Intelligent construction site mobile intelligent shelter substation and building construction management system

By designing a rotatable positioning plate and fixing components in the mobile smart construction site substation, the problem of information collection equipment being difficult to fix due to uneven installation surfaces was solved, thus achieving stable equipment installation and effective management of the construction site.

CN224498026UActive Publication Date: 2026-07-14YINCHUAN POWER SUPPLY COMPANY OF STATE GRID NINGXIA ELECTRIC POWER

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YINCHUAN POWER SUPPLY COMPANY OF STATE GRID NINGXIA ELECTRIC POWER
Filing Date
2025-08-20
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

In existing technologies, information collection equipment at construction sites is difficult to fix due to uneven installation surfaces, which can lead to equipment damage and affect the unified management of the construction site.

Method used

A mobile intelligent service cabin substation for smart construction sites is designed. By setting rotatable positioning plates and fixing components on the support components, the support area is expanded, and the second support surface of the fixing components can make smooth contact with the installation surface to achieve reliable fixation.

Benefits of technology

This solved the problem of damage to information collection equipment caused by unstable support, ensured stable installation of the equipment on uneven sites, and improved the management efficiency of the construction site.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application relates to a mobile intelligent service shelter substation for a smart construction site and a building construction management system, and belongs to the technical field of building construction management devices. The mobile intelligent service shelter substation for the smart construction site comprises a frame body and an information acquisition module arranged on the frame body, the frame body comprises a main shaft, a supporting leg and a mounting assembly, the mounting assembly comprises a supporting piece, a positioning plate and a fixing piece, the lower end of the supporting piece is provided with a first supporting surface, the positioning plate rotates around the supporting piece, the lower end of the fixing piece is provided with a second supporting surface, on one hand, the supporting area is enlarged, and the mounting surface of the site can be uneven, on the other hand, the positioning plate is rotated, the second supporting surface at the lower end of the fixing piece can stably contact the mounting surface, the fixing piece can be firmly fixed, and the technical problems that the mounting surface is uneven, the on-site information acquisition equipment is not easy to fix or is not firmly fixed, and the equipment is damaged are solved.
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Description

Technical Field

[0001] This application belongs to the technical field of construction management devices, and specifically relates to a mobile intelligent service cabin substation for smart construction sites and a construction management system. Background Technology

[0002] A construction management system encompasses a comprehensive oversight of all construction processes, including but not limited to construction process control systems, construction safety and environmental monitoring systems, construction safety management systems, personnel management systems, and dispatch systems. Typically, it consists of a central control room system and display system, along with on-site data acquisition equipment. However, due to the complex geographical conditions and environment of construction sites, uneven installation surfaces make it difficult to securely fix the data acquisition equipment, potentially leading to damage and hindering unified management of the construction site. Utility Model Content

[0003] Based on the aforementioned technical needs, this application provides a mobile intelligent service cabin substation for smart construction sites to solve the technical problems existing in the prior art, such as uneven installation surfaces, difficulty in fixing or insecure fixing of on-site information collection equipment, which can easily cause equipment damage.

[0004] This application also provides a building construction management system.

[0005] To achieve the above objectives, the technical solution of this application is as follows:

[0006] A mobile intelligent construction site control unit includes a frame and an information acquisition module mounted on the frame. The frame includes a main shaft, at least one support leg, and an installation assembly. The upper end of the support leg is connected to the main shaft, and the installation assembly is located at the lower end of the support leg. The installation assembly includes a support member, a positioning plate, and a fixing member. The upper end of the support member is connected to the support leg, and the lower end of the support member has a first support surface. One end of the positioning plate is sleeved on the support member, and the positioning plate can rotate about the support member as an axis. The fixing member is located at the end of the positioning plate away from the support member, and the lower end of the fixing member has a second support surface.

[0007] Preferably, the first support surface and the second support surface are disposed on different planes.

[0008] Preferably, the positioning plate has a fixing hole, and the fixing member can move horizontally along the fixing hole.

[0009] Preferably, the fixing hole is one of the following shapes: elongated, circular, or elliptical.

[0010] Preferably, the support legs are three legs, which form a triangular support.

[0011] Preferably, the upper end of the support member is rotatably connected to the support leg.

[0012] Preferably, the main shaft is a vertical pole or a lifting pole with a lifting function.

[0013] Preferably, a counterweight assembly is provided at the lower end of the spindle.

