EP1899550A1 - Rail-guided climbing system - Google Patents

Abstract

The invention relates to a rail-guided climbing system comprising climbing brackets (36, 38, 40), in which climbing rails (32, 34) are guided, rigidly fixed to a scaffold unit (12). Each climbing bracket (32, 34) comprises a joint (52) arranged between a first climbing bracket (40) and a second (38). The free end of the climbing rail (32, 34) may be introduced into a climbing bracket (36, 40) fixed on the construction (16) and the angular position of adjacent climbing rail sections (48, 50) adjusted around the joint (52) by means of an adjuster device (58, 68).

Description

 Rail-guided climbing

The invention is based on a rail-guided climbing system with climbing rails guided in climbing shoes, which are integrated into a scaffolding unit, wherein the rail-guided climbing system can be used as climbing formwork.

Such climbing formwork has become known through the climbing formwork GCS Doka Schalungstechnik GmbH.

The well-known climbing formwork GCS can be used on the building as a guided crane climbing system. In a conversion process of climbing formwork on the building with a crane, the formwork and the scaffolding remain on the building. The entire unit, consisting of a formwork, a scaffold and climbing rails, is implemented. The climbing rails are heavy

PERl GmbH 29.06.2005 P8697 integrated pawls that lock in suspension shoes, the hangers are fixed to the building fixed. The known climbing rails are designed as rigid, one-piece climbing rails.

The object of the invention is to provide a rail-guided climbing system that is simpler and more versatile and can also be used as a self-climbing system.

The object is achieved in that each climbing rail has a joint which is provided between a first and a second climbing shoe or in the region of a third climbing shoe, that the free end of the climbing rail is inserted into a fixedly arranged on the building climbing shoe, and that about the joint by means of an adjustment to the joint adjacent climbing rail sections are mutually variable in their angular position.

The rail-guided climbing system according to the invention therefore has the significant advantage that, due to the joint formed on the respective climbing rail, transfer operations on the building to be constructed can be made easier from concrete section to concreting section. Once a concreting section has been completed, climbing shoes are fastened to the anchor points formed there. The rail-guided climbing system is then implemented by lifting it either by crane or by self-climbing lifting cylinder (climbing cylinder). The free ends of the climbing rails are navigated via an adjusting device in such a way that they can slide into the provided climbing shoes. With the provided on each climbing rail joint all occurring inaccuracies in the building can be compensated. The joint gives each climbing rail increased mobility, so that over a variable angular position of the adjoining climbing rail sections dimensional changes resulting from the dead weight of the system, a changing wind load or in the permissible

PERI GmbH 29.06.2005 P8697 tolerances manufactured construction sections, etc., can be compensated. That is to say, a planned conversion process from a finished concreting section to a concreting section to be created can be carried out without adaptation work. This increases the ease of use of the system according to the invention. It can adapt to unforeseen structural changes without additional work. The static stability of the rail-guided climbing system according to the invention by a truss structure, ie, the necessary overall rigidity of the system is achieved via the integration of the climbing rails in the scaffolding unit.

With the rail-guided climbing system according to the invention, it is also possible to create concreting sections which taper or widen in relation to the previously created concreting section. For example, with increasing height, it is possible to create conically tapering or conically widening structures without the need to carry out remodeling work on the rail-guided riveting system according to the invention. The mobility of the system according to the invention is limited only by the size of the angular deflection of the joint. Preferably, the first climbing rail section can be pivoted by up to 5 ° relative to the second climbing rail section via the joint, and this can lead both towards a building and from a building.

The rail-guided climbing system preferably forms a unit of two climbing rails, which run parallel to each other and which are integrated into a scaffold unit. If required, several units of rail-mounted climbing systems of this type can be mounted side by side on a building. These units can be raised or lowered independently of each other (by crane or by climbing cylinder)

PERl GmbH 29.06.2005 P8697 In a preferred embodiment, support bolts are provided along a climbing rail transversely to its longitudinal extension, which rest on a pivotally mounted pawl of the climbing shoe.

