An electronic device and method for wireless communication

By designing a base station device that combines moving wheels, support rods, and limiting rods, the problems of uneven signal distribution and difficulty in moving wireless communication base stations were solved. This enabled flexible movement and height adjustment of the base station, improved signal reception and transmission efficiency, and enhanced signal search capabilities.

CN121908349BActive Publication Date: 2026-07-07MINNAN INST OF SCI & TECH

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
MINNAN INST OF SCI & TECH
Filing Date
2026-03-23
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

The antenna arrays of existing wireless communication base stations are set on the same plane, which leads to uneven signal reception and transmission, and makes it difficult to move and adjust the height of the base stations, affecting signal search efficiency.

Method used

An electronic device comprising a fixed housing, a drive assembly, a communication assembly, and a support assembly is designed. By using a combination of moving wheels, support rods, and limit rods, the base station can be moved and its height adjusted. Furthermore, the combination of a motor housing and a cooling fan improves signal reception and transmission performance.

Benefits of technology

It enables flexible movement and altitude adjustment of base stations, improves the uniformity of signal reception and transmission, enhances signal search efficiency, and avoids equipment damage and heat dissipation problems.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application provides an electronic device and method for wireless communication, and relates to the technical field of wireless communication, which comprises a fixed box, a slot is opened on the side wall of the fixed box, a movable seat is movably arranged in the slot, a positioning slot is opened on the movable seat, a positioning block is slidably arranged in the positioning slot, and a limiting rod is welded to one end of the positioning block. In the application, the movement of the fixed box can complete the movement of the top communication assembly, in the later stage, the support column is rotated in the fixed cylinder, the arc-shaped block on the support column enters the opening and the limiting slot, the end of the support column loses support and is in contact with the conveying belt through the limiting seat, the conveying belt drives the limiting seat and the fixed seat to move as a whole in the process of movement of the fixed box, the limiting seat moves up and down to adjust the inclination of the transmission, the conveying belt drives the support column to move up and down to adjust the height of the support column with the movement of the moving wheel, and the slow movement of the moving wheel can make the support column move up and down slowly.
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Description

Technical Field

[0001] This disclosure relates to the field of wireless communication technology, and more particularly to an electronic device and method for wireless communication. Background Technology

[0002] A wireless communication base station is a radio transceiver station that transmits information between wireless terminals and wireless terminals within a certain radio coverage area through a wireless communication switching center. The base station's receiving mode involves the antenna receiving signals, which are then filtered and transmitted to the PCB board. Specifically, the signal passes through a low-noise amplifier circuit, a digital intermediate frequency module, and an optical module before being transmitted to the core network via optical fiber. The base station's transmitting mode involves data from the core network being transmitted to the PCB board via optical fiber. Specifically, the data passes through an optical module, a digital intermediate frequency module, and a power amplifier circuit before being filtered and transmitted to the antenna for transmission. Both signal reception and transmission in wireless communication base stations require multi-directional signal reception and transmission. However, the antenna arrays of existing wireless communication base stations are generally set on the same plane, which is not conducive to multi-directional signal reception and transmission. Signal strength varies in different directions, and once a base station is fixed, it is difficult to move.

[0003] According to the wireless communication base station disclosed in the existing patent document CN113453384A, it includes an outer casing, an antenna array, a filter, a PCB board, and a heat sink. The antenna array, filter, and PCB board are disposed in the cavity between the outer casing and the heat sink. The reflector of the antenna array is formed by at least two long flat plates located on different planes, which are continuously and gradually shaped along a certain arc in width. The shape of the feed plate of the antenna array is adapted to the shape of the reflector. The outer casing is curved, and the arc of the outer casing is the same as the arc of the connecting line between the planes of the reflector of the antenna array. The width of each long flat plate is the same. On the side of the feed plate near the outer casing, there is a protruding strip extending from the connecting line of the adjacent planes, which divides the feed plate into multiple areas. A protruding ridge is provided on the connecting line of the adjacent planes on the side of the reflector near the outer casing. The protruding ridge fits into the groove on the side of the feed plate away from the outer casing. When this technical solution is used, the antenna array is set on multiple planes, with a wide radiation area, which is beneficial for multi-directional signal reception and transmission. The transmission and reception signal strengths are relatively uniform in all directions, avoiding the phenomenon of strong signals in some directions and weak signals in others.

[0004] While the above technical solution avoids the signal strength issue during use, it does not allow for the overall movement of the base station, nor does it allow for fine-tuning of the base station's height during movement. This makes signal searching difficult and inconvenient to use. Summary of the Invention

[0005] This disclosure aims to at least partially address one of the technical problems in the related art.

[0006] Therefore, the purpose of this disclosure is to provide an electronic device and method for wireless communication.

[0007] To achieve the above objectives, this disclosure provides an electronic device for wireless communication, comprising: a fixed housing, a slot formed on the side wall of the fixed housing, a movable seat movably mounted inside the slot, a positioning groove formed on the movable seat, a positioning block slidably mounted inside the positioning groove, a limit rod welded to one end of the positioning block, a support rod rotatably mounted on the side of the fixed housing, a movable rod movably mounted inside the support rod, a positioning rod welded to one end of the movable rod; and a drive assembly, the drive assembly including movable wheels rotatably mounted on the bottom of the fixed housing, a rotating column fixed between the movable wheels, a reinforcing seat movably mounted on the rotating column, and a welded limit rod on the top of the reinforcing seat. At the bottom of the fixed box, a drive wheel is fixed on the rotating column, a belt is rotatably mounted on the drive wheel, a driven wheel is rotatably mounted on the belt, a rotating rod is fixed on the driven wheel, and reinforcing rods are movably mounted at both ends of the rotating rod. The reinforcing rods are all fixedly installed inside the fixed box. The communication component includes a box body with a door hinged to its side. Each side of the box body has a through groove, and a support assembly is movably mounted inside the through groove. A control box is movably mounted between the support assemblies and is fixedly installed inside the box body. Transceiver boxes are movably mounted on both sides of the box body, and a positioning plate and a cross plate are fixed to each transceiver box.

