CN111587855A - Buoy system and intelligent fishing system thereof - Google Patents

Abstract

The invention discloses a buoy system and an intelligent fishing system thereof, wherein the buoy system comprises a gravity sensing module, a signal processing module and a control module; the gravity sensing module is used for sensing the change of the acceleration of the buoy in water; the signal processing module receives a gravity sensing signal of the gravity sensing module and processes an acceleration signal sensed by gravity; the signal processing module is in signal connection with the control module, the control module compares and judges the signal processed by the signal processing module with a preset signal amplitude value, and the fishing device is controlled to operate according to the judgment result. The buoy system is applied to fishing, and can sense the change of acceleration when a fish bites the hook during fishing, so that whether the fish bites the hook can be accurately judged; when the fish bite is judged, the lifting device quickly rotates the support through quick judgment of the buoy system, the fishing rod of the fishing rod device is lifted, and the fish is firmly hooked, so that intelligent fishing is realized.

Description

Buoy system and intelligent fishing system thereof

Technical Field

The invention relates to the field of fishing devices, in particular to a buoy system and an intelligent fishing system thereof.

Background

Fishing belongs to outdoor sports, aims at fishing fishes from water by using fishing gear, does not limit the sex and age of the fishing, and is popular among adults and children. Fishing is close to nature, and brings great visual impact to people when people go to fish, thereby bringing great stimulation.

At present, fishing is mostly carried out by manually holding a fishing rod, and a way of looking at a buoy with eyes or a way of placing the fishing rod on a fixed socket and installing a bell on the fishing rod. Wherein, the fishing rod is held by hands, and the way of seeing the buoy by eyes is easy to cause fatigue of eyes of people for a long time, so that people are tired; the fishing rod is placed on the fixed socket, and the small bell is arranged on the fishing rod, so that the fish can be fished only by biting the hook, and the effect is not good.

Disclosure of Invention

In view of the above, the buoy system and the intelligent fishing system thereof are applied to fishing, and whether fish bites the fishhook can be accurately judged through the buoy system; when judging that there is the fish to bite the hook, this fishing system can judge fast, and can raise the fishing rod, firmly hooks the fish to realize intelligent fishing.

A buoy system comprises a gravity sensing module, a signal processing module and a control module;

the gravity sensing module is used for sensing the change of the acceleration of the buoy in water;

the signal processing module receives a gravity sensing signal of the gravity sensing module and processes an acceleration signal sensed by gravity;

the signal processing module is in signal connection with the control module, the control module compares and judges the signal processed by the signal processing module with a preset signal amplitude value, and the fishing device is controlled to operate according to the judgment result.

Preferably, the device further comprises a signal amplification module, the signal amplification module is electrically connected with the signal processing module, and the signal amplification module is in signal connection with the control module; the signal amplification module is used for amplifying the signal processed by the signal processing module.

Preferably, the device further comprises a signal sending module and a signal receiving unit, wherein the signal sending module is electrically connected with the signal amplifying module, the signal sending module is in signal connection with the signal receiving module, and the signal receiving module is electrically connected with the control module; the signal transmitting module transmits the signal amplified by the signal amplifying module to the signal receiving unit, and the receiving unit transmits the received signal to the control module.

An intelligent fishing system comprises the buoy system, the lifting device and the fishing rod device;

the buoy system is connected with the fishing rod device, and the fishing rod device is connected with the lifting device;

the buoy system judges whether the fishing rod device has a fish bite through the acceleration change of the buoy, and when the fishing rod device is judged to have the fish bite, the buoy system controls the lifting device to work, and the lifting device rotates to lift the fishing rod device connected with the lifting device to hook a fish mouth.

Preferably, the lifting device comprises a stand column for supporting, a box body, a bracket for placing the fishing rod device, an energy storage pushing assembly, a rotating shaft and a stop block;

the upright posts are connected with the box body;

the energy storage pushing assembly is fixed on the lower end face of the box body, the energy storage pushing assembly is vertically matched and connected with the rotating shaft, and the outer end of the rotating shaft extending out of the box body is fixedly connected with the bracket; the baffle is propped against the tail end of the energy storage pushing component;

the control module of the buoy system is arranged in the box body and is electrically connected with the stop block; when a fish feeding signal is judged, the control module controls the stop block to be separated from the energy storage pushing assembly, the energy storage pushing assembly releases energy storage to push the rotating shaft to rotate, and the rotating shaft rotates to enable the support and the fishing rod device connected with the support to be lifted.

