A mounting bracket for standard sections of tower crane panels

By designing an installation bracket for tower crane standard sections, and utilizing a base and support structure, the problems of overturning and friction during the installation of tower crane standard sections were solved, achieving accurate positioning, convenient operation, and paint protection, thereby improving the safety and efficiency of installation.

CN117400208BActive Publication Date: 2026-06-30THE SECOND CONSTRUCTION CO LTD OF CHINA CONSTRUCTION THIRD ENGINEERING BUREAU

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
THE SECOND CONSTRUCTION CO LTD OF CHINA CONSTRUCTION THIRD ENGINEERING BUREAU
Filing Date
2023-10-20
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

During the installation of tower crane section-type standard sections, existing technologies pose safety hazards due to repeated flipping and friction with the ground, leading to paint wear, scratches, and structural deformation.

Method used

Design an installation bracket for tower crane panel standard sections, including a base, an outer support structure, and an inner support structure, providing an installation position frame, and supporting the panel structure of the tower crane standard section through the outer support structure and the inner support structure to avoid repeated flipping and contact with the ground.

Benefits of technology

This method achieves accurate positioning and convenient operation of tower crane standard sections, protects the paint on the standard section structure, avoids paint wear and structural deformation, and improves the safety and efficiency of installation.

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Abstract

This invention relates to an installation bracket for a standard tower crane section, characterized by comprising a base, four external support structures I, four external support structures II, and four internal support structures. One external support structure I, one external support structure II, and one internal support structure are respectively installed at each of the four corners of the base. The internal support structures are fixed to the upper surface of the base, and the external support structures I and II are respectively fixed to the connecting lugs of the base. This invention offers advantages such as accurate positioning and ease of operation, while avoiding problems such as repeated flipping of the standard tower crane section structure and contact with the ground. The corresponding rubber gaskets also effectively prevent damage to the paint of the standard tower crane section structure during installation, providing good protection for the standard tower crane section structure.
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Description

Technical Field

[0001] This invention relates to the field of tower crane standard section installation technology, and specifically to a support base structure for installing tower crane panel standard sections. Background Technology

[0002] Tower cranes are an indispensable lifting equipment in the construction industry, and their tower body is assembled from multiple standard sections. Traditional standard sections are mainly divided into two categories: integral and segmented. Among them, segmented sections are more popular in the market due to their high safety and reliability, convenient transportation, convenient storage, and low maintenance costs.

[0003] Currently, during the installation of segmented standard sections, workers mainly assemble the segmented structures sequentially on-site using lifting equipment. Due to limitations at the construction site, individual segmented structures may need to be flipped multiple times and subjected to friction and collisions with the ground, resulting in wear and scratches on the paint of some structural surfaces. In severe cases, improper operation may also cause localized deformation of some standard section members, posing certain safety hazards to the tower's standard sections. Summary of the Invention

[0004] The technical problem to be solved by the present invention is to address the above-mentioned shortcomings by proposing an installation bracket for tower crane segmented standard sections. Through the integrated bracket base design, the segmented structure of the tower crane standard section can be placed on the base first and then connected in pairs, avoiding multiple flipping and moving during the installation of the segmented structure of the tower crane standard section, and has the function of standard and rapid installation.

[0005] The technical solution adopted by the present invention to solve the above-mentioned technical problems is as follows:

[0006] An installation bracket for a standard section of a tower crane is characterized by comprising a base, four external support structures I, four external support structures II, and four internal support structures. One external support structure I, one external support structure II, and one internal support structure are respectively installed at the four corners of the base. The internal support structures are fixed to the upper surface of the base, and the external support structures I and II are respectively fixed to the connecting lugs of the base.

[0007] The base consists of four slotted seats, four grid connectors and eight connecting ear plates. The slotted seats are square plate structures with grooves. The four slotted seats are connected in pairs by grid connectors to form a frame. A connecting ear plate is fixed on each of the two outer surfaces of each slotted seat.

[0008] The grid connector is made of square steel, and the slotted seat and connecting ear plate are both made of steel plate.

[0009] The external support structure I consists of a horizontal rod I, a vertical rod I, an inclined rod I, and a rubber pad I. The horizontal rod I, the vertical rod I, and the inclined rod I are connected and fixed to form a stable triangular frame structure. The rubber pad I is placed on the inner side of the top of the vertical rod I, and its width is equal to the width of the vertical rod I. The connection end of the horizontal rod I and the vertical rod I is fixed to the connecting lug plate of the slotted seat.

