A cold aisle skylight module

By placing the electromagnetic lock buckle plate on the side of the skylight near the mounting beam in the cold aisle skylight module, and installing the electromagnetic lock head on the mounting beam, the structural complexity caused by electromagnetic locks in the prior art is solved, achieving the effect of simplified installation and improved convenience.

CN224431839UActive Publication Date: 2026-06-30无锡晟铭华科技有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
无锡晟铭华科技有限公司
Filing Date
2025-06-18
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The electromagnetic locks of the existing cold aisle skylight modules are located at the adjacent positions of the two skylights, resulting in a large sheet metal width at the edge of the skylight and a complex structure, which increases the need for crossbeams.

Method used

The electromagnetic lock buckle plate is placed on the side of the sunroof closest to the mounting beam, and the electromagnetic lock head is installed on the mounting beam. When the sunroof is closed, the electromagnetic lock buckle plate fits into the lock head, simplifying the sunroof structure and eliminating the need for crossbeams and additional sheet metal parts.

Benefits of technology

The installation process of the cold aisle skylight module has been simplified, improving the ease of installation and the simplicity of the structure, and reducing complexity.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a cold aisle skylight module, relating to the field of cold aisle equipment technology, comprising: two mounting beams and several skylights; the two mounting beams are a first mounting beam and a second mounting beam, the first mounting beam being provided with several electromagnetic lock heads, and each of the several skylights being provided with an electromagnetic lock buckle plate on the side near the first mounting beam, with each electromagnetic lock head corresponding to one of the electromagnetic lock buckle plates. When the skylight is in a closed state, the electromagnetic lock buckle plate is attached to the corresponding electromagnetic lock head. This utility model's electromagnetic lock buckle plates and electromagnetic lock heads are located on one side of the skylight, eliminating the need for spare parts at adjacent positions of two skylights. Therefore, it eliminates the need for wide sheet metal parts for installing the electromagnetic lock buckle plates and for crossbeams for installing the electromagnetic lock heads, simplifying the skylight structure and improving the ease of installation of the cold aisle skylight module.
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Description

Technical Field

[0001] This utility model relates to the field of cold aisle equipment technology, specifically a cold aisle skylight module. Background Technology

[0002] Enterprise data center server rooms generally face the problem of high equipment heat density and high power consumption. Server room planning cannot keep up with the growth of business needs. In order to meet the ever-increasing heat dissipation requirements of data center server rooms, server room air conditioning equipment is also continuously increased and replaced. However, there are still local heat island problems inside the server room. Cold aisle solves the problem of heat dissipation of server room equipment.

[0003] The cold aisle consists of several skylights located above the computer room, which are used for heat dissipation by opening and closing them. In the existing technology, the electromagnetic locks of the cold aisle skylight modules are generally located at the position of two adjacent skylights. This not only results in a larger sheet metal width at the edge of the skylight, but also requires additional crossbeams to be installed at the position of two adjacent skylights, increasing the complexity of the skylight structure.

[0004] In view of this, there is an urgent need for a cold aisle skylight module to solve the above problems. Utility Model Content

[0005] To address the problems existing in the prior art, this utility model solves the problem using the following technical structure.

[0006] To achieve the above objectives, the present invention adopts the following technical solution:

[0007] A cold aisle skylight module includes: two mounting beams and several skylights, the two mounting beams are arranged in parallel, and the several skylights are arranged sequentially between the two mounting beams, with the two sides of each skylight rotatably mounted on the two mounting beams via a pivot.

[0008] The two mounting beams are a first mounting beam and a second mounting beam. The first mounting beam is provided with a plurality of electromagnetic lock heads. Each of the plurality of skylights is provided with an electromagnetic lock buckle plate on the side near the first mounting beam. The plurality of electromagnetic lock heads correspond one-to-one with the plurality of electromagnetic lock buckle plates. When the skylight is in a closed state, the electromagnetic lock buckle plate is attached to the corresponding electromagnetic lock head.

[0009] The skylight has a first side and a second side on both sides of the several skylight distribution directions, and the center of gravity of the skylight is biased towards the first side.

[0010] A sealing strip is provided on the second side of the skylight.

[0011] The second mounting beam is provided with a sliding part and a driving component. The driving component is used to drive the sliding part to slide on the second mounting beam in the distribution direction of the plurality of skylights. The sliding part is provided with a plurality of push rods.

[0012] The top surface of the sunroof is provided with a limiting plate, which is located on the side of the pivot closer to the second side. The limiting plate is provided with a first limiting surface, which extends obliquely from the first side to the second side. The oblique direction is away from the sunroof. When the sunroof is in the open state, the ring sides of several push rods respectively abut against several of the first limiting surfaces.

[0013] The limiting plate is also provided with a second limiting surface, which is parallel to the sunroof and located on the side of the first limiting surface away from the first side. When the push rod moves to the second limiting surface, the sunroof is in a closed state.

