Construction Node Integrated Identification Structure Based on Hospital EPC Design Platform
By introducing a node-level information identification structure at the construction site of the hospital EPC project, the problems of information delays and misunderstandings were solved, enabling intuitive and accurate information transmission and improving construction efficiency and quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- THE THIRD CONSTR OF CHINA CONSTR FIRST GROUP
- Filing Date
- 2025-08-13
- Publication Date
- 2026-07-03
Smart Images

Figure CN224457558U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of intelligent engineering management technology, and more specifically, to a construction node integrated information identification structure based on a hospital EPC design platform. Background Technology
[0002] EPC (Engineering, Procurement, and Construction) general contracting refers to a contractor being entrusted by the owner to manage the entire process or several phases of a project within the scope of the contract. Hospital projects, as typical large-scale projects involving high specialization and multiple systems, are characterized by numerous design disciplines, difficulties in construction coordination, and frequent communication with the user unit. This often leads to challenges such as technical complexity, high management pressure, and frequent changes during project implementation. Especially under the EPC consortium model, design and construction units need to collaborate efficiently, but due to limitations in traditional information transmission methods, problems such as information delays, misunderstandings, and untimely feedback often arise.
[0003] These problems are particularly prominent on construction sites. Specifically, information such as design data, construction procedures, and acceptance requirements for each construction node are difficult to obtain and accurately convey in a timely manner, which can easily lead to construction errors and quality hazards, affecting project progress and overall benefits.
[0004] To address the aforementioned issues, a construction node integrated information identification structure based on a hospital EPC design platform is proposed. This structure enables intuitive and accurate transmission of node-level information, thereby improving construction efficiency and project quality. Utility Model Content
[0005] The purpose of this utility model is to provide an integrated information identification structure for construction nodes based on a hospital EPC design platform, which can effectively realize the intuitive and accurate transmission of node-level information, thereby improving construction efficiency and project quality.
[0006] This utility model is achieved through the following technical solution:
[0007] An integrated information identification structure for construction nodes based on a hospital EPC design platform, comprising:
[0008] Node information carrier, used to store relevant information such as design data, construction process and acceptance requirements corresponding to construction nodes;
[0009] The node information carrier is detachably mounted on the mounting base, which is located at the construction site.
[0010] The construction site includes at least one of the following: formwork, reinforcing bars, and wall surface;
[0011] Each construction node has a unique number corresponding to the node information carrier.
[0012] Furthermore, the unique number is constructed according to a preset coding rule, which includes a combination of letters, numbers, or graphics to distinguish different construction nodes; the unique number is set on the surface or inside of the node information carrier by printing, engraving, or chip writing.
[0013] Furthermore, the node information carrier is an electronic label or a QR code label.
[0014] Furthermore, the mounting base is provided with identification marks to identify different construction node categories or zones, and is installed in a one-to-one correspondence with the node information carrier; the identification marks include at least one of color marks, number marks, shape marks or surface textures.
[0015] Furthermore, the mounting base is provided with positioning holes or slot structures for corresponding installation with the construction parts.
[0016] Furthermore, the node information carrier includes a detachable modular information unit, which can be replaced or updated to reflect the latest design data or construction process of the construction node;
[0017] And / or, the electronic tag has a writable memory, which has an updatable storage area for storing dynamically changing construction node information; the electronic tag supports contactless data writing and reading functions, enabling external devices at the construction site to read and update the stored information in real time.
[0018] And / or, the electronic tag board is a radio frequency identification (RFID) tag board with contactless reading function.
[0019] Furthermore, a transparent plate is provided on the mounting base, and an insertion slot is provided on the transparent plate. The body of the QR code label plate or electronic tag plate can be inserted into the insertion slot, so that the node information carrier can be detachably set on the mounting base.
[0020] Furthermore, the transparent plate is provided with a receiving area, and a plurality of markers are provided in the receiving area. Each marker includes a knob that is rotatably mounted on the transparent plate. The knob has a pointer and a progress bar is provided around the knob. The pointer is aligned with the progress bar. A limiting member is also provided in the receiving area to limit the position of the knob after it is rotated.
[0021] Furthermore, the limiting component includes a paddle, a limiting post, and a spring. The paddle is fixedly connected to the limiting post and is slidably disposed on the transparent plate. The outer periphery of the limiting post is provided with protruding teeth. The knob is provided with a groove for the limiting post and the protruding teeth to be inserted. One end of the spring is fixedly connected to the mounting base, and the other end is fixedly connected to the limiting post so that the limiting post is kept inserted into the groove.
[0022] Furthermore, the transparent plate is provided with a handwriting recording area corresponding to the knob;
[0023] And / or, the transparent plate is provided with a light-emitting strip.
