CN220247216U - Auxiliary device for butt joint installation of inclined column - Google Patents

Abstract

The utility model provides an auxiliary device for butt joint installation of an inclined column, which can safely and rapidly finish the butt joint installation of an upper section steel column and a lower section steel column of the inclined column. The inclined column comprises an upper section steel column and a lower section steel column, wherein the lower section steel column is obliquely arranged, two cylindrical surfaces of the lower section steel column are oblique, namely an outer oblique cylindrical surface and an inner oblique cylindrical surface, and the outer oblique cylindrical surface and the inner oblique cylindrical surface are oppositely arranged; the rotating shaft plate is fixedly arranged on the outer inclined cylindrical surface; the lower fixing plate is fixedly arranged on the inner inclined cylindrical surface; the upper fixing plate is fixed on two cylindrical surfaces of the upper section steel column, and the two cylindrical surfaces are respectively in butt joint with the outer inclined cylindrical surface and the inner inclined cylindrical surface after the upper section steel column and the lower section steel column are in butt joint; the switching clamping plate is detachably connected with the upper fixing plate and the adapter; the lower fixing plate on the inclined cylindrical surface at the inner side of the lower section steel column is fixed with the upper fixing plate on the cylindrical surface of the upper section steel column which is in butt joint with the lower fixing plate by using a fixing clamping plate.

Description

Auxiliary device for butt joint installation of inclined column

Technical Field

The utility model relates to an auxiliary device for butt joint installation of inclined columns, which is mainly used for steel structure buildings.

Background

At present, the structural columns of many steel structure buildings are in inclined column form due to the modeling requirement. The conventional hoisting and installing method comprises the following steps: the upper section steel column is vertically hoisted by hoisting machinery, the highest side edge of the splicing opening at the top of the upper section steel column and the highest side edge of the splicing opening at the top of the lower section steel column are butted, the head end and the tail end of the strip-shaped double clamping plates are connected by bolts, so that the strip-shaped double clamping plates form a rotating shaft-like form, and then the hoisting machinery is operated to incline until the inclined side edges are butted, and all temporary connecting bolts are connected. Because its bar splint adjust the surplus and is limited, when the butt joint steel column inclination is great, this scheme can't fall to the ground and implement, and this kind of bar double splint head and tail bolt mode has other direction pivoted possibility simultaneously, and the potential safety hazard is big when the operation of hoist and mount machinery adjustment upper segment post angle.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art, and provides the auxiliary device for butt joint installation of the inclined column with reasonable structural design, which can safely and rapidly finish the butt joint installation of the upper section steel column and the lower section steel column of the inclined column.

The utility model solves the problems by adopting the following technical scheme: the oblique column butt joint installation auxiliary device comprises an upper section steel column and a lower section steel column, wherein the lower section steel column is obliquely arranged, two cylindrical surfaces of the lower section steel column are oblique, namely an outer oblique cylindrical surface and an inner oblique cylindrical surface, and the outer oblique cylindrical surface and the inner oblique cylindrical surface are oppositely arranged; the method is characterized in that: comprises a switching clamping plate, a rotating shaft plate, an upper fixing plate, a fixing clamping plate and a lower fixing plate; the rotating shaft plate is fixedly arranged on the outer inclined cylindrical surface; the lower fixing plate is fixedly arranged on the inner inclined cylindrical surface; the upper fixing plate is fixed on two cylindrical surfaces of the upper section steel column, and the two cylindrical surfaces are respectively in butt joint with the outer inclined cylindrical surface and the inner inclined cylindrical surface after the upper section steel column and the lower section steel column are in butt joint; the switching clamping plate is detachably connected with the upper fixing plate and the adapter; the lower fixing plate on the inclined cylindrical surface at the inner side of the lower section steel column is fixed with the upper fixing plate on the cylindrical surface of the upper section steel column which is in butt joint with the lower fixing plate by using a fixing clamping plate.

