A new type of simulator cockpit cooler

By using a combination of aluminum-based heat-conducting sheets and robust steel protective covers on the simulator control platform, the perforated area is increased, solving the problem of poor heat dissipation of the simulator control platform equipment and components, and achieving more efficient cooling performance and protection of the equipment and components.

CN224439450UActive Publication Date: 2026-06-30SHANGHAI KEHAI-HUATAI MARINE ELECTRIC EQUIPMENT CORP

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI KEHAI-HUATAI MARINE ELECTRIC EQUIPMENT CORP
Filing Date
2025-05-23
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The existing simulator console's mounting plate design is not conducive to heat dissipation of equipment components, leading to overheating and damage to the equipment components.

Method used

The simulator's control console employs a combination of aluminum-based heat-conducting sheets and a robust steel protective cover. By increasing the perforated area and incorporating a cooler with excellent heat transfer performance, the cooling performance of the simulator's control console is enhanced.

Benefits of technology

It improves the cooling performance of the simulator's control panel, protects equipment components, and extends the service life of the equipment components.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224439450U_ABST
    Figure CN224439450U_ABST
Patent Text Reader

Abstract

This utility model discloses a cooler for a novel simulator control console, relating to the field of electrical equipment. It includes an aluminum-based heat-conducting sheet and a protective cover fixedly connected to the novel simulator control console. The aluminum-based heat-conducting sheet is positioned above the protective cover and includes a heat-conducting sheet body. The lower surface of the heat-conducting sheet body is irregular, and the upper surface is smooth. The irregular surface has protrusions and recessed grooves, and the outer edge of the smooth surface has a horizontal fastening connecting wing. The protective cover includes a protective cover body, with a protective surface in the middle. The outer edge of the protective cover body has a right-angle fastening connecting wing, which includes a horizontal surface and a vertical surface. The lower end of the vertical surface is located at the outer edge of the protective surface, and the upper end of the vertical surface is located on one side of the horizontal surface. The other side of the horizontal surface extends outward, thereby increasing the cooling performance by increasing the perforated area.
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Description

Technical Field

[0001] This utility model relates to the field of electrical equipment, and in particular to a cooler for a novel simulator cab. Background Technology

[0002] With the continuous improvement of electrical equipment, higher requirements are placed on the cooling performance of simulator control consoles. Currently, the mounting plates of commonly used simulator control consoles are all designed as a single piece, which is not conducive to heat dissipation of the equipment and components inside the simulator control console, and often leads to damage due to overheating of the equipment and components. Summary of the Invention

[0003] In view of the above-mentioned shortcomings in the field of electrical equipment, this utility model provides a new type of cooler for simulator control console. By increasing the hollow area and setting a cooler with good heat transfer performance in the hollow area, the cooling performance of the simulator control console is enhanced, thereby protecting the equipment components and extending their service life.

[0004] To achieve the above objectives, the embodiments of this utility model adopt the following technical solutions:

[0005] A cooler for a novel simulator control console includes an aluminum-based heat-conducting plate and a protective cover fixedly connected to the console. The aluminum-based heat-conducting plate is disposed above the protective cover. The plate includes a heat-conducting body with an irregular lower surface and a smooth upper surface. The irregular surface has protrusions and recessed grooves, and the smooth surface has a horizontal fastening wing at its outer edge. The protective cover includes a cover body with a protective surface in the middle. A right-angle fastening wing is located at the outer edge of the cover body, comprising a horizontal and a vertical surface. The lower end of the vertical surface is located at the outer edge of the protective surface, and the upper end of the vertical surface is located on one side of the horizontal surface, with the other side of the horizontal surface extending outwards.

[0006] According to one aspect of the present invention, a mounting surface is provided in the middle of the smooth surface, and the mounting surface and the irregular surface are arranged correspondingly above and below each other.

[0007] According to one aspect of this utility model, the aluminum-based heat-conducting sheet has a plate-like structure and is rectangular; the protective cover has a box-like structure.

[0008] According to one aspect of the present invention, the horizontal fastening connecting wing and the horizontal surface are provided with threaded holes.