[0024] The technical solution of this utility model has at least the following advantages and beneficial effects:
[0025] 1. This utility model utilizes an identification structure comprised of a node information carrier and an installation base. Each construction node is equipped with a uniquely numbered node information carrier, used to store key information such as design data, construction procedures, and acceptance requirements corresponding to that node. The installation base allows the node information carrier to be detachably installed on construction sites such as formwork, reinforcing bars, and walls, enabling flexible structural placement and site adaptation. This structure allows construction personnel to quickly and accurately obtain relevant information on-site, effectively reducing construction errors and quality risks caused by untimely information transmission, improving on-site construction efficiency and project quality, and enhancing information collaboration capabilities among all EPC participants. Attached Figure Description
[0026] Figure 1 This utility model is intended to demonstrate the structural schematic diagram of an integrated information identification structure for a single construction node;
[0027] Figure 2 This utility model is intended to demonstrate the structure of the identification component;
[0028] Figure 3 This utility model is intended to demonstrate the structure of the limiting component;
[0029] Figure 4 This utility model aims to show exploded views of a transparent plate and an electronic label plate;
[0030] Reference numerals: 1-Node information carrier, 11-Electronic tag plate, 2-Mounting base, 21-Identification mark, 22-Card slot, 23-Transparent plate, 231-Intercepting slot, 232-Accommodation area, 233-Sliding groove, 24-Light-emitting strip, 25-Handwritten recording area, 3-Identifier, 31-Knob, 311-Groove, 32-Pointer, 33-Progress bar, 4-Limiting component, 41-Paddle, 42-Limiting post, 421-Protruding tooth, 43-Spring. Detailed Implementation
[0031] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. The components of the embodiments of this utility model described and shown in the accompanying drawings can generally be arranged and designed in various different configurations.
[0032] Therefore, the following detailed description of the embodiments of the present invention provided in the accompanying drawings is not intended to limit the scope of the claimed invention, but merely to illustrate selected embodiments of the invention. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without inventive effort are within the scope of protection of the present invention.
[0033] Example
[0034] The following is for reference Figures 1-4 As shown in the illustration, and further explained with reference to specific embodiments, this embodiment provides a construction node integrated information identification structure based on a hospital EPC design platform. It includes a node information carrier 1, used to store relevant information such as design data, construction process, and acceptance requirements corresponding to the construction node. Of course, other information can also be stored, and this is not limited here. The node information carrier 1 is detachably mounted on an installation base 2, which is placed on the construction site. In different embodiments, the node information carrier 1 can be detachably connected to the installation base 2 through snap-fit, plug-in, magnetic, or adhesive structures to facilitate future replacement or maintenance of the information carrier.
[0035] The mounting base 2 can be made of stainless steel, high-hardness synthetic plastic, or composite materials, possessing good weather resistance and strength to meet the long-term use requirements of complex construction site environments. The construction components include at least one of formwork, reinforcing bars, and wall surfaces; a portion of the mounting base 2 can be pre-embedded in the concrete structure to form a cast-in-place embedded structure; alternatively, it can be connected to the wall surface or reinforcing bars via expansion bolts, structural adhesive, or welding to ensure structural stability and removability.
[0036] Each construction node has a unique number corresponding to the node information carrier 1. This unique number is used to establish a unique information identification mechanism at the construction node level, thereby effectively preventing misidentification or duplicate calls during the information transmission process and improving the accuracy of construction information management.
[0037] Furthermore, the unique number is constructed according to a preset coding rule, which includes a combination of letters, numbers, or graphics. For example, a prefix can be set to represent the professional category, the middle section to represent the floor or area information, and the suffix to represent the node serial number, thereby achieving standardized and systematic node differentiation. The unique number can be set on the surface or inside of the node information carrier 1 by means of printing, laser engraving, molding, electronic chip writing, etc., to adapt to scenarios with different service life and safety level requirements.
[0038] Specifically, the node information carrier 1 is an electronic tag board 11 or a QR code label board. The QR code label board is suitable for rapid deployment and scanning scenarios, while the electronic tag board 11 is suitable for nodes that need to update data frequently, especially in hospital EPC projects with frequent design changes.
[0039] Reference Figure 1 and Figure 2 As shown, the mounting base 2 is equipped with identification marks 21 to identify different construction node categories or zones, and these marks are installed one-to-one with the node information carrier 1. Alternatively, identification marks 21 can also be set on the node information carrier 1. Identification marks 21 can include at least one of color markings, numerical markings, shape markings, or surface textures. For example, different colors can be used to distinguish work types or professional categories, different shapes can be used for quick visual identification of construction node types, and different surface textures can facilitate tactile identification by construction personnel in low light or blind conditions, thereby improving on-site identification efficiency and accuracy.
