Quickly installed satellite interphone back-carrying station

With its adjustable support components, the satellite intercom backpack can be quickly and stably installed on uneven ground in the field, solving the problem of unstable installation of traditional satellite intercom backpacks on uneven ground, and improving communication stability and work efficiency.

CN224473309UActive Publication Date: 2026-07-07

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Filing Date
2025-07-01
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Traditional satellite intercom backpacks are difficult to install stably on uneven ground in the field, resulting in unstable communication. A lot of time needs to be spent finding a flat location or manually preparing the ground, which affects the stability and continuity of communication.

Method used

The adjustable support components, including brackets, telescopic rods, elastic elements, and spring buttons, allow workers to quickly adjust the angle and length of the brackets to form a stable support structure that adapts to uneven ground and ensures the stable installation of the carrying platform.

Benefits of technology

It significantly improves the convenience and stability of field installation, ensures that the carrying platform does not shift or tip over in complex environments, improves the stability and continuity of communication, and enhances work efficiency and safety.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to satellite intercom back-carrying platform installation technical field, and disclose a kind of satellite intercom back-carrying platform of quick installation, including back-carrying platform body, two opposite side walls of back-carrying platform body are all set with two storage grooves of axial symmetry distribution, the side wall of storage groove is open structure, further including adjustable support assembly, set in the inside of storage groove, four adjustable support assembly is axially symmetric distribution, adjustable support assembly is correspondingly connected with the rotation cooperation of back-carrying platform body inside, and adjustable support assembly is correspondingly connected with the inside of storage groove, this satellite intercom back-carrying platform significantly improves the convenience and stability of field installation through the ingenious structure of adjustable support assembly, effectively resists touching, vibration and other interference in field environment, greatly improves the stability and persistence of communication, provides reliable communication guarantee for field operating personnel.
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Description

Technical Field

[0001] This utility model relates to the field of satellite intercom backpack installation technology, specifically a satellite intercom backpack that can be installed quickly. Background Technology

[0002] In today's complex and ever-changing communication environment, satellite walkie-talkie backpacks, as an important communication device, play a crucial role in many fields, especially in field operations. The field environment is often extremely complex and uncertain, which poses a severe challenge to the use of satellite walkie-talkie backpacks.

[0003] When staff use satellite intercom backpacks in the field, they often need to place them on the ground for communication. However, the ground conditions in the field are uneven, with rocks, mounds of dirt, potholes, and various vegetation, making it difficult to find a completely flat area. Traditional satellite intercom backpacks usually lack effective designs to cope with such uneven ground. Their bottom structures are relatively conventional and cannot be placed stably on sloping or uneven ground. This means that during the installation process, staff need to spend a lot of time and effort to find a relatively flat location or manually perform temporary ground treatment, such as clearing debris and filling potholes. Even so, it is difficult to ensure that the backpack can be installed stably. During subsequent use, even slight touches or ground vibrations may cause the backpack to shift or even tip over, thus affecting the stability and continuity of communication. To address this, we have proposed a satellite intercom backpack that can be installed quickly. Utility Model Content

[0004] To address the shortcomings of existing technologies, this invention provides a quick-installation satellite intercom backpack, solving the aforementioned problems.

[0005] To achieve the above-mentioned objectives, this utility model provides the following technical solution: a quick-installation satellite intercom backpack, comprising:

[0006] The carrying platform body has two symmetrically distributed storage slots on its two opposite side walls, and the side walls of the storage slots have an open structure.

[0007] An adjustable support assembly is disposed inside the storage slot. The four adjustable support assemblies are symmetrically distributed along an axis. The adjustable support assemblies are rotatably connected to the inside of the back support body and are snapped into the inside of the storage slot.

