An inflatable boat with a fishing stand interface
By designing adjustment mechanisms, anti-fall-off mechanisms, and auxiliary support mechanisms on the inflatable boat, the problems of difficult angle adjustment and stability of traditional inflatable boat fishing supports have been solved. This has enabled flexible adjustment of the fishing rod position and improved the stability of the boat, thereby enhancing the safety and efficiency of fishing.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- WEIHAI SHENHE SPORTS EQUIP CO LTD
- Filing Date
- 2026-05-15
- Publication Date
- 2026-06-26
AI Technical Summary
Traditional inflatable boat fishing supports are difficult to adjust the fishing angle during use, and the fishing rod is unstable after being fixed, which affects fishing efficiency and safety.
An inflatable boat with a fishing bracket interface was designed, which includes an adjustment mechanism, an anti-drop mechanism, an auxiliary support mechanism, and an anti-deviation mechanism. By rotating to adjust the position of the fishing rod, it prevents the fishing rod from falling off, increases buoyancy, and prevents the airbag from deviating, thus ensuring the stability and safety of the fishing process.
It enables flexible adjustment of the fishing rod position, prevents the fishing rod from falling off, enhances the stability and safety of the boat, and improves the accuracy of fishing and the user experience.
Smart Images

Figure CN122271284A_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of inflatable boat technology, specifically to an inflatable boat with a fishing bracket interface. Background Technology
[0002] Inflatable boats with fishing support interfaces are professional fishing boats designed to address the pain points of traditional inflatable boats, such as the lack of a fixed fishing rod support point, inconvenient fishing operation, and poor stability. They integrate a special interface and adaptable structure into the basic inflatable boat design.
[0003] Patent publication number CN208001929U relates to two fixed seats, two fixed frames, and a connecting rod. The two fixed seats are respectively installed on the left and right sides of the inflatable boat. The two fixed frames are detachably inserted into the two fixed seats. Both ends of the connecting rod are inserted into the two fixed frames. This detachable insertion of the fixed frames into the fixed seats and the insertion of the connecting rod into the two fixed frames allows for quick assembly and disassembly of the entire fishing rack structure. To use, first insert both ends of the connecting rod into the two fixed frames, then insert the two fixed frames into the two fixed seats, and finally install the fishing rod holder onto the connecting rod. It is convenient and stable to use; the fishing rod placed on the holder will not sway with the movement of the inflatable boat. Disassembly is achieved by reversing the steps.
[0004] The device is used by inserting two fixed brackets into two fixed seats, and finally installing the bracket for holding the fishing rod on the connecting rod. Although it is convenient and stable to use, and the fishing rod will not sway with the movement of the inflatable boat after being placed on the bracket, it is difficult to rotate to adjust the fishing angle after the fishing rod is fixed. At the same time, the fishing rod is difficult to maintain stability when the boat is rocking or when the wind is blowing, which greatly reduces the efficiency of fishing. Summary of the Invention
[0005] To address the shortcomings of existing technologies, this invention provides an inflatable boat with a fishing bracket interface, solving the problems mentioned in the background section.
[0006] To achieve the above objectives, the present invention is implemented through the following technical solution: an inflatable boat with a fishing bracket interface, comprising a boat plate, an annular airbag fixedly installed on the outer wall of the boat plate, an engine fixedly installed on the boat plate, and the inflatable boat with a fishing bracket interface further comprising an adjustment mechanism installed on the outer wall of the boat plate. The adjustment mechanism includes a rotating base mounted on the boat plate, a support column mounted inside the rotating base for rotational adjustment, a fixed shell mounted on the support column, a sliding rod mounted inside the fixed shell for distance adjustment, a base plate mounted on the sliding rod, and a bracket connection port mounted inside the base plate. The outer wall of the sliding rod has a slot for quickly rotating and adjusting the position of the fishing rod.
[0007] The adjustment mechanism further includes a support plate mounted on the fixed shell, a movable column mounted inside the support plate, and a locking plate mounted on the movable column. A spring is sleeved on the circumferential surface of the movable column. A sliding groove is provided inside the fixed shell. The locking plate contacts the sliding groove of the fixed shell and contacts the inside of the locking groove of the sliding rod.
[0008] The adjustment mechanism also includes a limiting mechanism installed on the support column, which is used to limit the rotation of the fishing rod when it is adjusted. The limiting mechanism includes a connecting plate installed on the circumferential surface of the support column, a long rod installed inside the connecting plate, a ring installed on the long rod, and a roller installed inside the long rod.
