Intelligent control detection and pushing mechanism

By using an intelligently controlled detection and pushing mechanism, and employing a level detection device and a hydraulic power source, the protruding rafters of the precast wall are automatically adjusted. This solves the problem of difficult adjustment of protruding rafters during the installation of precast walls, achieving an efficient and safe installation process and improving the overall strength and aesthetics of the building structure.

CN224432044UActive Publication Date: 2026-06-30SHENZHEN HUALIT HOISTING MASCH EQUIP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN HUALIT HOISTING MASCH EQUIP CO LTD
Filing Date
2025-06-21
Publication Date
2026-06-30

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Abstract

The utility model discloses an intelligent control's detection push mechanism, this detection push mechanism includes the compression part, be located in the level instrument detection device of compression part pressure end, with the power part of this compression part drive connection. The compression part includes the compression arm, and this compression arm is L type structural member, and its first end rotatable connection is in the support seat, and is provided with the ear plate in the outer right angle region of compression arm near compression arm first end and is in the compression arm, the second end of compression arm is connected level instrument detection device perpendicularly downward. The utility model detection push mechanism can improve installation accuracy: through the real -time monitoring wall body level state of level instrument detection device, can accurate adjustment prefabricated wall's flatness and perpendicularity, effectively avoid the problem such as gap, misplacement of splicing, significantly improve the overall structural strength and aesthetic property of building.
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Description

Technical Field

[0001] This utility model relates to equipment, specifically to an intelligent control detection and pressing mechanism. Background Technology

[0002] With the rapid development of industrialized construction, precast walls are widely used in prefabricated buildings due to their advantages such as high construction efficiency and stable quality. However, the installation of precast walls still faces many technical bottlenecks. Traditional installation methods rely heavily on manual labor in conjunction with cranes or forklifts. The low accuracy of manual measurement and positioning during installation makes it difficult to guarantee the flatness and verticality of the wall, leading to gaps and misalignments at joints, which seriously affect the overall structural strength and aesthetics of the building. Furthermore, manual operation is labor-intensive, requiring workers to work at heights or in confined spaces for extended periods, posing significant safety hazards, and resulting in low installation efficiency, making it difficult to meet the demands of large-scale industrialized construction.

[0003] While some existing automated installation equipment can reduce reliance on manual labor to some extent, it suffers from drawbacks such as complex structure, high cost, and poor versatility. For example, the equipment is not adaptable to precast walls of different specifications, lacks a real-time feedback and adjustment mechanism, and cannot dynamically adjust installation parameters according to the actual condition of the wall, leading to problems such as wall damage and substandard installation accuracy during the installation process.

[0004] like Figure 1 As shown, Figure 1 This is a precast wall 9 used in the Shenzhen Metro construction project. The upper part of the back of the precast wall 9 has a protruding rafter 92. The lower surface of the protruding rafter 92 is a slope, and its upper surface has two planes. A step is formed between the two planes. Two lifting rings are installed on the top surface of the precast wall.

[0005] The technical problem to be solved is how to adjust the protruding rafters 92 to a horizontal state when installing the precast wall 9. Utility Model Content

[0006] In view of the shortcomings of the existing technology, the technical problem to be solved by this utility model is to provide an intelligent control detection and pushing mechanism. The purpose of designing this detection and pushing mechanism is to efficiently adjust the rafter to a horizontal state in order to improve installation efficiency.

[0007] To solve the above technical problems, this utility model provides the following solution: An intelligent control detection and pressing mechanism of this utility model, comprising:

[0008] Clamping part;

[0009] A level detection device is installed at the pressing end of the clamping part;

[0010] The power unit is driven and connected to the clamping part;

[0011] The clamping part includes a clamping arm, which is an L-shaped structural component. Its first end is rotatably connected to the support base. An ear plate is provided near the first end of the clamping arm and in the right-angle region outside the clamping arm. The second end of the clamping arm is vertically connected to the level detection device.

[0012] The power unit has a power source and a push rod driven by the power source. The power source is fixed to the support base by a mounting base. The outer end of the push rod is hinged to the ear plate. The power source is inclined.

[0013] The level detection device includes:

[0014] The suspension bracket plate is vertically installed on the lower side of the end of the clamping arm.