[0008] Preferably, the middle section of the storage slot has a retrieval slot, and the bottom shaft end of the storage slot has a limiting slot. The inner wall of the back support body has an inner cavity corresponding to the bottom of the storage slot, and the inner cavity is perpendicular to the storage slot. A mating hole is provided between the limiting slot and the inner cavity, and an angle fixing plate is provided on the shaft end of the mating hole away from the storage slot.

[0009] Preferably, the angle fixing plate is welded to the shaft end of the mating hole, and a set of fixing grooves distributed in a ring array are opened on the inner side end face of the angle fixing plate corresponding to the receiving groove.

[0010] Preferably, the adjustable support assembly includes a bracket, a telescopic rod, an elastic element, and a spring button. The main body of the adjustable support assembly is a bracket, and a telescopic rod is provided inside the bracket. The telescopic rod is slidably connected to the inside of the bracket, and a spring button is provided inside the side wall of the telescopic rod shaft end. The spring button is engaged with the side wall of the bracket, and an elastic element is provided on the side wall of the bracket.

[0011] Preferably, the bracket has a sliding cavity inside, and the shaft end of the sliding cavity has a rectangular opening structure. The side wall of the bracket has a set of circular adjustment holes that are evenly distributed. The side wall of the bracket is provided with a mating rod, and the shaft end of the mating rod is provided with a connecting plate. The shaft end of the mating rod away from the connecting plate is provided with a set of fixing blocks that are arranged in a ring array. The fixing blocks are engaged with the fixing grooves.

[0012] Preferably, the mating rod is placed on the shaft end opposite to the rectangular opening of the sliding cavity, and the mating rod and the adjusting hole are placed on two opposite side walls of the bracket. The mating rod is slidably connected to the mating hole, and the mating rod passes into the inner cavity.

[0013] Preferably, the telescopic rod shaft end is provided with a slider, which is slidably connected to the inside of the sliding cavity. A cylindrical countersunk hole is opened on the side wall of the slider, and a spring button is placed inside the cylindrical countersunk hole. The spring button is engaged with the adjustment hole. A support cone is provided on the shaft end of the telescopic rod away from the slider.

[0014] Preferably, the elastic element has through holes at both ends, which are fitted with mating rods, and one end of the elastic element is attached to the connecting plate.

[0015] Compared with the prior art, this utility model provides a quick-installation satellite intercom backpack, which has the following advantages:

[0016] This quick-installation satellite intercom backpack significantly improves the convenience and stability of field installation. Through its ingenious adjustable support structure, it eliminates the need for workers to spend considerable time finding flat ground or manually preparing the surface; installation is quick and easy with simple operation. For angle adjustment, the combination of elastic elements, fixing slots, and fixing blocks allows for quick fixation of the bracket at the appropriate angle. The design of the telescopic rod, adjustment holes, and spring buttons allows for flexible adjustment of the support length, ensuring full contact between the support cone and the ground. Four symmetrically distributed support components work together to form a stable support structure, effectively resisting interference from touch and vibration in the field environment. This ensures the backpack remains stable and does not shift or tip over after installation, greatly improving communication stability and continuity, providing reliable communication support for field workers, and enhancing work efficiency and safety. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the structure of the satellite intercom backpack of this utility model when it is unfolded.

[0018] Figure 2 This is a schematic diagram of the structure of the satellite intercom backpack of this utility model when it is stored.

[0019] Figure 3 This is a cross-sectional schematic diagram of the satellite intercom backpack for rapid installation according to this utility model;

[0020] Figure 4 This is a cross-sectional schematic diagram of the carrying platform body of this utility model;

[0021] Figure 5 for Figure 4 A magnified view of part A in the diagram;

[0022] Figure 6 This is a schematic diagram of the adjustable support component of this utility model;

[0023] Figure 7 This is a schematic diagram of the bracket of this utility model.

