A portable box system for short wave radio

By designing a portable housing system, the system utilizes a rotating structure and telescopic rod to stabilize the front operating surface of the shortwave radio. Combined with a buffer pad and sealing structure, it solves the problems of instability and inconvenience in carrying shortwave radios when used outdoors, achieving safe and convenient operation and transportation.

CN224401537UActive Publication Date: 2026-06-23榆林市国防动员指挥信息保障中心

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
榆林市国防动员指挥信息保障中心
Filing Date
2025-06-24
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Shortwave radios are unstable and inconvenient to carry when used outdoors, especially when the front end of the radio needs to be supported for operation, as they are prone to tilting or tipping over, affecting safety and convenience of use.

Method used

A portable enclosure system was designed, including an enclosure, a rotating structure, and a telescopic rod. The rotating structure connects to a shortwave radio, and the telescopic rod tilts the front end of the shortwave radio upwards to ensure the stability of the operating surface. Combined with a buffer pad and a sealing structure, it provides protection.

Benefits of technology

It improves the safety, convenience, and transport stability of shortwave radios for outdoor use, prevents tilting and tipping, provides a clean operating environment, reduces equipment damage, and extends equipment lifespan and response speed.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The utility model provides a kind of portable box system suitable for short wave radio, it is related to the storage structure technical field of short wave radio, the portable box system suitable for short wave radio includes first aviation case, the first aviation case includes first box, rotating structure, telescopic link, short wave radio and antenna tuner, the box includes bottom shell and lid, the accommodating cavity is used to install short wave radio and antenna tuner, the opening end of the lid is connected with the bottom shell;The rotating structure is fixed to the inner wall of the bottom shell, the rotating structure is rotatably connected with the short wave radio;One end of telescopic link is rotatably connected with the inner wall of bottom shell, the other end of telescopic link is connected with the short wave radio;Mobile power supply and radio power supply are integrated in the second box of second aviation case, the utility model can improve the use safety convenience of short wave radio;It can also solve the problem of inconvenient carrying of short wave radio equipment under field environment.
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Description

Technical Field

[0001] This utility model relates to the field of civil defense emergency communication equipment technology, and more specifically, to a portable housing system suitable for shortwave radios. Background Technology

[0002] Shortwave radios are widely used in civil air defense, emergency response, and military and police fields due to their inherent advantage of utilizing ionospheric reflection for beyond-line-of-sight communication. They can cover long distances without relying on satellites or ground base stations, making them particularly suitable for scenarios involving infrastructure damage, such as wartime or disasters. Furthermore, technologies such as automatic frequency control and real-time channel assessment can dynamically adapt to ionospheric changes, ensuring communication stability. Solid-state hardware and digital signal processing technology make the equipment more portable and energy-efficient. Anti-interference measures such as frequency hopping spread spectrum and channel coding can cope with complex electromagnetic environments. In addition, automatic link establishment protocols support rapid network setup, and software-defined radio technology enables flexible functional adaptation, making them a core communication method for civil air defense command, emergency disaster relief dispatch, and military and police field communications that is "reliable at a minimum and cost-controllable." They are especially important in complex field operations involving long-distance communication. However, due to their relatively large weight, safe and convenient transportation and ease of use are pressing issues that need to be addressed.

[0003] In related technologies, shortwave radios are typically carried in backpacks, for example, by placing them in a backpack and having a designated person carry them on their shoulder. Before actually using the shortwave radio, since the handset and control buttons are located on the front wall of the radio, the operator needs to remove the radio from the backpack and place it stably on a support surface, such as the ground. Then, they need to find auxiliary tools, such as stones, to support and raise the front of the radio so that operations can be performed from the front.

[0004] However, due to the weight of shortwave radios, during outdoor operations, after placing the shortwave radio stably on a support surface such as the ground, it is necessary to find other auxiliary tools, such as stones, to lift the front support of the shortwave radio. This results in the risk of instability such as tilting or tipping over during use, affecting the safe and convenient use of the shortwave radio. Utility Model Content

[0005] The problem this invention addresses is how to improve the safety and convenience of using shortwave radios through a portable enclosure system.

[0006] To address the aforementioned problems, this utility model provides a portable housing system suitable for shortwave radios, comprising a first flight case. The first flight case includes a first housing, a rotating structure, a telescopic rod, a shortwave radio, and an antenna tuner. The housing includes a bottom shell and a cover. The bottom shell has a receiving cavity and an open end. The receiving cavity is used to install the shortwave radio and the antenna tuner. The cover is connected to the open end of the bottom shell. The rotating structure is fixed to the inner wall of the bottom shell and is rotatably connected to the shortwave radio. One end of the telescopic rod is rotatably connected to the inner wall of the bottom shell, and the other end of the telescopic rod is connected to the shortwave radio. The telescopic rod is used to drive the shortwave radio to rotate relative to the rotating structure, so that the operating surface of the shortwave radio is tilted upwards.

[0007] Optionally, the telescopic rod includes a telescopic rod body, a first connecting seat, and a second connecting seat. The first connecting seat is fixed to the inner wall of the bottom shell, and the second connecting seat is used to connect to the shortwave radio. The two ends of the telescopic rod body are respectively rotatably connected to the first connecting seat and the second connecting seat.

[0008] Optionally, the portable housing system for the shortwave radio includes two telescopic rods, which are disposed at both ends of the shortwave radio along a first direction, and the second connecting seats of the two telescopic rods are respectively connected to two opposite side walls of the shortwave radio along the first direction.

[0009] Optionally, the second connecting seat includes a rod-shaped connector, one end of which is used to connect to the side wall of the shortwave radio, one end of the telescopic rod body is sleeved on the rod-shaped connector, and the other end of the rod-shaped connector is provided with an anti-detachment part; the first direction refers to the length direction of the shortwave radio.