[0009] A spring is fitted around the circumference of the long rod, a limiting groove is formed on the outer wall of the rotating base, the roller contacts the inside of the limiting groove of the rotating base, and the ring contacts the outer wall of the connecting plate.
[0010] When fishing on the water, take out the fishing rod and install it into the bracket connection port. Then, rotate the support column to rotate the bracket connection port to adjust the position of the fishing rod. At the same time, the locking plate will disengage from the slot of the sliding rod, and the sliding rod can be pulled to extend outward, allowing you to change the direction of the fishing rod at will. You can switch fishing directions without moving the boat, making the center of gravity of the fishing rod more reasonable, reducing the risk of the boat tilting, and making fishing more stable and safer for the angler. When rotating and adjusting, the support column drives the connecting plate to rotate, the connecting plate drives the long rod to rotate, and the long rod drives the roller to rotate. The roller contacts the sliding groove of the rotating base, thus preventing the support column from shifting during rotation. This ensures that the fishing rod will not move when there are waves or the boat is rocking, allowing you to accurately lock the fishing direction. Users do not need to repeatedly correct the angle, greatly improving the accuracy of fishing operations and the user experience.
[0011] The inflatable boat with a fishing bracket interface also includes an anti-drop mechanism installed on the bottom plate to prevent the fishing rod from falling off during fishing. The anti-fall-off mechanism includes a bidirectional telescopic rod installed on the base plate, a fixing ring installed on the telescopic end of the bidirectional telescopic rod, a circular roller installed on the side of the bidirectional telescopic rod away from the fixing ring, an arc plate installed on the sliding rod, and a damping plate installed inside the arc plate. The circular roller is in contact with the inside of the arc plate, and a spring is provided inside the damping plate and the arc plate. The outer wall of the damping plate has an inclined surface, and the inside of the fixing ring is fixedly installed to the outer wall of the bracket connection port.
[0012] The inflatable boat with a fishing bracket interface also includes an auxiliary support mechanism installed on the annular airbag to increase the overall buoyancy of the boat when fishing. The auxiliary support mechanism includes an arc-shaped sliding plate mounted on the annular airbag, a movable support plate mounted inside the arc-shaped sliding plate, an auxiliary airbag mounted inside the movable support plate, a pull rod mounted on the movable support plate, and a locking pin mounted on the ship plate.
[0013] The movable support plate contacts the outer wall of the annular airbag, the outer wall of the pull rod is provided with a snap-fit groove, the snap pin contacts the inside of the snap-fit groove of the pull rod, a spring is sleeved on the circumferential surface of the snap pin, and the pull rod contacts the outer wall of the ship plate.
[0014] When fishing, pressing down on the bracket connection port causes the fixing ring to move downwards. The fixing ring then rotates the bidirectional telescopic rod, which in turn moves the circular roller. The circular roller, through a damping plate, dampens the fishing rod mounted on the bracket connection port, preventing it from falling off and avoiding damage to fishing gear and safety hazards. This also reduces the safety risks associated with the boat tilting and the angler bending over to retrieve the rod, making it suitable for the special environment of inflatable boats floating on water. When a larger fish is caught, the angler pulls the locking pin away from the locking groove of the lever, and then pushes the lever to move the auxiliary airbag to contact the water surface. This significantly increases the lateral support width and buoyancy area of the boat, improves the anti-capsulation moment, and effectively counteracts the lateral pulling force generated by the fish's struggle. Users can play and control the fish more safely and stably, improving fishing safety.
[0015] The inflatable boat with a fishing bracket interface also includes an anti-deviation mechanism installed on the movable support plate to prevent the auxiliary airbag from shifting position. The inflatable boat with a fishing bracket interface also includes an L-shaped rod installed on the movable support plate, a sliding cylinder installed inside the L-shaped rod, and a trapezoidal plate installed on the annular airbag. The outer wall of the trapezoidal plate has an inclined surface, the circumferential surface of the sliding cylinder contacts the outer wall of the annular airbag, and a torsion spring is provided between the L-shaped rod and the movable support plate.
[0016] The inflatable boat with a fishing bracket interface also includes a collision avoidance mechanism installed on the hull plate to cushion the hull when it hits a reef. The anti-collision mechanism includes a mounting shell installed on the ship plate, a sliding plate installed inside the mounting shell, a connecting rod installed on the sliding plate, and an anti-collision plate installed on the connecting rod.
