Liquid cooling machine box based on co-forming design of photoelectric detection equipment turntable

By using a liquid-cooled chassis with a conformal design for the turntable of the photoelectric detection equipment, the problems of structural redundancy and poor cooling effect caused by the independent design of the turntable and the liquid-cooled chassis are solved, achieving lightweight and efficient cooling of the equipment and simplifying installation and maintenance.

CN122269653APending Publication Date: 2026-06-23CHINA ELECTRONIC TECH GRP CORP NO 38 RES INST

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
CHINA ELECTRONIC TECH GRP CORP NO 38 RES INST
Filing Date
2026-04-13
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

The independent design of the turntable and liquid cooling chassis in photoelectric detection equipment leads to structural redundancy, increased weight, hinders lightweight design, poor cooling effect, and complicated installation and maintenance.

Method used

The liquid-cooled chassis adopts a conformal design for the turntable of photoelectric detection equipment. Through the conformal design of the liquid-cooled chassis and the turntable base, an integral structure is formed. The upper liquid-cooled plate unit, the lower liquid-cooled plate unit and the turntable base are used to form a liquid-cooled frame, omitting the supporting structure. The quick-connect liquid-cooled plate unit is installed to form a cooling zone, and modular functional components are adopted.

Benefits of technology

This has resulted in lightweight equipment, simplified installation and maintenance processes, improved cooling efficiency, reduced maintenance time, and optimized structural layout.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application provides a liquid cooling case based on a co-molded design of a photoelectric detection device turntable, and relates to the technical field of photoelectric detection devices.The liquid cooling case comprises a turntable base arranged on the turntable, a plurality of power supply components, control components and analysis components arranged in the turntable base, and an upper liquid cooling plate unit and a lower liquid cooling plate unit are arranged in the turntable base and form a liquid cooling frame; the liquid cooling case further comprises a plurality of quick-connection liquid cooling plate units arranged in the liquid cooling frame, the plurality of quick-connection liquid cooling plate units divide the liquid cooling frame into a plurality of refrigeration sub-zones, a detection function component is arranged on each quick-connection liquid cooling plate unit, and the detection function component is arranged in the corresponding refrigeration sub-zone to dissipate heat; through the co-molded design of the liquid cooling case and the turntable base, the upper liquid cooling plate unit, the lower liquid cooling plate unit and the turntable base are used to form the liquid cooling frame, the structural layout is optimized, the support structure between the upper liquid cooling plate unit and the lower liquid cooling plate unit is omitted, and the light weight level of the device is improved.
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Description

Technical Field

[0001] This invention relates to the field of photoelectric detection equipment technology, and specifically to a liquid-cooled chassis based on the conformal design of a turntable for photoelectric detection equipment. Background Technology

[0002] In the field of photoelectric detection equipment, the turntable is one of the core components, mainly used to realize the pointing and tracking functions of the equipment. The turntable needs to meet the requirements of high precision, high stability and fast response, while also having good shock resistance and dynamic tracking capabilities to adapt to complex working environments; the liquid-cooled chassis is a key component for thermal management, and its performance directly affects the stability, signal-to-noise ratio and service life of the detection components.

[0003] Currently, the turntable and liquid-cooled chassis in photoelectric detection equipment are usually designed as independent systems to achieve pointing, tracking and thermal management of the photoelectric detection equipment. However, when the turntable and liquid-cooled chassis are designed as independent systems, it leads to redundancy in the overall structure of the equipment and increased weight, which poses a challenge to lightweight design.

[0004] Therefore, how to integrate the turntable with the liquid cooling chassis into a single design, optimize the structural layout, and improve the performance and lightweighting of the equipment is a technical problem that urgently needs to be solved by those skilled in the art. Summary of the Invention

[0005] (a) Technical problems to be solved To address the shortcomings of existing technologies, this invention provides a liquid-cooled chassis based on the conformal design of the turntable for photoelectric detection equipment, which solves the problem of redundancy in the overall structure of current photoelectric detection equipment.