This has the advantage that the climbing rails can be built very simple and no latch systems must be attached to the climbing rails. In one embodiment, two U-profiles are spaced apart from each other via support bolts connected to each other, wherein the legs of the U-shape are directed outward. In the space between the spaced U-profiles and the circumference of the U-profiles, the scaffold unit and any struts can be fixed without effort, so that a torsionally rigid overall unit can be created with the simplest means.

In a further embodiment of the invention, the adjusting device is designed as a spindle, which is supported on the one hand in the region of the second climbing rail section and on the other hand in the region of the first climbing rail section.

This has the advantage that over a length shortening or an extension of the spindle, the first climbing rail section can be deflected as required relative to the second climbing rail section. The deflection takes place only to an extent such that the free end of the climbing rails can enter without disruption in the proposed climbing shoes in a conversion process, for example upwards. If adjoining tapered or widening concreting sections are created on created concrete sections, another diagonal brace provided in the scaffolding unit can also be formed as a spindle with which the increased degree of deflection of the joint is adjusted.

The pawls of the climbing shoes have a ramp, which are pivoted in a relative movement of the climbing rail to the pawls in contact with the support pin out of engagement with the support bolts, and in the

PERI GmbH 29.06.2005 P8697 non-contact position to the support pin pivot the pawls back to their original position automatically. This has the advantage that when a Umsetzvorgang up the latches do not block the move, but release him without additional work on the system. If a Umsetzvorgang done down, so the pawls can be unlocked by hand and a subsequent locking takes place again automatically or by hand.

In a further preferred embodiment of the invention, the climbing shoe is composed of a wall or ceiling connection part and a sliding shoe part, wherein the sliding shoe part is in engagement with the climbing rail or can be brought into engagement with the climbing rail. This has the advantage that the wall or ceiling connection part can always be adapted to existing anchor systems and can also be constructed in such a way that it can be fastened to anchor points known per se. If a building constructed in skeleton construction, so a ceiling connector can be mounted on a created ceiling, and this ceiling connector is connected to the Gleitschuhteil such that the Gleitschuhteil can accommodate the climbing rail or is engaged with the respective climbing rail.

If the sliding shoe part is arranged articulated on the wall or ceiling connection part, then the mobility of the overall system increases further and the individual components can be more easily matched to one another.

The wall or ceiling connection part is preferably pivotable in the state to be fastened or in the mounted state on the structure about a vertically oriented axis. This also makes it possible to compensate for inaccuracies in the structure and facilitates the attachment of the rail-guided climbing system to the building.

PERI GmbH 29.06.2005 P8697 On the sliding shoe part claws are preferably provided which engage around the climbing rail, wherein the claws are engageable out of engagement with the climbing rail, in particular by a pivoting and / or Teleskopierbewegung. On the one hand, it is ensured by means of the claws that the climbing rails are rather kept guided on the building, and within the claws the climbing rails can be moved upwards or downwards. About a pan or Telekopiervorgang the Gleitschuhteile can be easily removed from the climbing rail. Even if the climbing rail is still in engagement with the climbing shoes. Climbing shoes can be removed from the building even when they are no longer needed, even if the climbing rail has not yet been moved out of the climbing shoes.

If a climbing cylinder is provided on the second or third climbing shoe, then the climbing rail can be moved relative to the climbing shoes. A crane lift is no longer necessary. The climbing cylinders are provided on both climbing rails and the lifting movement of the climbing cylinder is synchronized. Climbing cylinders are a self-climbing rail-guided climbing system and a crane is no longer needed to move the system. About the adjusting a trouble-free climbing movement is ensured because the adjustment of the free ends of the climbing rail are navigated so that they run smoothly in a climbing process in adjacent climbing shoes. In the climbing shoes, the support bolts of the climbing rails move the pawls of the climbing shoes so that a trouble-free lifting can take place. After passing through a support bolt through the respective climbing shoe, the pawl pivots back into a locked position, so that the climbing rails can not be moved down. The climbing cylinder is supported on a climbing shoe and is detachably attached to this climbing shoe. If a conversion process is completed, then the climbing cylinder can be removed from the climbing shoe and placed again on a climbing shoe raised in relation to this climbing shoe.