[0017] When the auxiliary airbag extends to the water surface, the movable support plate moves the L-shaped rod, which in turn moves the sliding cylinder. At this time, the sliding cylinder, in conjunction with the trapezoidal plate, reinforces the auxiliary airbag, improving the stability of the boat and preventing the airbag from accidentally deploying, shaking, or bumping during handling and movement. This facilitates storage and carrying while protecting the airbag structure from damage. When navigating for fishing, if a reef appears ahead, the anti-collision plate contacts the reef. The anti-collision plate moves the connecting rod along the mounting shell, while the mounting shell slides along the sliding plate. The connecting rod compresses the spring between the mounting shell and the anti-collision plate to provide cushioning, thus maintaining the stability of the boat when it hits a reef. This prevents personnel from tilting forward or falling due to violent impact, reducing the risk of falling into the water or capsizing, and improving fishing safety.
[0018] The anti-collision plate is slidably embedded in the outer wall of the annular airbag, the connecting rod is slidably embedded in the interior of the mounting shell, the connecting rod and the interior of the mounting shell are provided with springs, and the connecting rod is in contact with the outer wall of the ship plate.
[0019] Compared with the prior art, the beneficial effects of the present invention are as follows: 1. In this invention, when fishing on the water, the fishing rod is taken out and installed inside the bracket connection port. Then, the support column is rotated to rotate the bracket connection port to adjust the position of the fishing rod. At the same time, after the locking plate leaves the slot of the sliding rod, the sliding rod is pulled to extend outward, allowing the fishing rod to be changed at will. The fishing direction can be switched without moving the boat, making the center of gravity of the fishing rod more reasonable, reducing the risk of the boat tilting, and making fishing more stable and safe for the angler. When rotating and adjusting, the support column drives the connecting plate to rotate, the connecting plate drives the long rod to rotate, and the long rod drives the roller to rotate. The roller contacts the sliding groove of the rotating base, thereby preventing the support column from shifting during rotation. This ensures that the fishing rod will not move when there are waves or the boat is rocking, allowing the fishing direction to be accurately locked. Users do not need to repeatedly correct the angle, greatly improving the accuracy of fishing operations and the user experience.
[0020] 2. In this invention, during fishing, the bracket connection is pressed down, causing the fixing ring to move downward. The fixing ring causes the bidirectional telescopic rod to rotate, which in turn causes the circular roller to move. The circular roller dampens the fishing rod installed on the bracket connection through a damping plate, preventing the fishing rod from falling off and avoiding damage to fishing gear and safety hazards. It also reduces the safety risks of the boat tilting and the person bending over to retrieve the rod, making it suitable for the special usage environment of inflatable boats floating on water. When a larger fish is caught, the angler pulls the locking pin away from the locking groove of the lever, and then pushes the lever to move the auxiliary airbag to contact the water surface. This significantly increases the lateral support width and buoyancy area of the boat, improves the anti-capsulation moment, and effectively counteracts the lateral pulling force generated by the fish's struggle. Users can play and control the fish more safely and stably, improving fishing safety.
[0021] 3. In this invention, when the auxiliary airbag extends to the water surface, the movable support plate drives the L-shaped rod to move, and the L-shaped rod drives the sliding cylinder to slide. At this time, the sliding cylinder will work with the trapezoidal plate to reinforce the auxiliary airbag, improve the stability of the boat, prevent the airbag from accidentally deploying, shaking, or bumping during handling and movement, facilitate storage and carrying, and protect the airbag structure from damage. When navigating for fishing, if a reef appears in front, the anti-collision plate will contact the reef. The anti-collision plate will drive the connecting rod to move along the mounting shell. At the same time, the mounting shell will slide along the sliding plate. The connecting rod will compress the spring between the mounting shell and the anti-collision plate to buffer the impact, thereby maintaining the stability of the boat when it hits the reef, preventing people from tilting forward and falling due to violent impact, reducing the risk of falling into the water and capsizing, and improving fishing safety. Attached Figure Description
[0022] Figure 1 This is a schematic diagram of the overall structure of the present invention; Figure 2 This is a schematic diagram showing the positional structure of the long rod and roller of the present invention; Figure 3 This is a schematic diagram showing the positional structure of the support plate and the card plate of the present invention; Figure 4 This is a schematic diagram showing the positional structure of the roller and damping plate of the present invention; Figure 5 For the present invention Figure 4 Enlarged view of the structural position at point A in the middle; Figure 6 This is a schematic diagram showing the positional structure of the movable support plate and the auxiliary airbag of the present invention; Figure 7 For the present invention Figure 6 Enlarged view of the structural position at point B in the middle; Figure 8 This is a schematic diagram showing the position and structure of the present invention and the trapezoidal plate; Figure 9 This is a schematic diagram showing the position and structure of the anti-collision plate and the sliding plate of the present invention.