[0024] In the diagram: 1. Backrest body; 2. Storage slot; 3. Support; 4. Telescopic rod; 5. Elastic element; 6. Spring button; 7. Retrieval slot; 8. Limiting slot; 9. Inner cavity; 10. Mating hole; 11. Angle fixing plate; 12. Fixing slot; 13. Sliding cavity; 14. Adjustment hole; 15. Mating rod; 16. Connecting plate; 17. Through hole; 18. Slider; 19. Cylindrical countersunk hole; 20. Support cone; 21. Fixing block. Detailed Implementation

[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0026] Please see Figure 1-7 A quick-installation satellite intercom backpack includes:

[0027] The back support body 1 has two storage slots 2 that are symmetrically distributed on two opposite side walls, and the side walls of the storage slots 2 have an open structure.

[0028] An adjustable support assembly is set inside the storage slot 2. The four adjustable support assemblies are symmetrically distributed along the axis. The adjustable support assemblies are rotatably connected to the inside of the back support body 1, and the adjustable support assemblies are snapped into the inside of the storage slot 2.

[0029] Furthermore, the storage slot 2 has a retrieval slot 7 in the middle section, and a limiting slot 8 at the bottom shaft end of the storage slot 2. The back support body 1 has an inner cavity 9 corresponding to the bottom inner wall of the storage slot 2, and the inner cavity 9 is perpendicular to the storage slot 2. A mating hole 10 is provided between the limiting slot 8 and the inner cavity 9. An angle fixing plate 11 is provided on the shaft end of the mating hole 10 away from the storage slot 2. The storage slot 2 serves to place and store the adjustable support component, while the retrieval slot 7 facilitates the operator to unfold and install the adjustable support component. The limiting slot 8 is the maximum unfolding and installation limit position to ensure the safety and stability of the overall installation and unfolding.

[0030] Furthermore, the angle fixing plate 11 is welded to the shaft end of the mating hole 10, and a set of fixing grooves 12 arranged in a ring array are opened on the inner side end face of the angle fixing plate 11 corresponding to the storage groove 2. The fixing grooves 12 play a role in fixing the installation and unfolding angle of the adjustable support component.

[0031] Furthermore, the adjustable support assembly includes a bracket 3, a telescopic rod 4, an elastic element 5, and a spring button 6. The main body of the adjustable support assembly is the bracket 3, and the telescopic rod 4 is provided inside the bracket 3. The telescopic rod 4 is slidably connected to the inside of the bracket 3, and the spring button 6 is provided inside the side wall of the shaft end of the telescopic rod 4. The spring button 6 is engaged with the side wall of the bracket 3. The side wall of the bracket 3 is provided with an elastic element 5. When installing on sloping or uneven ground in the field, the four symmetrically distributed adjustable support assemblies are taken out. Specifically, the worker pulls the adjustable support assembly out in the direction of the opening side wall of the storage slot 2. During the pulling process, the elastic element 5 is continuously compressed, and the engagement between the fixing block 21 and the fixing slot 12 fails. When the bracket 3 of the adjustable support assembly leaves the storage slot 2, the bracket 3 can be rotated, and the rotation angle can be freely adjusted according to the environment. When the angle is appropriate, the bracket 3 is released, and the rebound force of the elastic element 5 causes the fixing block 21 of the bracket 3 to re-engage with the fixing slot 12, preventing the bracket 3 from rotating.

[0032] Furthermore, the bracket 3 has a sliding cavity 13 inside, and the shaft end of the sliding cavity 13 has a rectangular opening structure. The side wall of the bracket 3 has a set of circular adjustment holes 14 that are evenly distributed. The side wall of the bracket 3 has a mating rod 15. The shaft end of the mating rod 15 has a connecting plate 16. The shaft end of the mating rod 15 away from the connecting plate 16 has a set of fixing blocks 21 that are arranged in a ring array. The fixing blocks 21 are engaged with the fixing groove 12.

[0033] Furthermore, the mating rod 15 is placed on the shaft end facing away from the rectangular opening of the sliding cavity 13, and the mating rod 15 and the adjusting hole 14 are placed on the two opposite side walls of the bracket 3. The mating rod 15 is slidably connected to the mating hole 10, and the mating rod 15 is inserted into the inner cavity 9.