[0006] (II) Technical Solution To achieve the above objectives, the present invention provides the following technical solution: In this invention, the liquid-cooled chassis based on the conformal design of the photoelectric detection equipment turntable includes: A turntable base mounted on the turntable; Several power supply components, control components, and analysis components are located within the turntable base; The turntable base is equipped with an upper liquid cooling plate unit and a lower liquid cooling plate unit, which together form a liquid cooling frame. Also includes: Several quick-connect liquid cooling plate units are disposed within the liquid cooling frame, and the quick-connect liquid cooling plate units divide the liquid cooling frame into multiple cooling zones. A detection function component is installed on the quick-connect liquid cooling plate unit, and the detection function component is located in the corresponding cooling zone for heat dissipation. The contact surface between the quick-connect liquid-cooled plate unit and the detection function component is filled with a thermally conductive structure, and together they form the quick-connect function component.

[0007] Furthermore, the upper liquid cooling plate unit comprises an upper liquid cooling channel cover plate, an upper liquid cooling channel plate, a second connector, and several first connectors. The upper liquid cooling channel plate is provided with a water channel groove that matches the upper liquid cooling channel cover plate. The upper liquid cooling channel plate and the upper liquid cooling channel cover plate are formed by welding. Both joint one and joint two are fixedly connected to the upper liquid cooling channel plate by bolts.

[0008] Furthermore, the lower liquid cooling plate unit comprises a lower liquid cooling channel plate, a lower liquid cooling channel cover plate, a second connector, and several first connectors. The lower liquid cooling channel plate is provided with a channel groove that matches the lower liquid cooling channel cover plate. The lower liquid cooling channel plate and the lower liquid cooling channel cover plate are formed by welding. Joint 2 and several joints 1 are all installed on the lower liquid cooling channel plate by screwing.

[0009] Furthermore, the quick-connect liquid cooling plate unit comprises a quick-connect liquid cooling channel plate, a quick-connect liquid cooling channel cover plate, a handle, and two connectors. The quick-connect liquid cooling channel plate has a water channel groove that matches the quick-connect liquid cooling channel cover plate. The quick-connect liquid cooling channel plate and the quick-connect liquid cooling channel cover plate are formed by welding. The connector three and the handle are installed on the quick-connect liquid cooling channel plate by screwing.

[0010] Furthermore, the quick-connect liquid cooling plate unit is provided with two connectors three, both of which are straight liquid cooling quick-connect connectors, and are respectively connected to connector one on the upper liquid cooling plate unit and connector one on the lower liquid cooling plate unit.

[0011] Furthermore, both the upper liquid cooling plate unit and the lower liquid cooling plate unit are provided with one connector two and several connectors one. The number of connectors one corresponds to the number of quick-connect liquid cooling plate units, and the number of connectors one in the upper liquid cooling plate unit is the same as the number of connectors one in the lower liquid cooling plate unit.

[0012] Furthermore, the liquid cooling chassis and the turntable base are designed in a common shape, and the open windows around the turntable base are all sealed with sealing plates for waterproofing, forming an integral structure with the photoelectric turntable.

[0013] Furthermore, the liquid cooling chassis also includes a base sealing plate, which is fixedly connected to the upper side of the turntable base by bolts, and the base sealing plate and the turntable base are sealed together by a sealing gasket for waterproofing.

[0014] Furthermore, there is a gap between the upper liquid cooling plate unit and the base sealing plate of the turntable base, forming a sealed air cavity.

[0015] Furthermore, the thermally conductive structure is a thermally conductive silicone grease layer or a thermally conductive pad.

[0016] (III) Beneficial Effects This invention provides a liquid-cooled chassis based on a conformal design of a turntable for a photoelectric detection device. Compared with the prior art, it has the following advantages: By adopting a conformal design between the liquid-cooled chassis and the turntable base, a liquid-cooled frame is formed by the upper liquid-cooled plate unit, the lower liquid-cooled plate unit, and the turntable base. This optimizes the structural layout, eliminates the supporting structure between the upper and lower liquid-cooled plate units, and improves the lightweight level of the equipment. Furthermore, by installing several quick-connect liquid-cooled plate units inside the liquid-cooled frame and forming a cooling zone within the liquid-cooled frame, the heat dissipated by the detection function components installed on the quick-connect liquid-cooled plate units can be effectively managed. Meanwhile, the integrated design simplifies the installation and maintenance process. All functional components adopt a modular design, which makes disassembly and assembly convenient and reduces maintenance time. It solves the problem of redundancy in the overall structure of current photoelectric detection equipment and realizes the lightweight design of the turntable and liquid-cooled chassis of photoelectric detection equipment. Attached Figure Description