[0009] According to one aspect of the present invention, the depth of the recessed groove is lower than the height of the irregular surface, and the width of the recessed groove is greater than the width of the protrusion.

[0010] According to one aspect of the present invention, the inner side of the protrusion is provided with a groove, and the width of the outermost protrusion on the irregular surface is greater than the width of the inner groove.

[0011] According to one aspect of this utility model, the height of the irregular surface is greater than the height of the smooth surface.

[0012] According to one aspect of this utility model, the horizontal plane is parallel to the protective surface; the vertical plane is perpendicular to the protective surface.

[0013] According to one aspect of this utility model, the protective surface is provided with holes, and the holes are arranged evenly and regularly.

[0014] According to one aspect of this utility model, the height of the vertical surface is greater than the height of the irregular surface.

[0015] Advantages of this utility model: It includes an aluminum-based heat conduction plate and a robust steel protective cover fixedly connected to the new simulator control panel. The aluminum-based heat conduction plate is positioned above the robust steel protective cover. The aluminum-based heat conduction plate includes a conduction plate body. The lower surface of the conduction plate body is an irregular surface, and the upper surface of the conduction plate body is a smooth surface. The irregular surface is provided with protrusions and recessed grooves, and the outer edge of the smooth surface is provided with a horizontal fastening connecting wing. The robust steel protective cover includes a protective cover body. The middle of the protective cover body is set as a protective surface, and the outer edge of the protective cover body is provided with a right-angle fastening connecting wing. The right-angle fastening connecting wing includes a horizontal surface and a vertical surface. The lower end of the vertical surface is located at the outer edge of the protective surface, and the upper end of the vertical surface is located on one side of the horizontal surface. The other side of the horizontal surface extends outward, thereby enhancing the cooling performance by increasing the perforated area. Attached Figure Description

[0016] To more clearly illustrate the technical solutions in the embodiments of this utility model, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0017] Figure 1 This is a schematic diagram of the structure of a cooler for a novel simulator control console according to the present invention.

[0018] Figure 2 This is a schematic diagram showing the installation position of the cooler of the novel simulator control panel described in this utility model;

[0019] Figure 3 This is a front view of the aluminum-based heat conduction sheet of the cooler for a novel simulator cockpit according to the present invention.

[0020] Figure 4This is a front view of the robust steel protective cover of the cooler of a novel simulator driver's console according to the present invention.

[0021] Explanation of reference numerals in the attached figures:

[0022] 1. Aluminum-based heat conduction sheet; 2. Protective cover; 3. Smooth surface; 4. Irregular surface; 5. Protective surface; 6. Vertical surface; 7. Horizontal surface; 8. Mounting surface; 9. Recessed groove; 10. Protrusion; 11. Horizontal fastening connecting wing; 12. Hole; 13. Threaded 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] Example 1:

[0025] like Figure 1 As shown, a novel cooler for a simulator control panel is mounted on a fixed plate of the simulator control panel. It includes an aluminum-based heat-conducting sheet 1 and a robust steel protective cover 2. The aluminum-based heat-conducting sheet 1 is a rectangular plate-like structure, while the robust steel protective cover 2 is a box-like structure. The aluminum-based heat-conducting sheet 1 is positioned above the robust steel protective cover 2 and is fixedly connected to the fixed plate of the simulator control panel. The aluminum-based heat-conducting sheet 1 is used to accelerate heat conduction and enhance the cooling performance of the simulator control panel; the robust steel protective cover 2 is used to protect the aluminum-based heat-conducting sheet 1 and prevent large particles from damaging it.

[0026] The aluminum-based heat transfer sheet 1 includes a heat transfer sheet body, which includes an irregular surface 4 and a smooth surface 3. The irregular surface 4 is the lower surface of the heat transfer sheet body, and has parallel protrusions 10 and recessed grooves 9 to increase the heat dissipation surface area and improve cooling performance. The width of the inner protrusions 10 is 6mm, and the width of the recessed grooves 9 is 11mm. The smooth surface 3 is the upper surface of the heat transfer sheet body, and has a mounting surface 8 in the middle. The mounting surface 8 is arranged vertically and vertically with the irregular surface 4 for mounting equipment components. The outer edge of the smooth surface 3 has a horizontal fastening connecting wing 11 for overlapping with the control panel mounting plate. The horizontal fastening connecting wing 11 has threaded holes 13 for installing screws, thus fixing the aluminum-based heat transfer sheet 1 to the control panel mounting plate of the simulator control panel.