[0015] The leveling instrument is suspended from the suspension bracket plate by four chain spring bars, each chain spring bar being composed of multiple second spring bars connected end to end;

[0016] The buffer has one end abutting against and being defined by the suspension bracket plate, and its second end abutting against and being defined by the level detector.

[0017] Furthermore, the power source is a hydraulic power source.

[0018] Furthermore, the ear plate is perpendicular to the outer right angle of the clamping arm.

[0019] Furthermore, the first end of the clamping arm is mounted to the support base via a pivot.

[0020] Furthermore, the buffer is a spring-shaped structure made of flat, rigid metal.

[0021] Furthermore, a displacement sensor is provided on the housing of the power source.

[0022] Compared with the prior art, the beneficial effects of this utility model are:

[0023] 1. The detection and pressing mechanism of this utility model can improve installation accuracy: by monitoring the horizontal status of the wall in real time through the level detection device, the flatness and verticality of the prefabricated wall can be accurately adjusted, effectively avoiding gaps and misalignments at the splicing points, and significantly improving the overall structural strength and aesthetics of the building.

[0024] 2. The detection and pressing mechanism of this utility model can improve installation efficiency: the automated pressing action reduces the time for manual measurement and adjustment, greatly improves the installation efficiency of precast walls, and meets the needs of large-scale industrial construction.

[0025] 3. The detection and pressing mechanism of this utility model enhances safety: it reduces the long-term operation of manual labor at heights or in confined spaces, reduces labor intensity and safety hazards, and ensures the personal safety of operators. Attached Figure Description

[0026] Figure 1 This is a structural diagram of the prefabricated wall of this utility model.

[0027] Figure 2 This is a structural diagram of the detection and pressing mechanism of this utility model.

[0028] Figure 3 This is a diagram showing the state of the detection and pressing mechanism of this utility model after it is pressed against the protruding rafter.

[0029] Figure 4 This is a structural diagram of the detection and pressing mechanism of this utility model installed on the support base.

[0030] Figure 5 This is a structural diagram of the level testing device of this utility model.

[0031] Figure 6 This is a structural diagram of the buffer of this utility model.

[0032] The following components are labeled in the attached diagram: precast wall 9, protruding rafter 92, support beam 100, power source 101, push rod 102, clamping arm 103, level detection device 104, mounting base 105, rotating shaft 106, displacement sensor 107, support base 200, ear plate 1031, suspension bracket plate 1041, buffer 1042, chain spring bar 1043, and level detector 1044. Detailed Implementation

[0033] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments, so that the advantages and features of the present utility model can be more easily understood by those skilled in the art, thereby making a clearer and more definite definition of the protection scope of the present utility model. Obviously, the embodiments described in this utility model are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of the present utility model.

[0034] Furthermore, the technical features involved in the different embodiments of this utility model described below can be combined with each other as long as they do not conflict with each other.

[0035] Example 1: The specific structure of this utility model is as follows:

[0036] Please refer to the appendix. Figure 1-5The present invention relates to an intelligent control detection and pressing mechanism, which includes:

[0037] Clamping part;

[0038] A level detection device 104 is installed at the pressing end of the clamping part;

[0039] A power unit that is driven and connected to the clamping part.

[0040] The level detection device 104 includes:

[0041] The suspension bracket plate 1041 is vertically installed on the lower side of the end of the clamping arm 103.

[0042] The level measuring instrument 1044 is suspended from the suspension bracket plate 1041 by four chain spring bars 1043, and the chain spring bars 1043 are composed of multiple second spring bars connected end to end.

[0043] The buffer 1042 has one end abutting against and being confined by the suspension bracket plate 1041, and its second end abutting against and being confined by the level detector 1044. The buffer 1042 is a spring-shaped structure made of flat rigid metal. The structure of the buffer 1042 of this invention makes the buffering direction stable and less prone to displacement.

[0044] The clamping part includes a clamping arm 103, which is an L-shaped structure. Its first end is rotatably connected to the support base 200. An ear plate 1031 is provided near the first end of the clamping arm 103 and in the outer right-angle region of the clamping arm 103. The second end of the clamping arm 103 is vertically connected to the level detection device 104. The ear plate 1031 is perpendicular to the outer right angle of the clamping arm 103. The ear plate 1031 and the first end of the clamping arm 103 form a distance, which is sufficient for the power unit to push the clamping arm 103 to rotate by an angle, so that the pressing end of the clamping part can press horizontally against the rafter 92.