[0040] Reference Figure 2 and Figure 3 As shown, the back of the mounting base 2 is provided with positioning holes or slots 22. The slots 22 can be engaged with the reinforcing bars, or they can be set to be multi-angle adjustable to adapt to the needs of reinforcing bar layout at different angles and directions; they can also be designed as telescopic sliding groove structures to achieve secure installation in accordance with the undulations of the construction surface. The positioning holes can be used with the reserved parts in the construction formwork and wall structure to achieve fixation through mechanical fasteners such as bolts, rivets or snap-fit structures, thereby improving installation reliability and seismic performance.
[0041] As an optional embodiment, the node information carrier 1 includes detachable modular information units, which can be replaced and updated according to the construction stage. For example, different information modules can be used for the foundation stage, structural stage, and electromechanical installation stage. The modular structure facilitates hierarchical information display and phased information synchronization, effectively addressing the need for continuous updates to construction information in hospital-type projects as the construction progresses through different stages.
[0042] Preferably, the electronic tag 11 has a writable memory, which has an updatable storage area for storing dynamically changing construction node information; the electronic tag supports contactless data writing and reading functions, such as through RFID, NFC and other technologies, enabling external devices such as tablets, mobile terminals, smart glasses and other devices to quickly scan and update on site, ensuring information synchronization and version consistency.
[0043] Furthermore, the electronic tag board 11 is a radio frequency identification (RFID) tag board with non-contact reading function. The RFID chip can be a high frequency (HF) or ultra-high frequency (UHF) standard to adapt to different reading and writing distances and reading efficiency requirements. It also has waterproof, dustproof, and tamper-proof packaging designs to adapt to the changing environment of the construction site.
[0044] Reference Figure 3 and Figure 4 As shown, a transparent plate 23 is fixed on the mounting base 2. The transparent plate 23 has an insertion slot 231. The body of the QR code label plate or electronic label plate 11 can be inserted into the insertion slot 231. The insertion part can be equipped with a limiting structure, such as an elastic clip or double-sided latch, to ensure that it is stable and does not fall off after insertion, and at the same time, it is easy to disassemble and replace, so that the node information carrier 1 can be detachably set on the mounting base 2.
[0045] Reference Figure 2 and Figure 3 As shown, in order to ensure that the construction status can still be identified and recorded through the physical structure when the node information carrier 1 cannot be used normally due to power failure, data failure, or other reasons, and to facilitate on-site personnel to make intuitive reference and verification, the bottom of the transparent plate 23 is provided with a receiving area 232. Multiple markers 3 are installed within the receiving area 232. The markers 3 can be flexibly selected and installed according to different construction stages, procedures, or status indication requirements, to expand the visual expression of construction status or progress and provide physical redundancy marking. The marker 3 includes a knob 31 rotatably mounted on the transparent plate 23, which is locked onto the transparent plate 23 for stable positioning.
[0046] The knob 31 is equipped with a precision injection-molded pointer 32, the tip of which can be coated with luminescent or reflective material to enhance visibility and nighttime recognition. A progress bar 33 surrounds the knob 31. The progress bar 33 can be dynamically adjusted according to the actual construction stage. The progress bar 33 is evenly distributed with numbers from 0 to 100, or uses a fan-shaped gradient bar indicator area to provide status indication. Different colors or gray levels represent different construction stages or completion levels, allowing on-site personnel to quickly judge the current construction progress with the naked eye.
[0047] A limiting element 4 is also provided within the receiving area 232 to limit the current position of the knob 31 after rotation, preventing accidental adjustment of the pointer 32. The limiting element 4 includes a paddle 41, a limiting post 42, and a spring 43. The paddle 41 is fixedly connected to the limiting post 42 and is slidably disposed on the transparent plate 23. The transparent plate 23 is provided with a sliding groove 233 for the paddle 41 to slide and be positioned. The limiting post 42 has protruding teeth 421 on its outer periphery. The knob 31 has a groove 311 that matches and is inserted into the limiting post 42. The guide slope design facilitates insertion and fixation. The spring 43 is used to elastically maintain the insertion state of the limiting post 42. In other alternative embodiments, the spring 43 can be replaced by a coil spring, a rubber washer, or other structures with similar elastic functions.
[0048] Of course, the limiting component 4 can also be a bolt limiting component, a pressure plate clamping component, or other structures to meet different construction environments and strength requirements.