[0010] The horizontal bar I, vertical bar I, and diagonal bar I are all made of I-beams.

[0011] The external support structure II consists of a horizontal rod II, a vertical rod II, an inclined rod II, and a rubber pad II. The horizontal rod II, the vertical rod II, and the inclined rod II are connected and fixed to form a stable triangular frame structure. The rubber pad II is set on the inner side of the top of the vertical rod II, and its width is equal to half the width of the vertical rod II. The connection end of the horizontal rod II and the vertical rod II is fixed to the connecting lug plate of the slotted seat.

[0012] The horizontal bar II, vertical bar II, and diagonal bar II are all made of I-beams.

[0013] The internal support structure consists of an internal support pad, two stop rods, and two internal support rubber pads. The internal support pad is provided with internal support bolt holes. The bottom of the two stop rods is connected to the internal support pad. Each internal support rubber pad is set on the outer side of the top of one stop rod. The internal support pad is fixed to the upper surface of the base.

[0014] The inner support bolt hole is designed at one corner of the inner support pad, and the stop bar is fixed at the corner position opposite to the inner support bolt hole.

[0015] The stop bar is made of angle steel, and the inner support plate is made of steel plate.

[0016] The beneficial effects of this invention are as follows:

[0017] The base provides the installation frame for the standard tower crane section, and the external support structure I, external support structure II, and internal support structure support the standard tower crane section panel structure during the installation process. This has the advantages of accurate positioning and easy operation, while avoiding problems such as repeated flipping of the standard tower crane section panel structure and contact with the ground. The corresponding rubber gaskets can also effectively prevent the paint of the standard section panel structure from being damaged during installation, providing good protection for the standard section structure. Attached Figure Description

[0018] Figure 1 This is a three-dimensional structural schematic diagram of the present invention;

[0019] Figure 2 This is a top view of the structural structure of the present invention;

[0020] Figure 3 This is a three-dimensional structural diagram of the base of the present invention;

[0021] Figure 4 This is a three-dimensional structural schematic diagram of the external support structure I of the present invention;

[0022] Figure 5 This is a three-dimensional structural schematic diagram of the external support structure II of the present invention;

[0023] Figure 6 This is a three-dimensional structural diagram of the internal support structure of the present invention;

[0024] Figure 7-10 These are schematic diagrams illustrating the installation steps of this invention.

[0025] In the attached diagram: 0. Standard section structure of the tower crane; 1. Base; 1-1. Channel seat; 1-2. Grid connector; 1-3. Connecting ear plate; 2. External support structure I; 2-1. Horizontal bar I; 2-2. Vertical bar I; 2-3. Diagonal bar I; 2-4. Rubber gasket I; 2-5. Bolt hole I; 3. External support structure II; 3-1. Horizontal bar II; 3-2. Vertical bar II; 3-3. Diagonal bar II; 3-4. Rubber gasket II; 3-5. Bolt hole II; 4. Internal support structure; 4-1. Internal support pad; 4-2. Steel retaining bar; 4-3. Internal support rubber gasket; 4-4. Internal support bolt hole. Detailed Implementation

[0026] The present invention will be further described below with reference to the accompanying drawings and embodiments. In order to have a clearer understanding of the technical features, objectives and effects of the present invention, the specific embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

[0027] like Figure 1-2 As shown, the present invention provides an installation bracket for a standard section of a tower crane, characterized in that it includes a base 1, four external support structures I2, four external support structures II3, and four internal support structures 4. One external support structure I2, one external support structure II3, and one internal support structure 4 are respectively installed at the four corners of the base 1. The internal support structure 4 is fixed to the upper surface of the base 1, and the external support structures I2 and II3 are respectively fixed to the connecting lugs 1-3 of the base 1.

[0028] like Figure 3As shown, the base 1 consists of four slotted seats 1-1, four grid connectors 1-2, and eight connecting ear plates 1-3. The slotted seats 1-1 are square plate structures with grooves, and the built-in right-angled grooves facilitate the insertion of the bottom of the tower crane standard segment structure 0. The grid connectors 1-2 are made of square steel, and the slotted seats 1-1 and connecting ear plates 1-3 are all made of steel plates. During installation, according to the shape of the tower crane standard segment structure 0, the right-angled grooves of the slotted seats 1-1 face outwards, and the four slotted seats 1-1 are connected in pairs through the grid connectors 1-2 to form a frame. A connecting ear plate 1-3 is welded to each of the two outer surfaces of each slotted seat 1-1.