[0010] Optionally, the second connecting base further includes a cylindrical connector, one end of which is fixedly connected to the side wall of the shortwave radio, one end of which is detachably inserted into the cylindrical connector, and one end of the telescopic rod body is located between the anti-detachment part and the cylindrical connector.

[0011] Optionally, the rotating structure includes two support seats, which are spaced apart on the bottom shell along a first direction, and the positions of the support seats along the first direction are adjustable; the support seats are used for rotatable connection with the shortwave radio.

[0012] Optionally, the housing further includes a first buffer pad, which is fixed to the inner bottom wall of the bottom shell at a position corresponding to the shortwave radio.

[0013] And / or, the enclosure further includes a second buffer pad, which is fixed to one side wall of the cover facing the shortwave radio.

[0014] Optionally, the second connecting seat is used to connect to the bottom wall of the shortwave radio, and the telescopic rod body is located between the bottom shell and the shortwave radio.

[0015] Optionally, the bottom shell includes a bottom shell body and a mounting plate, the bottom shell body has the receiving cavity, the mounting plate is fixed to the inner bottom wall of the bottom shell body, and the rotating structure and the telescopic rod are disposed on the mounting plate;

[0016] The enclosure also includes a sealing structure, which is located at the connection between the bottom shell and the cover.

[0017] Optionally, the portable housing system for shortwave radios also includes a second flight case, which includes a second housing, a mobile power supply, and a radio power supply, wherein the mobile power supply and the radio power supply are spaced apart within the second housing.

[0018] The input and output terminals of the radio power supply are respectively connected to the portable power supply and the shortwave radio power supply.

[0019] Compared with existing technologies, the portable housing system of this utility model can be used for the safe transport and convenient use of shortwave radios during outdoor operations. For example, during the assembly stage of the shortwave radio and the housing, since the housing includes a bottom shell with a receiving cavity and an open end, and a cover that matches it, the shortwave radio can be disassembled and installed into the receiving cavity from the open end of the bottom shell. The rotating structure and telescopic rod installed on the inner wall of the bottom shell can be connected to different parts of the shortwave radio to realize the installation of the shortwave radio into the receiving cavity of the housing. The cover is placed on the open end of the bottom shell, and the housing formed by the cooperation of the cover and the bottom shell, after the shortwave radio is encapsulated, can improve the safety and portability of transporting the shortwave radio.

[0020] During the use of the shortwave radio, when it is transported to the outdoor work destination, the cover is opened, and the shortwave radio is pushed by the telescopic rod. This causes the rear end of the shortwave radio to rotate around the rotating structure, raising the front end (the front wall with the handset and operation buttons) to the corresponding height. The operating surface of the front end of the shortwave radio then tilts upwards, making it convenient for operators to perform relevant operations. Since the top of the telescopic rod and the rotating structure are connected to the shortwave radio, it effectively prevents the shortwave radio from tilting or tipping over when it is raised. This not only improves the safety and convenience of using the shortwave radio but also enables the rapid deployment and storage of the shortwave radio.

[0021] In addition, since the shortwave radio is always inside the first enclosure during outdoor operations, it is protected to a certain extent by the bottom shell and cover, creating a relatively clean environment and avoiding potential impacts from environmental factors on its normal function. Attached Figure Description

[0022] Figure 1 This is one of the structural schematic diagrams of the shortwave radio station located in the first box in the raised state in an embodiment of this utility model;

[0023] Figure 2 This is one of the structural schematic diagrams of the shortwave radio station located in the first box in a flat position in this embodiment of the present invention;

[0024] Figure 3 This is a schematic diagram of the telescopic rod in an embodiment of the present utility model;

[0025] Figure 4 for Figure 3 Enlarged structural diagram at point A;

[0026] Figure 5 This is one of the structural schematic diagrams of the shortwave radio station in the raised state in an embodiment of this utility model;

[0027] Figure 6 This is the second schematic diagram of the shortwave radio station in the raised state in this embodiment of the present invention;

[0028] Figure 7 This is a second schematic diagram of the shortwave radio station located in the first enclosure in the raised state in this embodiment of the present invention.

[0029] Figure 8 This is a second schematic diagram of the shortwave radio station located in the first enclosure in a horizontal position according to an embodiment of the present invention.

[0030] Figure 9 This is a schematic diagram of the structure of the second flight box in an embodiment of this utility model.

[0031] Explanation of reference numerals in the attached figures:

[0032] 1-First housing; 11-Bottom shell; 111-Bottom shell body; 112-Mounting plate; 12-Cover; 13-First buffer pad; 14-Second buffer pad; 15-First connector; 16-Second connector; 2-Rotating structure; 21-Support base; 3-Telescopic rod; 31-Telescopic rod body; 32-First connecting base; 33-Second connecting base; 331-Rod-shaped connector; 332-Anti-detachment part; 333-Cylindrical connector; 4-Connecting wire harness; 41-First connecting wire; 42-Second connecting wire; 43-Third connecting wire; 5-Shortwave radio; 6-Antenna tuner; 7-Second housing; 8-Power bank; 9-Radio power supply; 10-Third buffer pad. Detailed Implementation

[0033] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings.

[0034] While some embodiments of the present invention are shown in the accompanying drawings, it should be understood that the present invention can be implemented in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided to provide a more thorough and complete understanding of the present invention. It should be understood that the accompanying drawings and embodiments are for illustrative purposes only and are not intended to limit the scope of protection of the present invention.