[0027] The robust steel protective cover 2 includes a cover body with a protective surface 5 in the middle. A right-angle fastening connecting wing is provided on the outer edge of the cover body. The protective surface 5 isolates the aluminum-based heat-conducting sheet 1 from the external environment, and the right-angle fastening connecting wing connects the robust steel protective cover 2 to the mounting plate of the simulator's control panel. Circular holes 12 are provided on the protective surface. The holes 12 are evenly and regularly arranged, with a diameter of 1mm and a spacing of 10mm, to allow heat dissipation from the aluminum-based heat-conducting sheet 1 to pass through. The right-angle fastening connecting wing includes a horizontal surface 7 and a vertical surface 6. The lower end of the vertical surface 6 is located on the outer edge of the protective surface 5, and the upper end is located on one side of the horizontal surface 7. The other side of the horizontal surface 7 extends outward. The horizontal surface 7 is parallel to the protective surface 5; the vertical surface 6 is perpendicular to the protective surface 5. The vertical surface 6 provides space for the robust steel protective cover 2 to accommodate the aluminum-based heat-conducting sheet 1, and the horizontal surface 7 is used to connect with the mounting plate of the simulator's control panel. The horizontal surface 7 is provided with threaded holes 13 for installing screws to fix the reinforced steel protective cover 2 to the fixed plate of the simulator control panel.

[0028] According to one aspect of this utility model, the depth of the recessed groove 9 is lower than the height of the irregular surface 4, and the width of the recessed groove 9 is greater than the width of the protrusion 10. The depth of the recessed groove 9 is 15 mm, and the height of the irregular surface 4 is 22 mm.

[0029] According to one aspect of the present invention, the height of the smooth surface 3 is lower than the height of the irregular surface 4, and the height of the smooth surface 3 is 5 mm.

[0030] According to one aspect of the present invention, the height of the vertical surface 6 is greater than the height of the irregular surface 4, and the height of the vertical surface 6 is 25mm.

[0031] Install the cooler onto the mounting plate of the simulator control panel. First, place the robust steel protective cover 2 in the cutout area of ​​the mounting plate, ensuring the horizontal surface 7 overlaps with the plate. Then, place the aluminum-based heat-conducting sheet 1 above the robust steel protective cover 2. Place the horizontal fastening connecting wing 11 on the horizontal surface 7, aligning the threaded hole 13 on the horizontal fastening connecting wing 11 with the threaded hole 13 on the horizontal surface 7. Install screws into the threaded holes 13 to secure the robust steel protective cover 2 and the aluminum-based heat-conducting sheet 1 to the mounting plate of the simulator control panel.

[0032] Advantages of this utility model: It includes an aluminum-based heat conduction plate and a robust steel protective cover fixedly connected to the new simulator control panel. The aluminum-based heat conduction plate is positioned above the robust steel protective cover. The aluminum-based heat conduction plate includes a conduction plate body. The lower surface of the conduction plate body is an irregular surface, and the upper surface of the conduction plate body is a smooth surface. The irregular surface is provided with protrusions and recessed grooves, and the outer edge of the smooth surface is provided with a horizontal fastening connecting wing. The robust steel protective cover includes a protective cover body. The middle of the protective cover body is set as a protective surface, and the outer edge of the protective cover body is provided with a right-angle fastening connecting wing. The right-angle fastening connecting wing includes a horizontal surface and a vertical surface. The lower end of the vertical surface is located at the outer edge of the protective surface, and the upper end of the vertical surface is located on one side of the horizontal surface. The other side of the horizontal surface extends outward, thereby enhancing the cooling performance by increasing the perforated area.

