CN220055942U - Elevator wall-attached connection structure for adduction type building - Google Patents

Abstract

The utility model discloses an elevator wall-attached connection structure for an adduction type building, which belongs to the technical field of construction elevator wall-attached connection and comprises a lower floor slab, an upper beam, an elevator standard section, a lattice strut, a wall-attached beam, an inclined strut and a connecting rod component; the upper layer Liang Nashou is arranged above the lower floor slab; the lattice support columns are vertically arranged on the lower floor slab; the wall-attached cross beam is arranged on the lattice stay column; two ends of the diagonal brace are respectively connected with the upper beam and the wall-attached cross beam; one end of the connecting rod assembly is connected with the wall-attached beam, and the other end of the connecting rod assembly is connected with the elevator standard section. The utility model utilizes the structural characteristics of the adduction building, forms a stable triangular pyramid structure by the diagonal bracing, the wall-attached cross beam and the lattice strut together, and can enhance the stability of connection under the condition of meeting the connection length; the lattice stay is composed of the upright posts and the connecting plates, the form of the lattice stay can well improve the structural bearing capacity, and a stable foundation is provided for the wall-attached cross beam.

Description

Elevator wall-attached connection structure for adduction type building

Technical Field

The utility model belongs to the technical field of construction elevator wall-attached connection, and particularly relates to an elevator wall-attached connection structure for an adduction building.

Background

The construction elevator is a man-carrying and cargo-carrying construction machine which is frequently used in a building, and is mainly used for the construction of buildings such as inner and outer decoration of high-rise buildings, bridges, chimneys and the like. In order to reduce the later-stage edging and necking workload, construction elevators are usually arranged at the periphery of a building. The existing public building has more and more complex functions, and in order to meet the requirements of large space and the like in building use, complex structural forms such as large span, large overhanging, jump columns, adduction and the like are frequently generated on the structure.

The outer vertical surface of the adduction building is not in one plumb face, the distance between the elevator standard section and the building is different, the standard wall attaching frame is difficult to adapt to different distances and cannot be connected with the building, and therefore, the construction elevator is difficult to install at the periphery of the adduction building. Part of construction sites can be welded with the repair poles on the standard wall attaching frame and are connected with the building through the repair poles, but the construction mode is not standard, and the connection strength cannot be guaranteed.

Disclosure of Invention

The utility model aims to provide an elevator wall-attached connection structure for an adduction building, which solves the problems that in the adduction building in the background technology, a standard wall-attached frame cannot be installed and the connection strength cannot be ensured.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

an elevator wall-attached connection structure for an adduction type building comprises a lower floor slab, an upper beam, an elevator standard section, a lattice strut, a wall-attached beam, an inclined strut and a connecting rod assembly; the upper layer Liang Nashou is arranged above the lower floor slab; the lattice support columns are vertically arranged on the lower floor slab; the wall-attached cross beam is arranged on the lattice stay column; two ends of the diagonal brace are respectively connected with the upper beam and the wall-attached cross beam; one end of the connecting rod assembly is connected with the wall-attached beam, and the other end of the connecting rod assembly is connected with the elevator standard section.

Further, the lattice stay comprises an upright post and a connecting plate; the two upright posts are arranged at intervals; the connecting plates are arranged at intervals from top to bottom, and two ends of the connecting plates are respectively connected with the two upright posts.

Further, the lower floor slab is provided with a buried plate corresponding to the upright post, and the upright post is welded with the buried plate.

Further, the wall-attached cross beam is arranged at the top of the lattice stay.

Further, two inclined struts are symmetrically arranged, and an included angle between the two inclined struts is 120 degrees.

Further, the connecting rod assembly comprises a right connecting rod, a rectangular frame, a trapezoid frame and a left connecting rod which are sequentially connected; the right connecting rods are symmetrically arranged, and the right ends of the right connecting rods are fixedly connected with the elevator standard knot; reinforcing diagonal rods are arranged in the rectangular frame and the trapezoid frame; the left connecting rods are symmetrically arranged, and the left ends of the left connecting rods are fixedly connected with the wall-attached cross beams.

Further, the wall-attached cross beam and the upright post are both 25a I-steel; the connecting plate is a steel plate; the inclined strut is a square steel tube.

The utility model has the following beneficial effects:

1. according to the elevator wall-attached connection structure for the adduction building, provided by the utility model, by utilizing the structural characteristics of the adduction building, a stable triangular pyramid structure is formed by the inclined strut, the wall-attached cross beam and the lattice strut together, and the stability of connection can be enhanced under the condition of meeting the connection length.

2. The utility model provides an elevator wall-attached connection structure for an adduction type building, wherein a lattice strut consists of upright posts and connecting plates, and the form of the lattice strut can well improve the structural bearing capacity and provide a stable foundation for a wall-attached beam.

3. The elevator wall-attached connection structure for the adduction type building is simple in structure, convenient to manufacture, capable of recycling each component and good in economic benefit.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the wall-attached connection structure according to the present utility model;

fig. 2 is a plan view of the wall-attached connection structure according to the present utility model.