[0017] To more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0018] Figure 1 An exploded view of a schematic model of a liquid-cooled chassis based on a conformal design of a turntable for a photoelectric detection device; Figure 2 This is a cross-sectional view of a schematic model of a liquid-cooled chassis based on a conformal design of a turntable for a photoelectric detection device; Figure 3 for Figure 1 Axial view and exploded view of the schematic model of the upper and middle liquid cooling plate unit; Figure 4 for Figure 1 Axial view and exploded view of the schematic model of the lower liquid cooling plate unit; Figure 5 for Figure 1 Axial view and exploded view of the schematic model of the quick-connect liquid cooling plate unit; Figure 6 This is a schematic diagram illustrating an application scenario for a quick-connect liquid cooling plate unit. Figure 7 A schematic diagram of a common-design liquid-cooled chassis application scenario.

[0019] Figure label: 1. Turntable base; 2. Base sealing plate; 3. Sealing gasket; 4. Upper liquid cooling plate unit; 5. Thermal insulation pad; 6. Quick-connect liquid cooling plate unit; 7. Lower liquid cooling plate unit; 8. Thermal insulation pad; 9. Support column; 10. Upper liquid cooling channel cover plate; 11. Upper liquid cooling channel plate; 12. Connector 1; 13. Connector 2; 14. Lower liquid cooling channel plate; 15. Lower liquid cooling channel cover plate; 16. Quick-connect liquid cooling channel plate; 17. Quick-connect liquid cooling channel cover plate; 18. Connector 3; 19. Handle; 20. Detection function component; 21. Quick-connect function component; 22. Power supply component; 23. Control component; 24. Analysis component; 25. Photoelectric turntable; 26. Sealing plate. Detailed Implementation

[0020] To make the objectives, technical solutions, and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention are described clearly and completely. Obviously, the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0021] This application provides a liquid-cooled chassis based on a conformal design of the turntable for photoelectric detection equipment, which solves the problem of redundancy in the overall structure of current photoelectric detection equipment and achieves a lightweight design for both the turntable and the liquid-cooled chassis.

[0022] The technical solution in this application is to solve the above-mentioned technical problems, and the general idea is as follows: In existing technologies, the independent design of the photoelectric detection turntable and the liquid-cooled chassis mainly suffers from technical drawbacks such as structural redundancy, poor cooling performance, and complex installation and maintenance. Regarding structural redundancy, the turntable and liquid-cooled chassis are generally designed separately, leading to overall system structural redundancy and increased weight, hindering lightweight design and limiting the equipment's expansion onto mobile platforms. Regarding poor cooling performance, the functional components in photoelectric detection equipment are becoming increasingly high-powered. While the liquid-cooled chassis cools these components through heat conduction via cold plates, the long conduction paths result in inadequate cooling. In terms of installation and maintenance, the liquid-cooled chassis is independent of the turntable but also connected to it via electrical and hydraulic connections. Maintenance requires disconnecting these electrical, hydraulic, and mechanical connections, increasing on-site maintenance time. Research has shown that the liquid-cooled chassis based on the conformal design of the photoelectric detection equipment turntable proposed in this invention improves the equipment's lightweight level by optimizing the structural layout, reducing redundancy, and lightening weight. Meanwhile, the zoned cooling design ensures effective heat management, and the integrated design simplifies installation and maintenance, reducing repair time.

[0023] To better understand the above technical solutions, the following will provide a detailed explanation of the technical solutions in conjunction with the accompanying drawings and specific implementation methods.