[0014] A sleeve is coaxially fitted on the push rod, and the sleeve is rotatably connected to the push rod.

[0015] The mounting beam is equipped with several limiters. When the push rod abuts against the side of the first limiting surface away from the second limiting surface, the limiter abuts against the corresponding skylight.

[0016] Warning light strips are installed on the sides of the two mounting beams that are close to each other.

[0017] The skylight includes a window body and an aluminum alloy frame fitted around the window body. The aluminum alloy frame is rotatably connected to two mounting beams on both sides.

[0018] The aluminum alloy frame includes two oppositely arranged first edge plates and two oppositely arranged second edge plates. Each of the two first edge plates and the two second edge plates is provided with a slot, and is secured to the circumferential side of the window through the slot. The two ends of the first edge plates are respectively threaded to the same side of the two second edge plates, and the two second edge plates are respectively rotatably connected to two mounting beams.

[0019] The above-described structure of this utility model can achieve the following beneficial effects:

[0020] By placing the electromagnetic lock buckle plate on one side of the skylight near one of the mounting beams, and installing the electromagnetic lock head on the corresponding mounting beam, when the skylight is closed, the electromagnetic lock buckle plate adheres to the electromagnetic lock head, allowing the electromagnetic lock head to attract the electromagnetic lock buckle plate, thus maintaining the skylight's closure. Since the electromagnetic lock buckle plate and electromagnetic lock head are located on one side of the skylight, no additional parts are needed at adjacent locations between two skylights. Therefore, there is no need for wide sheet metal parts to install the electromagnetic lock buckle plate or for crossbeams to install the electromagnetic lock head, simplifying the skylight structure and improving the ease of installation of the cold aisle skylight module. Attached Figure Description

[0021] Figure 1 This is a schematic diagram of the structure of this embodiment;

[0022] Figure 2 This is a structural schematic diagram from another perspective of this embodiment;

[0023] Figure 3 for Figure 2 Enlarged structural diagram at point A;

[0024] Figure 4 This is a schematic diagram of the skylight structure in this embodiment;

[0025] Figure 5 for Figure 4 Enlarged schematic diagram of the structure at point B.

[0026] In the diagram: 1. Mounting beam; 2. Skylight; 21. Window frame; 22. First edge banding plate; 23. Second edge banding plate; 3. Electromagnetic lock head; 4. Electromagnetic lock buckle plate; 5. Sealing strip; 6. Sliding part; 61. Push rod; 62. Sleeve; 7. Limiting plate; 71. First limiting surface; 72. Second limiting surface; 8. Limiter; 9. Warning light strip. Detailed Implementation

[0027] To enable those skilled in the art to better understand the present invention, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort should fall within the protection scope of the present invention.

[0028] It should be noted that the terms "comprising" and "having" and any variations thereof in the specification, claims and accompanying drawings of this utility model are intended to cover non-exclusive inclusion. For example, a process, method, apparatus, product or device that includes a series of steps or units is not necessarily limited to those steps or units that are explicitly listed, but may include other steps or units that are not explicitly listed or that are inherent to such processes, methods, products or devices.

[0029] The following is in conjunction with the appendix Figures 1-5 This application will be described in further detail.

[0030] like Figures 1-3 As shown, a cold aisle skylight module includes: two mounting beams 1 and several skylights 2. The two mounting beams 1 are arranged in parallel, and the several skylights 2 are arranged sequentially between the two mounting beams 1. The two sides of the skylights 2 are respectively rotatably mounted on the two mounting beams 1 via a rotating shaft.

[0031] The two mounting beams 1 are the first mounting beam and the second mounting beam, respectively. The first mounting beam is equipped with a number of electromagnetic lock heads 3. Each of the skylights 2 is equipped with an electromagnetic lock buckle plate 4 on the side near the first mounting beam. The number of electromagnetic lock heads 3 corresponds one-to-one with the number of electromagnetic lock buckle plates 4. When the skylight 2 is in the closed state (the skylight 2 is in the closed state in the circumferential direction), the electromagnetic lock buckle plate 4 is attached to the corresponding electromagnetic lock head 3.

[0032] Based on the above structure, by setting the electromagnetic lock buckle plate 4 on the side of the skylight 2 near one of the mounting beams 1 (first mounting beam), and setting the electromagnetic lock head 3 on the corresponding mounting beam 1 (first mounting beam), when the skylight 2 is closed, the electromagnetic lock buckle plate 4 is attached to the electromagnetic lock head 3, so that the electromagnetic lock head 3 can attract the electromagnetic lock buckle plate 4, thereby maintaining the purpose of closing the skylight 2. Since the electromagnetic lock buckle plate 4 and the electromagnetic lock head 3 are set on one side of the skylight 2, no spare parts need to be set at the adjacent positions of the two skylights 2. Therefore, there is no need to set a wide sheet metal part for installing the electromagnetic lock buckle plate 4 and no need to set a crossbeam for installing the electromagnetic lock head 3, which simplifies the skylight structure and improves the convenience of cold aisle skylight module installation.