After one side of the splicing opening at the bottom of an upper section steel column is in butt joint with the highest side of the splicing opening at the top of a lower section steel column, the switching clamping plate is fixed on an upper fixing plate of the upper section steel column and is in rotary connection with the adapter.

After the bottom splicing opening of the upper section steel column is in butt joint with the top splicing opening of the lower section steel column, the rotating shaft plate on the outer inclined cylindrical surface and the upper fixing plate on the cylindrical surface of the upper section steel column in butt joint with the rotating shaft plate are fixed together through the fixing clamping plates.

The lower section steel column is fixed on a floor steel beam.

Compared with the prior art, the utility model has the following advantages and effects: through setting up pivot ware and switching splint, when the on-the-spot installation batter post, realize unilateral pivoted effect, and then accomplish the butt joint installation of upper segment steel column and hypomere steel column. The utility model can realize the rapid, simple, convenient and safe installation of the high-rise inclined column.

Drawings

FIG. 1 is a schematic diagram of the structure of an embodiment of the present utility model.

Fig. 2 is a schematic structural diagram of a first step of the embodiment of the present utility model.

Fig. 3 is a schematic structural diagram of a second step of the embodiment of the present utility model.

Fig. 4 is a schematic structural diagram of a third step of the embodiment of the present utility model.

Detailed Description

The present utility model will be described in further detail by way of examples with reference to the accompanying drawings, which are illustrative of the present utility model and not limited to the following examples.

The embodiment of the utility model comprises a switching clamping plate 11, a rotating shaft plate 12, an upper fixing plate 13, a fixing clamping plate 31 and a lower fixing plate 32.

The diagonal column comprises an upper section steel column 22 and a lower section steel column 21, wherein the lower section steel column 21 is obliquely arranged and fixed on a floor steel beam 51. Since the lower section steel column 21 is obliquely arranged, two cylindrical surfaces of the lower section steel column 21 are oblique, namely an outer oblique cylindrical surface 211 and an inner oblique cylindrical surface 212, the outer oblique cylindrical surface 211 and the inner oblique cylindrical surface 212 are oppositely arranged, and the side edge of the highest spliced joint of the top of the lower section steel column 21 is positioned on the outer oblique cylindrical surface 211.

The rotation shaft plate 12 is fixedly disposed on the outer inclined cylindrical surface 211.

The lower fixing plate 32 is fixedly disposed on the inner inclined cylindrical surface 212.

The upper fixing plate 13 is fixed on two cylindrical surfaces of the upper section steel column 22, and the two cylindrical surfaces are respectively butted with the outer inclined cylindrical surface 211 and the inner inclined cylindrical surface 212 after the upper section steel column 22 and the lower section steel column 21 are butted.

The adapter splint 11 is detachably connected with the upper fixing plate 13 and the adapter 12: after one side of the splicing opening at the bottom of the upper section steel column 22 is in butt joint with the highest side of the splicing opening at the top of the lower section steel column 21, the switching clamping plate 11 is fixed on the upper fixing plate 13 of the upper section steel column 22 by bolts and is in rotary connection with the adapter 12 of the lower section steel column 21; after the bottom splicing opening of the upper section steel column 22 is in butt joint with the top splicing opening of the lower section steel column 21, the switching clamping plate 11 can be detached from the upper fixing plate 13 and the adapter 12 and replaced by the fixing clamping plate 31, and then the rotating shaft plate 12 on the outer inclined cylindrical surface 211 and the upper fixing plate 13 on the cylindrical surface of the upper section steel column 22 in butt joint with the rotating shaft plate 12 are fixed together by the fixing clamping plate 31.

After the bottom splicing mouth of the upper section steel column 22 is spliced with the top splicing mouth of the lower section steel column 21, the lower fixing plate 32 on the inner inclined cylindrical surface 212 and the upper fixing plate 13 on the cylindrical surface of the upper section steel column 22 which is spliced with the lower fixing plate are fixed together by the fixing clamping plate 31.

