DE202023105236U1 - Extra long wall mounted conversion support - Google Patents

Abstract

A long wall-mounted conversion support comprising an attached climbing frame, the attached climbing frame being erected on a building facade, characterized in that it includes a conversion support and a wall-mounted support, wherein a reserved screw hole is provided in a wall body of the building facade , with which the conversion support is attached to the wall body of the building facade; wherein the wall-mounted support is attached to the conversion support connected to the attached climbing frame via the wall-mounted support; wherein the conversion support includes a main system square steel, an inclined square steel and a horizontal web, the main system square steel, the inclined square steel and the horizontal web being combined to form a truss structure.

Description

Technical area

The present utility model relates to the technical field of construction, in particular to an over-long conversion support attached to the wall.

State of the art

In the construction of buildings, a fixed climbing frame is currently used as a facade protection in the construction of the main structure, in order to improve the assembly efficiency of the facade protection on the standard floor, and since in a gap between an odd and an even floor of the building facade, either a structure line with a width of 600mm or a bay window structure that is 600mm concave, there will be a conflict between the support of the traditional fixed climbing frame and the protruding bay window structure and structure line; In addition, the outer wall is constructed with aluminum formwork, the support must be arranged to avoid the aluminum formwork, and the aluminum formwork K plate is designed separately, and since the fixing points of the scaffolding positions of the fixed climbing frame Mostly located at the bay window concave position, collisions between the climbing frame walkway plate and the aluminum formwork often occur, and it is crucial to avoid the collisions between the climbing frame and the main structure, which directly affects the smooth lifting and safety of the intelligent climbing frame.

1. 1. Die befestigte Stütze kann nicht direkt an der Hauptstruktur befestigt werden, weil eine Strukturlinie mit einer Breite von 600 mm an dem geraden und ungeraden Stockwerk auf der Gebäudefassade vorhanden ist, was zu einem Konflikt zwischen der Strukturlinie und der Befestigungsschiene des befestigten Klettergerüsts führt. Daher ist die Anwendbarkeit der befestigten Stütze gering, und sie ist nur in diesem Fall anwendbar, in dem der Abstand zwischen dem Befestigungspunkt und der Hauptstruktur gering ist, sowie ist an einem krafttragenden Bauteil der Hauptstruktur anwendbar.
2. 2. Bei der Plattenstütze sind Löcher auf der Scherwand in jedem Stockwerk geöffnet, und da das Gebäude mit einer Aluminium-Schalung konstruiert ist, ist die Montageeffizienz der Aluminium-Schalung niedrig und das Risiko von Leckagen an der Außenwand hoch; und die Plattenstütze kann nicht direkt am Erkerfenster befestigt werden, die Eckerfensterbewehrung muss verstärkt werden, und die überhängende Struktur ist zu lang und die Sicherheit ist gering. Bei der Montage der Plattenstütze werden daher im Allgemeinen Löcher im Aufbau hintergelassen, was die Arbeitsfläche der nachfolgenden Bauprozesse beeinflusst.
3. 3. Bei der überhängenden Stütze + der schrägen Zugstange ist das am stärksten krafttragende Bauteil der Stützstruktur die schräge Zugstange, während die vertikale Erkerfensterwand nicht ein strukturelles krafttragendes Bauteil ist, und das obere Ende ist ein freies Ende mit großer Spannweite und daher nicht geeignet, als krafttragendes Hauptbauteil der Stütze zu dienen; nach dem Betonieren des Bodens des Arbeitsstockwerks soll das Klettergerüst angehoben werden, zu diesem Zeitpunkt sind die Erkerfensterplatte und die vertikale Wand des Arbeitsstockwerks noch nicht konstruiert, deswegen weist die schräge Zugstange der dritten Stütze keine Ankerpunkte auf und kann die Kraft nicht tragen, ohne diese Zugstange haben die horizontalen Stahlträger keine Tragfähigkeit, was zu einer Situation führt, in der nur zwei Stützen die Kraft tragen, was nicht den Anforderungen der Spezifikation entspricht; bei der überhängenden Stütze + der schrägen Zugstange werden zwei Löcher in der Position der Aluminium-Schalung reserviert, sodass die Montageeffizienz der Aluminium-Schalung niedrig ist und es leicht ist, die Schalung zu explodieren. Daher hat die Stützform von der überhängenden Stütze + der schrägen Zugstange niedrige Montageeffizienz und viele befestigte Positionierungspunkte, was nicht für Bausituationen mit dem befestigten Klettergerüst und der Aluminium-Schalung geeignet ist.