[0008] Optionally, a handrail is fixedly installed on the side of the fixed box, a fixed seat is movably installed on the top of the fixed box, a fixed cylinder is fixedly installed on the top of the fixed seat, a ring seat is welded to one end of the fixed cylinder, a support column is movably installed inside the fixed cylinder, an arc-shaped groove and an opening are formed on the ring seat, an arc-shaped block is welded to the support column, the arc-shaped block is movably installed inside the arc-shaped groove, the bottom of the box is fixedly installed on the top of the support column, a sliding groove is formed on the inner wall of the groove, a slider is movably installed inside the sliding groove, a support mechanism is fixed to the bottom of the slider, and the slider is movably installed inside the sliding groove through the support mechanism.

[0009] Optionally, a fixing bolt is rotatably mounted on the support rod, and an installation hole is opened on the movable rod. One end of the fixing bolt is rotatably mounted inside the installation hole. Both ends of the limiting rod are movably mounted with connecting rods. One end of the connecting rod is fixed with a fixing column. A reset mechanism is movably mounted on the side wall of the fixing column. The fixing column is slidably mounted inside the limiting rod through the reset mechanism.

[0010] Optionally, a movable block is welded to the other end of the connecting rod, a locking block is fixed to one end of the movable block, and locking slots are opened at both ends of the positioning rod. The locking block is movably installed inside the locking slots, and a groove is opened on the top of one side of the movable block.

[0011] Optionally, the top of the fixed box has an adjustment port, and an adjustment seat is movably installed inside the adjustment port. The adjustment seat has an opening, and one end of the support column is movably installed inside the opening. An adjustment groove is opened on the inner wall of the adjustment port, and an elastic mechanism is fixed inside the adjustment groove. An adjustment block is fixed to one end of the elastic mechanism, and one end of the adjustment block is welded to both sides of the adjustment seat.

[0012] Optionally, a driving roller and a driven roller are fixed on the rotating rod, and a conveyor belt is rotatably installed between the driving roller and the driven roller. A protrusion is fixed on the side wall of the conveyor belt, and a limiting seat is movably installed between the protrusions. One end of the limiting seat is fixedly installed at the bottom of the support column, and a limiting groove is opened on the side wall of the fixed cylinder. The limiting groove is connected to the opening.

[0013] Optionally, a fixing ring and a limiting ring are fixedly installed on the housing and the transceiver box, respectively. Guide grooves are opened on both the positioning plate and the horizontal plate. Threaded holes are opened on both the housing and the transceiver box. One end of the limiting ring is rotatably installed inside the threaded hole. A sliding groove is opened on the inner wall of the transceiver box. A sliding seat is movably installed inside the sliding groove. The support assembly includes a motor housing, which is movably installed on both sides of the control box.

[0014] Optionally, a connecting seat is welded to one side of the motor housing, a threaded column is rotatably mounted on the connecting seat, a drive motor is fixed to one end of the threaded column, the drive motor is fixedly mounted on the bottom of the housing, and a guide seat is welded to the connecting seat.

[0015] Optionally, a displacement mechanism is fixedly installed inside the guide seat, and a fixed lug is fixed at one end of the displacement mechanism. The fixed lug is rotatably installed inside the sliding seat via a rotating shaft. A heat dissipation vent is fixedly installed inside the motor housing, and a cooling fan is fixedly installed inside the heat dissipation vent. An air inlet is opened on the other side of the motor housing, and a heat dissipation groove is opened on the side of the heat dissipation vent.

[0016] A method for wireless communication specifically includes the following steps:

[0017] Step 1: Set up base station signal feedback. Set up a signal feedback mechanism in each communication base station and transmit a feedback signal after the feedback conditions are met.

[0018] Step 2: Set base station power levels. A power level is set for each communication base station. If a certain power level does not meet the requirements, the level is increased to the next lower power level. Setting the power level for each communication base station includes: setting multiple power levels based on the current communication base station's maximum and normal transmission power range. Different power levels result in different signal transmission coverage areas and a different number of other communication base stations that can be scanned. If no other communication base stations can be scanned at the normal transmission power, the transmission power level of the current communication base station is gradually increased until the maximum transmission power of the current communication base station is reached. Specifically, a power level not meeting the requirements means that no next communication base station with a faulty communication link is detected within the signal transmission coverage area of ​​the current communication base station at that power level.

[0019] Step 3: Constructing wireless communication links. The communication base station scans other communication base stations within its signal transmission coverage area at a certain power level and constructs wireless communication links with other communication base stations. The construction of wireless communication links includes constructing wireless communication links that transmit along the original communication link and constructing wireless communication links that do not transmit along the original communication link.

[0020] Step 4: Complete the transmission of the signal to be transmitted. The communication base station performs an omnidirectional scan of other communication base stations within its signal transmission coverage area at a certain power level and establishes wireless communication links with other communication base stations; based on the established wireless communication links, the signal to be transmitted is transmitted normally.

[0021] The technical solution provided in this disclosure may include the following beneficial effects:

[0022] This invention moves the top communication component by moving the fixed box. During the movement, the support column rotates inside the fixed cylinder, and the arc-shaped block on the support column enters the opening and the limiting groove. After one end of the support column loses support, it contacts the conveyor belt through the limiting seat. During the movement of the fixed box, the conveyor belt drives the limiting seat and the fixed seat to move as a whole. The limiting seat moves up and down with the tilt of the conveyor. As the moving wheel moves, the conveyor belt drives the support column to move and adjust its height. The slow movement of the moving wheel allows the support column to move up and down slowly. As the support column moves up and down, it searches for signals at different heights. After the signal point search is completed, the support column returns to its original position, and the arc-shaped block is installed inside the arc-shaped groove to limit and fix the support column as a whole.