[0023] The meanings of the labels in the diagram are as follows: 1. Ship plate; 2. Annular airbag; 3. Engine; 4. Rotating base; 5. Support column; 6. Fixed shell; 7. Sliding rod; 8. Base plate; 9. Bracket connection port; 10. Support plate; 11. Moving column; 12. Clamping plate; 13. Connecting plate; 14. Long rod; 15. Circular ring; 16. Roller; 17. Anti-fall mechanism; 171. Bidirectional telescopic rod; 172. Fixed ring; 173. Circular roller; 174. Arc plate; 175. Damping plate; 176. Arc-shaped sliding plate; 177. Moving bracket plate; 178. Auxiliary airbag; 179. Pull rod; 1710. Locking pin; 18. Anti-deviation mechanism; 181. L-shaped rod; 182. Sliding cylinder; 183. Trapezoidal plate; 184. Anti-collision plate; 185. Connecting rod; 186. Mounting shell; 187. Sliding plate. Detailed Implementation
[0024] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0025] Example 1: Please see Figures 1-3 One embodiment of the present invention is: an inflatable boat with a fishing bracket interface, including a boat plate 1, an annular airbag 2 fixedly installed on the outer wall of the boat plate 1, an engine 3 fixedly installed on the boat plate 1, and an adjustment mechanism installed on the outer wall of the boat plate 1. The adjustment mechanism includes a rotating base 4 mounted on the boat plate 1, a support column 5 mounted inside the rotating base 4 for rotational adjustment, a fixed shell 6 mounted on the support column 5, a sliding rod 7 mounted inside the fixed shell 6 for distance adjustment, a base plate 8 mounted on the sliding rod 7, and a bracket connection port 9 mounted inside the base plate 8. The outer wall of the sliding rod 7 is provided with a slot for quickly rotating and adjusting the position of the fishing rod.
[0026] The adjustment mechanism also includes a support plate 10 mounted on the fixed housing 6, a movable column 11 mounted inside the support plate 10, and a locking plate 12 mounted on the movable column 11. A spring is sleeved on the circumferential surface of the movable column 11. A sliding groove is provided inside the fixed housing 6. The locking plate 12 contacts the sliding groove of the fixed housing 6 and contacts the inside of the locking groove of the sliding rod 7.
[0027] The adjustment mechanism also includes a limiting mechanism installed on the support column 5, which is used to limit the rotation of the fishing rod; The limiting mechanism includes a connecting plate 13 installed on the circumferential surface of the support column 5, a long rod 14 installed inside the connecting plate 13, a ring 15 installed on the long rod 14, and a roller 16 installed inside the long rod 14.
[0028] A spring is fitted around the circumference of the long rod 14. A limit groove is provided on the outer wall of the rotating base 4. The roller 16 contacts the inside of the limit groove of the rotating base 4. The ring 15 contacts the outer wall of the connecting plate 13.
[0029] In addition, the annular airbags 2 around the ship plate 1 are inflated by an inflation device. After the annular airbags 2 are inflated, the engine 3 is installed at the bottom of the ship plate 1, and the equipment provides forward power to the whole equipment through the engine 3.
[0030] During the process, the angler will pull the sliding rod 7 to extend it outward. After the sliding rod 7 has extended, the angler will release the moving column 11. At this time, the moving column 11 will be reset by the elasticity of the spring. The moving column 11 will drive the locking plate 12 to reset. The reset locking plate 12 will enter the next locking slot of the sliding rod 7, thereby limiting the sliding rod 7.
