Smart-x small micro module intelligent integrated machine room

Abstract

The utility model discloses a smart-x small micro module intelligence integrated computer lab, including multiple rack cabinets side by side, and the rack cabinet front side wall is equipped with rack cabinet door, and the rack cabinet door is equal height with the rack cabinet, the rack cabinet top wall middle part is equipped with left and right horizontal strong and weak electric wire groove, and its characterized in that: the left and right two side walls of whole row rack cabinet are equipped with side airtight plate respectively, and the two side airtight plate front side wall stretches out to the front to be flush with multiple rack cabinet door front side wall, and the two side airtight plate top wall stretches out to the top and exceeds strong and weak electric wire groove top wall, and the rack cabinet door top wall just above in the door closing state is equipped with front enclosing board to shield the front side wall of strong and weak electric wire groove, and the rack cabinet door and front enclosing board two front side walls are flush, and the front enclosing board left and right two ends are installed on the front position of two side airtight plate top respectively.

Description

Technical Field

[0001] This utility model relates to the field of data center computer rooms, and in particular to the Smart-x small-module intelligent integrated computer room. Background Technology

[0002] Data center server rooms typically consist of multiple racks arranged side-by-side, such as environmental monitoring racks, in-row precision air conditioning racks, and various IT infrastructure racks. Each rack has a door mounted on its front wall, level with the rack itself. When closed, these doors completely conceal the top of the front wall. From the front of the server room, only the closed doors are visible, preventing a view of the top of the front wall from being seen, thus enhancing the overall aesthetic appeal. However, the central section of the rack's top wall contains horizontal power and data cable trays. These cable trays and the rack doors are not aligned vertically (misaligned), reducing the overall aesthetic integration of the server room and negatively impacting its visual appeal. Utility Model Content

[0003] The inventor has secretly developed a small-module intelligent integrated data center. Two enclosure panels are installed on the top wall of the server rack, one near the rear edge and the other near the front edge, to respectively conceal the rear and front sides of the power and data cable trays. The rear side of the rear enclosure panel is flush with the rear side of the server rack, and the front side of the front enclosure panel is flush with the front side of the server rack. The front enclosure panel, which conceals the front side of the power and data cable trays, is mounted on the top wall of the server rack, flush with both front sides, but not on the same vertical plane as the server rack door to avoid obstructing its opening and closing. However, this misalignment between the server rack door and the front enclosure panel reduces the overall integration of the data center's appearance and affects its aesthetic appeal.

[0004] The present invention aims to provide a Smart-x small-module intelligent integrated data center, which ensures that the front enclosure panel and the front side wall of the cabinet door are on the same plane without affecting the opening and closing of the cabinet door, thus guaranteeing the aesthetic appearance of the cabinet.

[0005] The Smart-x modular intelligent integrated data center includes multiple racks arranged side by side. The front wall of each rack is equipped with a door, which is the same height as the rack. The top wall of each rack has horizontal power and data cable trays running horizontally. Each rack has a side sealing panel on its left and right side walls. The front walls of the two side sealing panels extend forward to be flush with the front walls of the rack doors, and the top walls of the two side sealing panels extend upward beyond the top walls of the power and data cable trays. When the rack doors are closed, a front enclosure panel is installed directly above the top walls of these rack doors to cover the front walls of the power and data cable trays. The front walls of the rack doors and the front enclosure panel are flush with each other, and the left and right ends of the front enclosure panel are respectively installed at the front of the top of the two side sealing panels.

[0006] Furthermore, these cabinets include environmental monitoring cabinets, in-row precision air conditioning cabinets, and multiple IT infrastructure cabinets.

[0007] Furthermore, a gap is left between the top wall of the cabinet door and the bottom wall of the front enclosure to facilitate opening the door.

[0008] Furthermore, a rear enclosure is provided behind the power and data cable trays. The rear side wall of the rear enclosure is flush with the rear side wall of the entire row of cabinets. The bottom wall of the rear enclosure is fixed to the top wall of the cabinet. The left and right ends of the rear enclosure are respectively installed at the rear position of the top of the two side sealing plates.

[0009] Furthermore, a load-bearing base is provided to support the cabinet.

[0010] Furthermore, the load-bearing base is flush with the front side wall of these cabinet doors, and a gap is left between the top wall of the load-bearing base and the bottom wall of the cabinet door to facilitate the opening and closing of the cabinet door.

[0011] Furthermore, the cabinet doors are equipped with smart locks.

[0012] Furthermore, the cabinet is equipped with smoke sensors and temperature and humidity sensors.