[0014] Preferably, the information acquisition module is one or more of the following: a camera module, a temperature and humidity sensing module, a dust detection module, a wind detection module, a light detection module, a harmful gas detection module, and an audible and visual early warning module.

[0015] A construction management system includes a portable smart construction site digital command and control center and at least one mobile smart construction site substation, wherein the mobile smart construction site substation is capable of communicating with the portable smart construction site digital command and control center.

[0016] By adopting the above technical solution, compared with the prior art, this application has at least the following beneficial effects:

[0017] In this application, the positioning plate can rotate around the support member as an axis. A first support surface is provided at the lower end of the support member, and a second support surface is provided at the lower end of the fixing member. On the one hand, the support area is expanded, making it suitable for uneven installation surfaces. On the other hand, rotating the positioning plate causes the fixing member to rotate around the support member, and the second support surface at the lower end of the fixing member can rotate to a relatively flat installation surface, so that the second support surface makes stable contact with the installation surface and the fixing member can be reliably supported. This ensures that the frame of the mobile smart construction site intelligent service cabin substation is reliably supported, solving the technical problem of damage to the on-site information collection equipment installed on the frame due to unstable support. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the structure of a mobile smart construction site substation in one embodiment.

[0019] Figure 2 for Figure 1 A magnified view of a portion of the installed components.

[0020] Figure 3 This is a schematic diagram of the equipment connection relationship of a building construction management system in one embodiment.

[0021] The diagram shows: a mobile smart construction site control unit substation 10, a frame 100, a main shaft 110, outriggers 120, a sliding sleeve 130, a connecting rod 140, a limiting component 150, a fastener 160, an installation component 170, a support component 171, a first support surface 172, a positioning plate 173, a fixing hole 174, a fixing component 175, a second support surface 176, an information acquisition module 200, a portable smart construction site digital command and control center 20, a display component 30, and a mobile on-site monitoring component 40. Detailed Implementation

[0022] It should be noted that, unless otherwise specified, the embodiments and features described in this application can be combined with each other. The technical solutions of this application will be further described below with reference to the accompanying drawings of the embodiments, and this application is not limited to the following specific implementation methods.

[0023] It should be understood that the same or similar reference numerals in the accompanying drawings of the embodiments correspond to the same or similar components. In the description of this application, it should be understood that if terms such as "upper," "lower," "inner," "outer," "left," "right," "front," "rear," "top," and "bottom" indicate directions or positional relationships based on the orientations or positional relationships shown in the accompanying drawings, they are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the structure or component referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, the terms describing positional relationships in the accompanying drawings are for illustrative purposes only and should not be construed as limitations on this patent. Those skilled in the art can understand the specific meaning of the above terms according to the specific circumstances.

[0024] The following is in conjunction with the appendix Figure 1 To be continued Figure 3 The present application will be further described in detail with reference to specific embodiments.

[0025] A mobile smart construction site substation 10 includes a frame 100 and an information acquisition module 200 mounted on the frame 100. The frame 100 serves as a supporting component for the mobile smart construction site substation, and its shape and installation method are not limited. The type of information acquisition module 200 is also not limited and can be set according to the needs of the construction site.

[0026] Specifically, the frame 100 includes a main shaft 110, a support leg 120, and a mounting assembly 170. The upper end of the support leg 120 is connected to the main shaft 110, and the mounting assembly 170 is disposed at the lower end of the support leg 120. The mounting assembly 170 includes a support member 171, a positioning plate 173, and a fixing member 175. The upper end of the support member 171 is connected to the support leg 120, and the lower end of the support member 171 is provided with a first support surface 172. One end of the positioning plate 173 is sleeved on the support member 171, and the positioning plate 173 can rotate about the support member 171. The fixing member 175 is disposed at the end of the positioning plate 173 away from the support member 171, and the lower end of the fixing member 175 is provided with a second support surface 176.

[0027] The main shaft 110 serves as a supporting component, and its shape and arrangement are not limited; it can be cylindrical, square, etc., and can be a vertical pole or a lifting rod with a lifting function, etc. The outriggers 120 also serve as supporting components, and their number, shape, and arrangement are not limited; they can be one or multiple outriggers, cylindrical, square, etc., and can be movably connected to the main shaft 110 or fixedly connected to it; they can be straight rods or retractable components. The mounting assembly 170 serves as a fixing component, and the connection method between the upper end of the support member 171 in the assembly and the outrigger 120 is not limited; it can be fixedly connected or rotatably connected. The positioning plate 17 in the assembly... The quantity and shape of the 3 and the fasteners 175 are not limited and can be set according to the needs of the construction site. There can be one or more, and they can be circular, square, polygonal, etc. The first support surface 172 and the second support surface 176 are in contact with the mounting surface. Depending on the flatness of the mounting surface, they can be set on the same plane or different planes. For example, when rotating the positioning plate 173, if the second support surface 176 at the lower end of the fastener 175 still cannot find a mounting surface on the same plane as the first support surface 172, the height of the second support surface 176 can be adjusted by adding or removing shims on the fastener 175 so that the second support surface 176 is not on the same plane as the first support surface 172 and makes stable contact with the mounting surface.

