CN213115615U

CN213115615U - Elevator steel construction assembled well

Info

Publication number: CN213115615U
Application number: CN202021512957.1U
Authority: CN
Inventors: 蒋永明
Original assignee: Huzhou Alfa Electromechanical Co ltd
Current assignee: Huzhou Alfa Electromechanical Co ltd
Priority date: 2020-07-28
Filing date: 2020-07-28
Publication date: 2021-05-04
Anticipated expiration: 2030-07-28

Abstract

The utility model provides an elevator steel construction assembled well, include: four longitudinal square steels and transverse square steels; the four longitudinal square steels are distributed in a rectangular shape, a plurality of groups of connecting lugs are arranged on the side wall of each longitudinal square steel respectively, and each group of connecting lugs horizontally extend out of the surface of each longitudinal square steel; the transverse square steel is arranged between every two adjacent longitudinal square steels, and two connecting ports of the transverse square steel are respectively sleeved on the connecting lugs and detachably connected through the connecting pieces; wherein, every vertical square steel is dismantled the phase connection by a plurality of square steel sections head and the tail and is constituteed. The utility model discloses an elevator steel construction assembled well is through decomposing for the elevator steel construction well for can be at fixed a plurality of square steel sections of on-the-spot fast assembly and horizontal square steel, can transport it to the on-the-spot after-assembly fixed, does not receive on-the-spot condition influence, does not need the welding, has reduced installation cost.

Description

Elevator steel construction assembled well

Technical Field

The utility model belongs to the technical field of the elevator assembly, concretely relates to elevator steel construction assembled well.

Background

For outdoor hoistways without elevators, steel structures are often required to construct the hoistways, and the hoistway frames fix the guide rails to limit the offset swing of the guide rails. The weight of the traction machine, the car and the counterweight can be borne on the guide rails and the steel frame shaft. The existing common steel structure adopts field welding and surface treatment. The field environment is polluted and the operation is inconvenient. In addition, there are also integral segments where the installation unit is prefabricated at the factory and then transported to the site for installation. The single installation unit is large in size and weight and cannot be disassembled, a crane is needed for hoisting, some construction sites are narrow, the crane cannot enter the construction site for hoisting, and great inconvenience is brought to on-site installation and construction.

SUMMERY OF THE UTILITY MODEL

In view of this, it is an object of the present invention to provide an elevator steel structure fabricated hoistway for overcoming the above problems or at least partially solving or alleviating the above problems.

The utility model provides an elevator steel construction assembled well, include:

the four longitudinal square steels are distributed in a rectangular shape, a plurality of groups of connecting lugs are distributed on the side wall of each longitudinal square steel, and each group of connecting lugs horizontally extend out of the surface of each longitudinal square steel;

the transverse square steel is arranged between every two adjacent longitudinal square steels, and two connecting ports of the transverse square steel are respectively sleeved on the connecting lugs and detachably connected through connecting pieces;

each longitudinal square steel is formed by detachably connecting a plurality of square steel sections end to end.

The utility model discloses optional characteristic below still having.

Optionally, each group of the connecting lugs is respectively distributed on two adjacent side walls of each longitudinal square steel, so that the two groups of the connecting lugs are distributed at right angles.

Optionally, the connecting lug is i-shaped, and two sides of the connecting lug are parallel longitudinal connecting sheets, and a transverse reinforcing rib is arranged between the two longitudinal connecting sheets.

Optionally, each longitudinal connecting piece is provided with a connecting hole, and correspondingly, connecting holes are also formed in the side walls, corresponding to the longitudinal connecting pieces, of the two connecting ports of the transverse square steel and the connecting lugs.

Optionally, a connecting plate is arranged between one end of each two connected square steel sections, one half of the connecting plate is welded or connected to the side wall of the connecting port of one of the square steel sections through a connecting piece, and the other half of the connecting plate extends into the connecting port of the other square steel section and then is connected through the connecting piece.

Optionally, the connecting plate includes two perpendicular straight steel plates, two straight steel plates are welded and fixed on two adjacent side walls of the connecting port of the square steel section respectively, two straight steel plates are provided with connecting holes respectively, correspondingly, and connecting holes are distributed correspondingly on the connecting port of the square steel section.

Optionally, the connecting plate includes an angle steel plate, two sides of the angle steel plate are respectively provided with a connecting hole, and correspondingly, connecting holes are correspondingly distributed on the connecting port of the square steel section.