[0023] In this invention, after the height of the communication component is adjusted, the entire fixed box can be supported and fixed. First, the locking block on the movable block is separated from the locking slot. After the positioning rod loses its limiting force, it rotates through the movable rod and the support rod. After the support rod rotates 180 degrees, the positioning rod contacts the ground. Before the positioning rod contacts the ground, the movable rod slides and adjusts inside the support rod. After the movable rod is adjusted, it pushes the entire fixed box up and down. While the positioning rod adjusts the fixed box up and down, it separates the moving wheels from the ground, so that the fixed box is suspended and fixed. The fixed box adjusts the height of the communication component a second time by pushing.

[0024] In this process, after the positioning rod contacts the ground, the limiting rod moves downward and the movable seat descends accordingly. The movable seat moves inside the slot to provide support for the downward adjustment of the limiting rod. The movable block on the limiting rod moves to allow the locking block to enter the slot. The limiting rod completes the limiting of the positioning rod from the bottom. Later, after the positioning rod rotates upward, the limiting rod returns to its original position to achieve its re-fixation.

[0025] This invention uses a drive motor to rotate a threaded column, which in turn pushes the motor housing up and down via a connecting seat. This up-and-down movement of the motor housing changes its contact position with the control box. The motor housing is staggered on both sides of the control box, and cooling fans inside the heat dissipation vents provide heat to the control box. The heat dissipation grooves and vents work together to increase the area for heat dissipation. Furthermore, the movement of the motor housing controls the position of the displacement push rod. Later, by moving the displacement mechanism to both sides simultaneously, the transceiver box can move horizontally along with the horizontal plate and positioning plate. Supported by the horizontal plate and positioning plate, the transceiver box moves horizontally, adjusting the position of the receiving point.

[0026] In this invention, the limiting ring can be rotated and removed inside the threaded hole during use. After the limiting ring is removed, the transceiver box loses its bottom limiting function, and the displacement mechanism is activated to push the sliding seat outward. The transceiver box rotates on the fixed ring via the positioning plate. The transceiver box tilts and opens to both sides with the fixed ring as the support point. After the transceiver box tilts and opens, the area for transmitting and receiving signals is increased again. Later, when the transceiver box moves horizontally to both sides at the same time, one end of the positioning plate and the horizontal plate loses its obstruction of the gap between the box door and the box body. After the side of the box door loses its support, it is easy to open the box door. Thus, the positioning plate and the horizontal plate support the transceiver box while simultaneously limiting and fixing the box body, effectively preventing damage to the internal equipment caused by accidental opening of the box door.

[0027] Additional aspects and advantages of this disclosure will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of this disclosure. Attached Figure Description

[0028] The above and / or additional aspects and advantages of this disclosure will become apparent and readily understood from the following description of the embodiments taken in conjunction with the accompanying drawings, in which:

[0029] Figure 1 This is a schematic diagram of the structure of a device in an electronic device for wireless communication according to an embodiment of this disclosure;

[0030] Figure 2 This is a schematic diagram of the structural steps of a method for wireless communication according to an embodiment of the present disclosure; it is also a schematic diagram of the structure of a device in an electronic device for wireless communication.

[0031] Figure 3 This is a schematic diagram of the structure of an electronic device for wireless communication after the mounting bracket has been removed, according to an embodiment of this disclosure.

[0032] Figure 4 This is a schematic diagram of the structure of a movable base in an electronic device for wireless communication according to an embodiment of this disclosure;

[0033] Figure 5 This is a schematic diagram of the internal structure of a fixed box in an electronic device for wireless communication according to an embodiment of this disclosure;

[0034] Figure 6 This is a schematic diagram of the structure of a driving component in an electronic device for wireless communication according to an embodiment of the present disclosure;

[0035] Figure 7 This is a schematic diagram of the structure of a communication component in an electronic device for wireless communication according to an embodiment of this disclosure;

[0036] Figure 8 This is a schematic diagram of the structure of a threaded hole in an electronic device for wireless communication according to an embodiment of this disclosure;

[0037] Figure 9 This is a schematic diagram of the internal structure of a housing in an electronic device for wireless communication according to an embodiment of this disclosure;

[0038] Figure 10 This is a schematic diagram of the structure of a support component in an electronic device for wireless communication according to an embodiment of the present disclosure.

[0039] As shown in the figure: 1. Fixed box; 2. Moving wheel; 3. Slot; 4. Movable seat; 5. Support rod; 6. Movable rod; 7. Positioning rod; 8. Fixing bolt; 9. Limiting rod; 10. Fixed seat; 11. Fixed cylinder; 12. Limiting groove; 13. Ring seat; 14. Opening; 15. Arc groove; 16. Arc block; 17. Support column; 18. Communication component; 19. Handrail; 20. Slide groove; 21. Positioning groove; 22. Positioning block; 23. Slot; 24. Slider; 25. Support mechanism; 26. Connecting rod; 27. Fixed column; 28. Reset mechanism; 29. ​​Movable block; 30. Groove; 31. Slot; 32. Limiting seat; 33. Rotating column; 34. Reinforcing seat; 35. Drive wheel; 36. Belt 37. Driven wheel; 38. Reinforcing rod; 39. Rotating rod; 40. Driving roller; 41. Driven roller; 42. Conveyor belt; 43. Box body; 44. Receiving and dispatching box; 45. Positioning plate; 46. Horizontal plate; 47. Guide groove; 48. Fixing ring; 49. Limiting ring; 50. Box door; 51. Threaded hole; 52. Sliding groove; 53. Sliding seat; 54. Through groove; 55. Support assembly; 56. Control box; 57. Motor box; 58. Connecting seat; 59. Guide seat; 60. Displacement mechanism; 61. Fixed lug; 62. Threaded column; 63. Drive motor; 64. Heat dissipation vent; 65. Heat dissipation groove; 66. Adjustment port; 67. Adjustment seat; 68. Opening; 69. Adjustment groove; 70. Elastic mechanism. Detailed Implementation

[0040] Embodiments of this disclosure are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and are used only to explain this disclosure, and should not be construed as limiting this disclosure. Rather, embodiments of this disclosure include all variations, modifications, and equivalents falling within the spirit and scope of the appended claims.