[0034] Furthermore, the telescopic rod 4 has a slider 18 at its shaft end, which is slidably connected to the inside of the sliding cavity 13. The side wall of the slider 18 has a cylindrical countersunk hole 19, and a spring button 6 is placed inside the cylindrical countersunk hole 19. The spring button 6 is engaged with the adjustment hole 14. The shaft end of the telescopic rod 4 away from the slider 18 has a support cone 20. By pressing the spring button 6, the position of engagement with the adjustment hole 14 is changed, so that the telescopic rod 4 can be adjusted inside the sliding cavity 13 to change its length and adapt to harsh environments.

[0035] Furthermore, the elastic element 5 has through holes 17 at both ends of its shaft. The through holes 17 are fitted with the mating rod 15, and one end of the elastic element 5 is attached to the connecting plate 16. The elastic element 5 is always in a compressed state, which effectively ensures the stability of the installation.

[0036] Structural Description:

[0037] Backpack body 1: Backpack body 1 is the main structure of the satellite intercom backpack. Its two opposite side walls are symmetrically opened with storage slots 2 for placing adjustable support components, providing basic load-bearing and protection functions for the equipment.

[0038] Storage slot 2: Storage slot 2 is located on the side wall of the back support body 1 and has an open structure. It is used to store the adjustable support components. The middle access slot 7 makes it easy to take out the components, and the bottom limiting slot 8 limits the maximum unfolding position.

[0039] Support 3: Support 3 is the main body of the adjustable support assembly. It has a sliding cavity 13 inside for installing the telescopic rod 4, and the side wall has an elastic element matching rod 15 and an adjustment hole 14 to realize the angle and length adjustment functions.

[0040] Telescopic rod 4: The telescopic rod 4 is placed inside the bracket 3 and slides with the sliding cavity 13 through the slider 18. The shaft end is provided with a spring button 6 that is engaged with the adjustment hole 14, and the other end of the support cone 20 contacts the ground to achieve support.

[0041] Elastic element 5: The elastic element 5 is fitted onto the mating rod 15, with through holes 17 at both ends connected to it, and one side abuts against the connecting plate 16. It is always in a compressed state, providing a rebound force for fixing the bracket 3 at an angle.

[0042] Spring button 6: Spring button 6 is placed in the cylindrical countersunk hole 19 of the slider 18 of the telescopic rod 4 and engages with the adjustment hole 14 on the side wall of the bracket 3. Pressing it can adjust the extension length of the telescopic rod 4.

[0043] Removal slot 7: Removal slot 7 is located in the middle section of storage slot 2, making it convenient for operators to reach in and pull the adjustable support component out of storage slot 2 for installation.

[0044] Limiting slot 8: The limiting slot 8 is located at the bottom shaft end of the storage slot 2, serving as an indicator of the maximum limit position of the adjustable support component during deployment, ensuring safety and stability during the installation and deployment process;

[0045] Inner cavity 9: The inner cavity 9 is located inside the back support body 1 and is perpendicular to the storage slot 2. The mating hole 10 connects the two and provides space for the movement of the mating rod 15 and the installation of the angle fixing plate 11.

[0046] Mating hole 10: Mating hole 10 connects the storage groove 2 and the inner cavity 9, and the mating rod 15 slides through it to realize the snap-fit ​​engagement between the adjustable support component and the angle fixing plate 11;

[0047] Angle fixing plate 11: Angle fixing plate 11 is welded to the shaft end of mating hole 10. Fixing grooves 12 are distributed in a ring array on the plate to fix the angle of bracket 3 after adjustment and prevent it from rotating.