[0024] Example: like Figures 1-7 As shown, a liquid-cooled chassis based on the conformal design of a turntable for photoelectric detection equipment includes: Turntable base 1 is installed on the turntable; Several power supply components 22, control components 23 and analysis components 24 are installed in the turntable base 1; The turntable base 1 is equipped with an upper liquid cooling plate unit 4 and a lower liquid cooling plate unit 7, which together form a liquid cooling frame. Also includes: A plurality of quick-connect liquid cooling plate units 6 are disposed within the liquid cooling frame, the plurality of quick-connect liquid cooling plate units 6 divide the liquid cooling frame into multiple cooling zones, and a detection function component 20 is installed on the quick-connect liquid cooling plate unit 6, the detection function component 20 being located in the corresponding cooling zone for heat dissipation. The contact surfaces of the quick-connect liquid-cooled plate unit 6 and the detection function component 20 are filled with a heat-conducting structure and together form the quick-connect function component 21.

[0025] Specifically, the thermally conductive structure is a thermally conductive silicone grease layer or a thermally conductive pad; It should be noted that the liquid-cooled chassis and the turntable base 1 of the photoelectric detection equipment are designed in the same shape to form an integral whole. The turntable base 1 provides support for the liquid-cooled chassis. The turntable base 1 can be installed on the turntable of the photoelectric detection equipment by welding or detachable connection.

[0026] By adopting a conformal design between the liquid-cooled chassis and the turntable base 1, a liquid-cooled frame is formed by the upper liquid-cooled plate unit 4, the lower liquid-cooled plate unit 7, and the turntable base 1, which optimizes the structural layout, eliminates the supporting structure between the upper and lower liquid-cooled plate units, and improves the lightweight level of the equipment. Furthermore, several quick-connect liquid-cooled plate units 6 are installed in the liquid-cooled frame, forming a cooling zone within the liquid-cooled frame, which can effectively manage the heat dissipated by the detection function component 20 installed on the quick-connect liquid-cooled plate unit 6. Meanwhile, the integrated design simplifies the installation and maintenance process. All functional components adopt a modular design, which makes disassembly and assembly convenient and reduces maintenance time. It solves the problem of redundancy in the overall structure of current photoelectric detection equipment and realizes the lightweight design of the turntable and liquid-cooled chassis of photoelectric detection equipment.

[0027] like Figure 2 As shown, the specific installation relationship of each component in the liquid-cooled chassis is as follows: The upper liquid cooling plate unit 4 is fixedly connected to the upper side of the turntable base 1 by bolts (the mounting bolts are not shown in the schematic model), and the upper liquid cooling plate unit 4 and the turntable base 1 are separated by the heat insulation pad 5. The liquid cooling chassis also includes a base sealing plate 2 and a support column 9; The base sealing plate 2 is fixedly connected to the upper side of the turntable base 1 by bolts (the mounting bolts are not shown in the schematic model), and the base sealing plate 2 and the turntable base 1 are sealed for waterproofing by the sealing gasket 3; The support column 9 is fixedly connected to the lower side of the turntable base 1 by bolts (the mounting bolts are not shown in the schematic model). The lower liquid cooling plate unit 7 is fixedly connected to the inner side of the turntable base 1 by bolts (the mounting bolts are not shown in the schematic model). The heat insulation pad 8 is fixedly connected to the support column 9 by bolts. The contact surfaces of the lower liquid cooling plate unit 7 and the turntable base 1 are separated by the heat insulation pad 8. (The mounting bolts are not shown in the schematic model). The quick-connect liquid cooling plate unit 6 is guided by its own guide groove and inserted into the liquid cooling frame composed of the upper liquid cooling plate unit 4 and the lower liquid cooling plate unit 7 to complete the insertion of the quick-connect liquid cooling plate unit 6, and is installed on the upper liquid cooling plate unit 4 and the lower liquid cooling plate unit 7 by screw connection (the mounting bolts are not shown in the schematic model).

[0028] In summary, the contact points between the upper liquid cooling plate unit 4, the lower liquid cooling plate unit 7 and the turntable base 1 are all insulated, and there is a gap between the upper liquid cooling plate unit 4 and the base sealing plate 2 of the turntable base 1 to form a sealed air cavity, thereby enabling more efficient heat dissipation for each functional component.

