CN217871999U - Vertical adjustable cylinder bearing structure - Google Patents

Abstract

The utility model discloses a vertical adjustable column body supporting structure, which comprises a supporting column body which is connected below a structure to be supported, a lug connecting component which is connected above the supporting column body, a butt joint column which is connected between the lug connecting component and the supporting column body, a pin rod component which is connected between the butt joint column and the supporting column body and an anchor connecting component which is connected at the bottom of the supporting column body; the supporting column body comprises a plate connecting supporting column, a group of standard adjusting supporting columns and a bottom supporting column which are sequentially connected in an inserting manner from top to bottom, a supporting adjusting hole arranged on the supporting column body and a supporting bottom plate connected to the lower part of the supporting column body; the supporting bottom plate is connected with the force expansion foundation through the anchor connecting assembly. The arrangement of the plate connecting supporting column, the scale adjusting supporting column and the supporting bottom column is favorable for ensuring convenient, telescopic and adjustable supporting columns; through the arrangement of the connecting lug assembly and the butt-joint column, the connection and the bearing of the lower part of the supporting plate are favorably ensured, and the convenience of installation is favorably ensured; through the arrangement of the anchoring component and the ribbed plate, the connection and fixation of the supporting bottom plate are further ensured.

Description

Vertical adjustable cylinder bearing structure

Technical Field

The utility model belongs to the technical field of the construction, in particular to vertical adjustable cylinder bearing structure.

Background

The standard joints are often used in building construction, and the installation and support of the standard joints are the key points of construction. The existing standard knot has small support height adjustment amount, needs to adjust, discharge and modify a secondary support structure on site, has long construction period, is leased equipment and has higher cost; from this need carry out the portable pertinence design that can freely adjust, and to its support form of bearing structure, need carry out the adaptability according to supporting the atress and set up, guarantee to use repeatedly from this, have fine economic benefits.

SUMMERY OF THE UTILITY MODEL

The utility model provides a vertical adjustable cylinder bearing structure for the cylinder that solves bearing structure is adjustable, convenient connection and the pertinence design scheduling technical problem of bottom anchor.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a vertical adjustable column supporting structure comprises a supporting column body connected below a structure to be supported, a connecting lug assembly connected above the supporting column body, a butt joint column connected between the connecting lug assembly and the supporting column body, a pin rod assembly connected between the butt joint column and the supporting column body and an anchor connecting assembly connected to the bottom of the supporting column body;

the supporting column body comprises a plate connecting supporting column, a group of scale adjusting supporting columns and a supporting bottom column which are sequentially inserted from top to bottom, a supporting adjusting hole arranged on the supporting column body and a supporting bottom plate connected to the lower part of the supporting column body; the supporting bottom plate is connected with the force expansion foundation through the anchor connecting assembly.

Furthermore, the plate connecting support column and the scale adjusting support column, the bottom support column and the scale adjusting support column as well as the adjacent scale adjusting support columns are in adjustable connection through the support adjusting holes; and a pin rod assembly penetrates through the support adjusting hole.

Furthermore, the pin rod assembly comprises a pin rod body and a pin rod fixing clamp, the pin rod body is a T-shaped piece, the vertical part horizontally penetrates into the support adjusting hole and extends out, and the extending end is detachably connected through the pin rod fixing clamp.

Furthermore, the lug connecting assembly comprises an upper lug connecting plate, a lower lug connecting plate, a lug connecting penetrating rod for connecting the upper lug connecting plate and the lower lug connecting plate, a supporting connecting plate connected with the upper lug connecting plate and a column top plate connected below the lower lug connecting plate; the supporting connecting plate is correspondingly connected with the structure to be supported, and the column top plate is correspondingly connected with the top of the plate connecting supporting column.

Furthermore, the support connecting plate is arranged corresponding to the lug connecting component, and the diameter of the support connecting plate is larger than the diameter of a circle formed by the planar projection of the lug connecting component below.

