A private cloud data collaborative processing device

By designing flexible support rods and windproof cloth structures at the ventilation openings of the private cloud data collaborative processing device, the dust is shaken off by hot air, which solves the problem of dust accumulation at the heat dissipation openings, ensuring the heat dissipation effect of the equipment and preventing dust from entering.

CN224343630UActive Publication Date: 2026-06-09INNER MONGOLIA DAIHAI ELECTRIC POWER GENERATION

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
INNER MONGOLIA DAIHAI ELECTRIC POWER GENERATION
Filing Date
2025-07-01
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

The heat dissipation vents of existing private cloud data collaborative processing devices are prone to dust accumulation, which affects heat dissipation performance.

Method used

A ventilation structure with elastic support rods and a windproof cloth was designed. Hot air blows the support rods and windproof cloth to shake, and periodic lateral force and elastic shaking shake off the dust. The inclined opening and curved surface prevent dust from flowing back.

Benefits of technology

It effectively removes dust from the vents, maintains good heat dissipation, and prevents dust from entering the equipment.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of private cloud data collaborative processing device, it is related to data processing technical field, including being opened in the multiple ventilation openings of data processing equipment main body, the periphery cover of ventilation opening is equipped with windbreak cloth, the outer wall of windbreak cloth is fixedly connected with multiple supporting rods, the supporting rod has elasticity, the top of supporting rod is hinged with the outer wall of data processing equipment main body, the hinged place of supporting rod and data processing equipment main body is close to the top of ventilation opening, the bottom of supporting rod extends to below ventilation opening, and close to the outer wall of data processing equipment main body;In the utility model, hot air is blown out from ventilation opening, hot air blows up windbreak cloth, supporting rod bottom end separates from equipment outer wall, hot air contacts supporting rod inner wall and floats out from below, while supporting rod and windbreak cloth sway under the action of wind blowing. Hot air generates periodic lateral force to windbreak cloth, plus supporting rod itself has elasticity, and the dust that two swayings make part of dust accumulated on the outer surface of windbreak cloth shakes off.
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Description

Technical Field

[0001] This utility model relates to the field of data processing technology, specifically a private cloud data collaborative processing device. Background Technology

[0002] Private cloud data collaborative processing devices are mainly used for efficient and secure data processing and collaborative management in a private cloud environment to meet the various business needs of enterprises or organizations. They centrally store various types of enterprise data, including files, databases, and multimedia materials, providing a secure and reliable storage environment for the data. At the same time, they classify, index, and back up the data to facilitate data retrieval, querying, and recovery, ensuring data integrity and availability.

[0003] Private cloud data collaborative processing devices dissipate heat by opening heat dissipation vents on the surface. To prevent a large amount of dust and impurities in the air from entering the device through the heat dissipation vents, a protective cover is placed over the vents. However, over time, dust will gradually accumulate on the outside of the protective cover, increasing its thickness and affecting the heat dissipation effect. Utility Model Content

[0004] The purpose of this invention is to provide a private cloud data collaborative processing device to solve the problems mentioned in the background art.

[0005] To address the aforementioned technical problems, this utility model provides a private cloud data collaborative processing device, comprising multiple ventilation openings on the main body of the data processing equipment. A windproof cloth is provided around each ventilation opening, and multiple support rods are fixedly connected to the outer wall of the windproof cloth. The support rods are elastic, with their top ends hinged to the outer wall of the main body of the data processing equipment. The hinge point between the support rod and the main body of the data processing equipment is close to the top of the ventilation opening, and the bottom end of the support rod extends below the ventilation opening and is close to the outer wall of the main body of the data processing equipment.

[0006] Furthermore, the outer wall of the support rod is provided with multiple openings at equal intervals, and the outlet of the opening is located on the surface of the support rod and communicates with the outside.

[0007] Furthermore, multiple elastic elements are fixedly installed at the bottom end of the support rod. The elastic elements are elastic and have multiple corners. There are gaps between the multiple elastic elements, and the bottom of the elastic elements abuts against the outer wall of the main body of the data processing equipment.

