CN112352743A - Trapping cage based on wireless communication and trapping method - Google Patents

Abstract

The invention provides a trapping cage based on wireless communication and a trapping method, comprising a trapping cage body, a communication buoy mechanism, a buoy release mechanism, a communication mechanism and a magnetic switch, wherein the communication buoy mechanism is connected with the buoy release mechanism through a cable, the buoy release mechanism is fixed in the trapping cage body, and the magnetic switch is fixed at an inlet of the trapping cage body; communication mechanism is including fixing bluetooth controller one, the detector of intaking in the cursory mechanism of communication, wireless communication network and LTE + GPS locator, fixing bluetooth controller two and cursory release element in cursory release mechanism, fixing magnetism that inhale the switch in inhale the component and to the power module that communication mechanism carries out the power supply, magnetism is inhaled the component and is linked to each other with bluetooth controller two, bluetooth controller two communicates through the bluetooth chip with bluetooth controller one, go into that water detector and LTE + GPS locator all link to each other with bluetooth controller one, bluetooth controller one links to each other with user equipment through wireless communication network.

Description

Trapping cage based on wireless communication and trapping method

Technical Field

The invention relates to a trapping cage based on wireless communication and a trapping method, and belongs to the technical field of ocean operation equipment.

Background

In the existing marine fishery operation scene, when fishermen catch crabs or lobsters, the fishermen catch the crabs or the lobsters by placing the trapping cage under water. In order to facilitate fishermen to salvage the trapping cage, mark floats are required to be arranged on the trapping cage to mark the position of the trapping cage (the trapping cage is connected with the floats by cables), baits are placed in the trapping cage to attract lobsters, crabs and other fish catches to enter the cage, and the fishermen can check whether the trapping cage has the fish catches at fixed intervals. But it has always presented the following problems:

1. when a fisherman uses a single traditional trapping cage to perform fishing operation, the empty basket/empty cage rate accounts for 60% -70% of the total throwing amount, the high empty basket rate close to 2/3 enables the working efficiency of the fisherman going to the sea to be low, and meanwhile, the fishing cost is greatly increased.

2. The single traditional trapping cage is put in and can not record specific data including position information, time and the like, and in the use process of the whole single traditional trapping cage, the situation that the trapping cage is lost, cannot be positioned, cannot calculate the working time and the like due to the fact that the position of the trapping cage is changed for water flow and the like is often caused.

Disclosure of Invention

In order to solve the defects and shortcomings in the prior art, the invention provides a trapping cage based on wireless communication and a trapping method.

In order to solve the technical problem, the invention provides a trapping cage based on wireless communication, which comprises a trapping cage body, a communication buoy mechanism, a buoy release mechanism, a power module and a magnetic switch, wherein the communication buoy mechanism is connected with the buoy release mechanism through a cable, the buoy release mechanism is fixed in the trapping cage body, and the magnetic switch is fixed at an inlet of the trapping cage body; a Bluetooth controller I, a water inlet detector, a depth sensor, a wireless communication network and an LTE + GPS positioner are arranged in the communication buoy mechanism; a Bluetooth controller II and a buoy release element are arranged in the buoy release mechanism; a magnetic element is arranged in the magnetic switch; the magnetic attraction element is connected with the Bluetooth controller, the water inlet detector and the LTE + GPS locator are connected with the Bluetooth controller I, and the Bluetooth controller I is connected with user equipment through a wireless communication network.

Further, the cursory mechanism of communication includes casing and lower casing, the cavity that goes up casing and casing constitution down is built-in to have the material of floating, bluetooth controller one, income water detector, depth sensor, wireless communication network and LTE + GPS locator are arranged in the cavity, just two contacts of the detector of entrying expose outside the casing, the symmetry is equipped with two hangers on the inferior valve lateral wall, the cursory mechanism of communication links to each other with traping the cage body and cursory release mechanism respectively through tying the cable on two hangers.