[0041] like Figures 1 to 10As shown, an electronic device for wireless communication includes: a fixed housing 1, a slot 3 on the side wall of the fixed housing 1, a movable seat 4 movably mounted inside the slot 3, a positioning groove 21 on the movable seat 4, a positioning block 22 slidably mounted inside the positioning groove 21, a limit rod 9 welded to one end of the positioning block 22, a support rod 5 rotatably mounted on the side of the fixed housing 1, a movable rod 6 movably mounted inside the support rod 5, a positioning rod 7 welded to one end of the movable rod 6; and a drive assembly including movable wheels 2 rotatably mounted on the bottom of the fixed housing 1, a rotating column 33 fixed between the movable wheels 2, a reinforcing seat 34 movably mounted on the rotating column 33, the top of the reinforcing seat 34 welded to the bottom of the fixed housing 1, and a fixed... A drive wheel 35 is fixed, a belt 36 is rotatably mounted on the drive wheel 35, a driven wheel 37 is rotatably mounted on the belt 36, a rotating rod 39 is fixed on the driven wheel 37, and a reinforcing rod 38 is movably mounted at both ends of the rotating rod 39. The reinforcing rods 38 are all fixedly installed inside the fixed box 1. The communication component 18 includes a box body 43, a box door 50 is hinged to the side of the box body 43, and a through groove 54 is opened on each side of the box body 43. A support component 55 is movably mounted inside the through groove 54, and a control box 56 is movably mounted between the support components 55. The control box 56 is fixedly installed inside the box body 43. A transceiver box 44 is movably mounted on both sides of the box body 43, and a positioning plate 45 and a cross plate 46 are fixed on the transceiver box 44 respectively.

[0042] In use, the fixed box 1 is moved by pushing the handle 19. The moving wheel 2 at the bottom of the fixed box 1 rotates. When the moving wheel 2 rotates, it drives the rotating column 33 to rotate. When the rotating column 33 rotates, the driving wheel 35 drives the belt 36 to rotate. As the belt 36 rotates, it drives the driven wheel 37 to rotate. The driven wheel 37 rotates and drives the rotating rod 39 to rotate. The rotating rod 39 rotates and causes the conveyor belt 42 on the driving roller 40 to rotate. When the height of the communication component 18 does not need to be adjusted, the arc block 16 on the fixed cylinder 11 is movably installed inside the arc groove 15 of the ring seat 13. When the arc block 16 is installed inside the arc groove 15, the bottom of the limiting seat 32 does not contact the conveyor belt 42. Thus, the moving wheel 2 can push the fixed box 1 to move, and the position of the communication component 18 can be changed by pushing.

[0043] Additionally, once the fixed box 1 reaches its intended position, pressing the fingers into the groove 30 presses the movable blocks 29 at both ends of the limiting rod 9 inward. As the movable blocks 29 are pressed, the connecting rod 26 pushes the fixed post 27 inward. When the fixed post 27 is pressed, the reset mechanism 28 is compressed and retracted. The reset mechanism 28 is a reset spring, which generates a rebound force after being compressed. Later, when the movable blocks 29 are no longer pressed, the rebound force of the reset mechanism 28 pushes the movable blocks 29 back to their original position quickly. After the limiting rod 9 moves out from between the positioning rods 7, the positioning rod 7 moves inside the support rod 5 via the movable rod 6. After being stretched outward, the movable rod 6 is pressed and fixed by rotating the fixing bolt 8. After the length between the support rod 5 and the movable rod 6 is increased, the support rod 5 is rotated. After the support rod 5 is rotated 180 degrees, the positioning rod 7 contacts the ground. After the positioning rod 7 contacts the ground, the fixed box 1 is lifted upward and suspended in the air. After the moving wheel 2 does not contact the ground, the fixed box 1 will not be displaced during use, thus completing the fixation of the fixed box 1. The length between the support rod 5 and the movable rod 6 can be adjusted to lift the fixed box 1 to different heights, thereby realizing the secondary adjustment of the height of the communication component 18 at the top of the support column 17.

[0044] Please see Figure 1 , Figure 2 and Figure 3 A handrail 19 is fixedly installed on the side of the fixed box 1. A fixed seat 10 is movably installed on the top of the fixed box 1. A fixed cylinder 11 is fixedly installed on the top of the fixed seat 10. A ring seat 13 is welded to one end of the fixed cylinder 11. A support column 17 is movably installed inside the fixed cylinder 11. An arc groove 15 and an opening 14 are opened on the ring seat 13. An arc block 16 is welded on the support column 17. The arc block 16 is movably installed inside the arc groove 15. The bottom of the box 43 is fixedly installed on the top of the support column 17. A sliding groove 20 is opened on the inner wall of the slot 3. A slider 24 is movably installed inside the sliding groove 20. A support mechanism 25 is fixed to the bottom of the slider 24. The slider 24 is movably installed inside the sliding groove 20 through the support mechanism 25. A fixing bolt 8 is rotatably mounted on the support rod 5. An installation hole is opened on the movable rod 6. One end of the fixing bolt 8 is rotatably installed inside the installation hole. Connecting rods 26 are movably mounted on both ends of the limiting rod 9. A fixing post 27 is fixed to one end of the connecting rod 26. A reset mechanism 28 is movably mounted on the side wall of the fixing post 27. The fixing post 27 is slidably mounted inside the limiting rod 9 via the reset mechanism 28. A movable block 29 is welded to the other end of the connecting rod 26. A locking block 31 is fixed to one end of the movable block 29. Slots 23 are opened on both ends of the positioning rod 7. The locking block 31 is movably installed inside the slots 23. A groove 30 is opened on the top side of one side of the movable block 29.