[0031] In this embodiment, during daily wild fishing, to obtain a better fishing spot, the angler can take out the equipment and first inflate the annular airbags 2 around the boat plate 1 using the inflation device. After the annular airbags 2 are inflated, the engine 3 is installed at the bottom of the boat plate 1, and then the boat plate 1 is placed in the water. Once in the correct position, the fishing rod is taken out and installed inside the bracket connection port 9. After installation, to better adjust the angle, the angler manually rotates the support column 5. The rotation of the support column 5 will cause the fixed shell 6 to rotate, which in turn will cause the sliding rod 7 to rotate. The sliding rod 7 will cause the base plate 8 to rotate, which in turn will cause the bracket connection port 9 to rotate. The rotation of the bracket connection port 9 will adjust the position of the fishing rod. After adjustment, to increase the fishing distance, the movable column inside the support plate 10 can be pulled. 11. The moving column 11 drives the locking plate 12 to move. The locking plate 12 compresses the spring on the circumference of the moving column 11. At the same time, the locking plate 12 will leave the slot of the sliding rod 7. After leaving the slot, the angler will pull the sliding rod 7 to extend it outward. After the sliding rod 7 has extended, the angler will release the moving column 11. At this time, the moving column 11 will return to its original position due to the elasticity of the spring. The moving column 11 drives the locking plate 12 to return to its original position. The locking plate 12 will then enter the next slot of the sliding rod 7, thereby limiting the sliding rod 7. The direction of the fishing rod can be changed at will. The fishing direction can be switched without moving the boat. It is suitable for different fish positions, water currents and wind directions, greatly improving the flexibility of fishing. At the same time, the height and angle of the bracket can be adjusted according to the swaying of the boat and the size of the waves, so that the center of gravity of the fishing rod is more reasonable, reducing the risk of the boat tilting and making the angler more stable and safe when fishing. During rotation adjustment, the rotation of the support column 5 simultaneously drives the connecting plate 13 to rotate, which in turn drives the long rod 14 to rotate. The long rod 14 then drives the roller 16 to rotate, and the roller 16 contacts the groove on the rotating base 4, thus preventing the support column 5 from shifting during rotation. When further adjustment is needed, the ring 15 needs to be pulled to move it. The ring 15 drives the long rod 14 to move, which in turn drives the connecting plate 13 to move. The moving connecting plate 13 will leave the groove. At this point, the support column 5 is rotated again, causing the roller 16 to rotate on the rotating base 4, thus entering the next groove. This provides rotational damping for the support column 5, ensuring that the fishing rod will not move when there are waves or the boat is rocking. This ensures that the fishing rod is always at the set fishing angle and will not deflect unexpectedly due to the rocking of the boat, the impact of the water flow, or the pull of the fish, improving fishing stability and allowing for precise locking of the fishing direction. Users do not need to repeatedly correct the angle, greatly improving the accuracy of fishing operations and the user experience.
[0032] Example 2: Please see Figures 4-7 Based on the above embodiments, in another embodiment of the present invention, the inflatable boat with fishing bracket interface also includes an anti-drop mechanism 17 installed on the bottom plate 8 to prevent the fishing rod from falling off during fishing. The anti-fall-off mechanism 17 includes a bidirectional telescopic rod 171 mounted on the base plate 8, a fixing ring 172 mounted on the telescopic end of the bidirectional telescopic rod 171, a roller 173 mounted on the side of the bidirectional telescopic rod 171 away from the fixing ring 172, an arc plate 174 mounted on the sliding rod 7, and a damping plate 175 mounted inside the arc plate 174. The roller 173 is in contact with the inside of the arc plate 174, and springs are provided inside the damping plate 175 and the arc plate 174. The outer wall of the damping plate 175 has an inclined surface, and the inside of the fixing ring 172 is fixedly installed to the outer wall of the bracket connection port 9.
[0033] The inflatable boat with a fishing bracket interface also includes an auxiliary support mechanism mounted on the annular airbag 2 to increase the overall buoyancy of the boat when fishing. The auxiliary support mechanism includes an arc-shaped sliding plate 176 mounted on the annular airbag 2, a movable support plate 177 mounted inside the arc-shaped sliding plate 176, an auxiliary airbag 178 mounted inside the movable support plate 177, a pull rod 179 mounted on the movable support plate 177, and a locking pin 1710 mounted on the ship plate 1.
[0034] The movable support plate 177 contacts the outer wall of the annular airbag 2. The outer wall of the pull rod 179 has a snap-fit groove. The snap pin 1710 contacts the inside of the snap-fit groove of the pull rod 179. A spring is sleeved on the circumferential surface of the snap pin 1710. The pull rod 179 contacts the outer wall of the ship plate 1.