[0008] Furthermore, a receiving groove is provided above the vent, the receiving groove is opened on the outer wall of the main body of the data processing equipment, a rotating rod is fixedly installed on the inner wall of the receiving groove, a sleeve is also sleeved on the outer wall of the rotating rod, the sleeve has a through hole for fitting on the rotating rod, and the top end of the support rod is fixedly connected to the outer wall of the sleeve.

[0009] Furthermore, the support rod is bent and arched away from the vent, with a gap between the inner arc surface of the support rod and the vent.

[0010] Furthermore, the opening is inclined, with its outlet facing downwards, and the end of the opening located deep within the support rod facing the sleeve.

[0011] Furthermore, the inner wall of the vent is provided with an arc-shaped surface, and the outlet of the arc-shaped surface extends downward.

[0012] Furthermore, there is a height difference between the bottom of the windbreak and the bottom of the vent, with the bottom of the windbreak located below the bottom of the vent.

[0013] Compared with the prior art, the beneficial effects of this utility model are:

[0014] 1. In this utility model, after hot air is blown out from the vent, the hot air blows up the windproof cloth, and the bottom end of the support rod detaches from the outer wall of the equipment. After the hot air comes into contact with the inner wall of the support rod, it floats out from below. At the same time, the support rod and the windproof cloth sway under the action of the wind. The hot air generates a periodic lateral force on the windproof cloth. In addition, the support rod itself is elastic. The swaying of the two causes some of the dust accumulated on the outer surface of the windproof cloth to fall off.

[0015] 2. In this utility model, when the bottom of the support rod is far away from the outer wall of the equipment, the support rod will sway left and right, and at the same time, it will deform, causing the opening to open and close continuously. The closing of the opening will increase the leftward sway of the support rod, intensify the sway of the support rod itself, and thus increase the shaking amplitude of the support rod and the windproof cloth. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the appearance of the present utility model;

[0017] Figure 2 This is a schematic diagram of the connection structure between the main body of the data processing equipment and the ventilation opening in this utility model;

[0018] Figure 3 This is a schematic diagram of the connection structure between the ventilation opening and the arc-shaped surface in this utility model;

[0019] Figure 4 This is a schematic diagram of the connection structure between the support rod and the windproof cloth in this utility model;

[0020] Figure 5 This is a schematic diagram of the connection structure between the support rod and the opening in this utility model.

[0021] In the diagram: 1. Main body of the data processing equipment;

[0022] 2. Ventilation opening; 3. Support rod; 4. Windproof cloth; 5. Curved surface; 6. Receiving groove; 7. Rotating rod; 8. Sleeve; 9. Opening; 10. Elastic element; 11. Through hole. Detailed Implementation

[0023] The technical solutions of the present utility model 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 utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0024] This utility model provides a technical solution:

[0025] See Figures 1-5 As shown, a private cloud data collaborative processing device includes multiple ventilation openings 2 opened on the main body 1 of the data processing device. The ventilation openings 2 are covered with a windproof cloth 4. Multiple support rods 3 are fixedly connected to the outer wall of the windproof cloth 4. The support rods 3 are elastic. The top of the support rods 3 is hinged to the outer wall of the main body 1 of the data processing device. The hinge point of the support rods 3 and the main body 1 of the data processing device is close to the top of the ventilation opening 2. The bottom of the support rods 3 extends to the bottom of the ventilation opening 2 and is close to the outer wall of the main body 1 of the data processing device.

[0026] The main body of the data processing equipment 1 is a hardware and software integrated system consisting of server clusters, storage devices, network components, and management software. Deployed within the enterprise, it forms an independent and controllable cloud environment. It achieves centralized management of computing and storage resources through hardware clusters, and uses virtualization technology to abstract physical resources into virtual resource pools. Then, through collaborative office software, data processing engines, etc., it realizes multi-user cross-device data sharing, real-time collaboration, secure interaction, and distributed processing. It can ensure data security through encrypted transmission and access control, and improve efficiency through elastic expansion and resource scheduling. It is suitable for enterprises with high requirements for data security and independent control to achieve efficient collaboration and data management.