PERl GmbH 29.06.2005 P8697 be set so that if necessary, the next following conversion process can be initiated.

At the free end of the climbing cylinder, a pivotable pawl is provided, which can be brought into engagement with the supporting bolt. The climbing cylinder has a preferably hydraulically movable piston whose stroke is matched to the distances of the support bolts in the climbing rails. The piston of the climbing cylinder can be moved in and out of the climbing cylinder. If the piston is retracted into the climbing cylinder, so the pawl pivots out of engagement of the support bolts on a ramp and behind automatically engages the next support pin on which the pivoting pawl abuts. With such a construction, a self-climbing lifting or self-climbing lowering of the rail-guided climbing system can be accomplished very easily. The support bolts are provided at desired intervals over the entire length of the climbing rails. The climbing rails themselves preferably have a length that is greater than the height of two concreting sections.

In the following figures, the rail-guided climbing system according to the invention is described in one of several possible embodiments. It shows:

1 shows an overall view of the rail-guided climbing system according to the invention in a three-dimensional representation;

Fig. 2 is a side view of a rail-guided according to the invention

Climbing system;

3 shows a detail of the climbing system according to the invention according to III from FIG. 1 with a cut-open climbing rail, FIG.

PERI GmbH 29.06.2005 P8697 so that the bracket of the climbing rail can be shown on the climbing shoes on the support bolts;

4 to 6 different deflections of a joint according to the invention on climbing rail sections;

7 shows a side view of an expanding structure with a rail-guided climbing system according to the invention; and

Fig. 8 is a side view of a tapered structure with a rail-guided climbing system according to the invention.

1 shows by reference numeral 10 the rail-guided climbing system according to the invention in a three-dimensional representation with a scaffold unit 12 which carries an outer formwork 14. The rail-guided climbing system 10 is attached to the structure 16, as far as this is already established. From the building 16, a first concreting section 18, a second concreting section 20 and a third concreting section 22 are created and further concreting sections are to be created on the building 16 with the rail-guided climbing system 10 according to the invention.

Ceiling sections 24, 26, 28 are also indicated by the concreting sections 18 to 22 already created, and a per se known inner formwork 30 is constructed on the ceiling section 28, which is supported by the ceiling section 28.

In the scaffolding unit 12, a first climbing rail 32 and a second climbing rail 34 is integrated. The framework of the scaffold unit 12 is with the

Climbing rails 32, 34 connected so that the rail-guided climbing system 10 is formed statically stable. The climbing rails 32, 34 are in

PERl GmbH 29.06.2005 P8697 Climbing shoes 36, 38, 40 out and at least in a climbing shoe pair, for example, the climbing shoes 38, held immovably down. The climbing shoes 36, 38, 40 are also provided on the second climbing rail 34. In the figure, these climbing shoes are covered by other components of the rail-guided climbing system 10.

The scaffolding unit 12 has a first stage 42, a second stage 44 and a third stage 46. On the first stage 42 there moved outboard formwork 14 is placed and about this first stage 42 can be easily and securely attach climbing shoes provided at anchor points provided when the outer formwork 14 is moved away from a created and hardened concreting section. The second climbing shoe 38 or the second pair of climbing shoes 38 is easily accessible to the operating personnel via the second stage 44 and the respective third climbing shoe 36 can be mounted or dismounted via the third platform 46.

The climbing rails 32, 34 are formed from a respective first climbing rail section 48 and a second climbing rail section 50. The climbing rail sections 48, 50 are connected to one another via a joint 52. The first climbing rail section 48 can be deflected relative to the second climbing rail section 50 or vice versa. The climbing rail sections 48, 50 are held securely guided by claws 54, 56 of the climbing shoes 36 to 40 by the claws 54, 56 engage around a U-shaped profile on one side of the U-shaped legs on both sides. The claws 54, 56 are formed on all climbing shoes 36 to 40 and preferably all climbing shoes are structurally identical, so that they are arbitrarily interchangeable.