[0033] Example 2:

[0034] like Figure 1 As shown, a novel cooler for a simulator control panel is mounted on a fixed plate of the simulator control panel. It includes an aluminum-based heat-conducting sheet 1 and a robust steel protective cover 2. The aluminum-based heat-conducting sheet 1 is a rectangular plate-like structure, while the robust steel protective cover 2 is a box-like structure. The aluminum-based heat-conducting sheet 1 is positioned above the robust steel protective cover 2 and is fixedly connected to the fixed plate of the simulator control panel. The aluminum-based heat-conducting sheet 1 is used to accelerate heat conduction and enhance the cooling performance of the simulator control panel; the robust steel protective cover 2 is used to protect the aluminum-based heat-conducting sheet 1 and prevent large particles from damaging it.

[0035] The aluminum-based heat transfer sheet 1 includes a heat transfer sheet body, which includes an irregular surface 4 and a smooth surface 3. The irregular surface 4 is the lower surface of the heat transfer sheet body, and has parallel protrusions 10 and recessed grooves 9 to increase the heat dissipation surface area and improve cooling performance. The width of the inner protrusions 10 is 6mm, and the width of the recessed grooves 9 is 11mm. The smooth surface 3 is the upper surface of the heat transfer sheet body, and has a mounting surface 8 in the middle. The mounting surface 8 is arranged vertically and vertically with the irregular surface 4 for mounting equipment components. The outer edge of the smooth surface 3 has a horizontal fastening connecting wing 11 for overlapping with the control panel mounting plate. The horizontal fastening connecting wing 11 has threaded holes 13 for installing screws, thus fixing the aluminum-based heat transfer sheet 1 to the control panel mounting plate of the simulator control panel.

[0036] The robust steel protective cover 2 includes a cover body with a protective surface 5 in the middle. A right-angle fastening connecting wing is provided on the outer edge of the cover body. The protective surface 5 isolates the aluminum-based heat-conducting sheet 1 from the external environment, and the right-angle fastening connecting wing connects the robust steel protective cover 2 to the mounting plate of the simulator's control panel. Circular holes 12 are provided on the protective surface. The holes 12 are evenly and regularly arranged, with a diameter of 1mm and a spacing of 10mm, to allow heat dissipation from the aluminum-based heat-conducting sheet 1 to pass through. The right-angle fastening connecting wing includes a horizontal surface 7 and a vertical surface 6. The lower end of the vertical surface 6 is located on the outer edge of the protective surface 5, and the upper end is located on one side of the horizontal surface 7. The other side of the horizontal surface 7 extends outward. The horizontal surface 7 is parallel to the protective surface 5; the vertical surface 6 is perpendicular to the protective surface 5. The vertical surface 6 provides space for the robust steel protective cover 2 to accommodate the aluminum-based heat-conducting sheet 1, and the horizontal surface 7 is used to connect with the mounting plate of the simulator's control panel. The horizontal surface 7 is provided with threaded holes 13 for installing screws to fix the reinforced steel protective cover 2 to the fixed plate of the simulator control panel.

[0037] According to one aspect of this utility model, the depth of the recessed groove 9 is lower than the height of the irregular surface 4, and the width of the recessed groove 9 is greater than the width of the protrusion 10. The depth of the recessed groove 9 is 15 mm, and the height of the irregular surface 4 is 22 mm.

[0038] According to one aspect of this utility model, the inner side of the protrusion 10 is provided with a groove to increase the contact surface area. The width of the outermost protrusion 10 on the irregular surface 4 is greater than the width of the inner groove, and the width of the outermost protrusion 10 is 10mm.

[0039] According to one aspect of the present invention, the height of the smooth surface 3 is lower than the height of the irregular surface 4, and the height of the smooth surface 3 is 5 mm.

[0040] According to one aspect of the present invention, the height of the vertical surface 6 is greater than the height of the irregular surface 4, and the height of the vertical surface 6 is 25mm.

[0041] Install the cooler onto the mounting plate of the simulator control panel. First, place the robust steel protective cover 2 in the cutout area of ​​the mounting plate, ensuring the horizontal surface 7 overlaps with the plate. Then, place the aluminum-based heat-conducting sheet 1 above the robust steel protective cover 2. Place the horizontal fastening connecting wing 11 on the horizontal surface 7, aligning the threaded hole 13 on the horizontal fastening connecting wing 11 with the threaded hole 13 on the horizontal surface 7. Install screws into the threaded holes 13 to secure the robust steel protective cover 2 and the aluminum-based heat-conducting sheet 1 to the mounting plate of the simulator control panel.