[0028] In the specific implementation of this application, the core technical concept is to use the mounting component 170 at the lower end of the mobile intelligent command and control substation support leg 120 to form a second support surface 176. On the one hand, this expands the support area, and on the other hand, it allows the second support surface 176 to make stable contact with the mounting surface, so that the mobile intelligent command and control substation can be securely fixed. Therefore, the mobile intelligent command and control substation can be applied to complex sites with uneven mounting surfaces, and after the construction at one construction site is completed, it can be moved together with the relocatable smart construction site digital command and control cabin 20 to be used in the next newly built construction site.

[0029] When installing the mobile intelligent service shelter substation 10 for smart construction sites, first install the outriggers 120 and fix at least one support member 171, ensuring that at least one first support surface 172 is in stable contact with the mounting surface. At this point, the second support surface 176 may not be in stable contact with the mounting surface. By rotating the positioning plate 173, the fixing member 175 is rotated around the support member 171 to find a flat mounting surface for stable contact and fixation. If a mounting surface on the same plane as the first support surface 172 cannot be found, the height of the second support surface 176 can be adjusted by adding or removing shims on the fixing member 175, so that the second support surface 176 is not on the same plane as the first support surface 172 and is in stable contact with the mounting surface, or so that the fixing member 175 can be securely supported. Then install the main shaft 110 and the information acquisition module 200 to complete the installation of the mobile intelligent service shelter substation. By setting a rotatable positioning plate 173, the contact range between the outriggers 120 and the mounting surface is expanded, overcoming the problem of inconvenient installation caused by uneven mounting surfaces.

[0030] Preferably, the positioning plate 173 has a fixing hole 174, the shape of which is not limited, and can be elongated, circular, elliptical, etc. The fixing member 175 can move along the length or width of the fixing hole 174 or in any direction to further expand the contact range between the fixing member 175 and the ground. After the positioning plate 173 is rotated and the direction of the fixing member 175 is determined, the fixing member 175 continues to move within the fixing hole 174 to accurately determine the contact position between the fixing member 175 and the mounting surface, so that the fixing member 175 can be securely fixed.

[0031] Preferably, the fixing hole 174 is elongated.

[0032] In some embodiments, the support 171 is hinged to the lower end of the leg 120.

[0033] Preferably, the outrigger 120 is movably connected to the main shaft 110.

[0034] Preferably, the spindle 110 is a lifting rod with lifting function.

[0035] In a preferred embodiment, for ease of on-site installation and dismantling, the outrigger 120 preferably has three legs, forming a triangular support. Preferably, the triangular support is foldable for easy carrying. Preferably, each leg 120 of the triangular support is extendable for easy carrying; the extension method is not limited.

[0036] In one specific embodiment, the mobile intelligent construction site substation 10 includes a frame 100 and an information acquisition module 200 mounted on the frame 100. The frame 100 includes a main shaft 110, support legs 120, and mounting components 170. The main shaft 110 is a lifting rod with a lifting function. There are three support legs 120, forming a triangular support. The triangular support also includes a sliding sleeve 130, a connecting rod 140, a limiting member 150, and a fastener 160. The sliding sleeve 130 is sleeved on the main shaft 110 and can slide up and down along the main shaft 110. The upper ends of the three support legs 120 are rotatably connected to the sliding sleeve 130, and the middle of the three support legs is rotatably connected to the connecting rod 170. 40. The lower end of the connecting rod 140 is rotatably connected to the limiting member 150. The connecting rod 140 can enhance the stability of the outrigger 120 and limit the opening angle of the outrigger 120. The limiting member 150 is fixedly connected to the lower end of the main shaft 110. The fastener 160 is set on the sliding sleeve 130, which can tighten and loosen the sliding sleeve 130 to control the up and down sliding range of the sliding sleeve 130 along the main shaft 110. The sliding sleeve 130 can slide upward until the outrigger 120 and the connecting rod 140 are in a vertically straight state. The sliding sleeve 130 can slide downward to the top of the limiting member 150, so that the outrigger 120 and the connecting rod 140 are in a triangular support state opened to the far end of the main shaft 110.