[0029] like Figure 4 As shown, the external support structure I2 consists of a horizontal rod I2-1, a vertical rod I2-2, a diagonal rod I2-3, and a rubber pad I2-4. The horizontal rod I2-1, vertical rod I2-2, and diagonal rod I2-3 are welded together to form a stable triangular frame structure. The rubber pad I2-4 is placed on the inner side of the top of the vertical rod I2-2, and its width is equal to the width of the vertical rod I2-2. The horizontal rod I2-1 and the vertical rod I2-2 are fixed to the connecting lug 1-3 of the slotted seat 1-1 through bolt holes I2-5 on the connecting end. The horizontal rod I2-1, vertical rod I2-2, and diagonal rod I2-3 are all made of I-beams.

[0030] like Figure 5 As shown, the external support structure II3 consists of a horizontal rod II3-1, a vertical rod II3-2, a diagonal rod II3-3, and a rubber pad II3-4. The horizontal rod II3-1, vertical rod II3-2, and diagonal rod II3-3 are welded together to form a stable triangular frame structure. The rubber pad II3-4 is placed on the inner top surface of the vertical rod II3-2, and its width is equal to half the width of the vertical rod II3-2. The horizontal rod I3-1 and the vertical rod I3-2 are fixed to the connecting lug 1-3 of the slotted seat 1-1 through bolt holes I3-5 on the connecting end. The horizontal rod II3-1, vertical rod II3-2, and diagonal rod II3-3 are all made of I-beams.

[0031] like Figure 6 As shown, the inner support structure 4 consists of an inner support plate 4-1, two stop rods 4-2, and two inner support rubber pads 4-3. An inner support bolt hole 4-4 is provided at one corner of the inner support plate 4-1. The bottoms of the two stop rods 4-2 are welded to the inner support plate 4-1 and are located at the corner opposite to the angle with the inner support bolt hole 4-4. Each inner support rubber pad 4-3 is placed on the outer top surface of one stop rod 4-2. The inner support plate 4-1 is fixed to the upper surface of the base 1-1. The stop rods 4-2 are made of angle steel, and the inner support plate 4-1 is made of steel plate.

[0032] like Figure 7As shown, firstly, the first external support structure I2 and the first external support structure II3 are connected to the connecting lugs 1-3 of the base 1 on surface A using bolts. Based on the intended placement of the tower crane standard section structure 0, external support structure I2 is positioned on the side of the tower crane standard section structure 0 with vertical rods, and external support structure II3 is on the side of the tower crane standard section structure 0 without vertical rods. Then, the tower crane standard section structure 0 is placed on the base 1 by hoisting, with its bottom inserted into the groove of the slotted seat 1-1, and the tower crane standard section structure 0 is slightly tilted outwards to ensure its weight is borne by external support structures I2 and II3. Then, an internal support structure 4 is connected to the base 1 using bolts to further support the tower crane standard section structure 0; subsequently, as... Figure 8 As shown, following the steps described above, the second external support structure I2 and the second external support structure II3 are connected to the connecting lugs 1-3 of the base 1 on side B using bolts. The standard segment structure 0 of the hoisting tower crane is placed on side B, and the internal support structure 4 on side B is installed. At this time, the operators connect the standard segment structure 0 of the tower crane on side A and side B using fastening bolts to form a stable frame structure; repeat the above procedures, as follows... Figure 9 , Figure 10 As shown, the standard section structure 0 of the tower crane is installed sequentially on sides C and D, forming a complete standard section structure. Finally, the top crossbar of the tower crane is installed, and the standard section is removed from the base 1 by hoisting.

[0033] This invention provides an installation frame for the standard tower crane section through the base 1, and relies on the external support structure I2, external support structure II3, and internal support structure 4 to support the standard tower crane section panel structure during the installation process. It has the advantages of accurate positioning and easy operation, while avoiding problems such as repeated flipping of the standard tower crane section panel structure and contact with the ground. The corresponding rubber gaskets can also effectively prevent the paint of the standard section panel structure from being damaged during installation, and have a good protective effect on the standard section structure.