[0029] like Figure 3 As shown, the upper liquid cooling plate unit 4 comprises an upper liquid cooling water channel cover plate 10, an upper liquid cooling water channel plate 11, a second connector 13, and several first connectors 12. The upper liquid cooling channel plate 11 is provided with a channel groove that matches the upper liquid cooling channel cover plate 10. The upper liquid cooling channel plate 11 and the upper liquid cooling channel cover plate 10 are formed by welding. Both the first joint 12 and the second joint 13 are fixedly connected to the upper liquid cooling channel plate 11 by bolts.

[0030] like Figure 4 As shown, the lower liquid cooling plate unit 7 comprises a lower liquid cooling channel plate 14, a lower liquid cooling channel cover plate 15, a second connector 13, and several first connectors 12. The lower liquid cooling channel plate 14 is provided with a channel groove that matches the lower liquid cooling channel cover plate 15. The lower liquid cooling channel plate 14 and the lower liquid cooling channel cover plate 15 are formed by welding. The second joint 13 and several first joints 12 are all installed on the lower liquid cooling channel plate 14 by screwing.

[0031] Specifically, such as Figures 3-4 As shown, both the upper liquid cooling plate unit 4 and the lower liquid cooling plate unit 7 are provided with a cold plate inlet / outlet connector (connector 2 13) and several liquid cooling quick-connect elbows (connector 1 12). The number of liquid cooling quick-connect elbows corresponds to the number of quick-connect liquid cooling plate units 6, and the number of liquid cooling quick-connect elbows in the upper liquid cooling plate unit 4 is the same as the number of liquid cooling quick-connect elbows in the lower liquid cooling plate unit 7. The design of the water channel routing in the upper liquid cooling water channel cover plate 10 and the lower liquid cooling water channel cover plate 15 in the upper liquid cooling plate unit 4 and the lower liquid cooling water channel cover plate 7 is related to the number in the quick-connect liquid cooling plate unit 6, ensuring the formation of a complete liquid cooling circuit.

[0032] like Figure 5 As shown, the quick-connect liquid cooling plate unit 6 comprises a quick-connect liquid cooling channel plate 16, a quick-connect liquid cooling channel cover plate 17, a handle 19, and two connectors 18. The quick-connect liquid cooling channel plate 16 has a water channel groove that matches the quick-connect liquid cooling channel cover plate 17. The quick-connect liquid cooling channel plate 16 and the quick-connect liquid cooling channel cover plate 17 are formed by welding. The connector 3 18 and the handle 19 are both installed on the quick-connect liquid cooling channel plate 16 by screwing.

[0033] Specifically, the quick-connect liquid cooling plate unit 6 is provided with two connectors 18, both of which are liquid cooling quick-connect straight connectors, and are respectively connected to connector 12 on the upper liquid cooling plate unit 4 and connector 12 on the lower liquid cooling plate unit 7, thereby connecting the liquid cooling water channels of the upper liquid cooling plate unit 4 and the lower liquid cooling plate unit 7; the quick-connect liquid cooling water channel plate 16 is designed with an installation interface for mounting functional modules, which is used to install the detection functional component 20 to achieve heat dissipation of the detection functional component 20, and is fixed in the liquid cooling frame composed of the upper liquid cooling plate unit 4 and the lower liquid cooling plate unit 7 by screw connection.

[0034] like Figure 6 As shown, the specific application scenario of the quick-connect liquid cooling plate unit 6 is as follows: the detection function component 20 with high heat dissipation requirements is fixedly connected to the quick-connect liquid cooling plate unit 6 by bolts, and the contact surface of the two is filled with thermal grease or thermal pad, together forming the quick-connect function component 21; in this example, the quick-connect liquid cooling plate unit 6 has corresponding installation interfaces for the detection function component 20 on both the front and back, and one quick-connect liquid cooling plate unit 6 can mount 4 sets of detection function components 20.

[0035] like Figure 7 As shown, the application scenarios of the conformal design liquid-cooled chassis are as follows: Several quick-connect function components 21, several power supply components 22, several control components 23, and several analysis components 24. Except for the quick-connect function components 21, all other components are in close contact with the upper liquid cooling plate unit 4 and the lower liquid cooling plate unit 7 through their own locking devices to conduct heat. The liquid-cooled chassis is designed in the same shape as the turntable base 1. All the open windows around the turntable base 1 are sealed with waterproof plates 26, forming an integral structure with the photoelectric turntable 25.