[0035] In the attached diagram, the Z-axis represents the vertical direction, i.e., up and down, with the positive direction of the Z-axis representing up and the negative direction representing down. The X-axis represents the horizontal direction, specifically the left and right positions, with the positive direction of the X-axis representing the right side and the negative direction representing the left side. The Y-axis represents the front and back positions, with the positive direction of the Y-axis representing the front and the negative direction representing the back. It should be noted that the aforementioned representations of the Z, Y, and X axes are merely for ease of description and simplification of the present invention, and do not indicate or imply that the device or component referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on the present invention.

[0036] The term "comprising" and its variations as used herein are open-ended, meaning "including but not limited to"; the term "based on" means "at least partially based on"; the term "one embodiment" means "at least one embodiment"; the term "another embodiment" means "at least one additional embodiment"; the term "some embodiments" means "at least some embodiments"; and the term "optionally" means "optional embodiments". Definitions of other terms will be given in the following description. It should be noted that the concepts of "first," "second," etc., mentioned in this utility model are only used to distinguish different devices, modules, or units, and are not used to limit the order of functions performed by these devices, modules, or units or their interdependencies.

[0037] It should be noted that the terms "one" and "multiple" used in this utility model are illustrative rather than restrictive. Those skilled in the art should understand that, unless otherwise expressly indicated in the context, they should be understood as "one or more".

[0038] To address the problems existing in the aforementioned related technologies, this embodiment provides a portable enclosure system suitable for shortwave radios.

[0039] like Figure 1 and Figure 2 As shown in the figure, this utility model provides a portable case system suitable for shortwave radios, including a first flight case. The first flight case includes a first housing 1, a rotating structure 2, a telescopic rod 3, a shortwave radio 5, and an antenna tuner 6. The housing 1 includes a bottom shell 11 and a cover 12. The bottom shell 11 has a receiving cavity and an open end. The receiving cavity is used to install the shortwave radio 5 and the antenna tuner 6. The cover 12 is connected to the open end of the bottom shell 11. The rotating structure 2 is fixed to the inner wall of the bottom shell 11 and is rotatably connected to the shortwave radio 5. One end of the telescopic rod 3 is rotatably connected to the inner wall of the bottom shell 11, and the other end of the telescopic rod 3 is connected to the shortwave radio 5. The telescopic rod 3 is used to drive the shortwave radio 5 to rotate relative to the rotating structure 2, so that the operating surface of the shortwave radio 5 is tilted upward.

[0040] Specifically, the receiving cavity of the bottom shell 11 is used to house the shortwave radio 5, and the open end of the bottom shell 11 facilitates the installation and removal of the shortwave radio 5 inside the bottom shell 11.

[0041] The open ends of the cover 12 and the bottom shell 11 can be connected in the following ways: for example, one end of the cover 12 can be rotatably connected to the edge of the open end of the bottom shell 11 through a hinge, pin structure, etc., and the other end of the cover 12 can be connected to the bottom shell 11 in at least one way, such as a zipper, a buckle, or a bolt fastener.

[0042] The rear end of the shortwave radio 5 can be rotatably connected to the rotating structure 2, and other parts of the shortwave radio 5 can be connected to the other end of the telescopic rod 3, so that the shortwave radio 5 can be raised or lowered by the telescopic rod 3. The raising or lowering of the shortwave radio 5 refers to the raising or lowering of the front end or front side wall of the shortwave radio 5, not the entire shortwave radio 5.

[0043] The front end (or front side wall) of the shortwave radio 5 has a telephone and operation buttons, so the front end of the shortwave radio has an operation surface.

[0044] In addition, the cavity of the bottom shell 11 is also used to house the antenna tuner 6, and the antenna tuner 6 and the shortwave radio station 5 can be arranged and installed in the cavity along the first direction.

[0045] The external dimensions of the second box 1, namely length, width and thickness, can be 670mm, 500mm and 207mm respectively; the internal dimensions of the second box 1, namely length, width and thickness, can be 590mm, 425mm and 180mm respectively.

[0046] In related technologies, shortwave radio 5 is transported by backpack. However, due to the heavy weight of shortwave radio 5, if the backpack straps break, shortwave radio 5 is easily injured, increasing the danger of transporting shortwave radio 5.

[0047] This utility model's portable case system can be used for the safe transport and convenient use of a shortwave radio 5 during outdoor operations. During the assembly stage of the shortwave radio 5 and the case 1, since the case 1 includes a bottom shell 11 with a receiving cavity and an open end, and a matching cover 12, the shortwave radio 5 can be installed into the receiving cavity from the open end of the bottom shell 11. The rotating structure 2 and the telescopic rod 3, installed on the inner wall of the bottom shell 11, can be connected to different parts of the shortwave radio 5 to install it into the receiving cavity of the case 1. The cover 12 is then placed over the open end of the bottom shell 11, forming the case 1. After encapsulating the shortwave radio 5, the case 1, which is stronger than a backpack, improves the safety and portability of transporting the shortwave radio 5, thus solving the technical problem of the inconvenience of carrying a backpack in the field. The portable case system can be transported using transportation tools such as vehicles.

[0048] During the use of shortwave radio 5, when it is transported to its outdoor work destination, the cover 12 is opened, and the telescopic rod 3 extends to apply a pushing force to the shortwave radio 5. This causes the rear end of the shortwave radio 5 to rotate around the rotating structure 2, raising the front end of the shortwave radio 5 (i.e., the front wall of the shortwave radio with the handset and operation buttons) to the corresponding height, thus placing the front end of the shortwave radio 5 in a raised state (see...). Figure 1 As shown in the diagram, the operating surface of the shortwave radio 5 is tilted upwards, facilitating operation by the operator. Since the top of the telescopic rod 3 and the rotating structure 2 are connected to the shortwave radio 5, it effectively prevents tilting or tipping of the shortwave radio 5 when it is raised. This not only improves the safety and convenience of using the shortwave radio 5 but also enables rapid deployment and storage. Furthermore, the telescopic rod 3 also prevents the shortwave radio 5 from colliding with the antenna tuner 6 during transport of the first flight case.