[0048] Fixing groove 12: The fixing groove 12 is arranged in a ring array on the side end face of the angle fixing plate 11, and is engaged with the fixing block 21 at the shaft end of the mating rod 15 to achieve the positioning and fixing of the bracket 3 at the angle;

[0049] Slide cavity 13: The slide cavity 13 is opened inside the bracket 3, with a rectangular opening at the shaft end. The slide of the slider 18 of the telescopic rod 4 is accommodated inside to realize the telescopic adjustment of the telescopic rod 4.

[0050] Adjustment holes 14: Adjustment holes 14 are evenly distributed on the side wall of bracket 3 and engage with spring button 6. By changing the engagement position, the telescopic rod 4 can be adjusted to different lengths.

[0051] Matching rod 15: One end of the matching rod 15 is provided with a connecting plate 16, and the other end has a fixing block 21, which passes through the matching hole 10 and engages with the fixing groove 12 of the angle fixing plate 11 to transmit the elastic force of the elastic element 5;

[0052] Connecting plate 16: The connecting plate 16 is located at one end of the mating rod 15 and is attached to one side of the elastic element 5. It is used to limit the displacement of the elastic element 5 and assist the mating rod 15 in completing the angle fixing operation.

[0053] Through hole 17: Through hole 17 passes through both ends of elastic member 5 and is sleeved with mating rod 15, so that elastic member 5 can extend and retract along mating rod 15, providing elastic force for fixing bracket 3 at an angle;

[0054] Slider 18: Slider 18 is located at the shaft end of telescopic rod 4 and slides in conjunction with the sliding cavity 13 of bracket 3. The cylindrical countersunk hole 19 on the side wall accommodates the spring button 6 to realize the length adjustment of telescopic rod 4.

[0055] Cylindrical countersunk hole 19: Cylindrical countersunk hole 19 is formed on the side wall of slider 18 to place spring button 6, provide movement space for spring button 6, and realize snap-fit ​​with adjustment hole 14;

[0056] Support cone 20: The support cone 20 is located at the end of the telescopic rod 4, with its tip in contact with the ground to increase friction with the ground, improve support stability, and adapt to various uneven ground surfaces;

[0057] Fixed block 21: Fixed blocks 21 are arranged in a ring array at the shaft end of the mating rod 15 and engage with the fixing groove 12 of the angle fixing plate 11 to fix the angle after the bracket 3 is adjusted.

[0058] Working Principle: Following the diagram, correctly install this quick-installation satellite intercom backpack. In actual use, its ingenious structural design enables rapid and stable installation. When encountering uneven ground in the field and needing to install the backpack body 1, first remove the adjustable support component from the storage slot 2 via the slot 7. During the pulling out of the adjustable support component, the elastic element 5 on the side wall of the bracket 3 is continuously compressed. At this time, the fixing block 21 at the shaft end of the mating rod 15 loses its engagement with the fixing slot 12 on the angle fixing plate 11, creating conditions for the rotation of the bracket 3. The operator can freely adjust the angle of the bracket 3 according to the slope or unevenness of the ground. After adjusting to a suitable angle, release the bracket 3. The compressed elastic element 5 generates a rebound force, pushing the mating rod 15 to re-engage the fixing block 21 into the fixing slot 12, firmly fixing the angle of the bracket 3. To prevent it from rotating arbitrarily during use, after the angle of the bracket 3 is fixed, the staff can further adjust the length of the telescopic rod 4 according to the specific ground conditions. The slider 18 at the shaft end of the telescopic rod 4 slides in the sliding cavity 13 inside the bracket 3. By pressing the spring button 6, the engagement position between it and the adjustment hole 14 on the side wall of the bracket 3 is changed, so that the telescopic rod 4 can extend and retract within the sliding cavity 13. When the spring button 6 is engaged in different positions of the adjustment hole 14, the extension length of the telescopic rod 4 changes accordingly until the support cone 20 is firmly in contact with the ground. The four axially symmetrical adjustable support components cooperate with each other to provide stable support for the backpack platform body 1. Throughout the process, the limiting slot 8 sets the maximum limit position for the unfolding of the adjustable support components, ensuring the safety and stability during installation and unfolding. This allows the backpack platform body 1 to be quickly installed on complex and uneven outdoor ground and remain stable to meet communication requirements.

