) of the outer tube (12) is arranged axially spaced, wherein the internal thread (24) of the outer tube (12) is made by an at least teilumfängliche reduction of the outer tube (12) via a mandrel positioned in the outer tube (12) having an external thread and wherein the outer tube (12) at its free end (26) has an edge portion (34) with respect to a nominal diameter of the outer tube reduced passage cross-section (32 ^' ).

2. Directional support according to claim 1, characterized in that the passage cross section (32 ^" ) of the edge portion (34) is reduced in full and at a distance to the outer diameter (38) of the threaded rod or the inner tube (14).

3. Directional support according to claim 1 or 2, characterized in that the passage cross-section (32 ^' ) of the edge portion (34) is concentrically reduced.

4. Directional support according to one of the preceding claims, characterized in that the passage cross-section (32 ^' ) of the edge portion (34) tapers conically in the axial direction.

5. Directional support according to one of the preceding claims, characterized in that the passage cross section (32 ^' ) of the edge portion (34) tapers stepwise in the axial direction.

6. Directional support according to one of the preceding claims, characterized in that the edge portion (34) at least partially an axially curved outer circumferential surface (40).

7. Directional support according to one of the preceding claims, characterized in that the edge portion (34) has an inflected edge (42).

8. Directional support according to one of the preceding claims, characterized in that the edge portion (34) has at least one, preferably on the inner tube fitting, sealing element (44).

9. Richtstütze according to claim 8, characterized in that the

Sealing element (44) is designed as a brush seal element.

10. Directional support according to one of the preceding claims, characterized in that the outer raw r (12) is designed as edge profile.