[0049] After use, the shortwave radio 5 can be pulled down by retracting the telescopic rod 3, causing the front end of the shortwave radio 5 to fall and lie flat (see...). Figure 2 (As shown).

[0050] In addition, since the shortwave radio 5 is always inside the first enclosure 1 during outdoor operations, it is protected to a certain extent by the bottom shell 11 and the cover 12, creating a relatively clean environment and avoiding potential impacts on its normal function from environmental factors.

[0051] Optionally, combined Figure 3 As shown, the telescopic rod 3 includes a telescopic rod body 31, a first connecting seat 32 and a second connecting seat 33. The first connecting seat 32 is fixed to the inner wall of the bottom shell 11, and the second connecting seat 33 is used to connect to the shortwave radio station 5. The two ends of the telescopic rod body 31 are respectively rotatably connected to the first connecting seat 32 and the second connecting seat 33.

[0052] Specifically, the first connecting seat 32 can be fixedly installed on the inner wall of the bottom shell 11, such as the inner bottom wall, by means of welding, bonding, bolt fasteners, etc., the second connecting seat 33 is fixedly connected to the shortwave radio 5, and the opposite ends (or the two ends in the extension direction) of the telescopic rod body 31 are rotatably connected to the first connecting seat 32 and the second connecting seat 33 respectively, so as to realize the connection operation of the shortwave radio 5 to the inner wall of the bottom shell 11 through the telescopic rod 3.

[0053] The telescopic rod body 31 can be any one of an electric push rod, a hydraulic telescopic rod, a telescopic cylinder, or a gas spring (also called a hydraulic support rod); among them, a gas spring is preferred as the telescopic rod body 31 because the gas spring is small in size and does not require an external hydraulic oil tank or air pressure source (i.e., air pump) as power.

[0054] A gas spring is a mechanism that uses high-pressure gas (nitrogen) pre-filled into a sealed cylinder and continuously uses the reaction force of the nitrogen as a spring. It is commonly used to raise or lower the trunk of a car. Since the pressure range of the gas spring is 3KG to 300KG, it can effectively raise or lower the shortwave radio 5. Because the gas spring uses the existing hydraulic support rod of a car tailgate, the model, structural details, and telescopic operation principle of the telescopic rod body 31 will not be described further here.

[0055] The angle of the shortwave radio 5 can be adjusted from 30° to 90° via the telescopic rod 3.

[0056] A gas spring is selected as the telescopic rod, which can be made of high-strength stainless steel, providing excellent rust resistance and pressure resistance. The telescopic rod allows for easy up-and-down movement of the shortwave radio's front operating face, facilitating adjustments to the radio's operating angle.

[0057] Optionally, combined Figure 2As shown, the portable housing system for shortwave radios includes two telescopic rods 3, which are disposed at both ends of the shortwave radio 5 along a first direction. The second connecting seats 33 of the two telescopic rods 3 are respectively connected to two opposite side walls of the shortwave radio 5 along the first direction.

[0058] Specifically, the first direction can Figure 2 In the coordinate system, the X-axis is parallel, and the two telescopic rods 3 can be set on opposite sides of the shortwave radio 5. The shortwave radio is fixedly connected to the mounting plate 112 through the telescopic rods. For example, the two side walls of the shortwave radio 5 along the first direction are respectively connected to the corresponding telescopic rods 3. Specifically, the end of the telescopic rod 3 away from the bottom shell 11 (the second connecting seat 33) can be rotatably connected to the side wall of the shortwave radio 5 along the first direction.

[0059] In this optional embodiment, since the two ends of the shortwave radio 5 along the first direction are respectively connected to the corresponding telescopic rods 3, when the shortwave radio 5 is raised or lowered, the two telescopic rods 3 simultaneously apply a pushing or pulling force to the shortwave radio 5 from both ends along the first direction, so that the forces on both ends of the shortwave radio 5 along the first direction are balanced, thereby improving the stability of the front end of the shortwave radio 5 during the raising or lowering action, and correspondingly ensuring the stability of the shortwave radio 5 during use and operation.

[0060] Optionally, combined Figure 3 and Figure 4 As shown, the second connecting seat 33 can connect the end of the telescopic rod 3 away from the bottom wall of the bottom shell 11 to the shortwave radio 5 in the following manner. For example, the second connecting seat 33 includes a rod-shaped connector 331, one end of which is used to connect to the side wall of the shortwave radio 5, one end of the telescopic rod body 31 is sleeved on the rod-shaped connector 331, and the other end of the rod-shaped connector 331 is provided with an anti-detachment part 332; the first direction refers to the length direction of the shortwave radio 5.

[0061] Specifically, the first direction can refer to the length direction of shortwave radio station 5, and can be compared with... Figure 2 The X-axis is parallel in the coordinate system.

[0062] One end of the rod-shaped connector 331 is fixedly connected to the side wall of the shortwave radio 5 along the first direction. The end of the telescopic rod body 31 away from the bottom shell 11 may have an annular structure, which can be sleeved on the rod-shaped connector 331. The second connecting seat 33 may also include an anti-detachment part 332. The anti-detachment part 332 may be provided at the end of the rod-shaped connector 331 away from the shortwave radio 5. Therefore, the end of the telescopic rod body 31 away from the bottom wall of the bottom shell 11 is located between the side wall of the shortwave radio 5 along the first direction and the anti-detachment part 332.

[0063] The diameter of the anti-detachment part 332 can be larger than the diameter of the annular structure at the end of the telescopic rod body 31 and the diameter of the rod-shaped connector 331.