[0035] Furthermore, the fixed ring 172, through its hinge point with the bidirectional telescopic rod 171, causes the telescopic end of the bidirectional telescopic rod 171 to retract and rotate. The bidirectional telescopic rod 171 drives the roller 173 to move along the arc groove of the arc plate 174. As the roller 173 continues to move inside the arc plate 174, it will contact the inclined surface, thereby driving the damping plate 175 to move. The damping plate 175 moves and compresses the spring between itself and the arc plate 174.
[0036] Specifically, by manually pushing the lever 179 to move along the sliding trajectory of the curved slide plate 176, the curved slide plate 176 will simultaneously drive the movable support plate 177 to move along the movement trajectory of the curved slide plate 176. The movable support plate 177 will then drive the auxiliary airbag 178 to move, and the movement of the auxiliary airbag 178 will bring it into contact with the water surface. In this embodiment, during operation: when the angler is fishing on the water, to prevent the fishing rod from falling off, when the fishing rod on the bracket connection port 9 is dragged by the fish, the fishing rod will cause the bracket connection port 9 to rotate and bend. This causes the bracket connection port 9 to press down, moving the fixing ring 172 downwards. The fixing ring 172, through its hinge point with the bidirectional telescopic rod 171, causes the telescopic end of the bidirectional telescopic rod 171 to retract and rotate. The bidirectional telescopic rod 171 then drives the roller 173 to move along the arcuate groove of the arc plate 174. As the roller 173 continues to move inside the arc plate 174, it will contact the inclined surface, thereby causing the damping plate 175 to move. The spring between the moving compression of the roller 173 and the arc plate 174 is used. When the roller 173 leaves the arc plate 174, the damping plate 175 will be reset by the spring, so that the roller 173 can easily contact the damping plate 175 again. This dampens the fishing rod installed on the bracket connection port 9 after the fish is caught, preventing the fishing rod from falling off and avoiding damage to fishing gear and safety hazards. It also prevents the fishing rod from slipping off the bracket into the water due to the swaying of the boat, the impact of wind and waves, and the struggle of the fish after it is hooked. This prevents the loss of fishing gear such as fishing rods, lines, and hooks. At the same time, it prevents the fishing rod from dragging the boat after falling into the water, reducing the safety risks of the boat tilting and personnel bending over to retrieve the rod. It is suitable for the special use environment of inflatable boats floating on water. When a larger fish is caught, to prevent the boat plank 1 from capsizing, the angler will pull the locking pin 1710 away from the locking groove of the lever 179. At this time, the lever 179 will be manually pushed to move along the sliding trajectory of the curved slide plate 176. The curved slide plate 176 will simultaneously drive the moving support plate 177 to move along the movement trajectory of the curved slide plate 176. The moving support plate 177 will drive the auxiliary airbag 178 to move. The moving auxiliary airbag 178 will come into contact with the water surface, thereby assisting the annular airbag 2 to increase the levitation force of the boat plank 1, significantly increasing the lateral support width and buoyancy area of the hull, improving the anti-capsulation moment, effectively counteracting the lateral pulling force generated by the struggle of the fish, preventing the hull from capsizing, suppressing large tilting and swaying of the hull, ensuring the stability of the hull attitude, and allowing the user to play and control the fish more safely and stably, thus improving the safety of fishing.
[0037] Example 3: Please see Figures 8-9 Based on the above embodiments, in another embodiment of the present invention, the inflatable boat with fishing bracket interface further includes an anti-deviation mechanism 18 installed on the movable bracket plate 177 to prevent the auxiliary airbag 178 from shifting position. The inflatable boat with a fishing bracket interface also includes an L-shaped rod 181 mounted on a movable support plate 177, a sliding cylinder 182 mounted inside the L-shaped rod 181, and a trapezoidal plate 183 mounted on an annular airbag 2. The outer wall of the trapezoidal plate 183 has an inclined surface, the circumferential surface of the sliding cylinder 182 contacts the outer wall of the annular airbag 2, and a torsion spring is provided between the L-shaped rod 181 and the movable support plate 177.
[0038] The inflatable boat with a fishing bracket interface also includes a collision protection mechanism installed on the hull plate 1 to cushion the hull in the event of running aground. The anti-collision mechanism includes a mounting shell 186 installed on the ship plate 1, a sliding plate 187 installed inside the mounting shell 186, a connecting rod 185 installed on the sliding plate 187, and an anti-collision plate 184 installed on the connecting rod 185.