Furthermore, the buoy release mechanism comprises a case and a motor shell, the motor shell is fixed on the case, the second Bluetooth controller is arranged in the case, and a wiring port connected with the magnetic attraction element is arranged on the side wall of the case; the buoy releasing element comprises a motor arranged in a motor shell, the motor is connected with a Bluetooth controller, a driving screw rod is fixed on an output shaft of the motor, a sliding block is sleeved on the driving screw rod, a bolt integrally formed with the sliding block is arranged on the side wall of the sliding block, a positioning magnet is arranged at the bottom of the sliding block, two contact assemblies serving as positioning switches are arranged under the driving screw rod, each contact assembly comprises a position sensor, the position sensors are connected with the Bluetooth controller, a clamping block is fixed to the end of the driving screw rod, a U-shaped groove is formed in the upper end of the clamping block, through holes matched with the bolt are formed in the two side walls of the groove, and a hook is sleeved on the bolt.

Furthermore, the side wall of the case is provided with a fixing bolt.

Furthermore, the magnetic switch comprises a magnetic end and a non-magnetic end, the magnetic end comprises a magnetic end shell and a magnet fixed at the end part of the magnetic end shell, the non-magnetic end comprises a non-magnetic end shell and an iron block fixed at the end part of the non-magnetic end shell, and the magnetic element is fixed on the iron block and is connected with the Bluetooth controller through a lead.

Further, the magnet is fixed in the magnetic end shell through a sealing adhesive layer, and the iron block and the magnetic attraction element are fixed in the non-magnetic end shell through the sealing adhesive layer.

In addition, the invention also provides a trapping method adopting the trapping cage based on the wireless communication, which comprises the following steps:

s1 trap cage assembly: the magnetic switch is fixed at the entrance of the trapping cage body, the float releasing mechanism is fixed in the trapping cage body, and the float releasing mechanism and the trapping cage body are respectively connected with the communication float mechanism through cables;

s2 trap cage positioning: when underwater organisms break the magnetic suction switch and enter the trapping cage body, the magnetic suction element of the magnetic suction switch loses magnetism, the magnetic suction circuit is disconnected, the Bluetooth controller II sends a working instruction to the motor after obtaining a disconnection signal, the motor drives the sliding block to slide on the driving screw rod through the driving screw rod so as to drive the bolt to be separated from the clamping block, a cable fixed on the bolt is separated from the buoy releasing mechanism, the communication buoy mechanism floats upwards, when a contact of the water inlet detector is separated from the water surface, the depth sensor sends a signal to the Bluetooth controller, and after the Bluetooth controller I receives the signal, the position information collected by the LTE + GPS locator is sent to user equipment through a wireless communication network;

s3, after receiving the position information of the trap cage body, the user retracts the trap cage body.

The invention achieves the following beneficial technical effects: the invention provides a trapping cage based on wireless communication, which has the functions of GPS positioning and communication, and can feed back information to a user in time after marine organisms such as fishes and shrimps enter the trapping cage, so that the user can conveniently recover the trapping cage. Therefore, the condition that the cage is empty or lost is effectively avoided, the working efficiency of a fisherman when the trapping cage is used for trapping lobsters and crabs in the sea is greatly improved, and the working cost of the fisherman is reduced.

Drawings

FIG. 1 is a schematic view of an assembly structure of the present invention, wherein A is a partially enlarged view of an inlet of a trap cage body;

FIG. 2 is a schematic view of the connection relationship between the communication float mechanism, the float release mechanism and the magnetic switch according to the present invention;

FIG. 3 is a front view of the communication buoy mechanism of the present invention;

FIG. 4 is a cross-sectional view of the communication buoy mechanism of FIG. 2 along line B-B of the present invention;

FIG. 5 is a cross-sectional view of the float release mechanism of FIG. 2 taken along line C-C in accordance with the present invention;

FIG. 6 is a schematic view of a magnetic switch according to the present invention;

FIG. 7 is a cross-sectional view taken along line D-D of FIG. 6 in accordance with the present invention;

FIG. 8 is a block diagram of the communication float mechanism and float release mechanism of the present invention.