[0059] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A quick-installation satellite intercom backpack, characterized in that, include: The carrying platform body (1) has two storage slots (2) that are symmetrically distributed on both opposite side walls. The side walls of the storage slots (2) are open. An adjustable support assembly is set inside the storage slot (2). The four adjustable support assemblies are symmetrically distributed. The adjustable support assemblies are rotatably connected to the inside of the back support body (1) and are snapped into the inside of the storage slot (2).

2. The satellite intercom backpack with rapid installation according to claim 1, characterized in that, The storage slot (2) has a retrieval slot (7) in the middle section and a limiting slot (8) at the bottom shaft end. The back support body (1) has an inner cavity (9) corresponding to the bottom inner wall of the storage slot (2). The inner cavity (9) is perpendicular to the storage slot (2). A mating hole (10) is provided between the limiting slot (8) and the inner cavity (9). An angle fixing plate (11) is provided on the shaft end of the mating hole (10) away from the storage slot (2).

3. The satellite intercom backpack according to claim 2, characterized in that, The angle fixing plate (11) is welded to the shaft end of the mating hole (10), and a set of fixing grooves (12) arranged in a ring array are opened on the inner side end face of the angle fixing plate (11) corresponding to the receiving groove (2).

4. The satellite intercom backpack with rapid installation according to claim 1, characterized in that, The adjustable support assembly includes a bracket (3), a telescopic rod (4), an elastic element (5), and a spring button (6). The main body of the adjustable support assembly is the bracket (3). The bracket (3) is provided with a telescopic rod (4) inside. The telescopic rod (4) is slidably connected to the inside of the bracket (3). The side wall of the shaft end of the telescopic rod (4) is provided with a spring button (6). The spring button (6) is engaged with the side wall of the bracket (3). The side wall of the bracket (3) is provided with an elastic element (5).

5. A quick-installation satellite intercom backpack according to claim 4, characterized in that, The bracket (3) has a sliding cavity (13) inside, and the shaft end of the sliding cavity (13) is a rectangular opening structure. The side wall of the bracket (3) has a set of circular adjustment holes (14) distributed at equal intervals. The side wall of the bracket (3) is provided with a matching rod (15). The shaft end of the matching rod (15) is provided with a connecting plate (16). The shaft end of the matching rod (15) away from the connecting plate (16) is provided with a set of fixing blocks (21) distributed in a ring array. The fixing blocks (21) are engaged with the fixing groove (12).

6. A quick-installation satellite intercom backpack according to claim 5, characterized in that, The fitting rod (15) is placed on the shaft end away from the rectangular opening of the sliding cavity (13), and the fitting rod (15) and the adjusting hole (14) are placed on the two opposite side walls of the bracket (3). The fitting rod (15) is slidably connected to the fitting hole (10), and the fitting rod (15) is inserted into the inner cavity (9).

7. A quick-installation satellite intercom backpack according to claim 4, characterized in that, The telescopic rod (4) has a slider (18) at its shaft end. The slider (18) is slidably connected to the inside of the sliding cavity (13). A cylindrical countersunk hole (19) is opened on the side wall of the slider (18). A spring button (6) is placed inside the cylindrical countersunk hole (19), and the spring button (6) is engaged with the adjustment hole (14). A support cone (20) is provided on the shaft end of the telescopic rod (4) away from the slider (18).

8. A quick-installation satellite intercom backpack according to claim 4, characterized in that, The elastic element (5) has through holes (17) at both ends of its shaft. The through holes (17) are fitted with the mating rod (15), and one end of the elastic element (5) is fitted with the connecting plate (16).