[0042] Advantages of this utility model: It includes an aluminum-based heat conduction plate and a robust steel protective cover fixedly connected to the new simulator control panel. The aluminum-based heat conduction plate is positioned above the robust steel protective cover. The aluminum-based heat conduction plate includes a conduction plate body. The lower surface of the conduction plate body is an irregular surface, and the upper surface of the conduction plate body is a smooth surface. The irregular surface is provided with protrusions and recessed grooves, and the outer edge of the smooth surface is provided with a horizontal fastening connecting wing. The robust steel protective cover includes a protective cover body. The middle of the protective cover body is set as a protective surface, and the outer edge of the protective cover body is provided with a right-angle fastening connecting wing. The right-angle fastening connecting wing includes a horizontal surface and a vertical surface. The lower end of the vertical surface is located at the outer edge of the protective surface, and the upper end of the vertical surface is located on one side of the horizontal surface. The other side of the horizontal surface extends outward, thereby enhancing the cooling performance by increasing the perforated area.

[0043] The above description is merely a specific embodiment of this utility model, but the protection scope of this utility model is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in this utility model should be included within the protection scope of this utility model. Therefore, the protection scope of this utility model should be determined by the protection scope of the claims.

Claims

1. A cooler for a novel simulator cockpit, comprising an aluminum-based heat-conducting plate (1) and a protective cover (2) fixedly connected to the novel simulator cockpit, wherein the aluminum-based heat-conducting plate (1) is disposed above the protective cover (2), characterized in that, The aluminum-based heat-conducting sheet (1) includes a heat-conducting sheet body. The lower surface of the heat-conducting sheet body is an irregular surface (4), and the upper surface of the heat-conducting sheet body is a smooth surface (3). The irregular surface (4) is provided with a protrusion (10) and a recessed groove (9). The outer edge of the smooth surface (3) is provided with a horizontal fastening connecting wing (11). The protective cover (2) includes a protective cover body. The middle of the protective cover body is provided with a protective surface (5). The outer edge of the protective cover body is provided with a right-angle fastening connecting wing. The right-angle fastening connecting wing includes a horizontal surface (7) and a vertical surface (6). The lower end of the vertical surface (6) is provided on the outer edge of the protective surface (5), and the upper end of the vertical surface (6) is provided on one side of the horizontal surface (7). The other side of the horizontal surface (7) extends outward.

2. The cooler for the novel simulator control console according to claim 1, characterized in that, The smooth surface (3) has an installation surface (8) in the middle, and the installation surface (8) and the irregular surface (4) are arranged correspondingly above and below each other.

3. The cooler for the novel simulator control console according to claim 1, characterized in that, The aluminum-based heat-conducting sheet (1) has a plate-like structure and is rectangular; the protective cover (2) has a box-like structure.

4. The cooler for the novel simulator control console according to claim 1, characterized in that, The horizontal fastening connecting wing (11) and the horizontal surface (7) are provided with threaded holes (13).

5. The cooler for the novel simulator control console according to claim 1, characterized in that, The depth of the recessed groove (9) is lower than the height of the irregular surface (4), and the width of the recessed groove (9) is greater than the width of the protrusion (10).

6. The cooler for the novel simulator control console according to claim 1, characterized in that, The inner side of the protrusion (10) is provided with a groove, and the width of the outermost protrusion (10) on the irregular surface (4) is greater than the width of the inner groove.

7. The cooler for the novel simulator control console according to claim 1, characterized in that, The height of the irregular surface (4) is greater than the height of the smooth surface (3).

8. The cooler for the novel simulator cockpit according to any one of claims 1 to 7, characterized in that, The horizontal plane (7) is parallel to the protective surface (5); the vertical plane (6) is perpendicular to the protective surface (5).

9. The cooler for the novel simulator control console according to claim 1, characterized in that, The protective surface (5) is provided with holes (12), and the holes (12) are evenly and regularly arranged.

10. The cooler for the novel simulator control console according to claim 1, characterized in that, The height of the vertical surface (6) is greater than the height of the irregular surface (4).