[0036] The specific steps for assembling the liquid-cooled chassis that is conformal to the turntable are as follows: S1: Install the support column 9 on the corresponding position on the lower side of the turntable base 1 by means of screw connection; S2: Install the heat insulation pad 8 on the corresponding position on the support column 9 by screwing it in; S3: Install the lower liquid cooling plate unit 7 on the corresponding position on the inner side of the turntable base 1 by screwing, and the contact surfaces of the two are separated by the heat insulation pad 8. S4: Place the insulation pad 5 on the corresponding position on the upper side of the turntable base 1; S5: Install the upper liquid cooling plate unit 4 on the turntable base 1 at the corresponding position by screwing, and separate the two by the insulation pad 5; S6: Place the sealing gasket 3 at the corresponding position on the upper side of the turntable base 1; S7: Install the base sealing plate 2 on the corresponding position on the upper side of the turntable base 1 by screwing, and the two are sealed with waterproof gasket 3; S8: Guide the quick-connect function component 21 through its own guide groove and insert it into the liquid cooling frame composed of the upper liquid cooling plate unit 4 and the lower liquid cooling plate unit 7 to complete the insertion of the quick-connect water connector, and install it on the upper liquid cooling plate unit 4 and the lower liquid cooling plate unit 7 by screw connection. S9: The power supply component 22, control component 23, and analysis component 24 are tightly connected to the upper liquid cooling plate unit 4 and the lower liquid cooling plate unit 7 through their own locking devices to achieve locking and fixation; S10: After completing the internal wiring, the sealing plate 26 is used to waterproof and seal the four sides of the turntable base 1, forming an integral structure with the photoelectric turntable 25, thus completing the conformal design of the liquid cooling chassis and the turntable.

[0037] In summary, compared with existing technologies, it has the following beneficial effects: 1. By adopting the conformal design of the liquid cooling chassis and the turntable base 1, the upper liquid cooling plate unit 4, the lower liquid cooling plate unit 7 and the turntable base 1 are used to form a liquid cooling frame, which optimizes the structural layout, omits the support structure between the upper and lower liquid cooling plate units, and improves the lightweight level of the equipment; and several quick-connect liquid cooling plate units 6 are installed in the liquid cooling frame, forming a cooling zone in the liquid cooling frame, which can effectively manage the heat dissipated by the detection function component 20 installed on the quick-connect liquid cooling plate unit 6. 2. At the same time, the integrated design simplifies the installation and maintenance process. All functional components adopt a modular design, which is convenient for disassembly and assembly, reduces maintenance time, solves the problem of redundancy in the overall structure of current photoelectric detection equipment, and realizes the lightweight design of the turntable and liquid-cooled chassis of photoelectric detection equipment. 3. By adopting heat insulation measures at the contact points between the upper liquid cooling plate unit 4, the lower liquid cooling plate unit 7 and the turntable base 1, and by creating a gap between the upper liquid cooling plate unit 4 and the base sealing plate 2 of the turntable base 1, a sealed air cavity is formed, thereby enabling more efficient heat dissipation for each functional component.

[0038] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.

[0039] The above embodiments are only used to illustrate the technical solutions of the present invention, and are not intended to limit it. Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. A liquid-cooled chassis based on the conformal design of a turntable for photoelectric detection equipment, characterized in that, include: Turntable base (1) is set on the turntable; Several power supply components (22), control components (23) and analysis components (24) are installed in the turntable base (1); The turntable base (1) is equipped with an upper liquid cooling plate unit (4) and a lower liquid cooling plate unit (7) to form a liquid cooling frame; Also includes: A plurality of quick-connect liquid cooling plate units (6) are provided in the liquid cooling frame, the plurality of quick-connect liquid cooling plate units (6) divide the liquid cooling frame into multiple cooling zones, and a detection function component (20) is installed on the quick-connect liquid cooling plate unit (6), the detection function component (20) is located in the corresponding cooling zone for heat dissipation; The contact surface between the quick-connect liquid cooling plate unit (6) and the detection function component (20) is filled with a heat-conducting structure and together they form the quick-connect function component (21).

