CN216892209U - Tripod for breakwater retaining wall eagle angle structure construction - Google Patents

Abstract

The utility model relates to a tripod for breakwater retaining wall eagle angle structure construction, which comprises two tripod bodies arranged in parallel, wherein each tripod body comprises a main frame, a cross frame, an inclined strut and a blocking column, the cross frame is fixed on one side surface of the main frame, which is back to the breakwater retaining wall, the inclined strut is supported between the bottom of the cross frame and the lower end of the main frame, the blocking column is positioned at one end, away from the main frame, of the upper surface of the cross frame, a top frame is arranged between the tops of the main frames of the two tripod bodies, a plurality of connecting holes are formed in the top frame, and a wedge plate is arranged above the cross frame of the main frame; the anti-seismic breakwater comprises a breakwater retaining wall and is characterized by further comprising separated horizontal wailing, two ends of the horizontal wailing correspond to the wedge plates on the two main frames, and pull rod holes matched with the pull rods on the breakwater retaining wall are formed in the horizontal wailing. The utility model has good use effect on the breakwater retaining wall; by adopting the tripod support platform, the foundation treatment and scaffold erection behind the breakwater retaining wall are avoided, the construction procedures and period are reduced, and the construction efficiency is improved; reduces the investment of construction materials and improves the economic benefit.

Description

Tripod for breakwater retaining wall eagle angle structure construction

Technical Field

The utility model relates to the technical field of breakwater engineering equipment, in particular to a tripod for breakwater retaining wall eagle angle structure construction.

Background

The wave wall hawk angle structure is used as a construction measure, and is often used in breakwater engineering which resists big waves and needs to be bent back for diversion. The formwork installation and concrete pouring at the hawk corner are key processes and construction difficulties of the breakwater wave wall.

Usually, hawk corner part is as wave wall top structure, from reinforcement, template installation and concrete pouring work progress, all belongs to the aerial work, and the construction degree of difficulty is high, and safe risk is big. In the conventional method, a scaffold is erected from the bottom of the wave wall upwards, and a scaffold board is laid as a construction platform. The back cushion block stone of the wave-blocking wall has gaps and unevenness, and is greatly influenced by the foundation condition and the operable space behind the wall in construction, so the soil is firstly padded and leveled and compacted before the scaffold is erected, and after the scaffold is dismantled after the scaffold is finished, the soil is replaced by the cushion block stone, so that the subsequent facing blocks such as twisted Chinese character blocks and the like are installed, and the construction period is long.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provides a tripod for the construction of an eagle angle structure of a breakwater retaining wall.

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

a tripod for breakwater retaining wall eagle angle structure construction comprises two tripod bodies arranged in parallel, wherein each tripod body comprises a main frame, a cross frame, an inclined strut and a blocking column, the main frame is a support consistent with the breakwater retaining wall inclination, the cross frame is fixed on a side face of the main frame, which faces away from the breakwater retaining wall, the inclined strut is supported between the bottom of the cross frame and the lower end of the main frame, the blocking column is positioned at one end, away from the main frame, of the upper surface of the cross frame, a top frame is arranged between the tops of the main frames of the two tripod bodies, a plurality of connecting holes for connecting with an eagle angle template are formed in the top frame, and a wedge plate is arranged above the cross frame by the main frame;

the device further comprises separated horizontal wails, and pull rod holes matched with pull rods on the breakwater retaining wall are formed in the horizontal wails.

And a supporting cross beam is arranged between the two main frames of the two tripod bodies and is positioned at the wedge plate and used for supporting on the pull rod.

Still including setting up the auxiliary connection subassembly on two tripod bodies to and the supplementary safe subassembly of two disconnect-types, supplementary safe subassembly is installed on the auxiliary connection subassembly of the tripod body that corresponds.

The auxiliary connecting assembly comprises a first opening formed in the blocking column and a connecting plate arranged at the upper end of the main frame, and a second opening is formed in the connecting plate.

Supplementary safety subassembly includes an auxiliary column, an auxiliary diagonal bracing, the auxiliary column lower extreme is equipped with first butt joint hole, and during the use, first butt joint hole and first trompil bolted connection, the one end of auxiliary diagonal bracing articulates at the middle part of auxiliary column and other one end is equipped with the second butt joint hole, and during the use, the second butt joint hole is connected with second trompil bolted connection.

The diameter of the pull rod hole is 32 mm.