[0039] The anti-collision plate 184 is slidably embedded in the outer wall of the annular airbag 2, the connecting rod 185 is slidably embedded in the interior of the mounting shell 186, the connecting rod 185 and the interior of the mounting shell 186 are provided with springs, and the connecting rod 185 is in contact with the outer wall of the ship plate 1.
[0040] Furthermore, when the sliding cylinder 182 contacts the inclined surface, it will cause the L-shaped rod 181 to rotate. When the sliding cylinder 182 leaves the inclined surface of the trapezoidal plate 183, the L-shaped rod 181 will be reset by the torsion spring between it and the movable support plate 177. At the same time, the L-shaped rod 181 will drive the sliding cylinder 182 to be reset, so that the sliding cylinder 182 will cooperate with the trapezoidal plate 183 to limit the auxiliary airbag 178.
[0041] The anti-collision plate 184 drives the connecting rod 185 to move along the mounting shell 186. At the same time, the mounting shell 186 slides along the sliding plate 187, and the connecting rod 185 compresses the spring between itself and the mounting shell 186 for buffering.
[0042] In this embodiment, during operation: as the auxiliary airbag 178 extends along the arc-shaped slide plate 176 to the water surface, the movable support plate 177 drives the L-shaped rod 181 to move along the arc-shaped slide plate 176. The L-shaped rod 181 drives the sliding cylinder 182 to slide against the outer wall of the annular airbag 2. At this time, the sliding cylinder 182 will continue to contact the inclined surface of the trapezoidal plate 183. When the sliding cylinder 182 contacts the inclined surface, it will drive the L-shaped rod 181 to rotate. When the sliding cylinder 182 leaves the inclined surface of the trapezoidal plate 183, the L-shaped rod 181 will be reset by the torsion spring between it and the movable support plate 177. At the same time, the L-shaped rod 181... The sliding cylinder 182 is reset, and thus the sliding cylinder 182, together with the trapezoidal plate 183, reinforces the auxiliary airbag 178, improving the stability of the boat. During recovery, the angler manually rotates the L-shaped rod 181 to move it. The L-shaped rod 181 drives the sliding cylinder 182 to move. After the sliding cylinder 182 leaves the trapezoidal plate 183, the pull rod 179 is pulled to reset the auxiliary airbag 178, ensuring that the auxiliary airbag 178 always provides stable lateral support, continuously preventing it from tipping over, and also preventing the airbag from accidentally deploying, shaking, or bumping during handling and movement, making it easy to store and carry, while protecting the airbag structure from damage. When navigating for fishing, if a reef appears ahead, the front of the boat will contact the reef via the anti-collision plate 184. Upon contact with the reef, the anti-collision plate 184 will retract, causing the connecting rod 185 to move along the mounting shell 186. Simultaneously, the mounting shell 186 will slide along the sliding plate 187. The connecting rod 185 will compress the spring between itself and the mounting shell 186 for cushioning, thus maintaining stability when the boat hits the reef. This allows the anti-collision plate 184 to slowly retract and contact the annular airbag 2, preventing damage to the annular airbag 2 upon impact. This cushions the impact force, reducing damage to the hull, auxiliary airbag 178, and internal components, extending the boat's lifespan, preventing personnel from tilting forward or falling due to severe impact, reducing the risk of falling into the water or capsizing, and improving fishing safety.
[0043] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.
[0044] Although embodiments of the 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 invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. An inflatable boat with a fishing bracket interface, comprising a boat plate (1), wherein an annular airbag (2) is fixedly installed on the outer wall of the boat plate (1), and an engine (3) is fixedly installed on the boat plate (1), characterized in that, The inflatable boat with a fishing bracket interface also includes an adjustment mechanism installed on the outer wall of the boat plate (1); The adjustment mechanism includes a rotating base (4) installed on the boat plate (1), a support column (5) installed inside the rotating base (4) for rotation adjustment, a fixed shell (6) installed on the support column (5), a sliding rod (7) installed inside the fixed shell (6) for distance adjustment, a base plate (8) installed on the sliding rod (7), and a bracket connection port (9) installed inside the base plate (8). The outer wall of the sliding rod (7) is provided with a slot for quickly rotating and adjusting the position of the fishing rod. The adjustment mechanism also includes a support plate (10) installed on the fixed shell (6), a movable column (11) installed inside the support plate (10), and a locking plate (12) installed on the movable column (11). A spring is sleeved on the circumferential surface of the movable column (11). A sliding groove is opened inside the fixed shell (6). The locking plate (12) contacts the sliding groove of the fixed shell (6) and contacts the inside of the locking groove of the sliding rod (7).