[0037] Furthermore, the mounting components 170 are respectively set at the lower ends of the three outriggers 120. When installing the mobile intelligent service shelter substation 10 for smart construction sites, first loosen the fasteners 160 to allow the sliding sleeve 130 to slide to the appropriate position, unfold the three outriggers, and then tighten the fasteners 160 to fix the sliding sleeve 130 and the three outriggers relatively, and make the first support surface 172 make smooth contact with the mounting surface. At this time, the second support surface 176 may not be able to make smooth contact with the mounting surface. By rotating the positioning plate 173, the direction of the fixing member 175 is adjusted. After the direction of the fixing member 175 is determined, continue to move the fixing member 175 in the fixing hole 174 to accurately determine the installation position of the fixing member 175 and the mounting surface, so that the second support surface 176 of the fixing member 175 can make smooth contact with the mounting surface, so that the fixing member 175 can be securely fixed, and the installation of the mobile intelligent service shelter substation is completed.

[0038] Furthermore, a counterweight assembly can be installed at the lower end of the main shaft 110 to enhance the stability of the frame 100. There are no restrictions on the shape, weight, or installation method of the counterweight assembly, and it can be installed according to the needs of the construction site.

[0039] Furthermore, the information acquisition module 200 installed on the frame 100 includes one or more of the following: a camera module, a temperature and humidity sensing module, a dust detection module, a wind detection module, an audible and visual early warning module, a light detection module, and a harmful gas detection module.

[0040] Specifically, the camera module is used to acquire image information about the area around the substation, such as surveillance equipment, video recording equipment, or photography equipment.

[0041] The temperature and humidity sensing module is used to acquire temperature and humidity information around the substation.

[0042] The dust detection module is used to detect the dust conditions around the substation;

[0043] The wind detection module is used to detect meteorological information such as wind direction and wind intensity near the substation;

[0044] The light detection module is used to acquire light information such as light intensity and ultraviolet intensity near the substation;

[0045] The hazardous gas detection module is used to detect the concentration of hazardous gases near the substation;

[0046] The sound and light warning module is used to issue alarm information in the form of sound or light.

[0047] It should be noted that the information acquisition module 200 mentioned in this application mainly includes relevant hardware equipment for the construction site. Other hardware equipment can be added according to actual needs to form a complete information acquisition system.

[0048] Furthermore, this application provides a construction management system, including a portable smart construction site digital command and control center 20 and at least one mobile smart construction site service module 10, wherein the mobile smart construction site service module 10 is capable of communicating with the portable smart construction site digital command and control center 20.

[0049] In one specific embodiment, the construction management system includes a portable smart construction site digital command and control center 20 and at least one mobile intelligent service cabin substation 10 for smart construction sites. The portable smart construction site digital command and control center 20 includes a cabin body and management and control components installed within it. The cabin body can be moved entirely and is primarily used to acquire monitoring data from various mobile intelligent service cabin substations 10 for smart construction sites and to analyze and process the data. The mobile intelligent service cabin substations 10 are mainly distributed throughout the construction site. Information acquisition modules 200 monitor and detect the status of personnel, machinery, equipment, materials, and the environment at the construction site and feed back the monitoring and detection information to the portable smart construction site digital command and control center 200. Information acquisition modules 200 are also used to receive and execute instructions issued by the portable smart construction site digital command and control center 200.

[0050] The portable smart construction site digital command and control center 20 is also equipped with a main station monitoring component, which includes one or more of the following: camera module, temperature and humidity sensor module, dust detection module, wind detection module, sound and light early warning module, light detection module, and harmful gas detection module.

[0051] The construction management system also includes at least one mobile on-site monitoring component 40. The mobile on-site monitoring component 40 includes a mobile carrier and an information acquisition module mounted on the mobile carrier. The mobile carrier is selected from at least one of a drone, a self-propelled robot, or a robotic dog. In some application scenarios, such as when it is necessary to temporarily obtain information on construction dynamics, personnel dynamics, or environmental conditions at a certain location, this can be quickly achieved through the mobile on-site monitoring component 40. This compensates for the shortcomings of the mobile intelligent monitoring substation 10 used in smart construction sites, which, due to its fixed location, cannot accurately obtain information on construction dynamics, personnel dynamics, and environmental conditions at some construction locations.