The wedge plate is of a right-angle trapezoidal structure, wherein the bevel edge is attached to the main frame, and the vertical edge is attached to the horizontal wall.

The utility model has the beneficial effects that: the utility model has good use effect on the breakwater retaining wall; the triangular support platform is adopted, so that the foundation treatment and scaffold erection behind the breakwater retaining wall are avoided, the construction processes and the construction period are reduced, and the construction efficiency is improved; reduces the investment of construction materials and improves the economic benefit.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a perspective view of the present invention with the auxiliary safety assembly omitted;

FIG. 3 is a front view of the present invention with the secondary safety assembly omitted;

FIG. 4 is a state diagram of the present invention in use;

FIG. 5 is an enlarged view of A in FIG. 4;

in the figure: 1-main frame; 2-a transverse frame; 3-bracing; 4-blocking the barrier post; 5-top frame; 6-connecting holes; 7-wedge plate; 8-horizontal wailing; 9-a tie rod hole; 10-a supporting beam; 11-a first opening; 12-a connecting plate; 13-a second opening; 14-auxiliary upright posts; 15-auxiliary inclined struts; 16-a first docking aperture; 17-a second docking hole; 18-breakwater retaining wall; 19-hawk corner template; 20-a pull rod;

the following detailed description will be made in conjunction with embodiments of the present invention with reference to the accompanying drawings.

Detailed Description

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:

as shown in fig. 1 to 5, a tripod for breakwater retaining wall eagle angle structure construction comprises two tripod bodies arranged in parallel, each tripod body comprises a main frame 1, a cross frame 2, an inclined strut 3 and a blocking pillar 4, the main frame 1 is a support with the same inclination as the breakwater retaining wall 18, the cross frame 2 is fixed on a side surface of the main frame 1 opposite to the breakwater retaining wall 18, the inclined strut 3 is supported between the bottom of the cross frame 2 and the lower end of the main frame 1, the blocking pillar 4 is positioned at one end of the upper surface of the cross frame 2 away from the main frame 1, a top frame 5 is arranged between the tops of the main frames 1 of the two tripod bodies, a plurality of connecting holes 6 for connecting with an eagle angle template 19 are arranged on the top frame 5, and a wedge plate 7 is arranged above the cross frame 2 of the main frame 1;

the main frame 1, the cross frame 2, the inclined strut 3 and the blocking column 4 are welded by UPN80 channel steel; when the cross frame 2 is used, a scaffold board is laid on the cross frame to serve as a construction operation platform.

The top frame 5 uses L80 × 8 angle steel as a formwork support.

The device is characterized by further comprising separated horizontal wails 8, wherein the horizontal wails 8 are UPN80 channel steel, and pull rod holes 9 matched with pull rods 20 on the breakwater retaining wall 18 are formed in the horizontal wails 8.

A supporting cross beam 10 is arranged between two main frames 1 of the two tripod bodies, the supporting cross beam 10 adopts a UPN80 channel steel, the supporting cross beam 10 is fully welded with the main frames 1, and the supporting cross beam 10 is located at a wedge plate 7 and used for being supported on a pull rod 20.

Still including setting up the auxiliary connection subassembly on two tripod bodies to and the supplementary safe subassembly of two disconnect-types, supplementary safe subassembly is installed on the auxiliary connection subassembly of the tripod body that corresponds.

The auxiliary connecting assembly comprises a first opening 11 formed in the blocking column 4 and a connecting plate 12 arranged at the upper end of the main frame 1, and the connecting plate 12 is provided with a second opening 13.

Supplementary safety subassembly includes an auxiliary column 14, an auxiliary bracing 15, 14 lower extremes of auxiliary column are equipped with first butt joint hole 16, and during the use, first butt joint hole 16 and 11 bolted connection of first trompil, the one end of auxiliary bracing 15 articulates at the middle part of auxiliary column 14 and other one end is equipped with second butt joint hole 17, and during the use, second butt joint hole 17 and second trompil 13 bolted connection.

The diameter of the pull rod hole 9 is 32 mm.

The wedge plate 7 is of a right-angle trapezoidal structure, wherein the bevel edge is attached to the main frame 1, and the vertical edge is attached to the horizontal wailing 8.