2. The liquid-cooled chassis based on the conformal design of a turntable for photoelectric detection equipment as described in claim 1, characterized in that, The upper liquid cooling plate unit (4) consists of an upper liquid cooling water channel cover plate (10), an upper liquid cooling water channel plate (11), a second connector (13), and several first connectors (12); The upper liquid cooling channel plate (11) is provided with a water channel groove that matches the upper liquid cooling channel cover plate (10). The upper liquid cooling channel plate (11) and the upper liquid cooling channel cover plate (10) are formed by welding. Joint 1 (12) and joint 2 (13) are both fixedly connected to the upper liquid cooling channel plate (11) by bolts.

3. The liquid-cooled chassis based on the conformal design of a turntable for photoelectric detection equipment as described in claim 2, characterized in that, The lower liquid cooling plate unit (7) consists of a lower liquid cooling water channel plate (14), a lower liquid cooling water channel cover plate (15), a second connector (13), and several first connectors (12); The lower liquid cooling channel plate (14) is provided with a water channel groove that matches the lower liquid cooling channel cover plate (15). The lower liquid cooling channel plate (14) and the lower liquid cooling channel cover plate (15) are formed by welding. The second joint (13) and several first joints (12) are all installed on the lower liquid cooling channel plate (14) by screwing.

4. The liquid-cooled chassis based on the conformal design of a turntable for photoelectric detection equipment as described in claim 3, characterized in that, The quick-connect liquid cooling plate unit (6) consists of a quick-connect liquid cooling water channel plate (16), a quick-connect liquid cooling water channel cover plate (17), a handle (19), and two connectors (18); The quick-connect liquid cooling channel plate (16) is provided with a water channel groove that matches the quick-connect liquid cooling channel cover plate (17). The quick-connect liquid cooling channel plate (16) and the quick-connect liquid cooling channel cover plate (17) are formed by welding. The connector three (18) and the handle (19) are both installed on the quick-connect liquid cooling channel plate (16) by screwing.

5. A liquid-cooled chassis based on a conformal design of a turntable for a photoelectric detection device as described in claim 4, characterized in that, The quick-connect liquid cooling plate unit (6) is provided with two connectors three (18), both of which are liquid cooling quick-connect straight connectors, and are respectively connected to connector one (12) on the upper liquid cooling plate unit (4) and connector one (12) on the lower liquid cooling plate unit (7).

6. The liquid-cooled chassis based on the conformal design of a turntable for photoelectric detection equipment as described in claim 5, characterized in that, The upper liquid cooling plate unit (4) and the lower liquid cooling plate unit (7) are each provided with a second connector (13) and several first connectors (12). The number of first connectors (12) corresponds to the number of quick-connect liquid cooling plate units (6), and the number of first connectors (12) in the upper liquid cooling plate unit (4) is the same as the number of first connectors (12) in the lower liquid cooling plate unit (7).

7. A liquid-cooled chassis based on a conformal design of a turntable for photoelectric detection equipment as described in claim 1, characterized in that, The liquid cooling chassis and the turntable base (1) are designed in the same shape. The open windows around the turntable base (1) are sealed with sealing plates (26) for waterproofing and form an integral structure with the photoelectric turntable (25).

8. A liquid-cooled chassis based on a conformal design of a turntable for photoelectric detection equipment as described in claim 1, characterized in that, The liquid cooling chassis also includes a base sealing plate (2), which is fixedly connected to the upper side of the turntable base (1) by bolts, and the base sealing plate (2) and the turntable base (1) are sealed for waterproofing by a sealing gasket (3).

9. A liquid-cooled chassis based on a conformal design of a turntable for a photoelectric detection device as described in claim 8, characterized in that, There is a gap between the upper liquid cooling plate unit (4) and the base sealing plate (2) of the turntable base (1), forming a sealed air cavity.

10. A liquid-cooled chassis based on a conformal design of a turntable for a photoelectric detection device as described in claim 1, characterized in that, The thermally conductive structure is a thermally conductive silicone grease layer or a thermally conductive pad.