In the prior art, the fixed climbing frame includes three types, i.e. a plate support, an attached support and an overhanging support + an inclined tie rod, the plate support being attached to a floor plate; the fixed climbing frame is attached to a shear wall with the attachment point abutting the main structure and the support is relatively short; and the overhanging support + oblique tie rod is generally used where there is a certain distance between the attachment point of the support and the main structure, and through the overhanging conversion structure, the main structure is connected to the support of the climbing frame. The details are as follows:

1. 1. The attached support cannot be attached directly to the main structure because there is a structure line with a width of 600mm on the even and odd floors on the building facade, resulting in a conflict between the structure line and the attachment rail of the attached climbing frame. Therefore, the applicability of the fixed support is low, and it is applicable only in this case where the distance between the fixing point and the main structure is small, and is applicable to a load-bearing member of the main structure.
2. 2. The plate support has holes opened on the shear wall at each floor, and because the building is constructed with aluminum formwork, the assembly efficiency of aluminum formwork is low and the risk of leakage on the external wall is high; and the plate support cannot be directly attached to the bay window, the corner window reinforcement needs to be reinforced, and the overhanging structure is too long and the safety is low. Therefore, when assembling the panel support, holes are generally left in the structure, which affects the working surface of the subsequent construction processes.
3. 3. For the overhanging support + oblique tie rod, the most load-bearing member of the support structure is the oblique tie bar, while the vertical bay window wall is not a structural load-bearing member, and the upper end is a large span free end, so it is not suitable as to serve as the main load-bearing component of the support; After concreting the floor of the work floor, the climbing frame should be raised, at this time, the bay window panel and the vertical wall of the work floor have not yet been constructed, therefore, the oblique tie rod of the third support has no anchor points and cannot bear the force without this tie rod the horizontal steel beams have no bearing capacity, resulting in a situation where only two supports bear the force, which does not meet the requirements of the specification; in the overhanging support + oblique tie rod, two holes are reserved in the position of the aluminum formwork, so the assembly efficiency of the aluminum formwork is low and it is easy to explode the formwork. Therefore, the support form of the overhanging column + the oblique tie rod has low assembly efficiency and many fixed positioning points, which is not suitable for construction situations with the fixed climbing frame and aluminum formwork.

Disclosure of the utility model

The object of the present utility model is to provide an extra-long conversion support attached to the wall in order to achieve the above To solve problems comprising a fixed climbing frame, the fixed climbing frame being erected on a building facade, and comprising a conversion support and a wall-mounted support, wherein a reserved screw hole is provided in a wall body of the building facade with which the conversion support is attached wall body of the building facade is attached; wherein the wall-mounted support is attached to the conversion support that is connected to the attached climbing frame via the wall-mounted support. In this utility model, square steels are welded into a truss structure that serves as a conversion support and extends the wall-mounted support, optimizing the conversion support and replacing the overhanging support, simplifying the attachment point while allowing the connection between the support and the main structure.

• Das vorliegende Gebrauchsmuster offenbart eine überlange an der Wand befestigte Umwandlungsstütze, die ein befestigtes Klettergerüst umfasst, wobei das befestigte Klettergerüst an einer Gebäudefassade errichtet ist, und sie umfasst eine Umwandlungsstütze und eine an der Wand befestigte Stütze, wobei ein reserviertes Schraubenloch in einem Wandkörper der Gebäudefassade vorgesehen ist, mit dem die Umwandlungsstütze am Wandkörper der Gebäudefassade angebracht ist; wobei die an der Wand befestigte Stütze an der Umwandlungsstütze angebracht ist, die über die an der Wand befestigte Stütze mit dem befestigten Klettergerüst verbunden ist;
• wobei die Umwandlungsstütze einen Hauptsystem-Vierkantstahl, einen geneigten Vierkantstahl und einen horizontalen Steg umfasst, wobei der Hauptsystem-Vierkantstahl, der geneigte Vierkantstahl und der horizontale Steg kombiniert sind, um eine Fachwerkstruktur zu bilden.