In the figure: 1-lower floor slab, 2-upper beam, 3-elevator standard section, 4-lattice strut, 5-wall-attached beam, 6-diagonal brace and 7-connecting rod assembly.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 and 2, the elevator wall-attached connection structure for an adduction type building provided by the utility model comprises a lower floor slab 1, an upper beam 2, an elevator standard section 3, a lattice strut 4, a wall-attached cross beam 5, a diagonal brace 6 and a connecting rod assembly 7; the upper beam 2 is arranged above the lower floor slab 1 in an adduction way; the lattice stay 4 is vertically arranged on the lower floor slab 1; the wall-attached cross beam 5 is arranged on the lattice stay 4; two ends of the diagonal brace 6 are respectively connected with the upper beam 2 and the wall-attached cross beam 5; one end of the connecting rod assembly 7 is connected with the wall-attached beam 5, and the other end is connected with the elevator standard section 3.

The lattice stay 4 comprises two upright posts and a connecting plate, wherein the two upright posts are arranged at intervals, and two ends of the connecting plate are respectively connected with the two upright posts. The lower floor slab 1 is provided with a buried plate corresponding to the upright post, and the upright post is welded and connected with the buried plate, so that the upright post is fixed. Preferably, the upright posts are 25a I-shaped steel, the connecting plates are steel plates, and a plurality of connecting plates are arranged at intervals from top to bottom.

The wall-attached cross beam 5 is arranged on the top of the lattice stay 4, and preferably, the wall-attached cross beam 5 is 25a I-steel.

Two inclined struts 6 are symmetrically arranged, and preferably, the inclined struts 6 are square steel pipes. The diagonal brace 6 is respectively welded and connected with the upper beam 2 and the wall-attached cross beam 5. The included angle between the two diagonal braces 6 is 120 degrees. By utilizing the structural characteristics of the adduction building, a stable triangular pyramid structure is formed by the diagonal brace 6, the wall-attached cross beam 5 and the lattice strut 4 together, so that the stability of connection is enhanced.

The connecting rod assembly 7 comprises a right connecting rod, a rectangular frame, a trapezoid frame and a left connecting rod which are sequentially connected, wherein two right connecting rods are symmetrically arranged, and the right end of each right connecting rod is fixedly connected with the elevator standard section 3; reinforcing diagonal rods are arranged in the rectangular frame and the trapezoid frame; the left connecting rods are symmetrically arranged and the left ends of the left connecting rods are fixedly connected with the wall-attached cross beam 5.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. An elevator attaches wall connection structure for adduction formula building, its characterized in that: comprises a lower floor slab (1), an upper beam (2), an elevator standard section (3), a lattice strut (4), a wall-attached beam (5), an inclined strut (6) and a connecting rod assembly (7); the upper beam (2) is arranged above the lower floor slab (1) in an adduction way; the lattice support columns (4) are vertically arranged on the lower floor slab (1); the wall-attached cross beam (5) is arranged on the lattice stay (4); two ends of the diagonal brace (6) are respectively connected with the upper beam (2) and the wall-attached cross beam (5); one end of the connecting rod assembly (7) is connected with the wall-attached cross beam (5), and the other end of the connecting rod assembly is connected with the elevator standard section (3); the lattice stay (4) comprises upright posts and connecting plates; the two upright posts are arranged at intervals; the connecting plates are arranged at intervals from top to bottom, and two ends of the connecting plates are respectively connected with the two upright posts.

2. An elevator wall-attaching connection structure for an adduction building according to claim 1, characterized in that: the lower floor slab (1) is provided with a buried plate corresponding to the upright post, and the upright post is welded with the buried plate.

3. An elevator wall-attaching connection structure for an adduction building according to claim 1, characterized in that: the wall-attached cross beam (5) is arranged at the top of the lattice stay (4).

4. An elevator wall-attaching connection structure for an adduction building according to claim 1, characterized in that: the inclined struts (6) are symmetrically arranged in two ways, and the included angle between the two inclined struts (6) is 120 degrees.

5. An elevator wall-attaching connection structure for an adduction building according to claim 1, characterized in that: the connecting rod assembly (7) comprises a right connecting rod, a rectangular frame, a trapezoid frame and a left connecting rod which are sequentially connected; two right connecting rods are symmetrically arranged, and the right ends of the two right connecting rods are fixedly connected with an elevator standard section (3); reinforcing diagonal rods are arranged in the rectangular frame and the trapezoid frame; the left connecting rods are symmetrically arranged, and the left ends of the left connecting rods are fixedly connected with the wall-attached cross beam (5).

6. An elevator wall-attaching connection structure for an adduction building according to claim 1, characterized in that: the wall-attached cross beam (5) and the upright post are both 25a I-shaped steel; the connecting plate is a steel plate; the diagonal brace (6) is a square steel pipe.