CN220814285U - Install elevator vestibule additional and building main part flexonics structure - Google Patents

Abstract

The utility model provides an install elevator vestibule additional and building main part flexible connection structure, relate to install elevator additional and building connection technical field, by the wainscot, the corridor girder, even wallboard, perpendicular natural rubber, horizontal natural rubber, spacing cushion, the gusset, perpendicular spacing bolt assembly, horizontal spacing bolt assembly, fixing bolt assembly is constituteed, the wainscot passes through the gusset and the fixing bolt assembly is installed on the building main part, spacing cushion welds to the wainscot on, horizontal natural rubber is placed on the wainscot, fix corridor girder and horizontal natural rubber jointly above the wainscot through horizontal spacing bolt assembly, even wallboard is fixed through welding mode and wainscot, finally fix corridor girder and perpendicular natural rubber, even wallboard through perpendicular spacing bolt assembly. The utility model has simple structure, solves the problem of uneven settlement generated by newly-built elevator foundation and building main body, has great engineering practical value and meets the current social requirement.

Description

Install elevator vestibule additional and building main part flexonics structure

Technical Field

The utility model belongs to the technical field of connection of an additionally installed elevator and a building, and particularly relates to a flexible connection structure of an additionally installed elevator corridor and a building main body.

Background

With the rapid development of the urban process of China, the requirements of people on life quality are higher and higher, and with the emergence of the aging population problem, the old people are difficult to go upstairs and how to reform the old building into the problem of concern, and the old building is additionally provided with an elevator.

The most critical problem of the elevator additionally arranged in the old building is the problem of sedimentation, the foundation sedimentation of the elevator additionally arranged not only can cause the accident of well collapse, but also can damage the main building body and cause serious influence on the safety of residents, so that the problem of how to connect the elevator additionally arranged with the main building body is a major consideration. At present, in order to avoid the problem, the elevator is installed in the old building, which is not directly connected with the main building body, but adopts an independent structure, so that the cost is greatly increased, and unnecessary waste is caused.

Disclosure of utility model

The utility model provides a flexible connection structure for additionally installing an elevator corridor and a building main body, which solves the problems of foundation settlement, shaft collapse and high maintenance cost caused by an independent structure because an elevator additionally installed in an old building is not directly connected with the building main body in the prior art, and makes up for settlement of an elevator foundation additionally installed in a steel structure in the old building under the conditions of ensuring connection between a newly-added building and the building main body, increasing safety of the newly-added building and reducing cost.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

Install elevator vestibule additional and building main part flexonics structure, including pasting wallboard, corridor girder, even wallboard, perpendicular natural rubber, level natural rubber, spacing cushion, gusset, perpendicular spacing bolt assembly, level spacing bolt assembly, fixing bolt assembly, it has six bolt holes to paste wallboard vertical direction, laminates with building main part wall through fixing bolt assembly, and it has two slotted holes to paste wallboard horizontal direction to open, but horizontal limit bolt assembly horizontal slip.

Furthermore, the upper end and the side face of the rib plate are fixed with the wall-attached plate through welding, and the lower end of the rib plate is welded and installed on the ring beam of the building main body.

Further, two oblong holes are formed in one end of the connecting wall plate, the vertical limiting bolt assembly can slide up and down, the vertical limiting bolt assembly is fixed with the wall plate in a welding mode, and vertical natural rubber is fixed between the connecting wall plate and the corridor connecting beam.

Further, two spacing cushion passes through welded fastening on the wallboard, is provided with horizontal natural rubber in the middle of the two spacing cushion, has two bolt holes on the horizontal natural rubber to place on the wallboard.

Further, the corridor girder is I-steel, and two screw holes are opened to corridor girder mid portion one end, and it has two bolt holes to open on the perpendicular natural rubber, is fixed with perpendicular natural rubber, even wallboard through perpendicular spacing bolt assembly, and corridor girder lower extreme is opened there are two screw holes, fixes corridor girder and horizontal natural rubber on the wallboard jointly through horizontal spacing bolt assembly.

The utility model has the beneficial effects that:

1. According to the utility model, when the foundation of the building main body is subjected to uneven sedimentation, the corridor main beam can compress the horizontal natural rubber, so that uneven sedimentation force is released, and sedimentation caused by adding an elevator foundation is avoided.

2. According to the utility model, when the elevator foundation is additionally installed and side settlement occurs, the corridor girder can move in the horizontal direction, when a certain amount of movement occurs, the corridor girder can compress vertical natural rubber, and the limiting cushion block can block the movement of the corridor girder, so that settlement of the building main body foundation is avoided.

3. According to the utility model, when the rear side of the elevator foundation is additionally installed and sedimentation occurs, the connecting wallboard is provided with the transverse oblong hole, and the corridor girder has a certain expansion and contraction amount in the horizontal direction, so that the sedimentation of the building main body foundation is avoided.

4. Through the mutually supporting of oblong hole, perpendicular natural rubber, horizontal natural rubber, spacing cushion, perpendicular spacing bolt subassembly, horizontal spacing bolt subassembly, fixing bolt subassembly on the wallboard, under the circumstances that takes into account cost and safety, through the deflection design of three direction, solved the problem that newly-added elevator building and building main part subside unevenly, finally realize making up old building and install the steel construction elevator additional and cause the purpose that the basis subsides.