[0049] Furthermore, the transparent plate 23 is provided with a handwriting recording area 25 corresponding to the knob 31. The surface of the handwriting recording area 25 can be made of an erasable film material, which can be used with an oil-based pen to write on the information indicated by the knob 31 by construction personnel, such as the current stage, the person in charge, or special construction instructions.
[0050] The transparent plate 23 is equipped with a light-emitting strip 24, which can be a fluorescent coating, a fiber optic light guide strip, or an LED light strip connected to a temporary construction power supply, to enhance the recognition effect in low-light environments, ensure that node information can still be clearly identified in low-light environments such as night construction or tunnels and underground spaces, and improve the operability and safety of night construction.
[0051] The above are merely preferred embodiments of this utility model and are not intended to limit the scope of this utility model. Various modifications and variations can be made to this utility model by those skilled in the art. Any modifications, equivalent substitutions, or improvements made within the spirit and principles of this utility model should be included within the protection scope of this utility model.
Claims
1. A construction node integrated information identification structure based on a hospital EPC design platform, characterized in that, include: Node information carrier (1) is used to store relevant information such as design data, construction process and acceptance requirements corresponding to construction nodes; Mounting base (2), the node information carrier (1) is detachably mounted on the mounting base (2), and the mounting base (2) is mounted on the construction site; The construction site includes at least one of the following: formwork, reinforcing bars, and wall surface; Each construction node has a unique number corresponding to the node information carrier (1).
2. The construction node integration information identification structure based on a hospital EPC design platform according to claim 1, characterized in that, The unique number is constructed according to a preset coding rule, which includes a combination of letters, numbers, or graphics, and is used to distinguish different construction nodes. The unique number is set on the surface or inside of the node information carrier (1) by means of printing, engraving or chip writing. 3.The construction node integration information identification structure based on a hospital EPC design platform according to claim 2, characterized in that, The node information carrier (1) is an electronic label board (11) or a QR code label board. 4.The construction node integration information identification structure based on a hospital EPC design platform according to claim 3, characterized in that, The mounting base (2) is provided with an identification mark (21) for identifying different construction node categories or zones, and is installed in a one-to-one correspondence with the node information carrier (1); the identification mark (21) includes at least one of color mark, number mark, shape mark or surface texture. 5.The construction node integration information identification structure based on a hospital EPC design platform according to claim 4, characterized in that, The mounting base (2) is provided with positioning holes or slots (22) for installation in accordance with the construction parts. 6.The construction node integration information identification structure based on a hospital EPC design platform according to claim 3, wherein, The node information carrier (1) includes a detachable modular information unit, which can be replaced or updated to reflect the latest design data or construction process of the construction node. And / or, the electronic tag board (11) has a writable memory, the memory having an updatable storage area for storing dynamically changing construction node information; the electronic tag supports contactless data writing and reading functions, enabling real-time reading and updating of stored information by external equipment at the construction site; And / or, the electronic tag board (11) is a radio frequency identification (RFID) tag board with contactless reading function.
7. The construction node integrated information identification structure based on the hospital EPC design platform according to claim 3, characterized in that, A transparent plate (23) is provided on the mounting base (2), and an insertion slot (231) is provided on the transparent plate (23). The body of the QR code label plate or electronic label plate (11) can be inserted into the insertion slot (231) and the node information carrier (1) can be detachably set on the mounting base (2).
8. The construction node integrated information identification structure based on the hospital EPC design platform according to claim 7, characterized in that, The transparent plate (23) is provided with a receiving area (232), and a plurality of markers (3) are provided in the receiving area (232). The markers (3) include a knob (31) that is rotatably mounted on the transparent plate (23). The knob (31) has a pointer (32). A progress bar (33) is provided around the knob (31). The pointer (32) is aligned with the progress bar (33). A limiting member (4) is also provided in the receiving area (232). The limiting member (4) is used to limit the position of the knob (31) after it is rotated. 9.The construction node integration information identification structure based on a hospital EPC design platform according to claim 8, wherein, The limiting component (4) includes a paddle (41), a limiting post (42), and a spring (43). The paddle (41) is fixedly connected to the limiting post (42). The paddle (41) is slidably disposed on the transparent plate (23). The outer periphery of the limiting post (42) is provided with protruding teeth (421). The knob (31) is provided with a groove (311) for the limiting post (42) and the protruding teeth (421) to be inserted. One end of the spring (43) is fixedly connected to the mounting base (2), and the other end is fixedly connected to the limiting post (42) so that the limiting post (42) is kept inserted into the groove (311). 10.The construction node integration information identification structure based on a hospital EPC design platform according to claim 9, wherein, The transparent plate (23) is provided with a handwriting recording area (25) corresponding to the knob (31); And / or, the transparent plate (23) is provided with a light-emitting strip (24).