[0033] A further optimization is that, in order to open and maintain the open state of skylight 2, skylight 2 is distributed in several directions (such as...) Figure 1 The two sides on the direction pointed to by the center line F (which is the extension direction of the mounting beam 1) are respectively the first side (e.g. Figure 2 (as shown in the middle C direction) and the second side ... Figure 2(As shown in direction D), the center of gravity of the sunroof 2 is biased towards the first side. Thus, when the electromagnetic lock buckle plate 4 is in a free state, the sunroof 2 is affected by gravity, and the first side moves downward, causing the sunroof 2 to rotate and put the sunroof 2 in an open state. Alternatively, a motor or other driving component can be installed to drive the sunroof 2 to rotate, thereby opening and closing the sunroof 2.

[0034] Further optimizations include, for example Figure 4 and Figure 5 As shown, in order to ensure the airtightness between adjacent skylights 2 when the skylight 2 is closed, a sealing strip 5 is provided on the second side of the skylight 2. When the skylight 2 is closed, the sealing strip 5 covers the top of the gap between two adjacent skylights 2, so as to achieve a sealing effect.

[0035] like Figures 1-3 As shown, a sliding part 6 and a driving component are provided on the second mounting beam. The driving component is used to drive the sliding part 6 to slide on the second mounting beam in the distribution direction of the plurality of skylights 2 (the extension direction of the mounting beam 1). A plurality of push rods 61 are provided on the sliding part 6. A limiting plate 7 is provided on the top surface of the skylight 2 (the side outside the cold aisle when the skylight 2 is closed). The limiting plate 7 is located on the side of the rotating shaft near the second side. A first limiting surface 71 is provided on the limiting plate 7. The first limiting surface 71 extends obliquely from the first side to the second side, and the oblique direction is away from the skylight 2. When the skylight 2 is open, the circumferential sides of the plurality of push rods 61 respectively abut against the plurality of push rods 61. On a limiting surface 71; thus, when the driving member drives the sliding part 6 to slide to the second side, the push rod 61 moves on the first limiting surface 71. Since the first limiting surface 71 is an upward slope, the horizontal height of the push rod 61 remains unchanged, and the limiting plate 7 moves downward, thereby causing the sunroof 2 to overcome the influence of the center of gravity and rotate to the second side, so that the sunroof 2 is closed; and the limiting plate 7 is also provided with a second limiting surface 72, which is parallel to the sunroof 2 and is located on the side of the first limiting surface 71 away from the first side. When the push rod 61 moves to the second limiting surface 72, the sunroof 2 is in a closed state, so that the sunroof 2 remains closed.

[0036] Further optimizations include, for example Figure 3 As shown, in order to reduce the friction between the push rod 61 and the limiting plate 7, a sleeve 62 is coaxially sleeved on the push rod 61. The sleeve 62 is rotatably connected to the push rod 61, so that when the push rod 61 moves relative to the limiting plate 7, the two are in rolling contact.

[0037] like Figures 1-3As shown, several limiters 8 are provided on the mounting beam 1. When the push rod 61 abuts against the side of the first limiting surface 71 away from the second limiting surface 72, the limiter 8 abuts against the corresponding sunroof 2. Thus, after the sunroof 2 is opened, the limiter 8 abuts against the side of the opening direction of the sunroof 2, thereby limiting the opening angle of the sunroof 2 and keeping the sunroof 2 at a fixed angle. The limiter 8 can be made of rubber head to reduce damage to the sunroof 2.

[0038] like Figure 2 As shown, warning light strips 9 are installed on the side of the two mounting beams 1 of the cold aisle skylight module 2 that are close to each other. Sensors and other monitoring components can be installed on the cold aisle. When the opening and closing of the skylight 2 malfunctions, the warning light strips 9 will turn on to prompt the staff to carry out maintenance.

[0039] like Figure 1 , Figure 4 and Figure 5 As shown, the skylight 2 includes a window body 21 and an aluminum alloy frame fitted around the circumference of the window body 21. The aluminum alloy frame is rotatably connected to two mounting beams 1 on both sides. The aluminum alloy frame includes two opposing first edge plates 22 and two opposing second edge plates 23. Each of the two first edge plates 22 and the two second edge plates 23 has a slot, which is used to engage with the circumference of the window body 21. The two ends of the first edge plates 22 are threaded to the same side of the two second edge plates 23, and the two second edge plates 23 are rotatably connected to the two mounting beams 1. By using the aluminum alloy first edge plates 22 and second edge plates 23, the window body 21 is fully wrapped in the circumference, improving the stability of the skylight 2. The threaded connection between the two ends of the first edge plates 22 and the same side of the two second edge plates 23 improves the ease of installation and facilitates installation and disassembly.