[0013] Furthermore, the rear and front enclosure panels are 300mm high, and the side sealing panels are 300mm higher than the top wall of the cabinet.

[0014] The beneficial effects are as follows: Because side sealing panels are installed on the left and right side walls of each rack, the front enclosure panel can be mounted directly above the top wall of the rack door using these side sealing panels, thus making the rack door and the front enclosure panel flush. The side sealing panels also provide longitudinal support and lateral positioning reference, allowing the front enclosure panel to cantilever and extend to the front of the rack door, achieving dynamic alignment between the rack door and the fixed front enclosure panel. When observing the server room from the front, only the rack doors and the front enclosure panel are visible, not the power and data cable trays, resulting in a cleaner and more aesthetically pleasing appearance. Furthermore, since the front walls of the rack doors and the front enclosure panel are on the same vertical plane, the overall appearance of the server room is highly integrated, enhancing its aesthetic appeal. Attached Figure Description

[0015] Figure 1 This is a 3D view of the Smart-x micro-module intelligent integrated data center of this utility model;

[0016] Figure 2 This is an exploded view of the Smart-x micro-module intelligent integrated data center of this utility model;

[0017] Figure 3 yes Figure 2 A partial view at point A;

[0018] In the diagram: 1. Load-bearing base; 2. Cabinet door; 3a. Rear enclosure panel; 3b. Front enclosure panel; 4. Side sealing panel; 6. Power and data cable trays; 7. Cabinet; 9. Top wall of cabinet door; 10. Front edge of top wall of cabinet. Detailed Implementation

[0019] The present invention will be further described in detail below with reference to specific embodiments.

[0020] The finished product of this utility model, Smart-x small-module intelligent integrated data center, is as follows: Figure 1 As shown, the following text uses Figure 2 The following describes the assembly process of the server room. In the diagram, this utility model is assumed to be located at the origin of the coordinate axis. A load-bearing base 1 supports multiple side-by-side server racks 7, including environmental monitoring racks, inter-row precision air conditioning racks, and multiple IT infrastructure racks. Each rack 7 has a rack door 2 on its front side wall, with the rack door 2 being the same height as the rack 7. The left edge of each rack door 2 is hinged to the left side of the corresponding rack 7's front side wall. The rack door 2 rotates to the right to close, thus closing the cavity opening. The top wall 9 of the rack door is flush with the front edge 10 of the rack top wall, ensuring a seamless top when the rack door 2 is closed. The rack door 2 is equipped with a smart lock.

[0021] The top wall of rack 7 has horizontally arranged power and data cable trays 6, which contain cables that connect to each rack 7. Each of the left and right side walls of rack 7 has a side sealing panel 4, which is taller than the rack 7 and the power and data cable trays 6 combined, extending upwards beyond the top of the power and data cable trays 6. The front walls of the two side sealing panels 4 extend forward to be flush with the front walls of multiple rack doors 2. A front enclosure panel 3b is located directly above the top walls of these rack doors 2 to cover the front walls of the power and data cable trays 6. When the rack doors 2 are closed, their front walls are flush with the front walls of the front enclosure panel 3b. The left and right ends of the front enclosure panel 3b are mounted on the front of the top of the two side sealing panels 4. A gap is left between the front enclosure panel 3b and the top wall of the rack door 9 to allow the rack door 2 to open and close. A rear enclosure 3a is provided behind the power and low voltage cable tray 6. The rear enclosure 3a is flush with the rear side wall of the cabinet 7. The bottom wall of the rear enclosure 3a is fixed to the top wall of the cabinet 7. The left and right ends of the rear enclosure 3a are respectively installed on the rear position of the top of the two side sealing plates 4. The assembly is now complete.

[0022] Preferably, the load-bearing base 1 is flush with the front side wall of these cabinet doors 2, and a gap is left between the top wall of the load-bearing base 1 and the bottom wall of the cabinet door 2 to facilitate the opening and closing of the cabinet door 2.

[0023] Preferably, the cabinet 7 is equipped with smoke sensors and temperature and humidity sensors for intelligent monitoring. A controller is provided to connect to both sensors.

[0024] Preferably, the rear enclosure panel 3a and the front enclosure panel 3b are 300mm high, and the side sealing panel 4 is 300mm higher than the top wall of the cabinet 7. The height of the power and data cable trays 6 does not exceed 300mm.