The utility model has the advantages that:

the elevator steel structure assembly type hoistway of the utility model has the advantages that the longitudinal square steel is arranged into a plurality of detachably connected square steel sections, and the longitudinal square steel is provided with a plurality of groups of connecting lugs connected with the transverse square steel, so that the elevator steel structure hoistway can be disassembled and transported and can be quickly assembled and fixed on site, the elevator steel structure assembly type hoistway is simple in structure, free of influence of site conditions, free of welding, short in installation time and low in installation cost; the detachable structure of the system is convenient to transport, and particularly, logistics transportation of foreign trade orders is achieved.

Drawings

Fig. 1 is a schematic view of a connection structure of longitudinal square steel and transverse square steel in an elevator steel structure fabricated hoistway according to the present invention;

fig. 2 is the assembly structure sketch map of the vertical square steel in the elevator steel structure fabricated hoistway of the utility model.

In the above figures: 1, longitudinal square steel; 101 square steel sections; 2, connecting lugs; 201 longitudinal connecting pieces; 202 transverse reinforcing ribs; 3, transverse square steel; 4 connecting plates.

The present invention will be described in further detail with reference to the accompanying drawings and examples;

Detailed Description

Referring to fig. 1 and 2, an embodiment of the utility model provides an elevator steel construction assembled well, include: four longitudinal square steels 1 and transverse square steels 3; the four longitudinal square steels 1 are distributed in a rectangular shape, a plurality of groups of connecting lugs 2 are arranged on the side wall of each longitudinal square steel 1 respectively, and each group of connecting lugs 2 horizontally extend out of the surface of each longitudinal square steel 1; the transverse square steel 3 is arranged between every two adjacent longitudinal square steels 1, and two connecting ports of the transverse square steel 3 are respectively sleeved on the connecting lugs 2 and detachably connected through connecting pieces; wherein, every vertical square steel 1 is connected by a plurality of square steel sections 101 end to end and can dismantle and constitute.

A plurality of groups of connecting lugs 2 are respectively arranged on four longitudinal square steels 1, and the longitudinal square steels 1 are detachably connected through the connecting lugs 2 and two connecting ports of one transverse square steel 3, so that a rectangular hoistway frame can be quickly assembled; each longitudinal square steel 1 is formed by detachably connecting a plurality of square steel sections 101 end to end respectively; when installing no well elevator additional, can transport each square steel section 101 and each horizontal square steel 3 to the scene earlier, then assemble into vertical square steel 1 with each square steel section, be connecting four vertical square steel 1 and assemble into the steel construction well for the elevator through engaging lug 2 and two connection ports of each horizontal square steel 3, do not need on-the-spot welding and surface treatment.

Referring to fig. 1, according to an embodiment of the present invention, each set of engaging lugs 2 is respectively distributed on two adjacent side walls of each longitudinal square steel 1, so that two sets of engaging lugs 2 are distributed at right angles.

Four vertical square beams 1 become the rectangle and distribute, and horizontal square beam 3 connects respectively between per two adjacent vertical square beams 1, consequently each group's engaging lug 2 distributes respectively on two adjacent lateral walls of every vertical square beam 1, makes things convenient for horizontal square beam 3 of lug connection.

Referring to fig. 1, according to an embodiment of the present invention, the connecting lug 2 is i-shaped, and a transverse reinforcing rib 202 is disposed between two longitudinal connecting pieces 201 of the longitudinal connecting pieces 201 which are parallel to each other.

One end of each connecting lug 2 is welded on the side wall of the longitudinal square steel 1, two longitudinal connecting pieces 201 which are parallel to each other in each connecting lug 2 are used for being inserted into the connecting ports of the transverse square steel 3, and the transverse reinforcing ribs 202 are welded between the two longitudinal connecting pieces 201, so that the structural strength of the two longitudinal connecting pieces 201 is improved, and the distance between the two longitudinal connecting pieces 201 is kept stable.

Referring to fig. 1, according to an embodiment of the present invention, each longitudinal connecting piece 201 is provided with a connecting hole, and correspondingly, two connecting ports of the transverse square steel 3 are also provided with connecting holes on the side walls corresponding to the longitudinal connecting pieces 201 on the connecting lug 2.

When the connecting port of horizontal square steel 3 overlaps on engaging lug 2, a pair of longitudinal tie piece 201 in engaging lug 2 just hugs closely with the inside wall of the connecting port of horizontal square steel 3 mutually, works as connecting hole on the longitudinal tie piece 201 with after the connecting hole of the connecting port department of horizontal square steel 3 aligns, the rethread bolt is passed above the connecting hole and is connected.