[0064] In this optional embodiment, since one end of the rod-shaped connector 331 is fixedly connected to the side wall of the shortwave radio 5 along the first direction, and the end of the rod-shaped connector 331 away from the shortwave radio 5 is provided with an anti-detachment part 332, and the end of the telescopic rod body 31 away from the bottom shell 11 is sleeved on the outside of the rod-shaped connector 331 and is located between the shortwave radio 5 and the anti-detachment part 332, the end of the telescopic rod body 31 can not only rotate around the rod-shaped connector 331 to cooperate with the raising or lowering of the shortwave radio 5, but the anti-detachment part 332 can also prevent the end of the telescopic rod body 31 from detaching from the rod-shaped connector 331, thereby improving the rotational stability of the telescopic rod body 31 relative to the rod-shaped connector 331.

[0065] Optionally, combined Figure 3 and Figure 4 As shown, the second connecting seat 33 connects the telescopic rod body 31 and the shortwave radio 5 through the following structure. For example, the second connecting seat 33 further includes a cylindrical connecting member 333. One end of the cylindrical connecting member 333 is fixedly connected to the side wall of the shortwave radio 5. One end of the rod-shaped connecting member 331 is detachably inserted into the cylindrical connecting member 333. One end of the telescopic rod body 31 is located between the anti-detachment part 332 and the cylindrical connecting member 333.

[0066] Specifically, the cylindrical connector 333 can be detachably connected to the rod connector 331 in the following ways, for example, by means of a snap-fit ​​connection; or, the cylindrical connector 333 can be a sleeve structure with internal threads, one end of which can be fixedly connected to the side wall of the shortwave radio station 5 along the first direction by means of welding, bonding or other methods, while one end of the rod connector 331 can be inserted into the cylindrical connector 333. The rod connector 331 has external threads to be screwed into the internal threads of the cylindrical connector 333, so as to realize the detachable threaded connection between the rod connector 331 and the cylindrical connector 333.

[0067] The rod-shaped connector 331 and the anti-detachment part 332 can be fixed into an integral structure by welding, bonding or other methods. Therefore, the anti-detachment part 332 and the rod-shaped connector 331 with external threads can be respectively equivalent to the head and the screw part of a bolt.

[0068] In this optional embodiment, since one end of the rod-shaped connector 331 can be detachably inserted into the cylindrical connector 333 fixed on the side wall of the shortwave radio 5, the ease of disassembling and assembling the telescopic rod 3 and the shortwave radio 5 can be improved, which is helpful for the replacement or maintenance of the telescopic rod 3 in the future.

[0069] The end of the telescopic rod body 31 away from the bottom shell 11 is located between the anti-detachment part 332 and the cylindrical connector 333. Thus, while the telescopic rod body 31 can rotate around the rod connector 331, the anti-detachment part 332 can limit the telescopic rod body 31, effectively preventing the telescopic rod body 31 from detaching from the rod connector 331.

[0070] Optionally, combined Figure 5 As shown, the rotating structure 2 includes two support seats 21, which are installed at intervals along a first direction on the bottom shell 11, and the position of the support seats 21 along the first direction is adjustable; the support seats 21 are used to rotatably connect with the shortwave radio station 5.

[0071] Specifically, the rotating structure 2 may include two support seats 21 arranged at intervals along the first direction. The support seats 21 may adopt an L-shaped plate structure. The L-shaped plate structure may include a horizontal plate and a vertical plate arranged at an angle. The horizontal plate may be installed on the inner bottom wall of the bottom shell 11 by fasteners such as bolts. The top of the vertical plate may be rotatably connected to the side wall of the rear end of the shortwave radio station 5 by a pin structure.

[0072] Multiple first adjustment holes are provided on the horizontal plate at intervals along the first direction, and multiple second adjustment holes are provided on the inner bottom wall of the bottom shell 11 at intervals along the first direction. Fasteners can be inserted through the first adjustment holes of the horizontal plate and the second adjustment holes of the bottom shell 11 to fix the support 21 to the inner bottom wall of the bottom shell 11.

[0073] In this optional embodiment, the fasteners can be selectively connected to different first adjustment holes or different second adjustment holes to allow the support base 21 to move relative to the bottom shell 11 in the first direction, so that the position of the support base 21 in the first direction is adjustable, thereby adjusting the distance between the two support bases 21 to suit shortwave radios 5 of different specifications; before and after the position adjustment, the support base 21 and the bottom shell 11 can be connected by fasteners to fix the support base 21 to the inner bottom wall of the bottom shell 11.

[0074] Since the support base 21 can be rotatably connected to the shortwave radio 5 via a pin structure, the support base 21 can serve as the rotating base of the shortwave radio 5.

[0075] Furthermore, the vertical plate of the support base 21 can be greater than the height of the rear end of the shortwave radio 5, and the vertical plate is connected to the center position of the rear end side wall of the shortwave radio 5 through a pin structure, so that there is always a certain distance between the rear end of the shortwave radio 5 and the inner bottom wall of the bottom shell 11 during the rotation and lifting or flattening process of the shortwave radio 5, so as to prevent the inner bottom wall of the bottom shell 11 from interfering with the rotation and lifting or flattening action of the shortwave radio 5, and thus ensuring the stability of the shortwave radio 5 when it is lifted or flattened.

[0076] Optionally, combined Figure 2 , Figure 5 and Figure 6 As shown, the housing 1 also includes a first buffer pad 13, which is fixed to the inner bottom wall of the bottom shell 11 and at the position corresponding to the shortwave radio station 5.

[0077] And / or, the housing 1 further includes a second buffer pad 14, which is fixed to one side wall of the cover 12 facing the shortwave radio station 5.