Wherein, 1, the buoy mechanism is communicated; 2 a float release mechanism; 3, magnetically attracting the switch; 4 a trap cage body; 5, a cable; 101 an upper shell; 102 floating material; 103 a lower housing; 104, a first Bluetooth controller; 105 hanging lugs; 201 motor casing; 202 motor; 203 driving a screw rod; 204 sliding blocks; 205 is hooked; 206 a positioning magnet; 207 a contact assembly; 208, a fixture block; 209 a chassis; 210 fixing a bolt; 211 a second Bluetooth controller; 212 a bolt; 301 no magnetic end shell; 302 a magnetically attractive element; 303 iron blocks; 304 magnets; 305 has a magnetic end housing; 306 an encapsulant layer.

Detailed Description

The invention is further described with reference to specific examples. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

The invention is further described with reference to the following figures and examples.

As shown in fig. 1-8, the present invention provides a wireless communication based trap cage,

the novel trap cage comprises a trap cage body 4, a communication buoy mechanism 1, a buoy release mechanism 2, a power module and a magnetic switch 3, wherein the communication buoy mechanism 1 is connected with the buoy release mechanism 2 through a cable 5, the buoy release mechanism 2 is fixed in the trap cage body 4, and the magnetic switch 3 is fixed at an inlet of the trap cage body 4; a first Bluetooth controller 104, a water inlet detector, a depth sensor, a wireless communication network and an LTE + GPS positioner are arranged in the communication buoy mechanism 1; a second Bluetooth controller 211 and a buoy release element are arranged in the buoy release mechanism 2; a magnetic element 302 is arranged in the magnetic switch 3; the magnetic attraction element 302 is connected with a second Bluetooth controller 211, the water inlet detector and the LTE + GPS locator are connected with a first Bluetooth controller 104, and the first Bluetooth controller 104 is connected with user equipment through a wireless communication network.

The communication buoy mechanism 1 comprises an upper shell 101 and a lower shell 103, wherein a cavity formed by the upper shell 101 and the lower shell 103 is internally provided with a floating material 102, so that the communication buoy mechanism 1 can float upwards; bluetooth controller 104, income water detector, depth sensor, wireless communication network and LTE + GPS locator are arranged in the cavity, just two contacts of income water detector expose outside the casing, the symmetry is equipped with two hangers 105 on the casing 103 lateral wall down, communication cursory mechanism 1 links to each other with trapper body 4 and cursory release mechanism 2 respectively through tying up cable 5 on two hangers.

The buoy release mechanism 2 comprises a case 209 and a motor shell 201, the motor shell 201 is fixed on the case 209, the second Bluetooth controller 211 is arranged in the case 209, and a wiring port connected with a magnetic element is arranged on the side wall of the case 209; the buoy releasing element comprises a motor 202 arranged in a motor shell 201, the motor 202 is connected with a second Bluetooth controller 211, a driving screw rod 203 is fixed on an output shaft of the motor 202, a sliding block 204 is sleeved on the driving screw rod 203, a bolt 212 integrally formed with the sliding block is arranged on the side wall of the sliding block 204, a positioning magnet 206 is arranged at the bottom of the sliding block 204, two contact assemblies 207 serving as positioning switches are arranged under the driving screw rod 203, each contact assembly 207 comprises a position sensor, the position sensor is connected with the second Bluetooth controller 211, a clamping block 208 is fixed at the end part of the driving screw rod 203, a U-shaped groove is formed in the upper end part of the clamping block 208, through holes matched with the bolt 212 are formed in the two side walls of the groove, and a hook 205 is sleeved on the bolt 212. The motor 202 is a 3V dc brush motor.

And a fixing bolt 210 is arranged on the side wall of the case 209 and used for fixing the float releasing mechanism 2 on the trapping cage body 4.

Switch 3 is inhaled to magnetism is including magnetism end and no magnetism end, have the magnetism end including magnetism end casing 305, fix at the magnet 304 that has magnetism end casing 305 tip, no magnetism end includes no magnetism end casing 301, fixes the iron plate 303 at no magnetism end casing 301 tip, magnetism is inhaled component 302 and is fixed on iron plate 303 and link to each other with two 211 bluetooth controller through the wire. The magnetic attraction element 302 is a reed switch or a reed switch.