[0045] The first end of the clamping arm 103 is mounted on the support base 200 via a rotating shaft 106.

[0046] The level detection device 104 continuously detects the levelness and adjusts it continuously through the clamping part to make the upper surface of the rafter 92 reach a level state.

[0047] The power unit has a power source 101 and a push rod 102 drivenly connected to the power source 101. The power source 101 is fixed to the support base 200 by a mounting base 105. The outer end of the push rod 102 is hinged to the ear plate. The power source 101 is inclined. The power source 101 is a hydraulic power source. Specifically, the hydraulic power source adopts an oil pressure power source.

[0048] The power source 101 is equipped with a displacement sensor 107 on its housing. The purpose of setting the displacement sensor 107 is to set an accurate pushing distance according to the actual situation and to ensure that the detection data has a good reference basis.

[0049] In actual use, the power source 101 drives the push rod 102 to move, and the push rod 102 drives the ear plate 1031, causing the clamping arm 103 to rotate around the rotating shaft 106, pressing the pressure end of the clamping part onto the rafter 92. The level detection device 104 continuously detects the levelness of the rafter 92. When it detects that it is not level, the power unit adjusts the angle of the clamping arm 103 according to the detection result. Through continuous adjustment by the clamping part, the upper surface of the rafter 92 is made to reach a level state.

[0050] In summary, the detection and pressing mechanism of this utility model can improve installation accuracy: by monitoring the horizontal state of the wall in real time through the level detection device, the flatness and verticality of the prefabricated wall can be accurately adjusted, effectively avoiding problems such as gaps and misalignment at the splicing points, and significantly improving the overall structural strength and aesthetics of the building.

[0051] This utility model's detection and pressing mechanism can improve installation efficiency: the automated pressing action reduces the time for manual measurement and adjustment, greatly improving the installation efficiency of precast walls and meeting the needs of large-scale industrial construction.

[0052] This utility model enhances safety by reducing the need for manual labor in high-altitude or confined spaces for extended periods, thus reducing labor intensity and safety hazards and ensuring the personal safety of workers.

[0053] The above description is only a preferred embodiment of the present utility model and does not limit the patent scope of the present utility model. Any equivalent structural or procedural transformations made based on the contents of the present utility model specification and drawings, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of the present utility model.

Claims

1. A smart controlled detection and pushing mechanism, characterized in that, The testing and pressing mechanism includes: Clamping part; A level detection device (104) is provided at the pressing end of the pressing part. The power unit is driven and connected to the clamping part; The clamping part includes a clamping arm (103), which is an L-shaped structural component. Its first end is rotatably connected to the support base (200). An ear plate (1031) is provided near the first end of the clamping arm (103) and in the right-angle region outside the clamping arm (103). The second end of the clamping arm (103) is vertically connected downward to the level detection device (104). The power unit has a power source (101) and a push rod (102) driven and connected to the power source (101). The power source (101) is fixed to the support base (200) by a mounting base (105). The outer end of the push rod (102) is hinged to the ear plate. The power source (101) is inclined. The level detection device (104) includes: The suspension bracket plate (1041) is vertically installed on the lower side of the end of the clamping arm (103). The level measuring instrument (1044) is suspended from the suspension bracket plate (1041) by four chain spring bars (1043), and the chain spring bars (1043) are composed of multiple second spring bars connected end to end; The buffer (1042) abuts against and is defined at one end of the suspension bracket plate (1041), and its second end abuts against and is defined against the level detector (1044).

2. The smart controlled detection and pushing mechanism according to claim 1, wherein, The power source (101) is a hydraulic power source.

3. The smart controlled detection and pushing mechanism according to claim 1, wherein, The ear plate (1031) is perpendicular to the outer right angle of the clamping arm (103).

4. The smart controlled detection and pushing mechanism according to claim 1, wherein, The first end of the clamping arm (103) is mounted on the support base (200) via a pivot (106).

5. The smartly controlled detection and pushing mechanism according to claim 1, wherein, The buffer (1042) is a spring-shaped structure made of flat, rigid metal.

6. The smartly controlled detection and pushing mechanism according to claim 1, wherein, The power source (101) is equipped with a displacement sensor (107) on its housing.