[0025] To ensure the stable placement of servers, network equipment, and other devices, preventing damage from external impacts or vibrations and providing a fundamental guarantee for stable operation, Yingsheng A-Smart micro-module data centers utilize VSRIII series server racks. The VSRIII series provides standardized installation locations and fixing methods for various data center equipment, including storage devices. Through its built-in trays, brackets, and screw holes, it can neatly install equipment of different sizes and specifications within the rack, ensuring the safety and stability of the servers. The VSRIII rack is a self-developed rack by our company. The uprights are made of 2.0mm high-quality cold-rolled steel plate, bent into a six-fold structure and welded with reinforcing ribs to form a closed loop. The design complies with the "Telecommunications Equipment Seismic Performance Testing Specification" (YD5083-2005) standard, has passed a third-party authoritative organization's specialized seismic resistance test of level 9, and has also passed a third-party authoritative organization's specialized load test, with a static load capacity of up to 2000KG, meeting the requirements for high-density equipment stacking. The unique six-fold structure effectively solves the problems of cable management and PDU embedded installation, allowing cable management and PDU installation to not occupy equipment space. Meanwhile, each shelf panel is made of 2.0mm cold-rolled steel plate with a folded edge design, a depth of 650mm, and a load-bearing capacity of 200kg. It has also passed a third-party specialized load-bearing test. A single pair of L-shaped brackets also uses 2.0mm cold-rolled steel plate with a folded edge design, a load-bearing capacity of 75kg, and a depth of 650mm.

[0026] Equipment in data centers generates significant heat during operation, necessitating robust rack design for efficient heat dissipation and ventilation. Racks are equipped with cooling fans, vents, and other heat dissipation devices to dissipate heat effectively through forced airflow or natural ventilation. This ensures the equipment operates within a suitable temperature environment, preventing performance degradation, malfunctions, or even damage due to overheating, and extending the equipment's lifespan. Server rack doors feature a 7mm high-density hexagonal mesh design across the edges, achieving an open area ratio of over 70%.

[0027] The above description is merely an embodiment of this utility model and does not limit the scope of patent protection. Any non-substantial changes or substitutions made by those skilled in the art based on this utility model will still fall within the scope of patent protection.

Claims

1. A Smart-x modular intelligent integrated data center, comprising multiple racks arranged side-by-side, with rack doors mounted on the front wall of each rack, the rack doors being the same height as the racks; and horizontal power and data cable trays mounted in the center of the top wall of each rack, characterized by: Each of the left and right side walls of the entire row of cabinets is equipped with a side sealing panel. The front side walls of the two side sealing panels extend forward to be flush with the front side walls of multiple cabinet doors, and the top walls of the two side sealing panels extend upward beyond the top wall of the power and data cable trays. When the cabinet doors are closed, a front enclosure panel is installed directly above the top wall of these cabinet doors to cover the front side walls of the power and data cable trays. The front side walls of the cabinet doors and the front enclosure panel are flush with each other, and the left and right ends of the front enclosure panel are respectively installed at the front position of the top of the two side sealing panels.

2. The Smart-x small-module intelligent integrated data center as described in claim 1, characterized in that: These cabinets include environmental monitoring cabinets, in-row precision air conditioning cabinets, and multiple IT infrastructure cabinets.

3. The Smart-x small-module intelligent integrated data center as described in claim 1, characterized in that: A gap is left between the top wall of the cabinet door and the bottom wall of the front enclosure to allow the door to be opened.

4. The Smart-x small-module intelligent integrated data center as described in claim 1, characterized in that: Behind the power and data cable trays is a rear enclosure panel. The rear side wall of the rear enclosure panel is flush with the rear side wall of the entire row of cabinets. The bottom wall of the rear enclosure panel is fixed to the top wall of the cabinet. The left and right ends of the rear enclosure panel are respectively installed on the rear of the top of the two side sealing panels.

5. The Smart-x small-module intelligent integrated data center as described in claim 1, characterized in that: It is equipped with a load-bearing base to support the cabinet.

6. The Smart-x small-module intelligent integrated data center as described in claim 5, characterized in that: The load-bearing base is flush with the front side wall of these cabinet doors, and a gap is left between the top wall of the load-bearing base and the bottom wall of the cabinet door to facilitate the opening and closing of the cabinet door.

7. The Smart-x small-module intelligent integrated data center as described in claim 1, characterized in that: The cabinet door is equipped with a smart lock.

8. The Smart-x small-module intelligent integrated data center as described in claim 1, characterized in that: The cabinet is equipped with smoke sensors and temperature and humidity sensors.

9. The Smart-x small-module intelligent integrated data center as described in claim 4, characterized in that: The rear and front enclosure panels are 300mm high, and the side sealing panels are 300mm higher than the top wall of the cabinet.

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