Furthermore, the diameters of the plate connecting supporting column, the group of scale adjusting supporting columns and the bottom supporting column from top to bottom are sequentially reduced correspondingly, and the column body at the upper part is inserted into the column body at the lower part; the insertion part is detachably fixed by inserting a pin rod assembly into the support adjusting hole.

Furthermore, the bottom of the supporting bottom plate is detachably connected with a force expansion foundation, and the force expansion foundation is arranged in a radial or horn shape from top to bottom; an elastic base plate is arranged between the supporting bottom plate and the force expansion foundation and is connected with the anchor connecting components in a penetrating mode.

Furthermore, the anchor connecting components are arranged on the support bottom plate at intervals in the circumferential direction, and each anchor connecting component comprises an anchor rod, an anchor backing plate arranged at the top of the anchor rod and an anchor nut arranged on the anchor rod and positioned above the anchor backing plate; the anchor backing plate is connected to the top of the support base plate ring in a pressing mode.

Furthermore, ribbed plates are arranged between the support column body and the support bottom plate at intervals in the circumferential direction of the support bottom plate and are positioned between the anchor rods which are inserted and connected; the ribbed slab is a triangular plate, a quadrilateral plate or a trapezoidal plate, and at least one right angle and two right-angle sides of the ribbed slab are respectively connected with the supporting column body and the supporting bottom plate.

The beneficial effects of the utility model embody:

1) The utility model is beneficial to ensuring the convenient expansion and adjustment of the support column through the arrangement of the plate connecting support column, the label adjusting support column and the support bottom column, and can greatly save the construction time and the cost;

2) The utility model is favorable for ensuring the lower connection and the bearing of the jacking plate through the arrangement of the connecting lug component and the butt column, and the detachable connection of the connecting lug component and the butt column is favorable for ensuring the convenience of installation;

3) The utility model discloses a setting of anchor even subassembly and floor has further guaranteed that the connection of supporting baseplate is fixed and connect between support cylinder and the supporting baseplate and consolidate and connect the integration.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention; the primary objects and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description.

Drawings

FIG. 1 is a schematic view of a three-dimensional connection between a structure to be supported and a vertically adjustable column support structure

FIG. 2 is a schematic view of a partial connection of a structure to be supported and a vertically adjustable column support structure;

FIG. 3 is a schematic view of a vertically adjustable column support structure;

FIG. 4 is a schematic view of a support column configuration;

FIG. 5 is a schematic view of a partial structure of a support column;

FIG. 6 is a schematic view of an anchor assembly and its connection structure;

FIG. 7 is a perspective view of the anchor assembly and its connection.

Reference numerals: 1-to-be-supported structure, 2-support column body, 21-plate connecting support column, 22-standard-adjusting support column, 23-bottom-support column, 24-support adjusting hole, 25-support bottom plate, 3-lug connecting component, 31-support connecting plate, 32-upper lug connecting plate, 33-lower lug connecting plate, 34-lug connecting rod, 35-column top plate, 4-butt-joint column, 5-pin rod component, 51-pin rod body, 52-pin rod fixing clamp, 6-ribbed plate, 7-anchor connecting component, 71-anchor rod, 72-anchor backing plate, 73-anchor nut and 8-force-expanding foundation.

Detailed Description

Taking a single-limb corner support as an example, as shown in fig. 1 to 6, the vertically adjustable column supporting structure includes a supporting column 2 connected below a structure to be supported 1, a connecting lug assembly 3 connected above the supporting column 2, a docking column 4 connected between the connecting lug assembly 3 and the supporting column 2, a pin rod assembly 5 connected between the docking column 4 and the supporting column 2, and an anchor assembly 7 connected to the bottom of the supporting column 2.

In this embodiment, the supporting column 2 comprises a plate connecting supporting column 21, a set of calibration supporting columns 22 and a supporting bottom column 23, which are sequentially inserted from top to bottom, a supporting adjusting hole 24 disposed on the supporting column 2, and a supporting bottom plate 25 connected to the lower portion of the supporting column 2; the supporting bottom plate 25 is connected with the force-expanding foundation 8 through the anchoring assembly 7.