The magnet 304 is fixed in the magnetic end casing 305 through an adhesive layer 306, and the iron block 303 and the magnetic attraction element 302 are fixed in the non-magnetic end casing 301 through the adhesive layer 306.

In addition, the upper shell and the lower shell of the communication buoy mechanism, the case and the motor shell of the buoy release mechanism, and the magnetic end shell and the non-magnetic end shell of the magnetic suction switch are integrally processed by engineering plastic materials, and are not spliced, so that water leakage can be prevented; and sealing the holes or the gaps by using sealant.

The trap cage of the invention has the following working principle:

the trapping cage body and the cable are thrown into the sea bottom of the sea area to be trapped together, and the bait is placed in the trapping cage body according to the traditional mode to attract lobsters, crabs and other fish to be trapped into the cage.

When fishes such as lobsters and crabs are caught in the cage, bodies of the fishes inevitably pass through an inlet of the trapping cage body, so that the magnetic attraction switch can be knocked open to separate a non-magnetic end shell and a magnetic end shell of the magnetic attraction switch, the magnetic attraction element loses the magnetic force effect due to being far away from the magnet, a magnetic attraction circuit is disconnected, the second Bluetooth controller receives a circuit disconnection signal and sends a working instruction to the 3V direct-current brush motor to rotate the driving lead screw so as to drive the sliding block to move, the positioning magnet in the sliding block triggers a contact of the positioning switch when the sliding block moves to the specified positioning switch, and the two-way motor of the Bluetooth controller sends an instruction for stopping working after the positioning magnet reaches the contact; meanwhile, the inserted pin is separated from the inserted pin clamping block, and the floating hook is also separated from the inserted pin at the same time, so that the floating hook is changed into a free state; under the buoyancy effect that receives, the communication cursory mechanism that ties up at the other end can upwards move towards the sea surface together with communication cursory mechanism simultaneously, and the other end hangers of communication cursory mechanism links to each other with the cable, so the communication cursory mechanism can not float and trap the cage body directly over regional at the come-up in-process. After the communication buoy mechanism floats out of the water surface, the contact of the water inlet detector detects that the communication buoy mechanism leaves the water surface, the Bluetooth controller collects position information collected by the LTE + GPS locator through a wireless communication network and sends the position information to user equipment, so that a user can obtain information of the trapping cage body, such as the fishing cage entering position, the fishing cage entering time and the like, and the trapping cage (IV) and the recovery work of the invention can be effectively arranged.

In addition, the invention also provides a trapping method adopting the trapping cage based on the wireless communication, which comprises the following steps:

s1 trap cage assembly: the magnetic switch is fixed at the entrance of the trapping cage body, the float releasing mechanism is fixed in the trapping cage body, and the float releasing mechanism and the trapping cage body are respectively connected with the communication float mechanism through cables;

s2 trap cage positioning: when underwater organisms break the magnetic suction switch and enter the trapping cage body, the magnetic suction element of the magnetic suction switch loses magnetism, the magnetic suction circuit is disconnected, the Bluetooth controller II sends a working instruction to the motor after obtaining a disconnection signal, the motor drives the sliding block to slide on the driving screw rod through the driving screw rod so as to drive the bolt to be separated from the clamping block, a cable fixed on the bolt is separated from the buoy releasing mechanism, the communication buoy mechanism floats upwards, when a contact of the water inlet detector is separated from the water surface, the depth sensor sends a signal to the Bluetooth controller, and after the Bluetooth controller I receives the signal, the position information collected by the LTE + GPS locator is sent to user equipment through a wireless communication network;

s3, after receiving the position information of the trap cage body, the user retracts the trap cage body.

The present invention has been disclosed in terms of the preferred embodiment, but is not intended to be limited to the embodiment, and all technical solutions obtained by substituting or converting equivalents thereof fall within the scope of the present invention.