Preferably, the rotating shaft is sleeved with a gear, and the energy storage pushing assembly is vertically matched and connected with the rotating shaft gear; the energy storage pushing assembly comprises a fixed seat, a central shaft, a first spring and a rack;

the fixed seat is fixedly connected with the lower end face of the box body;

one end of the first spring is fixedly connected with the fixed seat, the other end of the first spring is connected with the central shaft, and the central shaft penetrates through the fixed seat and can move in the axial direction;

the rack is fixed on the central shaft and meshed with the gear.

Preferably, still be provided with the fore-set on the center pin end of dog end, still be provided with on the fore-set with dog complex pulley, the pulley passes through the bearing and is connected with the fore-set.

Preferably, the rotating shaft is further sleeved with a second spring, one end of the second spring is fixedly connected to the rotating shaft, and the other end of the second spring abuts against the end face of the box body.

Preferably, the lifting mechanism further comprises an adjusting rod, the adjusting rod is movably sleeved on the rotating shaft, and the adjusting rod extends out of the pushing rod; a driven rod is fixedly sleeved on the rotating shaft, and the push rod is matched with the driven rod; the side end face of the box body is provided with an arc-shaped through groove, and the adjusting rod can rotate along the arc-shaped through groove so as to push the rotating shaft to rotate.

Preferably, the fishing rod device comprises a fishing hook, a fishing line and a fishing rod;

the fishhook, the fishing line and the fishing rod are sequentially connected, and the fishhook is arranged at the tail end of the fishing line;

the fishing line is connected to the buoy system through a connecting part;

the fishing rod is fixedly connected with the support of the lifting device, and the support rotates to drive the fishing rod to rotate and lift.

The invention has the beneficial effects that: the buoy system is applied to fishing, and when a fish is fished, the buoy system can sense the change of the acceleration when the fish bites the hook, so that whether the fish bites the hook can be accurately judged; when judging that there is the fish to bite the hook, this fishing system passes through buoy system quick judgement, rotates the support rapidly through the device of raising upward, raises the fishing rod of fishing rod device, firmly hooks the fish to realize intelligent fishing.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic block diagram of a buoy system;

fig. 2 is a (specific) schematic block diagram of a buoy system;

FIG. 3 is a schematic block diagram of a smart fishing system;

FIG. 4 is a schematic diagram of a smart fishing system;

FIG. 5 is a schematic view of a lower and upper perspective view of the raising device of the intelligent fishing system;

FIG. 6 is a schematic front perspective view of a raising device of the intelligent fishing system;

FIG. 7 is a schematic view of a lower and upper perspective view of an uplifting device of the intelligent fishing system;

fig. 8 is a schematic view of a downward-bending perspective of the raising device (in the box) of the intelligent fishing system;

fig. 9 is a schematic view of a downward-bending perspective of the raising device (in the box) of the intelligent fishing system;

fig. 10 is a schematic view of the upward device (in the box) of the intelligent fishing system.

Reference numerals

11 main upright post and 12 inclined upright post

13 base 14 box

15 control screen 16 regulating rod

17 rotating shaft 18 bracket

19 the regulating button 20 arc through groove

21 connecting seat 22 control module

23 positioning column 24 vertical plate

25 fixed seat 26 central shaft

27 first spring 28 rack

29 push rod 30 passive rod

31 gear 32 pulley

33 stop block 34 telescopic rod

35 second spring 36 electromagnet

37 top column 181 frame tail

182 bow 100 buoy system

41 gravity sensing module 42 signal processing module

43 signal amplification module 44 signal transmission module

1000 fishing system 54 signal receiving module

45 indicating module 50 connection

51 fishing line and 52 fishing rod

53 power supply 55 fishhook

200 raising device 300 fishing rod device

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

Referring to fig. 1 and 4, a buoy system includes a gravity sensing module 41, a signal processing module 42, and a control module 22;