The supporting column body 2 is formed by nesting 3 circular steel tubes with different diameters, the steel tubes are made of Q235B, and the cross sections of the steel tubes are respectively O350X 16, O310X 16 and O270X 16; the diameters of the plate connecting supporting column 21, the group of the scale adjusting supporting columns 22 and the bottom supporting column 23 from top to bottom are sequentially and correspondingly reduced, and the column body at the upper part is inserted into the column body at the lower part; the inserted part is detachably fixed by inserting a pin rod into the supporting and adjusting hole 24, the length adjusting module is 200mm, the variable length is 6m to 18m, and the supporting and bearing capacity can reach 200 tons to 75 tons according to different angles.

In this embodiment, the plate linking and supporting column 21 and the scaling and supporting column 22, the bottom supporting column 23 and the scaling and supporting column 22, and the adjacent scaling and supporting columns 22 are adjustably connected through the supporting and adjusting holes 24; the pin rod assembly 5 is connected in the support adjusting hole 24 in a penetrating way;

in this embodiment, the pin rod assembly 5 includes a pin rod body 51 and a pin rod fixing clip 52, the pin rod body 51 is a T-shaped steel member, a vertical portion horizontally penetrates into the support adjustment hole 24 and extends out, and an extending end is detachably connected through the pin rod fixing clip 52.

In this embodiment, the ear connecting assembly 3 includes an upper ear connecting plate 32, a lower ear connecting plate 33, an ear connecting rod 34 connecting the upper ear connecting plate 32 and the lower ear connecting plate 33, a support connecting plate 31 connected to the upper ear connecting plate 32, and a column top plate 35 connected to the lower part of the lower ear connecting plate; the supporting connecting plate 31 is correspondingly connected with the structure 1 to be supported, and the column top plate 35 is correspondingly connected with the top of the plate connecting supporting column 21.

In this embodiment, the supporting connecting plate 31 is disposed corresponding to the lug connecting component 3, and the diameter of the supporting connecting plate 31 is larger than the diameter of the circle formed by the planar projection of the lug connecting component 3 below.

In this embodiment, the diameters of the plate connecting supporting column 21, the group of scale adjusting supporting columns 22 and the bottom supporting column 23 are sequentially and correspondingly reduced from top to bottom, and the upper column body is inserted into the lower column body; the insertion site is removably secured by inserting the pin assembly 5 within the support adjustment bore 24.

In this embodiment, the bottom of the supporting bottom plate 25 is detachably connected with the force expansion foundation 8, and the force expansion foundation 8 is arranged in a radial or horn shape from top to bottom; an elastic cushion plate is arranged between the supporting bottom plate 25 and the force expansion foundation 8, and the anchor connecting components 7 are connected in a penetrating way. The anchor connecting components 7 are arranged on the support base plate 25 at intervals in the circumferential direction, and each anchor connecting component 7 comprises an anchor rod 71, an anchor backing plate 72 arranged at the top of the anchor rod 71 and an anchor nut 73 arranged on the anchor rod 71 and positioned above the anchor backing plate 72; the anchor pad 72 is attached to the top of the ring of the support base 25 in compression.

In addition, ribbed plates 6 are also arranged between the support column body 2 and the support bottom plate 25, and the ribbed plates 6 are arranged at intervals in the annular direction of the support bottom plate 25 and are positioned between the anchor rods 71 which are inserted and connected; the ribbed plate 6 is a triangular, quadrangular or trapezoidal plate, and at least one right angle and two right-angle sides of the ribbed plate 6 are respectively connected with the supporting column 2 and the supporting bottom plate 25.

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 conceived by those skilled in the art within the technical scope of the present invention should be covered within the scope of the present invention.