The working principle of the utility model is as follows: the top of the breakwater retaining wall 18 is provided with a pull rod 20 of M24 through a preformed hole, and a tripod support platform is longitudinally arranged along the wall body, so that two construction difficulties of template support and operation platform arrangement are solved at one time; because the tripod supports are locked and fixed by the pull rod 20 at the top of the wall body, the limitation of the operation space is avoided, the treatment and the erection of a scaffold for the foundation after the wall are not needed, the construction process and the period are reduced, the construction efficiency is improved, the investment of construction materials (the scaffold and the backfill for the foundation treatment) is reduced, and the economic benefit is improved.

The working process of the utility model is as follows:

reserving a sleeve at the top of the wall body:

in the construction process of the breakwater retaining wall 18, a sleeve is reserved at a proper position below a top construction joint and is used as a counter-through hole for a pull rod 20 for mounting and locking a subsequent main tripod.

Placing and fixing the tripod:

a tripod is placed on a pull rod 20 of a wall body by a crane, a supporting cross beam 10 is firstly used as a carrying pole to be placed above the pull rod 20, then a horizontal wailing 8 is penetrated through the pull rod 20, a main tripod is reliably fixed at the top of the wall body by a locking nut, a top frame 5 is connected with an eagle angle template 19, and thus the supporting frame of the eagle angle side die is formed.

Lay scaffold board, install supplementary safety subassembly:

and a scaffold board and an auxiliary safety component are laid above the transverse frame 2 to form a construction operation platform, and a support system at the upper part of the eagle angle template 19 is also formed.

The utility model has been described in connection with the accompanying drawings, it is to be understood that the utility model is not limited to the specific embodiments disclosed, but is intended to cover various modifications, adaptations or uses of the utility model, and all such modifications and variations are within the scope of the utility model.

Claims (7)

1. A tripod for breakwater retaining wall eagle angle structure construction is characterized by comprising two tripod bodies which are arranged in parallel, each tripod body comprises a main frame (1), a cross frame (2), an inclined strut (3) and a blocking pillar (4), the main frame (1) is a support with the same gradient as the breakwater retaining wall (18), the cross frame (2) is fixed on one side surface of the main frame (1) back to the breakwater retaining wall (18), the inclined strut (3) is supported between the bottom of the transverse frame (2) and the lower end of the main frame (1), the blocking columns (4) are positioned at one end of the upper surface of the transverse frame (2) far away from the main frame (1), a top frame (5) is arranged between the tops of the main frames (1) of the two tripod bodies, a plurality of connecting holes (6) for connecting the eagle angle template (19) are arranged on the top frame (5), a wedge plate (7) is arranged above the cross frame (2) of the main frame (1);

the device is characterized by further comprising separated horizontal wails (8), wherein pull rod holes (9) which are installed in a matched mode with pull rods (20) on the breakwater retaining wall (18) are formed in the horizontal wails (8).

2. A tripod for breakwater eagle angle structure construction according to claim 1, wherein a supporting beam (10) is provided between the two main frames (1) of the two tripod bodies, said supporting beam (10) being located at the wedge plate (7) for supporting on the tie rod (20).

3. The breakwater retaining wall eagle angle structure tripod of claim 2, further comprising an auxiliary connection assembly provided on both tripod bodies, and two separate auxiliary safety assemblies installed on the auxiliary connection assembly of the corresponding tripod body.

4. The tripod for breakwater eagle angle structure construction according to claim 3, wherein the auxiliary connection assembly comprises a first opening (11) opened on the retaining post (4) and a connection plate (12) provided on the upper end of the main frame (1), the connection plate (12) being provided with a second opening (13).

5. A tripod for breakwater eagle angle structure construction according to claim 4, wherein the auxiliary safety assembly comprises an auxiliary column (14) and an auxiliary diagonal brace (15), the lower end of the auxiliary column (14) is provided with a first butt hole (16), when in use, the first butt hole (16) is in bolt connection with the first opening (11), one end of the auxiliary diagonal brace (15) is hinged in the middle of the auxiliary column (14) and the other end is provided with a second butt hole (17), when in use, the second butt hole (17) is in bolt connection with the second opening (13).

6. The tripod for breakwater eagle angle structure construction according to claim 5, wherein the diameter of the draw bar hole (9) is 32 mm.

7. The triangular frame for breakwater wall eagle angle structure construction according to claim 6, wherein the wedge plate (7) is a right trapezoid structure, wherein a bevel edge is attached to the main frame (1), and a vertical edge is attached to an wail (8).

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