2. The inflatable boat with a fishing bracket interface according to claim 1, characterized in that: The adjustment mechanism also includes a limiting mechanism installed on the support column (5) for limiting the rotation of the fishing rod; The limiting mechanism includes a connecting plate (13) installed on the circumferential surface of the support column (5), a long rod (14) installed inside the connecting plate (13), a ring (15) installed on the long rod (14), and a roller (16) installed inside the long rod (14).
3. The inflatable boat with a fishing bracket interface according to claim 2, characterized in that: A spring is fitted around the circumference of the long rod (14), a limiting groove is provided on the outer wall of the rotating base (4), the roller (16) contacts the inside of the limiting groove of the rotating base (4), and the ring (15) contacts the outer wall of the connecting plate (13).
4. The inflatable boat with a fishing bracket interface according to claim 1, characterized in that: The inflatable boat with fishing bracket interface also includes an anti-drop mechanism (17) installed on the bottom plate (8) to prevent the fishing rod from falling off during fishing. The anti-fall-off mechanism (17) includes a bidirectional telescopic rod (171) installed on the base plate (8), a fixing ring (172) installed on the telescopic end of the bidirectional telescopic rod (171), a roller (173) installed on the side of the bidirectional telescopic rod (171) away from the fixing ring (172), an arc plate (174) installed on the sliding rod (7), and a damping plate (175) installed inside the arc plate (174). The roller (173) is in contact with the inside of the arc plate (174). The damping plate (175) and the inside of the arc plate (174) are provided with springs. The outer wall of the damping plate (175) is provided with an inclined surface. The inside of the fixing ring (172) is fixedly installed with the outer wall of the bracket connection port (9).
5. The inflatable boat with a fishing bracket interface according to claim 1, characterized in that: The inflatable boat with fishing bracket interface also includes an auxiliary support mechanism installed on the annular airbag (2) to increase the overall buoyancy of the boat when fishing. The auxiliary support mechanism includes an arc-shaped sliding plate (176) installed on the annular airbag (2), a movable support plate (177) installed inside the arc-shaped sliding plate (176), an auxiliary airbag (178) installed inside the movable support plate (177), a pull rod (179) installed on the movable support plate (177), and a locking pin (1710) installed on the ship plate (1).
6. The inflatable boat with a fishing bracket interface according to claim 5, characterized in that: The movable support plate (177) contacts the outer wall of the annular airbag (2), the outer wall of the pull rod (179) is provided with a snap-fit groove, the snap pin (1710) contacts the inside of the snap-fit groove of the pull rod (179), the circumferential surface of the snap pin (1710) is sleeved with a spring, and the pull rod (179) contacts the outer wall of the ship plate (1).
7. The inflatable boat with a fishing bracket interface according to claim 5, characterized in that: The inflatable boat with fishing bracket interface also includes an anti-deviation mechanism (18) installed on the movable bracket plate (177) to prevent the auxiliary airbag (178) from shifting position. The inflatable boat with fishing bracket interface also includes an L-shaped rod (181) installed on the movable support plate (177), a sliding cylinder (182) installed inside the L-shaped rod (181), and a trapezoidal plate (183) installed on the annular airbag (2). The outer wall of the trapezoidal plate (183) is provided with an inclined surface. The circumferential surface of the sliding cylinder (182) is in contact with the outer wall of the annular airbag (2). A torsion spring is provided between the L-shaped rod (181) and the movable support plate (177).
8. The inflatable boat with a fishing bracket interface according to claim 1, characterized in that: The inflatable boat with fishing bracket interface also includes a collision protection mechanism installed on the boat plate (1) for cushioning the hull when it hits a reef; The anti-collision mechanism includes a mounting shell (186) installed on the ship plate (1), a sliding plate (187) installed inside the mounting shell (186), a connecting rod (185) installed on the sliding plate (187), and an anti-collision plate (184) installed on the connecting rod (185).
9. The inflatable boat with a fishing bracket interface according to claim 8, characterized in that: The anti-collision plate (184) is slidably embedded in the outer wall of the annular airbag (2), the connecting rod (185) is slidably embedded in the interior of the mounting shell (186), the connecting rod (185) and the interior of the mounting shell (186) are provided with springs, and the connecting rod (185) is in contact with the outer wall of the ship plate (1).