Claims (7)

1. A trap cage based on wireless communication, its characterized in that: the magnetic attraction type trapping cage comprises a trapping cage body, a communication buoy mechanism, a buoy release mechanism, a power module and a magnetic attraction switch, wherein the communication buoy mechanism is connected with the buoy release mechanism through a cable, the buoy release mechanism is fixed in the trapping cage body, and the magnetic attraction switch is fixed at an inlet of the trapping cage body; a Bluetooth controller I, a water inlet detector, a depth sensor, a wireless communication network and an LTE + GPS positioner are arranged in the communication buoy mechanism; a Bluetooth controller II and a buoy release element are arranged in the buoy release mechanism; a magnetic element is arranged in the magnetic switch; the magnetic attraction element is connected with the Bluetooth controller, the water inlet detector and the LTE + GPS locator are connected with the Bluetooth controller I, and the Bluetooth controller I is connected with user equipment through a wireless communication network.

2. A wireless communication based trap cage according to claim 1, wherein: the cursory mechanism of communication includes casing and lower casing, it has the material of floating to go up the cavity built-in that casing and lower casing constitute, bluetooth controller one, income water detector, depth sensor, wireless communication network and LTE + GPS locator arrange the cavity in, just two contacts of income water detector expose outside the casing, the symmetry is equipped with two hangers on the casing lateral wall down, the cursory mechanism of communication links to each other with traping the cage body and cursory release mechanism respectively through tying up the cable on two hangers.

3. A wireless communication based trap cage according to claim 1, wherein: the buoy release mechanism comprises a case and a motor shell, the motor shell is fixed on the case, the Bluetooth controller II is arranged in the case, and a wiring port connected with the magnetic attraction element is arranged on the side wall of the case; the buoy releasing element comprises a motor arranged in a motor shell, the motor is connected with a Bluetooth controller, a driving screw rod is fixed on an output shaft of the motor, a sliding block is sleeved on the driving screw rod, a bolt integrally formed with the sliding block is arranged on the side wall of the sliding block, a positioning magnet is arranged at the bottom of the sliding block, two contact assemblies serving as positioning switches are arranged under the driving screw rod, each contact assembly comprises a position sensor, the position sensors are connected with the Bluetooth controller, a clamping block is fixed to the end of the driving screw rod, a U-shaped groove is formed in the upper end of the clamping block, through holes matched with the bolt are formed in the two side walls of the groove, and a hook is sleeved on the bolt.

4. A wireless communication based trap cage according to claim 3, wherein: and the side wall of the case is provided with a fixing bolt.

5. A wireless communication based trap cage according to claim 1, wherein: the magnetic attraction switch comprises a magnetic end and a non-magnetic end, the magnetic end comprises a magnetic end shell and a magnet fixed at the end part of the magnetic end shell, the non-magnetic end comprises a non-magnetic end shell and an iron block fixed at the end part of the non-magnetic end shell, and the magnetic attraction element is fixed on the iron block and connected with the Bluetooth controller through a lead.

6. A wireless communication based trap cage according to claim 5, wherein: the magnet is fixed in the magnetic end shell through a sealing adhesive layer, and the iron block and the magnetic attraction element are fixed in the non-magnetic end shell through the sealing adhesive layer.

7. A wireless communication based trap cage trapping method according to any one of claims 1-6, comprising the steps of:

s1 trap cage assembly: the magnetic switch is fixed at the entrance of the trapping cage body, the float releasing mechanism is fixed in the trapping cage body, and the float releasing mechanism and the trapping cage body are respectively connected with the communication float mechanism through cables;

s2 trap cage positioning: when underwater organisms break the magnetic suction switch and enter the trapping cage body, the magnetic suction element of the magnetic suction switch loses magnetism, the magnetic suction circuit is disconnected, the Bluetooth controller II sends a working instruction to the motor after obtaining a disconnection signal, the motor drives the sliding block to slide on the driving screw rod through the driving screw rod so as to drive the bolt to be separated from the clamping block, a cable fixed on the bolt is separated from the buoy releasing mechanism, the communication buoy mechanism floats upwards, when a contact of the water inlet detector is separated from the water surface, the depth sensor sends a signal to the Bluetooth controller, and after the Bluetooth controller I receives the signal, the position information collected by the LTE + GPS locator is sent to user equipment through a wireless communication network;

s3, after receiving the position information of the trap cage body, the user retracts the trap cage body.

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