[0045] It is understandable that the support mechanism 25 is a support spring. After being compressed, the support spring generates a rebound force. The rebound force of the support mechanism 25 pushes the movable seat 4 to return to its upward position. The movable seat 4 returns to its upward position without the fixation of the limit rod 9, which facilitates later storage. When it is necessary to move the support column 17 up and down to adjust the search signal, the support column 17 is moved upward a certain distance, the arc block 16 is taken out from the inside of the arc groove 15, and then the support column 17 is rotated 90 degrees. After the support column 17 is rotated, the arc block 16 moves to the top of the opening 14 and the limit groove 12. The support column 17 is released, and the arc block 16 enters the inside of the opening 14 and falls downward into the inside of the limit groove 12. The bottom of the support column 17 moves downward a certain distance. After the support column 17 moves downward, the direction of the limit seat 32 is flipped and falls. The limit seat 32 falls onto the top of the conveyor belt 42, thus providing a limiting support. Before the fixed box 1 is fixed, the height of the search signal is reached. After the search signal is reached, the fixed box 1 is pushed by the handle 19. The moving wheel 2 at the bottom of the fixed box 1 rotates. When the moving wheel 2 rotates, it drives the rotating column 33 to rotate. When the rotating column 33 rotates, the driving wheel 35 drives the belt 36 to rotate. As the belt 36 rotates, it drives the driven wheel 37 to rotate. The driven wheel 37 rotates and drives the rotating rod 39 to rotate. The rotating rod 39 rotates and causes the conveyor belt 42 on the driving roller 40 to rotate. The conveyor belt 42 is in an inclined state. The conveyor belt 42 drives the limit seat 32 to move from a high position to a low position, from one end of the conveyor belt 42 to the other end. Thus, the position and height of the support column 17 are adjusted by the height of the conveyor belt 42.

[0046] Please see Figure 3 , Figure 5 , Figure 6 and Figures 7-9The top of the fixed box 1 has an adjustment port 66, and an adjustment seat 67 is movably installed inside the adjustment port 66. The adjustment seat 67 has an opening 68, and one end of the support column 17 is movably installed inside the opening 68. The inner wall of the adjustment port 66 has an adjustment groove 69, and a spring mechanism 70 is fixed inside the adjustment groove 69. One end of the spring mechanism 70 is fixed with an adjustment block, and one end of the adjustment block is welded to both sides of the adjustment seat 67. A driving roller 40 and a driven roller 41 are fixed on the rotating rod 39. A conveyor belt 42 is rotatably installed between the driving roller 40 and the driven roller 41. A protrusion is fixed on the side wall of the conveyor belt 42, and a limit seat 3 is movably installed between the protrusions. 2. One end of the limiting seat 32 is fixedly installed at the bottom of the support column 17. A limiting groove 12 is opened on the side wall of the fixed cylinder 11. The limiting groove 12 is connected to the opening 14. A fixing ring 48 and a limiting ring 49 are fixedly installed on the housing 43 and the transceiver box 44, respectively. A guide groove 47 is opened on the positioning plate 45 and the horizontal plate 46. A threaded hole 51 is opened on the housing 43 and the transceiver box 44. One end of the limiting ring 49 is rotatably installed inside the threaded hole 51. A sliding groove 52 is opened on the inner wall of the transceiver box 44. A sliding seat 53 is movably installed inside the sliding groove 52. The support assembly 55 includes a motor box 57. The motor box 57 is movably installed on both sides of the control box 56.

[0047] Understandably, the elastic mechanism 70 is a spring. When compressed, the spring generates a restoring force. Later, when the adjusting seat 67 loses the support of the support column 17, the elastic mechanism 70 pushes the adjusting seat 67 to its original position. Subsequently, the position and angle of the transceiver box 44 are adjusted by rotation according to usage. When the transceiver box 44 needs to be moved synchronously inward and outward, the drive motor 63 is activated, driving the threaded column 62 to rotate. The rotating threaded column 62 pushes the connecting seat 58 up and down. The connecting seat 58 then moves the guide seat 59 to the center position of the through groove 54, activating the displacement mechanism 60. The displacement mechanism 60 is a linear reciprocating electric push rod, which is connected to an external telescopic switch via an electric wire. The telescopic movement of the displacement mechanism 60 is controlled by the telescopic switch. The telescopic column inside the displacement mechanism 60 extends outward. The displacement mechanism 60 pushes the sliding seat 53 and the transceiver box 44 to move outward simultaneously through the fixed lug 61. When the transceiver box 44 moves outward horizontally, the positioning plate 45 and the horizontal plate 46 move horizontally on the fixed ring 48 and the limiting ring 49. The horizontal movement of the transceiver box 44 expands the range of signal contraction. In addition, after the positioning plate 45 and the horizontal plate 46 move outward, one end of them separates from the gap between the box door 50 and the box body 43. One end of the horizontal plate 46 and the positioning plate 45 loses its limiting effect on the box door 50. The box door 50 can be opened outward on the box body 43, thereby effectively avoiding the impact caused by the accidental opening of the box door 50 later.

[0048] Please see Figure 9 and Figure 10A connecting seat 58 is welded to one side of the motor housing 57. A threaded post 62 is rotatably mounted on the connecting seat 58. A drive motor 63 is fixed to one end of the threaded post 62. The drive motor 63 is fixedly mounted on the bottom of the housing 43. A guide seat 59 is welded to the connecting seat 58. A displacement mechanism 60 is fixedly mounted inside the guide seat 59. A fixed lug 61 is fixed to one end of the displacement mechanism 60. The fixed lug 61 is rotatably mounted inside the sliding seat 53 via a rotating shaft. A heat dissipation vent 64 is fixedly mounted inside the motor housing 57. A cooling fan is fixedly mounted inside the heat dissipation vent 64. An air inlet is opened on the other side of the motor housing 57. A heat dissipation groove 65 is opened on the side of the heat dissipation vent 64.