The rail-guided climbing system 10 can be moved along the climbing shoes 36 to 40 on the building 16 safely. The climbing shoes 36 to 40 have holding means which can hold the climbing rails 32 and 34 in the desired position on the building 16. From the

PERI GmbH 29.06.2005 P8697 NEN guided climbing system 10, only one unit is shown in FIG. If the concreting sections 18 to 22 are wider, then any number of rail-guided climbing systems 10 can be mounted next to one another on the structure 16, which can be implemented independently of one another, ie, can be shifted.

FIG. 2 shows the rail-guided climbing system 10 according to the invention in a side view with the concreting sections 18 to 22 already created. A further concreting section is to be created following the third concreting section 22. For this purpose, the outer formwork 14 and the inner formwork 30 are arranged on the third concreting section 22 in such a way that an outer wall corresponding to the concreting sections 18 to 22 can be concreted. The outer formwork 14 is arranged movably on the first stage 42. The climbing rail sections 48 and 50 are securely guided and held in the climbing shoes 36 to 40. In the region of the second climbing shoe 38, a spindle 58 is provided which serves as an adjusting device for the joint 52. In direction of arrows 60, 61, the spindle 58 can be extended or shortened, so that via the spindle 58, the first climbing rail section 48 can be aligned relative to the second climbing rail section 50 such that it can be moved smoothly into the first climbing shoe 40. In the figure, the first climbing rail section 48 is already shown inserted into the first climbing shoe 40. On the second climbing shoe 38, which like the other climbing shoes 36 and 40 is fixedly connected via a provided on the corresponding concreting sections 18 to 22 anchor point with the structure 16, a climbing cylinder 62 is fixed, which is shown in the Fig. In the retracted state. The climbing cylinder 62 is supported on the one hand on the second climbing shoe 38 and the piston is extended out of the climbing cylinder 62, the rail-guided climbing system 10 in the direction of arrow 64 relative to the climbing shoes 36 to 40 can be moved. Likewise, the rail-guided climbing system 10 according to the invention can be moved over the climbing cycle.

PERI GmbH 29.06.2005 P8697 Linder 62 are lowered when needed in the direction of arrow 66 relative to the climbing shoes 36 to 40.

In the position shown in FIG. 2, the third climbing shoe 36 can already be removed during the creation of a new concreting section following the third concreting section 22. The rail-guided climbing system 10 is exclusively guided and held by the second climbing shoe 38 and the first climbing shoe 40. If the fourth concreting section created and cured, the outer formwork 14 can be moved back on the first stage 42 and the third climbing shoe 36 and the third climbing shoes 36 can be attached to the newly created concreting section at the anchor points provided there. Subsequently, the piston of the climbing cylinder 62 is extended and the climbing rail 32 moves with the scaffolding unit and the outer formwork 14 in the direction of arrow 64. The rail-guided climbing system 10 shown in FIG. 2 is self-climbing configured via the climbing cylinder 62, so that a crane for the conversion process a next concreting section to be created is not necessary. The hinge 62 is aligned via the spindle 58 so that the first climbing rail section 48 moves smoothly into the over the free end of the first climbing rail section 48 climbing shoe. At the same time as the first climbing rail 32, the second climbing rail 34, which is connected rigidly to the first climbing rail 32 via the scaffold unit, moves. The second climbing rail 34 is also raised by a climbing cylinder 62. The lifting movements of the climbing cylinders 62 on the climbing rails 32 and 34 are coordinated with each other.

FIG. 3 shows a partial section from III of FIG. 1 and shows both the second climbing rail section 50 and the climbing rail section 48 cut open so that the mounting points of the climbing shoe 38 and the climbing cylinder 62 can be shown on the first climbing rail section 48 and on the second climbing rail section 50 , Also indicated in the figure is a diagonal strut 68, over which the rail-guided climbing

PERI GmbH 29.06.2005 P8697 stiffened system. The joint 52 has a pivot point 70 about which the first climbing rail section 48 and the second climbing rail section 50 can be pivoted in an angular extent. In the figure, an angle of approximately 5 ° is shown.