the gravity sensing module 41 is used for sensing the change of the acceleration of the buoy in the water; the buoy is bound on the fishing line, the fish bites the fish food on the fishhook, and the fish is spit out after being swallowed by habit during eating, or is dragged to eat but not swallowed, or is directly swallowed; either way, it inevitably tears the float, causing it to float up and down; when the float floats up and down, the float generates up and down acceleration. Generally, a gravity sensing module is arranged in a cavity of the buoy to sense the acceleration change of the buoy due to up-and-down floating, and a change signal of the acceleration is obtained.

The gravity sensing module 41 and the signal processing module 42 are generally disposed in the inner cavity of the buoy, the gravity sensing module 41 is electrically connected to the signal processing module 42, the signal processing module 42 receives a gravity sensing signal of the gravity sensing module 41, and the signal processing module 42 processes an acceleration signal of gravity sensing in various ways, such as denoising and removing impurities, so that the gravity sensing signal is not affected by other signals (e.g., horizontal acceleration) to obtain a relatively pure gravity sensing signal.

The signal processing module 42 is in signal connection with the control module 22, and since the control module 22 is generally arranged on an object other than a buoy, the signal processing module 42 is in wireless signal connection with the control module 22; the control module 22 compares the signal processed by the signal processing module 42 with a preset signal amplitude value, and controls the fishing device to operate according to the judgment result. For example: when the acceleration detected by the gravity sensing module is 5.6m/s²The predetermined acceleration is 10m/s²Then it can be judged that no fish is hooked. Because different fish species can have differences in the acceleration of the biting hook, the preset signal amplitude of the acceleration can be adjusted according to the actual situation.

Referring to fig. 2 and 4, a buoy system 100, the buoy system 100 includes a gravity sensing module 41, a signal processing module 42, a signal amplifying module 43, a signal transmitting module 44, a signal receiving module 54, and a control module 22;

the gravity sensing module 41 is used for sensing the change of the acceleration of the buoy in the water; the buoy is bound on the fishing line, the fish bites the fish food on the fishhook, and the fish is spit out after being swallowed by habit during eating, or is dragged to eat but not swallowed, or is directly swallowed; either way, it inevitably tears the float, causing it to float up and down; when the float floats up and down, the float generates up and down acceleration. Generally, a gravity sensing module is arranged in a cavity of the buoy to sense the acceleration change of the buoy due to up-and-down floating, and a change signal of the acceleration is obtained.

The gravity sensing module 41 and the signal processing module 42 are generally disposed in the inner cavity of the buoy, the gravity sensing module 41 is electrically connected to the signal processing module 42, the signal processing module 42 receives a gravity sensing signal of the gravity sensing module 41, and the signal processing module 42 processes the gravity sensing acceleration signal in various manners, such as denoising and removing impurities, so that the gravity sensing signal is not affected by other signals (e.g., the flow rate of water) to obtain a relatively pure gravity sensing signal.

The signal processing module 42 is in signal connection with the control module 22, and since the control module 22 is generally arranged on an object other than a buoy, the signal processing module 42 is in wireless signal connection with the control module 22; the control module 22 compares the signal processed by the signal processing module 42 with a preset signal amplitude value, and controls the fishing device to operate according to the judgment result. For example: when the acceleration detected by the gravity sensing module 41 is 5.6m/s²The predetermined acceleration is 10m/s²Then it can be judged that no fish is hooked. Because different fish species can have differences in the acceleration of the biting hook, the preset signal amplitude of the acceleration can be adjusted according to the actual situation.

A signal amplification module 43 can be further arranged in the buoy cavity, the signal amplification module 43 is electrically connected with the signal processing module 42, and the signal amplification module 43 is in signal connection with the control module 22; the signal amplifying module 43 is configured to amplify the signal processed by the signal processing module 43. Since the signals processed by the signal processing module 42 are weak, it is difficult to identify and judge, and the acceleration signal is amplified by the signal amplifying module 43, which is convenient for the control module 22 to identify and judge.