The task is solved by the following technical solutions in the present utility model:

• The present utility model discloses an extra-long wall-mounted conversion support comprising an attached climbing frame, the attached climbing frame being erected on a building facade, and comprising a conversion support and a wall-mounted support, having a reserved screw hole in a wall body of the building facade is provided with which the conversion support is attached to the wall body of the building facade; wherein the wall-mounted support is attached to the conversion support connected to the attached climbing frame via the wall-mounted support;
• wherein the conversion support includes a main system square steel, an inclined square steel and a horizontal web, the main system square steel, the inclined square steel and the horizontal web being combined to form a truss structure.

Further, the building facade includes an overhanging structural line and a bay window concave structure, the overhanging structural line comprising an outer shear wall and a structural line, the structural line being disposed on the outer shear wall, and the structural line protruding from the wall of the outer shear wall in the form of an overhanging structure , and the conversion support is attached to the outer shear wall, and the conversion support has the wall-mounted support attached, and the conversion support and the wall-mounted support connect the attached climbing frame to the outer shear wall.

Further, the bay window concave structure includes a bay window panel and a vertical bay window wall, wherein the conversion support is attached to the vertical bay window wall, and the conversion support has the wall-mounted support attached, and the conversion support and the wall-mounted support have the attached climbing frame connected to the vertical bay window wall.

It further comprises a connecting element, the connecting element connecting one end of the conversion support to the building facade and connecting the other end to the support attached to the wall; and the connecting member includes a screw, a nut and a steel support plate, the steel support plate being provided on the inside of the horizontal web of the conversion support, and the screw and the nut connecting the steel support plate and the building facade to the wall-mounted support.

Further, the main system square steel of the conversion support includes a main system transverse square steel, a main system longitudinal square steel and a main system vertical square steel, wherein the main system transverse square steel, the main system longitudinal square steel and the main system vertical square steel are combined to form a rectangular to form main frame structure of conversion support;
the inclined square steel is included, the inclined square steel supporting the opposite corners of a transverse end surface of the main frame structure;
the horizontal web is included, wherein a plurality of horizontal webs are provided on a longitudinal end surface of the main frame structure and spaced along a direction in which the main system vertical square steel is arranged.

Furthermore, an aluminum formwork is placed on the vertical bay window wall, the aluminum formwork comprising an aluminum formwork K-plate, the conversion support being arranged under the aluminum formwork K-plate, and the conversion support to the aluminum formwork -K plate is arranged offset.

• Das vorliegende Gebrauchsmuster offenbart eine überlange an der Wand befestigte Umwandlungsstütze, die das Installationsproblem der an der Wand befestigten Stütze an der überhängenden Strukturlinie und der Erkerfenster-Konkavstruktur der Gebäudefassade löst und vereinfacht, wodurch die schnelle und effiziente Montage der an der Wand befestigten Stütze erreicht wird, nicht nur die Sicherheit und Stabilität der Umwandlungsstütze, sondern auch die schnelle Montage und Demontage der Stütze gewährleistet wird.

The technical effects of the present utility model are as follows:

• The present utility model discloses an over-long wall mounted conversion support that solves the installation problem of the wall mounted support on the overhanging structure line and the bay window concave structure of the building facade solves and simplifies, achieving the quick and efficient assembly of the wall-mounted support, not only ensuring the safety and stability of the conversion support, but also the quick assembly and dismantling of the support.

Brief description of the drawings

• 1 is a schematic representation of a building facade of the present utility model;
• 2 is a schematic representation of a conversion support of the present utility model;
• 3 is a schematic representation of the conversion support of the present utility model attached to the node of the overhanging structural line;
• 4 is a schematic representation of the conversion support of the present utility model attached to the bay window concave structure;

Reference number list: 1. Fixed climbing frame, 2. Conversion support, 201. Transverse main system square steel, 202. Longitudinal main system square steel, 203. Vertical main system square steel, 204. Inclined square steel, 205. Horizontal web, 3. Wall-mounted support, 4. Reserved screw hole, 5. Overhanging structure line, 501. Outer shear wall, 502. Structure line, 6. Bay window concave structure, 601. Bay window panel, 602. Vertical bay window wall, 7. Bolt, 8. Nut, 9. Steel support plate, 10. Aluminum Formwork K-plate.