The climbing rail sections 48, 50 are formed from U-shaped profiles, which are spaced from each other via support bolts 72 are fastened together. In the free space of the climbing rail sections protrudes a pivotally mounted pawl 74 of the climbing shoe 38 and engages under a support pin 72. The pawl 74 is formed so that it holds the rail-guided climbing system together with a corresponding latch of another climbing shoe for the second climbing rail. At the free end of the climbing cylinder 62, a pivotally mounted pawl 76 is formed, which can also engage under the support pin 72. In the figure, the climbing cylinder 62 is shown in the extended state. As soon as the pawl 74, which holds the second climbing rail section 50, engages under the support bolt 72, the piston of the climbing cylinder 62 can be retracted. In a lower position, the pivotable pawl 76 engages behind a support pin 72 again and the piston of the climbing cylinder 62 can be extended again, so that the climbing rail sections 48, 50 move relative to the climbing shoe 38 upwards. In this climbing process, a coming from below support pin 72 presses on a casserole seh rage 78 of the pawl 74 and pivots it from the illustrated locked position such that a passing carrying bolt 72, the pawl 74 can happen. If the carrying bolt 72 no longer touches the pawl 74, then it automatically pivots back into the position shown and prevents a movement of the climbing rail sections 48, 50 downwards.

The climbing shoe 38 is formed in two parts as a wall or ceiling connection part 80 and with a Gleitschuhteil 82. The wall or ceiling connection part 80 is fixedly secured via an anchor point on the second concreting section 20 and on the wall or ceiling connection part 80 is the

PERI GmbH 29.06.2005 P8697 Sliding shoe 82, pivotally mounted about a horizontal axis, hinged. The wall or ceiling connection part 80 is pivotable about a vertically aligned axis in the mounted state on the second concreting section 20 if necessary. The climbing cylinder 62 is detachably mounted on the second climbing shoe 38.

If the piston shown in FIG. 3 of the climbing cylinder 62 is retracted, the pawl 76 pivots as soon as it comes into contact with a support bolt 72 via a casserole rage 84, out of the engagement region of a support pin 72 and a support pin 72 is no longer in Contact with the pivotally mounted pawl 76, the pawl 76 pivots back spring loaded in the position shown in FIG. 3 and can again engage under the support pin 72 when extending the piston.

The sliding shoe 82 is formed divisible so that it can be removed from both the wall or ceiling connector 80 as well as the second climbing rail 50 and this even if the second climbing rail section 50 is still encompassed by the claws of the climbing shoe 38.

The Fign. 4 to 6 show various positions of the joint 52. For this purpose, sections of the first and second climbing rail sections 48, 50 are shown. In Fig. 4, the climbing rail sections 48, 50 are aligned. In FIG. 5, the first climbing rail section 48 is shown inclined inwards relative to the second climbing rail section 50, and in FIG. 6 the first climbing rail section 48 is inclined outwards relative to the second climbing rail section 50. About the joint 52, the first climbing rail 48 can be inclined relative to the second climbing rail section 50 by about 5 ° inwards or by about 5 ° to the outside.

PERI GmbH 29.06.2005 P8697 Fig. 7 shows the rail-guided climbing system according to the invention with ready-made concreting sections 18 and 20, wherein adjoining the concreting section 20 is an outwardly expanding third concreting section 86. The structure shown in FIG. 7 widens outwards at an angle 88 of approximately 5 °, ie, there is an inclination of the third concreting section 86 relative to the second concreting section 20 to the outside. The new concreting section to be created should also be inclined outwards, so that the diagonal strut 68 is designed as a spindle. The inclination of the joint 52 is adjusted via the adjustable diagonal strut, in this case a spindle 68. For the tilt adjustment and the spindle 58 is necessary, whose length is also to adjust to the desired inclination. The settings of the spindles 58, 68 carried by the second stage 44. The outer formwork 14 can be moved over the first stage 42 in a desired position and on the third stage 46, the third climbing shoe 36 can be dismantled. Via the climbing cylinder 62, the climbing rail with the climbing rail sections 48, 50 has been moved into the position shown in the figure and the climbing shoes 36, 38, 40 guide and hold the climbing rail sections 48, 50 at the concreting sections 18, 20, 86.