Referring to fig. 2, according to an embodiment of the present invention, a connecting plate 4 is disposed between one end of each two connected square steel segments 101, a half of the connecting plate 4 is welded or connected to the sidewall of the connecting port of one of the square steel segments 101 through a connecting member, and the other half of the connecting plate is connected to the connecting port of the other square steel segment 101 through a connecting member after extending into the connecting port.

Half of the connecting plate 4 can be fixedly connected to the side wall of the connecting port of the square steel section 101 in advance through a bolt, and can also be fixedly connected to the side wall of the connecting port of the square steel section 101 in a welding mode, and when the longitudinal square steel 1 is assembled, the connecting plate 4 on one square steel section 101 is fixedly connected after being inserted into the connecting port of the other square steel section 101.

Referring to fig. 2, according to the utility model discloses an embodiment, connecting plate 4 includes two straight steel sheets that set up perpendicularly mutually, and two straight steel sheets welded fastening respectively are provided with the connecting hole on two straight steel sheets on two adjacent lateral walls of the connection port of square steel section 101, and corresponding, the connection port of square steel section 101 also corresponds the distribution and has the connecting hole.

Connecting holes are distributed on the two connecting plates 4, correspondingly, the two adjacent side walls of the connecting port of each square steel section 101 are also provided with connecting holes, the two connecting plates 4 are inserted into the connecting ports of the square steel sections 101, so that the connecting holes on the two connecting plates 4 are aligned with the connecting holes on the two side walls of the connecting port of the square steel section 101, and then the connecting holes are fixedly connected after penetrating through the connecting holes through bolts.

Referring to fig. 2, according to an embodiment of the present invention, the connecting plate 4 includes an angle steel plate, two sides of the angle steel plate are respectively provided with connecting holes, and correspondingly, the connecting ports of the square steel segment 101 are also correspondingly distributed with connecting holes.

Adopt angle steel board as connecting plate 4, connecting plate 4 can lean on the right angle department of the inboard of square steel section 101's connection port like this and carry out fixed connection, and the both sides of angle steel board set up the connecting hole respectively, also correspond on the adjacent lateral wall of square steel section 101's connection port and be provided with the connecting hole, make the connecting hole on the both sides of angle steel board respectively with the connecting hole on the two adjacent lateral walls of square steel section 101's connection port align the back one by one, rethread bolt passes behind the connecting hole fixed connection.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims. The components and structures of the present embodiments that are not described in detail are well known in the art and do not constitute essential structural elements or elements.

Claims

1. An elevator steel construction fabricated hoistway, comprising:

the square steel frame comprises four longitudinal square steels (1), wherein the four longitudinal square steels (1) are distributed in a rectangular shape, a plurality of groups of connecting lugs (2) are distributed on the side wall of each longitudinal square steel (1), and each group of connecting lugs (2) horizontally extend out of the surface of each longitudinal square steel (1);

the transverse square steel (3) is arranged between every two adjacent longitudinal square steels (1), and two connecting ports of the transverse square steel (3) are respectively sleeved on the connecting lugs (2) and detachably connected through connecting pieces;

each longitudinal square steel (1) is formed by detachably connecting a plurality of square steel sections (101) end to end.

2. The elevator steel structure fabricated hoistway of claim 1, wherein each set of said engaging lugs (2) are respectively distributed on two adjacent side walls of each said longitudinal square steel (1) so that two sets of said engaging lugs (2) are distributed at right angles.

3. The elevator steel structure fabricated hoistway of claim 2, wherein the connection lug (2) is i-shaped, and a transverse reinforcing rib (202) is arranged between two longitudinal connection pieces (201) which are parallel to each other and are arranged on two sides of the connection lug (2).

4. The elevator steel structure fabricated hoistway of claim 3, wherein each longitudinal connecting piece (201) is provided with a connecting hole, and correspondingly, connecting holes are also respectively formed in the side walls of the two connecting ports of the transverse square steel (3) corresponding to the longitudinal connecting pieces (201) on the connecting lug (2).

5. The elevator steel structure fabricated hoistway according to claim 1, wherein a connecting plate (4) is arranged between one end of each two connected square steel sections (101), one half of the connecting plate (4) is welded and fixed on the side wall of the connecting port of one of the square steel sections (101), and the other half of the connecting plate extends into the connecting port of the other square steel section (101) and then is connected through a connecting piece.

6. The elevator steel structure fabricated hoistway according to claim 5, wherein the connecting plate (4) comprises two vertically arranged straight steel plates, the two straight steel plates are respectively welded and fixed on two adjacent side walls of the connecting port of the square steel section (101), the two straight steel plates are respectively provided with connecting holes, and correspondingly, the connecting port of the square steel section (101) is also correspondingly distributed with connecting holes.