In order to facilitate stability of signal path transmission between the buoy cavity end and the control module 22, a signal transmitting module 44 is disposed in the buoy cavity, and a signal receiving unit 54 is disposed at the control module end. The signal transmitting module 44 is electrically connected to the signal amplifying module 43, and the signal transmitting module 44 is connected to the signal receiving module 54; the signal receiving module 54 is electrically connected to the control module 22; the signal sending module 44 sends the signal amplified by the signal amplifying module 43 to the signal receiving unit 54, the signal receiving unit 54 receives the processed and amplified acceleration signal, transmits the received signal to the control module 22, and the control module 22 compares and judges the received signal with a preset acceleration value to control the operation of the fishing device (the raising device 200).

Referring to fig. 3 and 4, an intelligent fishing system 1000 includes a buoy system 100, a raising device 200, and a fishing rod device 300; the buoy system 100 is connected with the fishing rod device 300, and the fishing rod device 300 is connected with the raising device 200; the buoy system 100 judges whether the fishing rod device has a fish bite through the acceleration change of the buoy, when the fishing rod device has the fish bite, the buoy system 100 controls the lifting device 200 to work, the lifting device 200 rotates, the fishing rod device 300 connected with the lifting device 200 is lifted up to hook a fish mouth; when the raising device 200 is rotated so that the fishing rod device 300 is raised, the fishing rod device 300 is raised by 5 to 90 degrees, thereby fishing. This intelligence fishing system only needs to take the intelligent buoy of response to wait for the fish to bite the hook in putting into water along with fishhook one can, buoy system 100 can according to the dynamics size and the acceleration that the fish bited the hook, and device 200 rotates is raised in the control, raises fishing rod device 300 and angles, and fishing is respond well, easy operation moreover.

Referring to fig. 5, 6, 7, 8, 9 and 10, the raising apparatus 200 includes a post for supporting, a case 14, a holder 18 for receiving a fishing rod, an energy accumulating push assembly, a rotation shaft 17 and a stopper 33; wherein the control module 22 of the buoy system is arranged in the box 14; the upright is connected with the box body 14, and the upright mainly keeps the whole device upright, prevents the device from toppling and keeps the stability of the device; the box body 14 provides an installation space and an installation position for the control module 22, the energy storage pushing component, the rotating shaft 17 and the stop block 33 on one hand, and can prevent the control module 22, the energy storage pushing component, the rotating shaft 17 and the stop block 33 from being protected on the other hand, so that rainwater or other sundries are prevented from entering the box body 14; the energy storage pushing assembly is fixed on the lower end face in the box body 14, the energy storage pushing assembly is vertically matched and connected with the rotating shaft 17, and the rotating shaft 17 extends to the outer end of the box body 14 and is vertically intersected and fixedly connected with the support 18; the baffle is propped against the tail end of the energy storage pushing component; the control module 22 is arranged in the box body 14, the control module 22 is electrically connected with the stop block 33, the control module 22 is used for judging a fish feeding signal, the stop block 33 is controlled to be separated from the energy storage pushing component, the energy storage pushing component releases energy storage to push the rotating shaft 17 to rotate, and the rotating shaft 17 rotates to enable the support 18 to ascend. That is, when the intelligent fishing device works, the upright post is inserted into the ground or supported on the ground, the fishing rod is fixedly placed on the bracket 18, and when the control module 22 in the box body 14 judges that the fish hook on the fishing rod has the fish hook, the control module 22 controls the stop 33 to be separated from the tail end of the energy storage pushing component, so as to remove the force of the energy storage pushing component; after one end of the energy storage pushing assembly is relieved, the energy storage pushing assembly instantly releases stored energy, so that the rotating shaft 17 is pushed to rotate, the rotating shaft 17 rotates to drive the support 18 to lift up, a fishing rod on the support 18 is quickly lifted, a fish mouth is hooked, and hooked fish is prevented from running off due to the fact that the lifting rod is too slow to spit the hook.