8 shows concreting sections 18, 20, to which a tapered concreting section 90 adjoins. The inclination of the third concreting section 90 with respect to the second concreting section 20 is approximately 5 °, so that an angle 92 of 85 ° is established. About the spindles 58, 68, the joint 52 was deflected accordingly.

A rail-guided climbing system has climbing shoes 36, 38, 40, in which climbing rails 32, 34 are guided, which are firmly connected to a scaffold unit 12. Each climbing rail 32, 34 has a hinge 52 which is disposed between a first 40 and a second 38 climbing shoe. The free end of the climbing rail 32, 34 can be inserted into a climbing shoe 36, 40 which is fixedly arranged on the building 16 and can be pushed over the floor.

PERI GmbH 29.06.2005 P8697 The angle position of adjoining climbing rail sections 48, 50 is adjusted by means of an adjusting device 58, 68.

PERI GmbH 29.06.2005 P8697

Claims

claims

1. Rail-guided climbing system (10) guided in climbing shoes (36, 38, 40) climbing rails (32, 34) which are integrated in a scaffolding unit (12), wherein the rail-guided climbing system (10) can be used as climbing formwork, characterized in that each climbing rail (32, 34) has a joint (52) which is arranged between a first (40) and a second (38)

Climbing shoe or in the region of a third climbing shoe (36) is provided, that the free end of the climbing rail (32, 34) in a stationary on the building (16) arranged climbing shoe (36, 40) can be inserted, and that via the joint (52) by means of an adjusting device (58) adjacent to the joint (52) climbing rail sections (48,

50) are mutually variable in their angular position.

2. Rail-guided climbing system according to claim 1, characterized in that along a climbing rail (32, 34) transversely to its longitudinal extent supporting bolts (72) are provided which rest on a pivotally mounted pawl (74) of the climbing shoe (38).

3. Rail-guided climbing system according to claim 1 or 2, characterized in that the adjusting device is designed as a spindle (58) which is supported on the one hand in the region of the second climbing rail section (50) and on the other hand in the region of the first climbing rail section (48).

4. Rail-guided climbing system according to claim 2 or 3, characterized in that the pawls (74) of the climbing shoes (36, 38, 40) have a run-on slope (78), which in a relative movement

PERI GmbH 29.06.2005 P8697 Move the climbing rail (32, 34) to the pawls (74) in abutment against the support pin (72) out of engagement with the support pin (72) are pivoted and that the pawls (72) in the non-contact position to the support pin (72) in swing back to its starting position automatically.

5. rail guided climbing system according to one of claims 1 to 5, characterized in that the climbing shoe (36, 38, 40) of a wall or ceiling connection part (80) and a Gleitschuhteil (82) is composed, wherein the Gleitschuhteil (82) the climbing rail (32, 34) is engaged or can be brought into engagement with the climbing rail (32, 34).

6. Rail-guided climbing system according to claim 5, characterized in that the sliding shoe part (82) on the wall or

Ceiling connection part (80) is arranged articulated.

7. Rail-guided climbing system according to claim 5 or 6, characterized in that the wall or ceiling connection part (80) in the state to be fastened or in the fastened state is pivotable about a vertically oriented axis.

8. Rail-guided climbing system according to one of claims 5 to 7, characterized in that the sliding shoe part (82) claws (54) are provided, which surround the climbing rail (32, 34) and that the

Claws (54) out of engagement with the climbing rail (32, 34) can be brought, in particular by a pivoting and / or Teleskopierbewegung.

9. Rail-guided climbing system according to one of claims 1 to 8, characterized in that the second or third climbing shoe

(38, 36) a climbing cylinder (62) is provided, over which the climbing

PERI GmbH 29.06.2005 P8697 rail (32, 34) relative to the climbing shoes (36, 38, 40) is displaceable.

10. rail guided climbing system according to claim 9, characterized in that at the free end of the climbing cylinder (62) has a pivotable pawl (76) is provided, which is engageable with the support pin (72).

11. Rail-guided climbing system according to claim 10, characterized in that the pawl (76) of the climbing cylinder (62) has a ramp (84).

PERI GmbH 29.06.2005 P8697