[0027] After the main body 1 of the data processing equipment generates heat during operation, hot air is blown out from the vent 2. The support rod 3 and the windproof cloth 4 cover the outside of the vent 2, blocking the air outlet of the vent 2. Therefore, the wind will blow the windproof cloth 4 and the support rod 3. In the initial state, the bottom end of the support rod 3 is in contact with the outer wall of the main body 1 of the data processing equipment. However, after the hot air blows the windproof cloth 4, the bottom end of the support rod 3 will detach from the outer wall of the main body 1 of the data processing equipment. The windproof cloth 4 and the support rod 3 are made of very light materials and can be blown up by a small wind.

[0028] After the support rod 3 and the windproof cloth 4 are blown up by the wind, the bottom of the support rod 3 and the windproof cloth 4 no longer touch the outer wall of the main body 1 of the data processing equipment. Then, after the hot air comes into contact with the inner wall of the support rod 3, it will drift out from the bottom of the support rod 3. At the same time, the support rod 3 and the windproof cloth 4 will shake under the action of the wind, which helps some of the dust accumulated on the outer wall of the windproof cloth 4 to fall off.

[0029] When hot air blows on the edge of the windshield cloth 4, the airflow will separate from the surface of the windshield cloth 4, forming alternating vortices. These vortices will generate periodic lateral forces on the windshield cloth 4, causing the windshield cloth 4 to be subjected to alternating left-right or up-down forces during the process of being blown up, thus producing reciprocating swaying or undulation.

[0030] The support rod 3 is also elastic and will sway when the wind blows, just like the top of a flagpole sways when the wind blows. Therefore, the swaying of the support rod 3 and the windproof cloth 4 will shake off some of the dust accumulated on the outer surface of the windproof cloth 4.

[0031] See Figures 4-5 The outer wall of the support rod 3 has multiple openings 9 at equal intervals. The outlet of the opening 9 is located on the surface of the support rod 3 and communicates with the outside.

[0032] When the bottom end of the support rod 3 contacts the outer wall of the main body 1 of the data processing equipment, the opening 9 is in the open state. When the bottom of the support rod 3 moves away from the main body 1 of the data processing equipment, the opening 9 is in the open state. Figure 5 From the perspective of the support rod 3, it will sway left and right. While swaying, the support rod 3 itself will deform, which will cause the opening 9 to open and close continuously. The closing of the opening 9 will make the support rod 3 sway to the left more, and at the same time make the support rod 3 itself sway more, increasing the shaking amplitude of the support rod 3 and the windproof cloth 4.

[0033] See Figure 5 Multiple elastic elements 10 are fixedly installed at the bottom of the support rod 3. The elastic elements 10 are elastic and have multiple corners. There are gaps between the multiple elastic elements 10. The bottom of the elastic elements 10 abuts against the outer wall of the main body 1 of the data processing equipment.

[0034] When the support rod 3 shakes, the bottom of the support rod 3 will continuously approach and move away from the inner wall of the data processing device body 1, and then contact and impact the outer wall of the data processing device body 1 through the elastic element 10. The elastic element 10 is elastic, and after being impacted, the elastic element 10 will repeatedly contract and expand at the fold, making the support rod 3 shake more.

[0035] See Figures 3-4 Above the vent 2, there is also a receiving groove 6. The receiving groove 6 is opened on the outer wall of the main body 1 of the data processing equipment. A rotating rod 7 is fixedly installed on the inner wall of the receiving groove 6. A sleeve 8 is also sleeved on the outer wall of the rotating rod 7. The sleeve 8 has a through hole 11 for sleeved on the rotating rod 7. The top end of the support rod 3 is fixedly connected to the outer wall of the sleeve 8.

[0036] The support rod 3 is rotatably connected to the rotating rod 7 via the sleeve 8. When the support rod 3 shakes, the sleeve 8 will rotate along the outer wall of the rotating rod 7. At the same time, the rotating rod 7 supports the sleeve 8 to prevent the support rod 3 and the windproof cloth 4 from falling off.