The rotating shaft 17 is sleeved with a gear 31, the gear 31 is fixedly connected with the rotating shaft 17, and the rotating direction of the gear 31 is consistent with that of the rotating shaft 17; the energy storage pushing assembly is vertically matched and connected with the rotating shaft 17 and the gear 31. When the energy storage pushing assembly releases energy storage, the energy storage pushing assembly pushes the gear 31 to rotate, so that the rotating shaft 17 rotates. Through the transmission of gear 31, can guarantee that the transmission is steady, output efficiency is high, and the speed that the fishing rod was mentioned is fast.

Wherein, the energy storage pushing assembly comprises a fixed seat 25, a central shaft 26, a first spring 27 and a rack 28; the fixed seat 25 is fixedly connected with the lower end surface of the box body 14; one end of the first spring 27 is fixedly connected with the fixed seat 25, the other end is connected with the central shaft 26, the central shaft 26 penetrates through the fixed seat 25, and the central shaft 26 can horizontally move in the axial direction; the rack 28 is fixed on the central shaft 26, and the rack 28 is engaged with the gear 31 on the rotating shaft 17. Before the energy storage pushing assembly is not released, the first spring 27 is in a compressed state, and the stop 33 is abutted against the tail end of the central shaft 26; when the control module 22 controls the stopper 33 to move away from the central shaft 26, the elastic potential energy compressed by the first spring 27 is released instantaneously, the central shaft 26 and the rack 28 on the central shaft 26 are pushed to move towards the stopper 33, the rack 28 moves to drive the gear 31 engaged with the rack 28 to rotate, the rotary shaft rotates, and the support 18 is lifted up to rapidly lift the fishing rod. The end of the central shaft 26 at the end of the stop block 33 is also provided with a top column 37, the top column 37 is also provided with a pulley 32 matched with the stop block 33, and the pulley 32 is connected with the top column 37 through a bearing; by providing the pulley 32, it is ensured that the stopper 33 is kept smooth when moving, so that the top pillar 37 and the stopper 33 roll rather than slide, and abrasion between the top pillar 37 and the stopper 33 is reduced. Typically, the first spring 27 is a compression spring.

The rotating shaft 17 is also sleeved with a second spring 35, one end of the second spring 35 is fixedly connected to the rotating shaft 17, and the other end of the second spring is abutted against the end face of the box body 14. When the stop 33 abuts against the energy storage pushing assembly, the second spring 35 is in a compressed state; when the stop 33 is disengaged from the energy-accumulating pushing assembly, the second spring 35 is released simultaneously with the first spring 27, and the rotating direction of the pushing rotating shaft 17 is kept consistent. Through setting up second spring 35, carry out the synergism with the energy storage pushing components, can further increase the energy storage before the release, can further accelerate the speed of raising of support 18 during the release, hook the fish. The box body 14 further comprises a vertical plate 24, when the rotating shaft 17 is installed, the rotating shaft 17 is respectively connected with the vertical plate 24 and a side plate of the box body 14, the rotating shaft 17 is connected with the vertical plate 24 and the side plate of the box body 14 through bearings, and the rotating shaft 17 can be guaranteed to rotate without being blocked through the bearings; the vertical plate 24 is further provided with a positioning post 23, and the positioning post 23 abuts against one end of the second spring 35, that is, the second spring 35 is fixed by the positioning post 23, so that the second spring 35 is in a twisted state when the stopper 33 is in contact with the second spring. Typically, the second spring 35 is a torsion spring.

The movement of the stop 33 can be achieved in various ways, for example: the electromagnet 36, the cylinder, and the oil cylinder, that is, the control module 22 is electrically connected to the electromagnet 36 or the cylinder or the oil cylinder, and is connected to the stopper 33 through the telescopic rod 34, so as to realize the movement of the stopper 33. In practice, the electromagnet 36 is generally used, that is, the control module 22 controls the current magnitude and the current direction of the electromagnet 36, so that the stopper 33 moves in the direction of the telescopic rod 34. Generally, the moving direction of the stop 33 is perpendicular to the direction of the energy storage pushing assembly, that is, the stop 33 moves perpendicular to the energy storage pushing assembly, so that the stop 33 can be abutted against or disengaged from the energy storage pushing assembly in a minimum space.