Drawings

FIG. 1 is an isometric view of the present utility model

FIG. 2 is a side view of the present utility model

FIG. 3 is a front view of the present utility model

FIG. 4 is a schematic view of a wall-mounted wall-connected panel according to the present utility model

The names of the parts indicated by the numerical reference numerals in the above drawings are as follows: wherein, 1-wall-attaching plate, 2-corridor girder, 3-wall-attaching plate, 4-vertical natural rubber, 5-horizontal natural rubber, 6-limit cushion block, 7-rib plate, 8-vertical limit bolt assembly, 9-horizontal limit bolt assembly and 10-fixing bolt assembly

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. 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 3, the flexible connection structure for additionally installing the elevator corridor and the building main body comprises a wall attaching plate 1, a corridor main beam 2, a wall connecting plate 3, vertical natural rubber 4, horizontal natural rubber 5, a limiting cushion block 6, a rib plate 7, a vertical limiting bolt assembly 8, a horizontal limiting bolt assembly 9 and a fixing bolt assembly 10, wherein the vertical limiting bolt assembly 8 consists of two vertical limiting bolts, the horizontal limiting bolt assembly 9 consists of two horizontal limiting bolts, and the fixing bolt assembly 10 consists of six fixing bolts.

As shown in fig. 1 and 4, six bolt holes are formed in the vertical direction of the wall board 1, the wall board 1 is attached to the wall surface of a building main body through a fixing bolt assembly 10, two slotted holes are formed in the horizontal direction of the wall board 1, a horizontal limit bolt assembly 9 can horizontally slide, two slotted holes are formed in one end of the wall board 3, a vertical limit bolt assembly 8 can vertically slide, the wall board 3 is fixed with the wall board 1 in a welding mode, vertical natural rubber 4 is fixed between the wall board 3 and a corridor connecting beam 2, two limit cushion blocks 6 are fixed on the wall board 1 through welding, a horizontal natural rubber 5 is arranged between the two limit cushion blocks 6, and two bolt holes are formed in the horizontal natural rubber 5 and are placed on the wall board 1.

As shown in fig. 1 and 3, the corridor girder 2 is in an i-steel shape, one end of the middle part of the corridor girder 2 is provided with two threaded holes, the vertical natural rubber 4 is provided with two bolt holes, the vertical limit bolt assembly 8 is fixed with the vertical natural rubber 4 and the connecting wall plate 3, the lower end of the corridor girder 2 is provided with two threaded holes, the corridor girder 2 and the horizontal natural rubber 5 are jointly fixed on the wall plate 1 through the horizontal limit bolt assembly 9, three rib plates 7 are distributed below the wall plate 1, the upper ends of the rib plates 7 are fixed with the wall plate 1 through welding with the side surfaces, and the lower ends of the rib plates 7 are welded and installed on the ring beam of the building main body.

Specifically, as shown in fig. 1 to 4, when uneven settlement is generated on the foundation of the building main body, the corridor main beam 2 compresses the horizontal natural rubber 5, so that uneven settlement force is released, and synchronous settlement generated by adding an elevator foundation is avoided; when the elevator foundation is additionally installed and side sedimentation occurs, the corridor main beam 2 moves in the horizontal direction, when a certain amount of movement occurs, the corridor main beam 2 compresses the vertical natural rubber 4, and the limiting cushion block 6 can block the movement of the corridor main beam 2, so that synchronous sedimentation of the building main body foundation is avoided; when the rear side of the elevator foundation is additionally installed and subsides, a transverse slotted hole is formed in the connecting wall plate 3, a certain amount of expansion and contraction is formed in the corridor main beam 2, so that synchronous settlement of the building main body foundation is avoided, the aim of foundation settlement caused by the additional installation of the steel structure elevator in the old building is finally achieved through the design of deformation in three directions.

It will be apparent to those skilled in the art that the foregoing description is illustrative of the utility model and is not to be construed as limiting the utility model, and that various changes and modifications can be made therein without departing from the spirit and scope thereof.

Claims (5)

1. Install elevator vestibule additional and building main part flexible connection structure, including pasting wallboard, corridor girder, even wallboard, perpendicular natural rubber, horizontal natural rubber, spacing cushion, gusset, perpendicular spacing bolt assembly, horizontal spacing bolt assembly, fixing bolt assembly, its characterized in that: six bolt holes are formed in the vertical direction of the wall-attaching plate, the wall-attaching plate is attached to the wall surface of the building main body through the fixing bolt assembly, and two oblong holes are formed in the horizontal direction of the wall-attaching plate and can be used for horizontally sliding of the horizontal limiting bolt assembly.

2. The flexible connection structure for installing an elevator corridor and a building main body according to claim 1, wherein: the upper end and the side face of the rib plate are fixed with the wall-attached plate through welding, and the lower end of the rib plate is welded and installed on the ring beam of the building main body.

3. The flexible connection structure for installing an elevator corridor and a building main body according to claim 1, wherein: two oblong holes are formed in one end of the connecting wallboard, the vertical limiting bolt assembly can slide up and down, the connecting wallboard is fixed with the wall attaching board in a welding mode, and vertical natural rubber is fixed between the connecting wallboard and the corridor connecting beam.

4. The flexible connection structure for installing an elevator corridor and a building main body according to claim 1, wherein: the limiting cushion block is fixed on the wall plate through welding, the horizontal natural rubber is arranged in the middle of the limiting cushion block, and two bolt holes are formed in the horizontal natural rubber and are placed on the wall plate.

5. The flexible connection structure for installing an elevator corridor and a building main body according to claim 1, wherein: the corridor girder is I-steel, two screw holes are formed in one end of the middle portion of the corridor girder, two bolt holes are formed in the vertical natural rubber, the vertical natural rubber is fixed through the vertical limiting bolt assembly, the connecting wall plate is fixed, two screw holes are formed in the lower end of the corridor girder, and the corridor girder and the horizontal natural rubber are fixed on the connecting wall plate together through the horizontal limiting bolt assembly.