Detailed Description of Embodiments

The present utility model is described in more detail below in conjunction with the attached figures.

In order to make the task, the technical solutions and the advantages of the present utility model better understandable, the present utility model is described in more detail below in connection with the attached figures and an exemplary embodiment.

In this embodiment, the data used are preferred solutions, but should not limit the present utility model;

Since in this exemplary embodiment there is either a structure line with a width of 600 mm or a bay window structure that is 600 mm concave in a space between an odd and an even floor of the building facade, it is necessary to adjust the excess length of the support individually design, and moreover, the outer wall is constructed with aluminum formwork, the support must be arranged to avoid the aluminum formwork, and the aluminum formwork K plate is designed separately.

In this exemplary embodiment, the climbing frame is a fixed climbing frame.

Example 1

This embodiment provides an extra-long wall-mounted conversion support comprising an attached climbing frame 1, the attached climbing frame 1 being erected on a building facade, and comprising a conversion support 2 and a wall-mounted support 3, with a reserved screw hole 4 is provided in a wall body of the building facade, with which the conversion support 2 is attached to the wall body of the building facade; wherein the wall-mounted support 3 is attached to the conversion support 2, which is connected to the fixed climbing frame 1 via the wall-mounted support 3;
wherein the conversion support 2 includes a main system square steel, an inclined square steel 204 and a horizontal web 205, wherein the main system square steel, the inclined square steel 204 and the horizontal web 205 are combined to form a truss structure.

In this embodiment, a standard floor of a building is constructed with an aluminum formwork, which has an aluminum formwork reinforcement system with a width of 150 mm, at the same time, on the facade there are a structural line 502, which is convex 600 mm wide, and a bay window, which is 600mm concave, and since the fixing points of the scaffold positions are mostly at the bay window concave position and the position of the outer shear wall 501, there is a conflict between the rail installation of the fixed climbing frame and the overhanging structure line 5025 and the bay window Concave structure 6 of the building facade, which affects the smooth lifting and safety of the climbing frame.

Unlike the traditional climbing frame, the nodes of the scaffolding positions are arranged at the bay window concave position and the position of the outer shear wall 501, through these nodes of the scaffolding positions there is a Conflict in the assembly and use of the traditional climbing frame, and the traditional climbing frame has a problem that many reserved holes are required for assembly, resulting in lower construction efficiency and safety; In this embodiment, square steels are welded into a truss structure, which serves as a conversion support 2 and extends the wall-mounted support 3, with the conversion support 2 replacing the structure of the overhanging support, and only a reserved hole on the building is required for the stable assembly to complete the support 3 attached to the wall.

Furthermore, in this embodiment, the conversion support 2 is a conversion connecting part consisting of the main system square steel, the inclined square steel 204 and the horizontal web 205 to ensure the rigidity and stability of the entire conversion system through which the fixed climbing frame 1 is connected to the building facade is. Preferably, in this embodiment, the wall thickness of the square steel and the length and height of the components are calculated and determined based on the horizontal and vertical dead weight load, the construction site load and the wind load of the climbing frame, and the width of the system of the conversion structure is based on the horizontal distance between the main structure and the support of the climbing frame. The extra-long wall-mounted conversion support 2 is composed of twelve main system square steels, two inclined square steels 204 and six horizontal webs 205, and the square steels are connected to each other by double-sided rectangular welds, the height of the weld corner is not less than 6mm, and the interface position is completely welded.

In this embodiment, the wall-mounted conversion support 2 includes a connecting member, the connecting member connecting one end of the conversion support 2 to the building facade and connecting the other end to the wall-mounted support 3; and the connecting element comprises a screw 7, a nut 8 and a steel support plate 9, the steel support plate 9 being provided on the inside of the horizontal web 205 of the conversion support 2, and via the screw 7 and the nut 8 the steel support plate 9 and the building facade with the Support 3 attached to the wall is connected.