In order to improve the stability of the upright post, the upright post is generally provided with a plurality of upright posts. Referring to fig. 1, 2 and 3, the upright column includes two main upright columns 11 and two inclined upright columns 12, the two inclined upright columns 12 and the main upright column 11 are connected through a base 13, and the inclined upright columns 12 are hinged to the base 13. Namely, when the fishing device is not used, the two inclined upright posts 12 can be folded; when the stand is placed, the two inclined upright posts 12 are opened to form a tripod structure.

A connecting seat 21 is also arranged between the upright post and the box body 14, and the height of the connecting seat 21 and the upright post can be adjusted through an adjusting button 19; the height of the fishing device can be adjusted according to actual conditions, and the fishing device can be lifted.

The box body 14 is also provided with an adjusting rod 16, the adjusting rod 16 is movably sleeved on the rotating shaft 17, and the adjusting rod 16 extends out of a push rod 29; a driven rod 30 is fixedly sleeved on the rotating shaft 17, and a push rod 29 is matched with the driven rod 30; the side end face of the box body 14 is provided with an arc-shaped through groove 20, and the adjusting rod 16 can rotate along the arc-shaped through groove 20, so that the rotating shaft 17 is pushed to rotate. When the angle of the bracket 18 needs to be adjusted, the push rod 29 on the adjusting rod 16 pushes the passive rod 30 to rotate the rotating shaft 17 through manual adjustment of the adjusting rod 16, so that the lifting angle of the bracket 18 is adjusted.

The upper end surface of the box body 14 is provided with a control screen 15, the control screen 15 is generally a touch screen, and the control module 22 can be subjected to parameter setting through the touch screen, and certainly, the control screen can also be a physical key operation screen. The support 18 comprises a support tail 181 and a support head 182, the support tail 181 is generally closed, the support tail 181 is fixedly connected with the tail of the fishing rod, and the tail of the fishing rod can be bound with the support tail 181; the end of the frame head 182 is generally configured as a v-shape, and when the fishing rod is placed, the front end of the fishing rod is placed at the v-shaped frame head 182; when the fishing rod is placed, the frame head 182 is generally higher than the frame tail 181, i.e. the fishing rod is kept in a slightly raised state.

When the single energy storage pushing assembly is released, namely the bracket 18 drives the fishing rod to raise, the fishhook needs to be put into the water again, and the energy storage pushing assembly needs to store energy again; the first spring 27 and the second spring 35 of the energy storage pushing assembly can be compressed or twisted by arranging a motor, so that the stop block 33 is pressed against the pulley 32 again; of course, the first spring 27 and the second spring 35 may be compressed or twisted by manually rotating the rotating shaft 17 to store energy.

In the box 14, a power supply 53 is further provided, which mainly supplies power to the control module 22 and the electromagnet 36 electrically connected to the control module 22.

Referring to fig. 4 and 5, the fishing rod device 300 includes a fishing hook 55, a fishing line 51 and a fishing rod 52; the fishing hook 55, the fishing line 51 and the fishing rod 52 are connected in sequence, and the fishing hook 55 is arranged at the tail end of the fishing line 51; the fishing line 51 is connected to the buoy system 100 through the connection part 50; the fishing rod 52 is fixedly connected with the bracket 18 of the lifting device 200, and the bracket 18 rotates to drive the fishing rod 52 to rotate and lift; an indication module 45 is further arranged on the outer surface of the buoy system 100, and the indication module 45 is a color layer, so that human eyes can directly observe whether the buoy floats up and down.

The embodiment of the invention can carry out sequence adjustment, combination and deletion according to actual needs.