The application steps of the embodiment of the utility model are as follows:

step one, referring to fig. 2, an automobile hoisting machine 41 is used to hoist the upper section steel column 22 to a position right above the lower section steel column 21, and after one side of the splicing opening at the bottom of the upper section steel column 22 is in butt joint with the highest side of the splicing opening at the top of the lower section steel column 21, 4 adapting clamping plates 11 are fixed on the upper fixing plate 13 of the upper section steel column 22 by bolts and are in rotary connection with the adapter 12 of the lower section steel column 21. Step two, referring to fig. 3, the length and angle of the boom of the automobile hoisting machine 41 are changed, so that the upper section steel column 22 rotates, the bottom splicing opening of the upper section steel column 22 is in butt joint with the top splicing opening of the lower section steel column 21, and the lower fixing plate 32 on the inner inclined cylindrical surface 212 and the upper fixing plate 13 on the cylindrical surface of the upper section steel column 22 in butt joint with the lower fixing plate are fixed together by the fixing clamping plate 31. In order to make the fixation more firm, referring to fig. 4, the adapter clamping plate 11 may be detached from the upper fixing plate 13 and the adapter 12, replaced with the fixing clamping plate 31, and then the rotating shaft plate 12 on the outer inclined cylindrical surface 211 and the upper fixing plate 13 on the cylindrical surface of the upper section steel column 22 butted with the rotating shaft plate 12 are fixed together by the fixing clamping plate 31.

In addition, it should be noted that the specific embodiments described in the present specification may vary from part to part, from name to name, etc., and the above description in the present specification is merely illustrative of the structure of the present utility model. All equivalent or simple changes of the structure, characteristics and principle according to the inventive concept are included in the protection scope of the present patent. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions in a similar manner without departing from the scope of the utility model as defined in the accompanying claims.

Claims (4)

1. The oblique column butt joint installation auxiliary device comprises an upper section steel column and a lower section steel column, wherein the lower section steel column is obliquely arranged, two cylindrical surfaces of the lower section steel column are oblique, namely an outer oblique cylindrical surface and an inner oblique cylindrical surface, and the outer oblique cylindrical surface and the inner oblique cylindrical surface are oppositely arranged; the method is characterized in that: comprises a switching clamping plate, a rotating shaft plate, an upper fixing plate, a fixing clamping plate and a lower fixing plate; the rotating shaft plate is fixedly arranged on the outer inclined cylindrical surface; the lower fixing plate is fixedly arranged on the inner inclined cylindrical surface; the upper fixing plate is fixed on two cylindrical surfaces of the upper section steel column, and the two cylindrical surfaces are respectively in butt joint with the outer inclined cylindrical surface and the inner inclined cylindrical surface after the upper section steel column and the lower section steel column are in butt joint; the switching clamping plate is detachably connected with the upper fixing plate and the adapter; the lower fixing plate on the inclined cylindrical surface at the inner side of the lower section steel column is fixed with the upper fixing plate on the cylindrical surface of the upper section steel column which is in butt joint with the lower fixing plate by using a fixing clamping plate.

2. The tilt column docking installation assistance device of claim 1, wherein: after one side of the splicing opening at the bottom of the upper section steel column is in butt joint with the highest side of the splicing opening at the top of the lower section steel column, the switching clamping plate is fixed on the upper fixing plate of the upper section steel column and is in rotary connection with the adapter.

3. The tilt column docking installation assistance device of claim 1, wherein: after the bottom splicing opening of the upper section steel column is in butt joint with the top splicing opening of the lower section steel column, the rotating shaft plate on the outer inclined cylindrical surface and the upper fixing plate on the upper section steel column cylindrical surface in butt joint with the rotating shaft plate are fixed together through the fixing clamping plates.

4. The tilt column docking installation assistance device of claim 1, wherein: the lower section steel column is fixed on the floor steel girder.