[0040] In summary, by placing the electromagnetic lock plate 4 on one side of the skylight 2 near one of the mounting beams 1, and installing the electromagnetic lock head 3 on the corresponding mounting beam 1, when the skylight 2 is closed, the electromagnetic lock plate 4 adheres to the electromagnetic lock head 3, allowing the electromagnetic lock head 3 to attract the electromagnetic lock plate 4, thus maintaining the closed skylight 2. Since the electromagnetic lock plate 4 and the electromagnetic lock head 3 are placed on one side of the skylight 2, no spare parts are needed at the adjacent positions of the two skylights 2. Therefore, there is no need to install a wide sheet metal part for installing the electromagnetic lock plate 4 and no need to install a crossbeam for installing the electromagnetic lock head 3, which simplifies the skylight structure and improves the convenience of installing the cold aisle skylight module.

[0041] The above are merely preferred embodiments of this application, and the present invention is not limited to the above embodiments. It is understood that other improvements and variations that can be directly derived or conceived by those skilled in the art without departing from the spirit and concept of the present invention should be considered to be included within the protection scope of the present invention.

Claims

1. A cold aisle ceiling module, characterized in that, include: Two mounting beams (1) and several skylights (2), the two mounting beams (1) are arranged in parallel, and the several skylights (2) are arranged sequentially between the two mounting beams (1). The two sides of the skylights (2) are respectively rotatably arranged on the two mounting beams (1) through a rotating shaft; The two mounting beams (1) are the first mounting beam and the second mounting beam, respectively. The first mounting beam is provided with a plurality of electromagnetic lock heads (3). Each of the skylights (2) is provided with an electromagnetic lock buckle plate (4) on the side near the first mounting beam. The plurality of electromagnetic lock heads (3) and the plurality of electromagnetic lock buckle plates (4) correspond one-to-one. When the skylight (2) is in a closed state, the electromagnetic lock buckle plate (4) is attached to the corresponding electromagnetic lock head (3).

2. The cold aisle ceiling module of claim 1, wherein: The skylight (2) has a first side and a second side on both sides of the distribution direction of the skylight (2), and the center of gravity of the skylight (2) is biased towards the first side.

3. The cold aisle ceiling module of claim 2, wherein: A sealing strip (5) is provided on the second side of the skylight (2).

4. The cold aisle ceiling module of claim 2, wherein: The second mounting beam is provided with a sliding part (6) and a driving member. The driving member is used to drive the sliding part (6) to slide on the second mounting beam in the distribution direction of the plurality of skylights (2). The sliding part (6) is provided with a plurality of push rods (61). The top surface of the skylight (2) is provided with a limiting plate (7). The limiting plate (7) is located on the side of the rotating shaft near the second side. The limiting plate (7) is provided with a first limiting surface (71). The first limiting surface (71) extends obliquely from the first side to the second side. The oblique direction is away from the skylight (2). When the skylight (2) is in the open state, the ring sides of a plurality of push rods (61) respectively abut against a plurality of the first limiting surfaces (71).

5. The cold aisle ceiling module of claim 4, wherein: The limiting plate (7) is also provided with a second limiting surface (72), which is parallel to the skylight (2). The second limiting surface (72) is located on the side away from the first limiting surface (71). When the push rod (61) moves to the second limiting surface (72), the skylight (2) is in a closed state.

6. The cold aisle skylight module according to claim 4, characterized in that: A sleeve (62) is coaxially sleeved on the push rod (61), and the sleeve (62) is rotatably connected to the push rod (61).

7. The cold aisle skylight module according to claim 5, characterized in that: The mounting beam (1) is provided with several limiters (8). When the push rod (61) abuts against the side of the first limiting surface (71) away from the second limiting surface (72), the limiter (8) abuts against the corresponding skylight (2).

8. The cold aisle skylight module according to claim 1, characterized in that: Warning light strips (9) are provided on the side of each of the two mounting beams (1) that are close to each other.

9. The cold aisle skylight module according to claim 1, characterized in that: The skylight (2) includes a window body (21) and an aluminum alloy frame fitted around the window body (21). The aluminum alloy frame is rotatably connected to two mounting beams (1) on both sides.

10. The cold aisle skylight module according to claim 9, characterized in that: The aluminum alloy frame includes two oppositely arranged first edge plates (22) and two oppositely arranged second edge plates (23). Each of the two first edge plates (22) and the two second edge plates (23) is provided with a slot and is secured to the circumferential side of the window (21) through the slot. The two ends of the first edge plates (22) are respectively threaded to the same side of the two second edge plates (23). The two second edge plates (23) are respectively rotatably connected to the two mounting beams (1).