Claims (9)

1. A vertical adjustable column body supporting structure is characterized by comprising a supporting column body (2) connected below a structure (1) to be supported, a connecting lug assembly (3) connected above the supporting column body (2), a butt joint column (4) connected between the connecting lug assembly (3) and the supporting column body (2), a pin rod assembly (5) connected between the butt joint column (4) and the supporting column body (2) and an anchoring assembly (7) connected to the bottom of the supporting column body (2);

the supporting column body (2) comprises a plate connecting supporting column (21), a group of standard adjusting supporting columns (22) and a bottom supporting column (23) which are sequentially connected in a penetrating manner from top to bottom, a supporting adjusting hole (24) arranged on the supporting column body (2), and a supporting base plate (25) connected to the lower part of the supporting column body (2); the supporting bottom plate (25) is connected with the force expansion foundation (8) through the anchor connecting component (7).

2. The vertically adjustable column support structure according to claim 1, characterized in that the plate connecting support column (21) and the scale adjusting support column (22), the bottom support column (23) and the scale adjusting support column (22) and the adjacent scale adjusting support column (22) are adjustably connected through a support adjusting hole (24); a pin rod component (5) is connected in the support adjusting hole (24) in a penetrating way.

3. The vertically adjustable column support structure of claim 2, wherein the pin assembly (5) comprises a pin body (51) and a pin fixing clip (52), the pin body (51) is a T-shaped member, the vertical portion horizontally penetrates into the support adjustment hole (24) and extends out, and the extending end is detachably connected through the pin fixing clip (52).

4. The vertically adjustable column support structure of claim 1, wherein the lug connecting assembly (3) comprises an upper lug connecting plate (32), a lower lug connecting plate (33), a lug connecting penetrating rod (34) connecting the upper lug connecting plate (32) and the lower lug connecting plate (33), a support connecting plate (31) connected to the upper lug connecting plate (32), and a column top plate (35) connected below the lower lug connecting plate; the supporting connecting plate (31) is correspondingly connected with the structure (1) to be supported, and the column top plate (35) is correspondingly connected with the top of the plate connecting supporting column (21).

5. The vertically adjustable column support structure according to claim 4, characterized in that the support link plate (31) is arranged corresponding to the lug assembly (3), and the diameter of the support link plate (31) is larger than the diameter of the circle formed by the planar projection of the lower lug assembly (3).

6. The vertically adjustable column support structure according to claim 3, wherein the diameters of the plate connecting support column (21), the group of the scale adjusting support columns (22) and the bottom support column (23) are sequentially and correspondingly reduced from top to bottom, and the upper column body is inserted into the lower column body; the insertion site is removably secured by inserting a pin assembly (5) within the support adjustment hole (24).

7. The vertical adjustable column support structure according to claim 1, wherein the bottom of the support base plate (25) is detachably connected with a force-expanding foundation (8), and the force-expanding foundation (8) is arranged in a radial or horn shape from top to bottom; an elastic cushion plate is arranged between the supporting bottom plate (25) and the force expansion foundation (8) and is connected with the anchor connecting component (7) in a penetrating mode.

8. The vertically adjustable column support structure of claim 7, wherein the anchor assemblies (7) are circumferentially spaced apart from each other on the support base (25), and the anchor assemblies (7) comprise anchor rods (71), anchor pads (72) disposed on top of the anchor rods (71), and anchor nuts (73) disposed on the anchor rods (71) and above the anchor pads (72); the anchor backing plate (72) is connected to the top of the supporting bottom plate (25) in a pressing mode.

9. The vertically adjustable column support structure according to claim 1, characterized in that a ribbed plate (6) is further provided between the support column (2) and the support base plate (25), and the ribbed plate (6) is provided at intervals in the circumferential direction of the support base plate (25) and is positioned between the anchor rods (71) inserted and connected thereto; the ribbed plate (6) is a triangular plate, a quadrilateral plate or a trapezoidal plate, and at least one right angle and two right-angle sides of the ribbed plate (6) are respectively connected with the supporting column body (2) and the supporting bottom plate (25).

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