[0078] Specifically, the first buffer pad 13 and the second buffer pad 14 can be made of the same material or different materials.

[0079] The first buffer pad 13 and the second buffer pad 14 can be made of flexible materials such as rubber, silicone, foam, and sponge.

[0080] The first buffer pad 13 can be fixed to the inner bottom wall of the bottom shell 11 by means of adhesive bonding, fasteners, etc., see Figure 5 and Figure 6 As shown. The second buffer pad 14 can be fixed to the inner top wall of the cover 12 by means of adhesive, fasteners, etc. (for example, the inner wall of the cover 12 facing the shortwave radio station 5, see...) Figure 2 As shown.

[0081] In this optional embodiment, a first buffer pad 13 is fixedly installed on the inner bottom wall of the bottom shell 11 at a position corresponding to the shortwave radio 5. This allows the first buffer pad 13 to effectively reduce the speed of the shortwave radio 5's flattening action during the transition from the raised state to the flattened state, thereby preventing the shortwave radio 5 from impacting the inner bottom wall of the bottom shell 11 due to excessively fast flattening action and thus achieving a protective effect on the bottom wall of the shortwave radio 5.

[0082] By fixing a second buffer pad 14 to one side wall of the cover 12 facing the shortwave radio 5, the cover 12 is connected to the opening end of the bottom shell 11 to encapsulate the shortwave radio 5 inside the housing 1. During the transportation of the portable housing system, the second buffer pad 14 can contact the top wall of the shortwave radio 5, which can reduce the vibration and bumps of the shortwave radio 5 during transportation. The second buffer pad 14 can act as a buffer between the cover 12 and the shortwave radio 5 to provide safety protection for the top wall of the shortwave radio 5, thereby improving the reliability and service life of the shortwave radio 5 and the antenna tuner 6.

[0083] In the case of the shortwave radio 5, when it is laid flat, the side wall opposite to the inner bottom wall of the bottom shell 11 is the bottom wall of the shortwave radio 5, and the opposite side wall is the top wall of the shortwave radio 5.

[0084] Optionally, combined Figure 6 As shown, the second connecting seat 33 is used to connect to the bottom wall of the shortwave radio 5, and the telescopic rod body 31 is located between the bottom shell 11 and the shortwave radio 5.

[0085] Specifically, the portable housing system for shortwave radios includes a telescopic rod 3, which can be positioned between the shortwave radio 5 and the inner bottom wall of the base shell 11. For example, the first connecting seat 32 of the telescopic rod 3 can be fixedly connected to the inner bottom wall of the base shell 11 by welding, bonding, bolt fasteners, etc., and the second connecting seat 33 of the telescopic rod 3 can be fixedly connected to the bottom wall of the shortwave radio 5 by welding, bonding, bolt fasteners, etc., while the telescopic rod body 31 can be positioned between the shortwave radio 5 and the inner bottom wall of the base shell 11.

[0086] In this optional embodiment, a telescopic rod 3 is provided between the shortwave radio 5 and the inner bottom wall of the base shell 11. The first connecting seat 32 and the second connecting seat 33 of the telescopic rod 3 are fixedly connected to the inner bottom wall of the base shell 11 and the bottom wall of the shortwave radio 5, respectively. Thus, the shortwave radio 5 can also be driven to rise or lie flat by the telescopic rod 3.

[0087] Optionally, combined Figure 6 As shown, the bottom shell 11 includes a bottom shell body 111 and a mounting plate 112. The bottom shell body 111 has the receiving cavity. The mounting plate 112 is fixed to the inner bottom wall of the bottom shell body 111. The rotating structure 2 and the telescopic rod 3 are disposed on the mounting plate 112.

[0088] Specifically, the bottom shell body 111 may have a receiving cavity and an open end, so the bottom shell body 111 may be a shell structure with a receiving cavity and an open top. The mounting plate 112 may be fixedly installed on the inner bottom wall of the bottom shell body 111 by means of bolt fasteners, adhesive, riveting, etc.

[0089] For example, the four corners of the mounting plate 112 can be bolted to the bottom of the base body 111.

[0090] The bottom shell body 111 can be made of high-strength materials (such as high-quality polypropylene engineering grade PP material), which has good pressure resistance and drop resistance, and can effectively protect the equipment from external impacts and damage.

[0091] Mounting plate 112 can be made of a lightweight material with a certain degree of rigidity. For example, mounting plate 112 can be made of 3mm thick aluminum alloy, which is lightweight and high-strength, and can stably support the shortwave radio and antenna tuner. Mounting holes for supporting the first connecting seat 32 and the support seat 21 of the shortwave radio 5 can be reserved on mounting plate 112.

[0092] The rotating structure 2 and the telescopic rod 3 can be fixedly installed on the inner bottom wall of the bottom shell body 111 via the mounting plate 112.

[0093] Combination Figure 6 As shown, the first buffer pad 13 can be fixedly installed on the mounting plate 112 of the bottom shell 11.

[0094] In this optional embodiment, since the rotating structure 2 and the telescopic rod 3 are disposed on the mounting plate 112, and the mounting plate 112 is fixed to the inner bottom wall of the bottom shell body 111, in other words, the rotating structure 2, the telescopic rod 3, and the shortwave radio 5 can be installed inside the bottom shell body 111 via the mounting plate 112, thereby improving the convenience of installing the rotating structure 2, the telescopic rod 3, and the shortwave radio 5 inside the housing 1.

[0095] Optionally, the housing 1 further includes a sealing structure, which is disposed at the connection between the bottom shell body 111 and the cover body 12.

[0096] Specifically, the sealing structure can adopt structures such as sealing strips and sealing rings.

[0097] The sealing structure can be fixed to the edge of the opening end of the bottom shell body 111 or the edge of the cover body 12 by means of bonding, riveting or other methods.