[0049] Understandably, as the connecting seat 58 moves down, changing the position of the motor housing 57, the motor housing 57 can be vertically offset on both sides of the control box 56. After the motor housing 57 is vertically offset to the side of the control box 56, the cooling fan inside the heat dissipation vent 64 dissipates heat from the control box 56. The heat dissipation groove 65 cooperates with the heat dissipation vent 64 to increase the heat dissipation area of ​​the control box 56. In addition, during the vertical movement of the motor housing 57, the displacement mechanism 60 will drive the sliding seat 53 to move vertically inside the sliding groove 52 through the fixed lug 61. When the internal movement of 2 is up and down, the support points of the transceiver box 44 can be adjusted. When the transceiver box 44 needs to be tilted, the limiting ring 49 is rotated out from the inside of the threaded hole 51. After the limiting ring 49 is removed by rotation, the limiting of the horizontal plate 46 is fixed. The displacement mechanism 60 is started to retract and move. The telescopic column on the displacement mechanism 60 tilts on the sliding seat 53 through the fixed hanging ear 61. The positioning plate 45 at one end of the transceiver box 44 rotates on the fixed ring 48. The bottom of the transceiver box 44 tilts upward. After the transceiver box 44 tilts and is distributed, the signal receiving area can be increased again.

[0050] A method for wireless communication specifically includes the following steps:

[0051] Step 1: Set up base station signal feedback. Set up a signal feedback mechanism in each communication base station and transmit a feedback signal after the feedback conditions are met.

[0052] Step 2: Set base station power levels. A power level is set for each communication base station. If a certain power level does not meet the requirements, the level is increased to the next lower power level. Setting the power level for each communication base station includes: setting multiple power levels based on the current communication base station's maximum and normal transmission power range. Different power levels result in different signal transmission coverage areas and a different number of other communication base stations that can be scanned. If no other communication base stations can be scanned at the normal transmission power, the transmission power level of the current communication base station is gradually increased until the maximum transmission power of the current communication base station is reached. Specifically, a power level not meeting the requirements means that no next communication base station with a faulty communication link is detected within the signal transmission coverage area of ​​the current communication base station at that power level.

[0053] Step 3: Constructing wireless communication links. The communication base station scans other communication base stations within its signal transmission coverage area at a certain power level and constructs wireless communication links with other communication base stations. The construction of wireless communication links includes constructing wireless communication links that transmit along the original communication link and constructing wireless communication links that do not transmit along the original communication link.

[0054] Step 4: Complete the transmission of the signal to be transmitted. The communication base station performs an omnidirectional scan of other communication base stations within its signal transmission coverage area at a certain power level, and establishes wireless communication links with other communication base stations; complete the normal transmission of the signal to be transmitted based on the established wireless communication links.

[0055] Working principle: In use, the fixed box 1 is moved by pushing the handle 19, and the moving wheel 2 at the bottom of the fixed box 1 rotates. When the moving wheel 2 rotates, it drives the rotating column 33 to rotate. When the rotating column 33 rotates, the driving wheel 35 drives the belt 36 to rotate. As the belt 36 rotates, it drives the driven wheel 37 to rotate. The driven wheel 37 rotates, which drives the rotating rod 39 to rotate. The rotation of the rotating rod 39 causes the conveyor belt 42 on the driving roller 40 to rotate. When the height of the communication component 18 does not need to be adjusted, the arc-shaped block 16 on the fixed cylinder 11 is movably installed inside the arc-shaped groove 15 of the ring seat 13. When the arc-shaped block 16 is installed inside the arc-shaped groove 15, the bottom of the limit seat 32... Without contacting the conveyor belt 42, the movable wheel 2 can push the fixed box 1 to change its position. When the support column 17 needs to be moved up and down to adjust the search signal, the support column 17 is moved upwards a certain distance, the arc-shaped block 16 is removed from the arc-shaped groove 15, and then the support column 17 is rotated 90 degrees. After the support column 17 rotates, the arc-shaped block 16 moves to the top of the opening 14 and the limiting groove 12. The support column 17 is released, and the arc-shaped block 16 enters the opening 14 and falls downwards into the limiting groove 12. The bottom of the support column 17 moves downwards a certain distance, and after the support column 17 moves downwards, the limiting seat 32... The direction is reversed and it falls onto the conveyor belt 42. After the limiting seat 32 falls onto the top of the conveyor belt 42, it achieves limiting support. Before the fixed box 1 is fixed, the search signal height is reached. After the search signal is reached, the fixed box 1 is pushed by the handle 19. The moving wheel 2 at the bottom of the fixed box 1 rotates. When the moving wheel 2 rotates, it drives the rotating column 33 to rotate. When the rotating column 33 rotates, the driving wheel 35 drives the belt 36 to rotate. As the belt 36 rotates, it drives the driven wheel 37 to rotate. The driven wheel 37 rotates and drives the rotating rod 39 to rotate. The rotation of the rotating rod 39 causes the conveyor belt 42 on the driving roller 40 to rotate. The conveyor belt 42 is in an inclined state. The conveyor belt 42 drives the limiting seat 32 from a high position. The support column 17 moves to a lower position from one end of the conveyor belt 42 to the other, thereby adjusting the position and height of the support column 17 by adjusting the height of the conveyor belt 42. Driven by the rotation of the conveyor belt 42, the support column 17 slides and adjusts the adjusting seat 67 inside the adjusting port 66 through the opening 68. When the adjusting seat 67 slides and adjusts, it squeezes and contracts the elastic mechanism 70 through the adjusting block. The elastic mechanism 70 is a spring, which provides support force for the return of the equipment to its original position. When the support column 17 needs to be limited and fixed, the support column 17 is moved upward and rotated again, and the arc block 16 enters the arc groove 15 again to limit the support column 17 again.