The embodiments describe the present invention in detail, and the specific embodiments are applied to explain the structural principle and the implementation of the present invention, and the above embodiments are only used to help understand the method and the core idea of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (10)

1. A buoy system is characterized by comprising a gravity sensing module, a signal processing module and a control module;

the gravity sensing module is used for sensing the change of the acceleration of the buoy in water;

the signal processing module receives a gravity sensing signal of the gravity sensing module and processes an acceleration signal sensed by gravity;

the signal processing module is in signal connection with the control module, the control module compares and judges the signal processed by the signal processing module with a preset signal amplitude value, and the fishing device is controlled to operate according to the judgment result.

2. The buoy system of claim 1, further comprising a signal amplification module electrically connected to the signal processing module, the signal amplification module in signal connection with the control module; the signal amplification module is used for amplifying the signal processed by the signal processing module.

3. The buoy system as claimed in claim 2, further comprising a signal transmitting module and a signal receiving unit, wherein the signal transmitting module is electrically connected with the signal amplifying module, the signal transmitting module is connected with the signal receiving module by signals, and the signal receiving module is electrically connected with the control module; the signal transmitting module transmits the signal amplified by the signal amplifying module to the signal receiving unit, and the receiving unit transmits the received signal to the control module.

4. An intelligent fishing system, comprising the buoy system, the raising device and the fishing rod device according to any one of claims 1 to 3;

the buoy system is connected with the fishing rod device, and the fishing rod device is connected with the lifting device;

the buoy system judges whether the fishing rod device has a fish bite through the acceleration change of the buoy, and when the fishing rod device is judged to have the fish bite, the buoy system controls the lifting device to work, and the lifting device rotates to lift the fishing rod device connected with the lifting device to hook a fish mouth.

5. The intelligent fishing system of claim 4, wherein the raising device comprises a stand column for supporting, a box body, a bracket for placing the fishing rod device, an energy storage pushing assembly, a rotating shaft and a stop block;

the upright posts are connected with the box body;

the energy storage pushing assembly is fixed on the lower end face of the box body, the energy storage pushing assembly is vertically matched and connected with the rotating shaft, and the outer end of the rotating shaft extending out of the box body is fixedly connected with the bracket; the baffle is propped against the tail end of the energy storage pushing component;

the control module of the buoy system is arranged in the box body and is electrically connected with the stop block; when a fish feeding signal is judged, the control module controls the stop block to be separated from the energy storage pushing assembly, the energy storage pushing assembly releases energy storage to push the rotating shaft to rotate, and the rotating shaft rotates to enable the support and the fishing rod device connected with the support to be lifted.

6. The intelligent fishing system of claim 5, wherein the shaft is sleeved with a gear, and the energy storage pushing assembly is vertically matched and connected with the shaft gear; the energy storage pushing assembly comprises a fixed seat, a central shaft, a first spring and a rack;

the fixed seat is fixedly connected with the lower end face of the box body;

one end of the first spring is fixedly connected with the fixed seat, the other end of the first spring is connected with the central shaft, and the central shaft penetrates through the fixed seat and can move in the axial direction;

the rack is fixed on the central shaft and meshed with the gear.

7. An intelligent fishing system according to claim 6, wherein the end of the central shaft at the end of the stopper is further provided with a top post, the top post is further provided with a pulley matched with the stopper, and the pulley is connected with the top post through a bearing.

8. An intelligent fishing system according to claim 5, wherein the shaft is further sleeved with a second spring, one end of the second spring is fixedly connected to the shaft, and the other end of the second spring abuts against the end face of the box body.

9. The intelligent fishing system of claim 5, further comprising an adjusting rod movably sleeved on the rotating shaft, the adjusting rod extending out of the push rod; a driven rod is fixedly sleeved on the rotating shaft, and the push rod is matched with the driven rod; the side end face of the box body is provided with an arc-shaped through groove, and the adjusting rod can rotate along the arc-shaped through groove so as to push the rotating shaft to rotate.

10. The intelligent fishing system of claim 5, wherein the fishing rod device comprises a fishing hook, a fishing line, and a fishing rod;

the fishhook, the fishing line and the fishing rod are sequentially connected, and the fishhook is arranged at the tail end of the fishing line;

the fishing line is connected to the buoy system through a connecting part;

the fishing rod is fixedly connected with the support of the lifting device, and the support rotates to drive the fishing rod to rotate and lift.

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