[0098] In this optional embodiment, a sealing structure is provided at the connection between the bottom shell body 111 and the cover 12. The sealing effect between the cover 12 and the bottom shell body 111 is effectively enhanced by the sealing structure, which effectively prevents dust, rainwater, moisture and other substances from entering the interior of the housing 1, so as to provide safety protection for the shortwave radio 5 and protect the shortwave radio 5 and the antenna tuner 6 from the corrosion of harsh outdoor environments such as sand, rainwater, and mud.

[0099] In addition, the first housing 1 may include a first connector 15 and a second connector 16. The first connector 15 and the second connector 16 may be provided at intervals on the rear side wall of the bottom shell body 111 of the housing 1, and the first connector 15 and the second connector 16 may extend into the internal space of the bottom shell 11.

[0100] The first connector 15 and the second connector 16 may adopt an aviation plug structure or an electrical plug structure that is compatible with shortwave radios. The first connector 15 and the second connector 16 may adopt military-grade waterproof connectors, such as the J599 / 31 type, without specific limitations.

[0101] The interfaces provided on the side of the first housing 1, such as the first connector 15 and the second connector 16, make it easier to connect the equipment, reduce the setup time, and greatly improve the response speed of civil defense communication.

[0102] The shortwave radio 5, the antenna tuner 6, and the first connector 15 and the second connector 16 can be electrically connected via a connecting wire harness 4. For example, the connecting wire harness 4 includes at least a first connecting line 41, a second connecting line 42, and a third connecting line 43. The shortwave radio 5 can be electrically connected to the first connector 15 via the first connecting line 41 by plugging in. The end of the first connector 15 located on the outside of the housing 1 can be electrically connected to an external power source so that the shortwave radio 5 can be powered by an external power source through the first connector 15 and the first connecting line 41.

[0103] The shortwave radio 5 can be electrically connected to the antenna tuner 6 via the second connecting line 42, enabling the transmission of at least one type of signal, such as electrical signal or communication signal, between the two.

[0104] The antenna tuner 6 can be electrically connected to the second connector 16 via the third connecting line 43, and the second connector 16 is located at the end outside the housing 1 and can be connected to the antenna.

[0105] It should be noted that the connection methods of the aforementioned shortwave radio 5, antenna tuner 6, external power supply, and antenna are existing technologies and are not limited to the methods described above. Figure 8 The connection method.

[0106] Optionally, combined Figure 9 As shown, the portable housing system for shortwave radios also includes a second flight case, which includes a second housing 7, a power bank 8, and a radio power supply 9, wherein the power bank 8 and the radio power supply 9 are spaced apart within the second housing 7.

[0107] The input and output terminals of the radio power supply 9 are respectively electrically connected to the mobile power supply 8 and the shortwave radio 5.

[0108] Specifically, the portable housing system for shortwave radios also includes a third buffer pad 10. By setting the third buffer pad 10 between the circumference of the power bank 8 and the radio power supply 9 and the inner wall of the second housing 7, the third buffer pad 10 can buffer the power bank 8 and the radio power supply 9 with the second housing 7, effectively preventing shock and providing safety protection for the power bank 8 and the radio power supply 9.

[0109] The third buffer pad 10 can be made of solid sponge.

[0110] A cable tray can be installed at the bottom of the second enclosure to store the power supply cables for the radio and power bank. The cable tray is made of fireproof and insulating materials to ensure the safety of the cables and to make the interior of the flight case neater and prevent the cables from getting tangled.

[0111] The portable power supply 8 can adopt a battery pack structure, which can replace the car generator in traditional technology, reduce the burden of operation and carrying by the staff, and eliminate the noise interference and target exposure caused by the gasoline generator when performing mission communication; in addition, the radio power supply 9 can also be connected to the mains power, so that the radio power supply 9 can have two charging methods: portable power supply 8 and mains power.

[0112] In existing technologies, a typical shortwave radio system mainly consists of a shortwave radio, an antenna tuner, a power supply, a feeder, a power cord, power supply equipment (such as a gasoline generator), and a radio power supply. The gasoline generator is electrically connected to the radio power supply, and the radio power supply is electrically connected to the shortwave radio, so that the shortwave radio is powered by the gasoline generator. These components (shortwave radio, antenna tuner, power supply equipment, and radio power supply) are often distributed individually. When performing missions in complex field environments, multiple personnel need to carry these devices separately, which is not only inconvenient to carry but also requires a significant amount of time for connection, assembly, and debugging, impacting communication efficiency. This distributed equipment layout is insufficient to meet the requirements of rapid emergency response and convenient operation in civil defense communications.

[0113] Therefore, in this utility model, the shortwave radio 5, antenna tuner 6, rotating structure 2, telescopic rod 3, etc. can be integrated and installed in the first housing 1, and the mobile power supply 8 and the shortwave radio 5 can be integrated and installed in the second housing 7. In short, the above-mentioned scattered equipment is integrated into two aviation housings. The mobile power supply can replace the gasoline generator in the traditional technology, solve the problem of the inconvenience of carrying and the difficulty of setting up and operating the existing wireless shortwave radio equipment in the complex environment of the field, and improve the efficiency and convenience of civil defense communication.

[0114] Furthermore, it facilitates the carrying and operation of the equipment by staff in complex field environments, and enables quick setup and communication, eliminating the need for connecting, assembling, and debugging various devices, thus greatly shortening setup time and improving the communication support capability and efficiency of the civil defense shortwave radio.