[0056] When it is necessary to limit and fix the fixed box 1, press the movable blocks 29 at both ends of the limiting rod 9 inward by pressing the inside of the groove 30 with your fingers. As the movable blocks 29 are pressed, the connecting rod 26 squeezes the fixed post 27 inward. When the fixed post 27 is squeezed, the reset mechanism 28 is squeezed and contracted. The reset mechanism 28 is a reset spring. The reset spring generates a rebound force after being compressed. Later, when the movable block 29 is no longer pressed, the rebound force of the reset mechanism 28 pushes the movable block 29 to quickly return to its original position. After the limiting rod 9 moves out from between the positioning rods 7, the positioning rod 7 moves inside the support rod 5 through the movable rod 6. After the movable rod 6 is stretched outward, the fixed bolt 8 is rotated to complete the compression and fixation of the movable rod 6. The length between the support rod 5 and the movable rod 6 increases and then rotates. After the support rod 5 rotates 180 degrees, the positioning rod 7 contacts the ground. Once the positioning rod 7 contacts the ground, the fixed box 1 is lifted upwards and suspended in mid-air. With the moving wheel 2 no longer in contact with the ground, the fixed box 1 will not shift during use, thus securing it. Adjusting the length between the support rod 5 and the movable rod 6 allows for lifting the fixed box 1 to different heights, enabling secondary adjustment of the height of the communication component 18 at the top of the support column 17. When the usage status of the communication component 18 needs adjustment, the drive motor 63 is started, driving the threaded column 62 to rotate. The rotating threaded column 62 pushes the connecting seat 58 up and down, causing the connecting seat 58 to move the guide seat 59 to the center position of the through groove 54, activating the displacement mechanism 60. The displacement mechanism 60 is a linear reciprocating electric actuator. The electric actuator is connected to an external telescopic switch via a wire. The telescopic switch controls the telescopic movement of the displacement mechanism 60. The telescopic column inside the displacement mechanism 60 extends outward. The displacement mechanism 60 pushes the sliding seat 53 and the transceiver box 44 outward simultaneously via the fixed lug 61. When the transceiver box 44 moves horizontally outward, the positioning plate 45 and the horizontal plate 46 move horizontally on the fixed ring 48 and the limiting ring 49. The horizontal movement of the transceiver box 44 expands the signal contraction range. Furthermore, after the positioning plate 45 and the horizontal plate 46 move outward, one end separates from the gap between the box door 50 and the box body 43. One end of the horizontal plate 46 and the positioning plate 45 loses its limiting effect on the box door 50, allowing the box door 50 to open outward from the box body 43. To effectively avoid the impact of accidental opening of the door 50 later, the position of the motor box 57 is changed by the downward movement of the connecting seat 58. The motor box 57 can be distributed vertically and vertically on both sides of the control box 56. After the motor box 57 is distributed vertically and vertically on the side of the control box 56, the cooling fan inside the heat dissipation vent 64 can dissipate heat from the control box 56. The heat dissipation groove 65 cooperates with the heat dissipation vent 64 to increase the heat dissipation area of ​​the control box 56. In addition, during the vertical movement of the motor box 57, the displacement mechanism 60 will drive the sliding seat 53 to move vertically and vertically inside the sliding groove 52 through the fixed lug 61. When the sliding seat 53 moves vertically and vertically inside the sliding groove 52, the support point of the transceiver box 44 can be adjusted later. When it is necessary to tilt the transceiver box 44,The limiting ring 49 is rotated out of the threaded hole 51 and removed. After the limiting ring 49 is removed, the horizontal plate 46 is fixed in place. The displacement mechanism 60 is then activated to retract and move. The telescopic column on the displacement mechanism 60 tilts on the sliding seat 53 via the fixed lug 61. The positioning plate 45 at one end of the transceiver box 44 rotates on the fixed ring 48, causing the bottom of the transceiver box 44 to tilt upwards. This tilting and distributing of the transceiver box 44 further increases the signal receiving area.

[0057] In the description of this disclosure, the terms "first," "second," etc., are used for descriptive purposes only and should not be construed as indicating or implying relative importance. Furthermore, in the description of this disclosure, unless otherwise stated, "a plurality of" means two or more.

[0058] Any process or method description in the flowchart or otherwise herein can be understood as representing a module, segment, or portion of code comprising one or more executable instructions for implementing a particular logical function or process, and the scope of preferred embodiments of this disclosure includes additional implementations in which functions may be performed not in the order shown or discussed, including substantially simultaneously or in reverse order depending on the function involved, as will be understood by those skilled in the art to which embodiments of this disclosure pertain.

[0059] In the description of this specification, references to terms such as "one embodiment," "some embodiments," "example," "specific example," or "some examples," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of this disclosure. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

[0060] Although embodiments of the present disclosure have been shown and described above, it is to be understood that the above embodiments are exemplary and should not be construed as limiting the present disclosure. Those skilled in the art can make changes, modifications, substitutions and variations to the above embodiments within the scope of the present disclosure.