[0037] See Figure 4 The support rod 3 bends and arches away from the vent 2, and there is a gap between the inner arc surface of the support rod 3 and the vent 2.

[0038] The bending of the support rod 3 creates a gap between the windproof cloth 4 and the vent 2, providing space for hot air to flow out and impact the windproof cloth 4, while also allowing wind to blow out from the side of the support rod 3.

[0039] See Figure 5 The opening 9 is set at an angle, with the outlet of the opening 9 facing downwards, and the end of the opening 9 located deep inside the support rod 3 facing the sleeve 8.

[0040] Opening 9 is located on the outer arc surface of support rod 3. If some dust falls into opening 9, it can slide out directly along the tilt angle of opening 9. At the same time, opening 9 will shake the dust out when it opens and closes.

[0041] See Figure 3 The inner wall of the vent 2 is also provided with an arc-shaped surface 5, and the outlet of the arc-shaped surface 5 extends downward.

[0042] The curved surface 5 has a downward slope, which can further prevent dust from flowing back into the ventilation opening 2. If dust falls on the curved surface 5, it can slide down the slope of the curved surface 5.

[0043] See Figure 3 There is a height difference between the bottom of the windbreak cloth 4 and the bottom of the vent 2, with the bottom of the windbreak cloth 4 located below the bottom of the vent 2.

[0044] The bottom of the windproof cloth 4 is below the bottom of the vent 2, which can cover a large area of ​​the vent 2 and further prevent dust from entering.

Claims

1. A private cloud data collaborative processing device, comprising multiple ventilation openings (2) formed on the main body (1) of the data processing device, characterized in that, The ventilation opening (2) is covered with a windproof cloth (4). The outer wall of the windproof cloth (4) is fixedly connected with multiple support rods (3). The support rods (3) are elastic. The top of the support rods (3) is hinged to the outer wall of the data processing equipment body (1). The hinge of the support rods (3) and the data processing equipment body (1) is close to the top of the ventilation opening (2). The bottom of the support rods (3) extends to the bottom of the ventilation opening (2) and is close to the outer wall of the data processing equipment body (1).

2. The private cloud data collaborative processing device as described in claim 1, characterized in that: The outer wall of the support rod (3) is provided with multiple openings (9) at equal intervals. The outlet of the opening (9) is located on the surface of the support rod (3) and communicates with the outside.

3. The private cloud data collaborative processing device as described in claim 2, characterized in that: The bottom end of the support rod (3) is fixedly installed with multiple elastic elements (10). The elastic elements (10) are elastic and have multiple corners. There are gaps between the multiple elastic elements (10). The bottom of the elastic elements (10) abuts against the outer wall of the main body (1) of the data processing equipment.

4. The private cloud data collaborative processing device as described in claim 3, characterized in that: Above the vent (2) is a receiving groove (6), which is located on the outer wall of the main body (1) of the data processing equipment. A rotating rod (7) is fixedly installed on the inner wall of the receiving groove (6). A sleeve (8) is also fitted on the outer wall of the rotating rod (7). The sleeve (8) has a through hole (11) for fitting onto the rotating rod (7). The top end of the support rod (3) is fixedly connected to the outer wall of the sleeve (8).

5. A private cloud data collaborative processing device as described in claim 4, characterized in that: The support rod (3) bends and arches away from the vent (2), and there is a gap between the inner arc surface of the support rod (3) and the vent (2).

6. The private cloud data collaborative processing device as described in claim 5, characterized in that: The opening (9) is inclined, with the outlet of the opening (9) facing downwards, and the end of the opening (9) located deep in the support rod (3) facing the sleeve (8).

7. A private cloud data collaborative processing device as described in claim 6, characterized in that: The inner wall of the vent (2) is also provided with an arc-shaped surface (5), and the outlet of the arc-shaped surface (5) extends downward.

8. The private cloud data collaborative processing device as described in claim 7, characterized in that: There is a height difference between the bottom of the windproof cloth (4) and the bottom of the vent (2), with the bottom of the windproof cloth (4) located below the bottom of the vent (2).