[0115] The first flight case can be assembled as follows: First, the mounting plate 112 is fixed to the inner bottom of the base body 111. Then, the shortwave radio 5 and antenna tuner 6 are fixed to the mounting plate 112. The two ends of the telescopic rod body 31 are securely installed to the second connecting seat 33 on the side wall of the shortwave radio 5 and the first connecting seat 32 on the mounting plate 112, respectively. Next, the shortwave radio 5, antenna tuner 6, and the first connector 15 and second connector 16 are connected via corresponding connecting lines, and the cover 12 is closed.

[0116] The second flight case can be assembled as follows: during assembly, according to the shape and size of the radio power supply and power bank, cut a piece of solid sponge of appropriate size as a third cushioning pad, and embed the radio power supply and power bank into the solid sponge to fix them in place. Arrange the connecting wires of the radio power supply and power bank in the wire grooves at the bottom of the second case and clearly label the wires for easy maintenance and repair later.

[0117] The portable enclosure system for shortwave radios can be used as follows: After the first and second flight cases arrive at the work site, open the cover of the first case and raise the front operating surface of the shortwave radio to a suitable angle using the telescopic rod. Connect the antenna to the second connector on the side of the first case. Open the second case, remove the power cord, and connect the second case to the first connector on the side of the first case using the power cord. This completes the connection setup, and the device can then be powered on for shortwave communication. After use, turn off the shortwave radio and its power switch, lower the shortwave radio, disconnect the antenna and power cord, close the first and second flight cases, and leave the site.

[0118] Although the present invention has been disclosed above, its protection scope is not limited thereto. Those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, and all such changes and modifications will fall within the protection scope of the present invention.

Claims

1. A portable enclosure system suitable for shortwave radios, characterized in that, The system includes a first flight case, which comprises a first case body (1), a rotating structure (2), a telescopic rod (3), a shortwave radio (5), and an antenna tuner (6). The case body (1) includes a bottom shell (11) and a cover (12). The bottom shell (11) has a receiving cavity and an open end. The receiving cavity is used to install the shortwave radio (5) and the antenna tuner (6). The cover (12) is connected to the open end of the bottom shell (11). The rotating structure (2) is fixed to the inner wall of the bottom shell (11) and is rotatably connected to the shortwave radio (5). One end of the telescopic rod (3) is rotatably connected to the inner wall of the bottom shell (11), and the other end of the telescopic rod (3) is connected to the shortwave radio (5). The telescopic rod (3) is used to drive the shortwave radio (5) to rotate relative to the rotating structure (2) so that the operating surface of the shortwave radio (5) is tilted upward.

2. The portable enclosure system for shortwave radios according to claim 1, characterized in that, The telescopic rod (3) includes a telescopic rod body (31), a first connecting seat (32) and a second connecting seat (33). The first connecting seat (32) is fixed to the inner wall of the bottom shell (11), and the second connecting seat (33) is used to connect to the shortwave radio (5). The two ends of the telescopic rod body (31) are respectively rotatably connected to the first connecting seat (32) and the second connecting seat (33).

3. The portable enclosure system for shortwave radios according to claim 2, characterized in that, It includes two telescopic rods (3), which are disposed at both ends of the shortwave radio (5) along the first direction. The second connecting seats (33) of the two telescopic rods (3) are respectively connected to the two side walls of the shortwave radio (5) opposite to each other along the first direction.

4. The portable enclosure system for shortwave radios according to claim 3, characterized in that, The second connecting seat (33) includes a rod-shaped connector (331), one end of which is used to connect to the side wall of the shortwave radio (5), one end of the telescopic rod body (31) is sleeved on the rod-shaped connector (331), and the other end of the rod-shaped connector (331) is provided with an anti-detachment part (332); the first direction refers to the length direction of the shortwave radio (5).

5. The portable enclosure system for shortwave radios according to claim 4, characterized in that, The second connecting seat (33) further includes a cylindrical connector (333), one end of which is fixedly connected to the side wall of the shortwave radio (5), one end of which is detachably inserted into the cylindrical connector (333), and one end of the telescopic rod body (31) is located between the anti-detachment part (332) and the cylindrical connector (333).

6. The portable enclosure system for shortwave radios according to claim 3, characterized in that, The rotating structure (2) includes two support seats (21), which are installed at intervals along a first direction on the bottom shell (11), and the position of the support seats (21) along the first direction is adjustable; the support seats (21) are used to rotately connect with the shortwave radio (5).

7. The portable enclosure system for shortwave radios according to claim 1, characterized in that, The housing (1) also includes a first buffer pad (13), which is fixed to the inner bottom wall of the bottom shell (11) at a position corresponding to the shortwave radio station (5); And / or, the housing (1) further includes a second buffer pad (14), which is fixed to one side wall of the cover (12) facing the shortwave radio (5).

8. The portable enclosure system for shortwave radios according to claim 2, characterized in that, The second connecting seat (33) is used to connect to the bottom wall of the shortwave radio (5), and the telescopic rod body (31) is located between the bottom shell (11) and the shortwave radio (5).

9. The portable enclosure system for shortwave radios according to any one of claims 1-8, characterized in that, The bottom shell (11) includes a bottom shell body (111) and a mounting plate (112). The bottom shell body (111) has the receiving cavity. The mounting plate (112) is fixed to the inner bottom wall of the bottom shell body (111). The rotating structure (2) and the telescopic rod (3) are disposed on the mounting plate (112). The housing (1) also includes a sealing structure, which is disposed at the connection between the bottom shell body (111) and the cover body (12).

10. The portable enclosure system for shortwave radios according to claim 1, characterized in that, It also includes a second flight case, which includes a second case body (7), a mobile power supply (8) and a radio power supply (9), wherein the mobile power supply (8) and the radio power supply (9) are spaced apart within the second case body (7); The input and output terminals of the radio power supply (9) are respectively electrically connected to the mobile power supply (8) and the shortwave radio (5).