In this embodiment, the main system square bar of the conversion support 2 includes a main system transverse square bar 201, a main system longitudinal square bar 202 and a main system vertical square bar 203, the main system transverse square bar 201, the main system longitudinal square bar 202 and the main vertical system -Square steel 203 are combined to form a rectangular main frame structure of the conversion support 2;
the inclined square steel 204 is included, the inclined square steel 204 supporting the opposite corners of a transverse end surface of the main frame structure;
the horizontal web 205 is included, wherein a plurality of horizontal webs 205 are provided on a longitudinal end surface of the main frame structure and spaced along a direction in which the main system vertical square bar 203 is arranged. As in 1 shown, there is a gap between the horizontal webs 205, the screw 7 being attached in the reserved screw hole 4, the screw 7 running at one end through the gap between the horizontal webs 205, being connected to the steel support plate 9, which is on the inside of the horizontal web 205 and secured with the nut 8 to complete the assembly of the conversion support 2 to the outside wall of a building.

Furthermore, the conversion support 2 is assembled first, the wall-mounted support 3 is then connected to the conversion support 2 via the screw 7, the nut 8 and the steel support plate, which is finally connected to the attached climbing frame 1 via the wall-mounted support 3 becomes.

Example 2

As in 1 until 4 shown, this embodiment provides an extra-long wall-mounted conversion support comprising an attached climbing frame 1, the attached climbing frame 1 being erected on a building facade, and comprising a conversion support 2 and a wall-mounted support 3, wherein a reserved Screw hole 4 is provided in a wall body of the building facade, with which the conversion support 2 is attached to the wall body of the building facade; wherein the wall-mounted support 3 is attached to the conversion support 2, which is connected to the fixed climbing frame 1 via the wall-mounted support 3;
wherein the conversion support 2 includes a main system square steel, an inclined square steel 204 and a horizontal web 205, wherein the main system square steel, the inclined square steel 204 and the horizontal web 205 are combined to form a truss structure.

In this embodiment, the building facade includes an overhanging structural line 5025 and a bay window concave structure 6, the overhanging structural line 5025 comprising an outer shear wall 501 and a structural line 502, the structural line 502 being disposed on the outer shear wall 501, and the structural line 502 from the Wall of the outer shear wall 501 protrudes in the form of an overhanging structure, and the conversion support 2 is attached to the outer shear wall 501, and to the conversion support 2, the wall-mounted support 3 is attached, and over the conversion support 2 and the wall-mounted one Support 3, the attached climbing frame 1 is connected to the outer shear wall 501.

As in 3 shown, in this embodiment, the fixed climbing frame 1 and the outer shear wall 501 are connected by means of the conversion support 2 to avoid a conflict between the rails of the fixed climbing frame 1 and the structural line 502.

In this exemplary embodiment, a climbing frame lifting control is included, the climbing frame lifting control comprising a climbing frame electronic control, and after concreting, the climbing frame electronic control supplies the electric hoist with power, and the climbing frame is completed by a suspension point raised and moved, then the bottom support is removed, moved to the top support system and secured to the structure, ensuring that in a scaffolding position there are three wall-mounted supports 3 in a row.

Example 3

As in 1 until 4 shown, this embodiment provides an extra-long wall-mounted conversion support comprising an attached climbing frame 1, the attached climbing frame 1 being erected on a building facade, and comprising a conversion support 2 and a wall-mounted support 3, wherein a reserved Screw hole 4 is provided in a wall body of the building facade, with which the conversion support 2 is attached to the wall body of the building facade; wherein the wall-mounted support 3 is attached to the conversion support 2, which is connected to the fixed climbing frame 1 via the wall-mounted support 3;
wherein the conversion support 2 includes a main system square steel, an inclined square steel 204 and a horizontal web 205, wherein the main system square steel, the inclined square steel 204 and the horizontal web 205 are combined to form a truss structure.

In this embodiment, the building facade includes an overhanging structural line 5025 and a bay window concave structure 6, the bay window concave structure 6 including a bay window panel 601 and a vertical bay window wall 602, the conversion support 2 attached to the vertical bay window wall 602, and to the conversion support 2 the wall-mounted support 3 is attached, and the attached climbing frame 1 is connected to the vertical bay window wall 602 via the conversion support 2 and the wall-mounted support 3.

In this exemplary embodiment, as in 4 shown, the fixed climbing frame 1 and the vertical bay window wall 602 are connected by means of the conversion support 2 to avoid a conflict between the rails of the fixed climbing frame 1 and the bay window panel 601.