Claims

1. An electronic device for wireless communication, characterized in that, include: A fixed box has a slot on its side wall, a movable seat is movably installed inside the slot, a positioning slot is opened on the movable seat, a positioning block is slidably installed inside the positioning slot, a limit rod is welded to one end of the positioning block, a support rod is rotatably installed on the side of the fixed box, a movable rod is movably installed inside the support rod, and a positioning rod is welded to one end of the movable rod. A drive assembly includes movable wheels rotatably mounted on the bottom of the fixed box. A rotating column is fixed between the movable wheels. A reinforcing seat is movably mounted on the rotating column. The top of the reinforcing seat is welded to the bottom of the fixed box. A drive wheel is fixed on the rotating column. A belt is rotatably mounted on the drive wheel. A driven wheel is rotatably mounted on the belt. A rotating rod is fixed on the driven wheel. Reinforcing rods are movably mounted at both ends of the rotating rod. The reinforcing rods are all fixedly installed inside the fixed box. A communication component includes a housing with a door hinged to its side. Each side of the housing has a through groove, and a support assembly is movably installed inside the through groove. A control box is movably installed between the support assemblies and is fixedly installed inside the housing. A transceiver box is movably installed on both sides of the housing, and a positioning plate and a cross plate are fixed on the transceiver box respectively. The fixed box is fixedly installed with a handrail on its side, the fixed box is movably installed with a fixed seat on its top, the fixed seat is fixedly installed with a fixed cylinder on its top, one end of the fixed cylinder is welded with a ring seat, a support column is movably installed inside the fixed cylinder, and the ring seat has an arc-shaped groove and an opening. The support column is welded with an arc-shaped block, which is movably installed inside the arc-shaped groove. The bottom of the box is fixedly installed on the top of the support column. A sliding groove is opened on the inner wall of the groove. A slider is movably installed inside the sliding groove. A support mechanism is fixed at the bottom of the slider. The slider is movably installed inside the sliding groove through the support mechanism. A driving roller and a driven roller are fixed on the rotating rod. A conveyor belt is rotatably installed between the driving roller and the driven roller. A protrusion is fixed on the side wall of the conveyor belt. A limiting seat is movably installed between the protrusions. One end of the limiting seat is fixedly installed at the bottom of the support column. A limiting groove is opened on the side wall of the fixed cylinder. The limiting groove is connected to the opening. The conveyor belt is inclined, and the conveyor belt drives the limit seat to move from one end of the conveyor belt to the other end; A fixing ring and a limiting ring are fixedly installed on the box and the transceiver box respectively. Guide grooves are opened on the positioning plate and the horizontal plate. Threaded holes are opened on the box and the transceiver box respectively. One end of the limiting ring is rotatably installed inside the threaded hole. The transceiver box has a sliding groove on its inner wall, and a sliding seat is movably installed inside the sliding groove. The support assembly includes a motor box, which is movably installed on both sides of the control box.

2. An electronic device for wireless communication according to claim 1, characterized in that, A fixing bolt is rotatably mounted on the support rod, and an installation hole is opened on the movable rod. One end of the fixing bolt is rotatably mounted inside the installation hole. Both ends of the limiting rod are movably mounted with connecting rods. One end of the connecting rod is fixed with a fixing column. A reset mechanism is movably mounted on the side wall of the fixing column. The fixing column is slidably mounted inside the limiting rod through the reset mechanism.

3. An electronic device for wireless communication according to claim 2, characterized in that, The other end of the connecting rod is welded with a movable block, one end of the movable block is fixed with a locking block, both ends of the positioning rod are provided with locking slots, the locking block is movably installed inside the locking slots, and a groove is provided on the top of one side of the movable block.

4. An electronic device for wireless communication according to claim 1, characterized in that, The top of the fixed box has an adjustment port, and an adjustment seat is movably installed inside the adjustment port. The adjustment seat has an opening, and one end of the support column is movably installed inside the opening. An adjustment groove is opened on the inner wall of the adjustment port, and an elastic mechanism is fixed inside the adjustment groove. An adjustment block is fixed to one end of the elastic mechanism, and one end of the adjustment block is welded to both sides of the adjustment seat.

5. An electronic device for wireless communication according to claim 1, characterized in that, A connecting seat is welded to one side of the motor housing. A threaded column is rotatably mounted on the connecting seat. A drive motor is fixed to one end of the threaded column. The drive motor is fixedly mounted on the bottom of the housing. A guide seat is welded to the connecting seat.

6. An electronic device for wireless communication according to claim 5, characterized in that, A displacement mechanism is fixedly installed inside the guide seat. One end of the displacement mechanism is fixed with a fixed lug. The fixed lug is rotatably installed inside the sliding seat via a rotating shaft. A heat dissipation vent is fixedly installed inside the motor housing. A cooling fan is fixedly installed inside the heat dissipation vent. An air inlet is opened on the other side of the motor housing. A heat dissipation groove is opened on the side of the heat dissipation vent.

7. A method for wireless communication, applied to an electronic device for wireless communication as described in claim 1, characterized in that, Specifically, it includes the following steps: Step 1: Set up base station signal feedback. Set up a signal feedback mechanism in each communication base station and transmit a feedback signal after the feedback conditions are met. Step 2: Set base station power levels. A power level is set for each communication base station. If a certain power level does not meet the requirements, the level is increased to the next lower power level. Setting the power level for each communication base station includes: setting multiple power levels based on the current communication base station's maximum and normal transmission power range. Different power levels result in different signal transmission coverage areas and a different number of other communication base stations that can be scanned. If no other communication base stations can be scanned at the normal transmission power, the transmission power level of the current communication base station is gradually increased until the maximum transmission power of the current communication base station is reached. Specifically, a power level not meeting the requirements means that no next communication base station with a faulty communication link is detected within the signal transmission coverage area of ​​the current communication base station at that power level. Step 3: Constructing wireless communication links. The communication base station scans other communication base stations within its signal transmission coverage area at a certain power level and constructs wireless communication links with other communication base stations. The construction of wireless communication links includes constructing wireless communication links that transmit along the original communication link and constructing wireless communication links that do not transmit along the original communication link. Step 4: Complete the transmission of the signal to be transmitted. The communication base station performs an omnidirectional scan of other communication base stations within its signal transmission coverage area at a certain power level, and establishes wireless communication links with other communication base stations; complete the normal transmission of the signal to be transmitted based on the established wireless communication links.