[0052] The construction management system also includes a display component 30, which can be set up anywhere on the construction site. Preferably, the display component 30 is set up in the central control room so that construction workers can view the construction dynamics, personnel dynamics, or environmental conditions at the construction site at any time.

[0053] In a specific application scenario, the construction management system includes a portable smart construction site digital command and control center 20, several mobile smart construction site service cabin substations 10, at least one mobile on-site monitoring component 40, and at least one display component 30. The portable smart construction site digital command and control center 20 houses a power module, control module, storage module, communication module, auxiliary module, and main station monitoring component. Its primary function is to acquire monitoring data from the various mobile smart construction site service cabin substations 10 and mobile on-site monitoring components 40, analyze and process the data, and generate visualizations. The display component 30 is used to present these visualizations. The mobile smart construction site service cabin substations 10 are distributed at necessary locations on the construction site; these locations are determined by the selection of the construction personnel and are not fixed. The mobile intelligent monitoring substation 10 for smart construction sites is mainly used to monitor construction dynamics, personnel dynamics, and environmental dynamics at the construction site, and feeds this information back to the control module of the portable smart construction site digital command and control center 20 for information processing. The mobile intelligent monitoring substation 10 also receives early warning information from the control module of the portable smart construction site digital command and control center 20 and issues audible and visual warning signals. The mobile on-site monitoring component 40 is generally placed near the portable smart construction site digital command and control center 20 or distributed anywhere on the construction site. When further confirmation of the construction site status is needed, the mobile on-site monitoring component 40 responds to the instructions of the control component of the portable smart construction site digital command and control center 20, reaches the designated location, and obtains accurate construction status information at the designated location, providing support for the accurate judgment of the control component of the portable smart construction site digital command and control center 20.

[0054] Obviously, the above embodiments of this application are merely examples for clearly illustrating this application, and are not intended to limit the implementation of this application. Those skilled in the art can make other variations or modifications based on the above description. It is neither necessary nor possible to exhaustively list all possible implementations here. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of this application should be included within the protection scope of this application.

Claims

1. A mobile intelligent service cabin substation for smart construction sites, comprising a frame and an information acquisition module mounted on the frame, characterized in that, The frame includes a main shaft, at least one support leg, and a mounting assembly. The upper end of the support leg is connected to the main shaft, and the mounting assembly is disposed at the lower end of the support leg. The mounting assembly includes a support member, a positioning plate, and a fixing member. The upper end of the support member is connected to the support leg, and the lower end of the support member is provided with a first support surface. One end of the positioning plate is sleeved on the support member, and the positioning plate can rotate about the support member as an axis. The fixing member is disposed at the end of the positioning plate away from the support member, and the lower end of the fixing member is provided with a second support surface.

2. The mobile intelligent service cabin substation for smart construction sites as described in claim 1, characterized in that, The first support surface and the second support surface are disposed on different planes.

3. The mobile intelligent service cabin substation for smart construction sites as described in claim 1, characterized in that, The positioning plate has a fixing hole, and the fixing member can move horizontally along the fixing hole.

4. The mobile intelligent service cabin substation for smart construction sites as described in claim 3, characterized in that, The fixing hole is one of the following shapes: elongated, circular, or elliptical.

5. The mobile intelligent service cabin substation for smart construction sites as described in claim 1, characterized in that, Preferably, there are three legs, which form a triangular support.

6. The mobile intelligent service cabin substation for smart construction sites as described in claim 1, characterized in that, The upper end of the support member is rotatably connected to the support leg.

7. The mobile intelligent service cabin substation for smart construction sites as described in claim 1, characterized in that, The main shaft is a vertical pole or a lifting pole with a lifting function.

8. The mobile intelligent service cabin substation for smart construction sites as described in claim 1, characterized in that, A counterweight assembly is provided at the lower end of the spindle.

9. The mobile intelligent service cabin substation for smart construction sites as described in claim 1, characterized in that, The information acquisition module is one or more of the following: camera module, temperature and humidity sensing module, dust detection module, wind detection module, light detection module, harmful gas detection module, and sound and light early warning module.

10. A construction management system, characterized in that, It includes a portable smart construction site digital command and control center and at least one mobile smart construction site substation as described in any one of claims 1-9, wherein the mobile smart construction site substation is capable of communicating with the portable smart construction site digital command and control center.