In this exemplary embodiment, the building is constructed with aluminum formwork, with aluminum formwork placed on the vertical bay window wall 602, the aluminum formwork comprising an aluminum formwork K-plate 10, with the conversion support 2 under the aluminum formwork. Formwork K-plate 10 is arranged, and the conversion support 2 is arranged offset from the aluminum formwork K-plate 10.

In this embodiment, the aluminum formwork K-plate 10 is at an intersection position of the upper and lower aluminum formwork, and it is not removed after concreting, but serves as a load-bearing component for the construction of the entire aluminum formwork, and around the To ensure the integrity and safety of the assembly of the aluminum formwork K-plate 10, the aluminum formwork K-plate 10 must not be subjected to other external forces, so the installation positions of the wall-mounted support 3 and the aluminum formwork must be maintained -K plate 10 must be offset.

The support used in the prior art requires many holes, which interfere with the normal assembly of the aluminum formwork K-plate 10; in this application, only a single reserved screw hole 4 is required to complete the assembly of the conversion support 2 and the wall-mounted support 3. On the one hand, by reducing the number of holes in the wall body of the building, structural safety and stability is ensured, and on the other hand, the conversion support 2 is connected by a single reserved screw hole 4, which makes the support small in cross-section and does not affect the assembly of the aluminum -Formwork K-plate 10 has.

The above descriptions merely represent preferred embodiments of the present utility model and are not intended to limit the present utility model. Any modification, equivalent substitution, improvement, etc. made within the spirit and principles of this utility model falls within the scope of protection of this utility model.

Claims (6)

A long wall-mounted conversion support comprising an attached climbing frame, the attached climbing frame being erected on a building facade, characterized in that it includes a conversion support and a wall-mounted support, wherein a reserved screw hole is provided in a wall body of the building facade , with which the conversion support is attached to the wall body of the building facade; wherein the wall-mounted support is attached to the conversion support connected to the attached climbing frame via the wall-mounted support; wherein the conversion support includes a main system square steel, an inclined square steel and a horizontal web, the main system square steel, the inclined square steel and the horizontal web being combined to form a truss structure. Extra long conversion support attached to the wall Claim 1 , characterized in that the building facade includes an overhanging structural line and a bay window concave structure, the overhanging structural line comprising an outer shear wall and a structural line, the structural line being disposed on the outer shear wall, and the structural line formed from the wall of the outer shear wall an overhanging structure, and the conversion support is attached to the outer shear wall, and the conversion support has the wall-mounted support attached, and the conversion support and the wall-mounted support connect the attached climbing frame to the outer shear wall. Extra long conversion support attached to the wall Claim 2 , characterized in that the bay window concave structure includes a bay window panel and a vertical bay window wall, the conversion support being attached to the vertical bay window wall, and the conversion support having the wall-mounted support attached, and via the conversion support and the wall-mounted support Support the attached climbing frame connected to the vertical bay window wall. Extra long conversion support attached to the wall Claim 2 or 3 , characterized in that it comprises a connecting element, the connecting element connecting one end of the conversion column to the building facade and connecting the other end to the wall-mounted column; wherein the connecting element comprises a screw, a nut and a steel support plate, the steel support plate being provided on the inside of the horizontal web of the conversion support, and the steel support plate and the building facade are connected to the wall-mounted support via the screw and the nut. Extra long conversion support attached to the wall Claim 4 , characterized in that the main system square steel of the conversion support comprises a transverse main system square steel, a longitudinal main system square steel and a vertical main system square steel, the transverse main system square steel, the longitudinal main system square steel and the vertical main system square steel being combined , to form a rectangular main frame structure of the conversion support; the inclined square steel is included, the inclined square steel supporting the opposite corners of a transverse end surface of the main frame structure; the horizontal web is comprised, wherein a plurality of horizontal webs are provided on a longitudinal end surface of the main frame structure and spaced along a direction in which the main system vertical square steel is arranged. Extra long conversion support attached to the wall Claim 3 , characterized in that an aluminum formwork is placed on the vertical bay window wall, the aluminum formwork comprising an aluminum formwork K-plate, the conversion support being arranged under the aluminum formwork K-plate, and the conversion support the aluminum formwork K-plate is arranged offset.

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