[0034] The embodiments of the present invention have been described above with reference to the accompanying drawings. However, the present invention is not limited to the specific embodiments described above. The specific embodiments described above are merely illustrative and not restrictive. Those skilled in the art can make many other forms under the guidance of the present invention without departing from the spirit and scope of the claims. All of these forms are within the protection scope of the present invention.

Claims

1. A method for installing standard sections of tower crane panels, characterized in that: Step 1: Connect the first external support structure I and the first external support structure II to the connecting lugs of the base on side A using bolts; Depending on the intended placement, external support structure I is installed on the side of the tower crane standard section structure with vertical members, and external support structure II is installed on the side of the tower crane standard section structure without vertical members. Place the standard section structure of the tower crane on the base, and insert the bottom of the standard section structure into the groove of the slotted seat, so that the standard section structure of the tower crane is slightly tilted outward to ensure that its self-weight is borne by the outer support structure I and the outer support structure II. An internal support structure is connected to the base by bolts to assist in supporting the standard segmental structure of the tower crane; Step 2: Connect the second external support structure I and the second external support structure II to the base connecting lugs on side B using bolts as described above; place the standard segment structure of the hoisting tower crane on side B and install the internal support structure on side B; The standard sections of the tower crane on side A and side B are connected by fastening bolts to form a stable frame structure. Step 3: Repeat the above procedures to complete the installation of the tower crane standard section structure on sides C and D in sequence, so that the tower crane standard section structure forms a complete standard section structure; Step 4: Install the top crossbar of the tower crane and remove the standard section from the base.

2. An installation bracket for installing a tower crane segmental standard section using the method according to claim 1, characterized in that: It includes a base, four external support structures I, four external support structures II, and four internal support structures. One external support structure I, one external support structure II, and one internal support structure are respectively installed at the four corners of the base. The internal support structures are fixed to the upper surface of the base, and the external support structures I and II are respectively fixed to the connecting ear plates of the base.

3. The mounting bracket for a tower crane segmental standard section according to claim 2, characterized in that: The base consists of four slotted seats, four grid connectors and eight connecting ear plates. The slotted seats are square plate structures with grooves. The four slotted seats are connected in pairs by grid connectors to form a frame. A connecting ear plate is fixed on each of the two outer surfaces of each slotted seat.

4. The mounting bracket for tower crane standard sections according to claim 3, characterized in that: The grid connector is made of square steel, and the slotted seat and connecting ear plate are both made of steel plate.

5. The mounting bracket for tower crane standard sections according to claim 2, characterized in that: The external support structure I consists of a horizontal rod I, a vertical rod I, an inclined rod I, and a rubber pad I. The horizontal rod I, the vertical rod I, and the inclined rod I are connected and fixed to form a stable triangular frame structure. The rubber pad I is placed on the inner side of the top of the vertical rod I, and its width is equal to the width of the vertical rod I. The connection end of the horizontal rod I and the vertical rod I is fixed to the connecting ear plate of the slotted seat. The horizontal bar I, vertical bar I, and diagonal bar I are all made of I-beams.

6. The mounting bracket for tower crane standard sections according to claim 2, characterized in that: The external support structure II consists of a horizontal rod II, a vertical rod II, an inclined rod II, and a rubber pad II. The horizontal rod II, the vertical rod II, and the inclined rod II are connected and fixed to form a stable triangular frame structure. The rubber pad II is set on the inner side of the top of the vertical rod II, and its width is equal to half the width of the vertical rod II. The connection end of the horizontal rod II and the vertical rod II is fixed to the connecting lug plate of the slotted seat.

7. The mounting bracket for tower crane standard sections according to claim 6, characterized in that: The horizontal bar II, vertical bar II, and diagonal bar II are all made of I-beams.

8. The mounting bracket for tower crane standard sections according to claim 2, characterized in that: The internal support structure consists of an internal support pad, two stop rods, and two internal support rubber pads. The internal support pad is provided with internal support bolt holes. The bottom of the two stop rods is connected to the internal support pad. Each internal support rubber pad is set on the outer side of the top of one stop rod. The internal support pad is fixed to the upper surface of the base.

9. The mounting bracket for tower crane standard sections according to claim 8, characterized in that: The inner support bolt hole is designed at one corner of the inner support pad, and the stop bar is fixed at the corner position opposite to the inner support bolt hole.

10. The mounting bracket for tower crane standard sections according to claim 8, characterized in that: The stop bar is made of angle steel, and the inner support plate is made of steel plate.