CN113615654A - Electronic float and charger adapted to same - Google Patents

Abstract

The invention relates to the technical field of fishing gear, in particular to an electronic float and a charger matched with the electronic float. Wherein, the electronic float comprises a float body, and a float tail and a float tip which are arranged at the two ends of the float body. Float body is insulating seal structure of integration, and its inside is provided with the circuit board and the energy storage battery who is connected with the circuit board, is equipped with the positive pole and the negative pole that are used for charging on the float tip, and positive pole and negative pole are connected with the circuit board. The charger includes the casing and sets up the first circuit board in the casing, be equipped with at least one charging connection portion on the casing, be equipped with positive pole connecting portion and negative pole connecting portion in the charging connection portion, be used for respectively with float on the tip anodal and negative pole electricity be connected, charge to the electron float, when charging to the float, directly will float on the tip or float positive pole or negative pole on the tail and charge positive pole connecting portion and negative pole connecting portion electricity on the connecting portion and be connected, can charge to the electron float, this mode and current needs compare the mode of floating the body and breaking apart, this mode charges more conveniently.

Description

Electronic float and charger adapted to same

Technical Field

The invention relates to the technical field of fishing gear, in particular to an electronic float and a charger matched with the electronic float.

Background

Present electronic float, with the battery setting in the float, in order to charge to the battery, the float all sets the detachable structure to, for example, patent application number is 201621172631.2, it discloses a novel electronic float, it floats just designs into two parts, two parts pass through threaded connection, when needing to charge like this, just can open the float and connect the charger and charge to the battery, when such removable float structure is used for a long time, the sealed effect of junction can receive the influence, at the fishing in-process, float probably permeates moisture, and then damage inside circuit structure, make the float scrap. Meanwhile, the detachable electronic float needs to be opened during charging, and is extremely inconvenient.

Disclosure of Invention

The invention mainly solves the technical problems that the existing electronic float is easy to permeate water and is inconvenient to disassemble during charging.

An electronic float comprises a float body, a float tail and a float tip, wherein the float tail and the float tip are arranged at two ends of the float body;

the float body is an integrated insulating sealing structure, and a circuit board and an energy storage battery connected with the circuit board are arranged in the float body; and the floating tip or the floating tail is provided with a positive electrode and a negative electrode for charging, and the positive electrode and the negative electrode are electrically connected with the circuit board.

In one embodiment, the positive electrode and the negative electrode are a positive electrode conducting segment and a negative electrode conducting segment which are arranged on the drift tip or the drift tail and are respectively used for being electrically connected with a positive electrode output segment and a negative electrode output segment on a charger, and the positive electrode conducting segment and the negative electrode conducting segment are arranged at intervals and are respectively electrically connected with the circuit board.

In one embodiment, the float tip is further provided with a light-emitting device, and the light-emitting device is electrically connected with the circuit board for illumination.

In one embodiment, a magnetic switch is arranged in the circuit on the circuit board and used for controlling the on and off of a power supply circuit of the light-emitting device, so that the light-emitting device is controlled to be turned on and off.

In one embodiment, the light emitting device is a light emitting diode.

A charger for an electronic float comprises a charging connecting seat, wherein the charging connecting seat comprises a shell and a first circuit board arranged in the shell;

the electronic float is characterized in that at least one charging connecting part is arranged on the shell, and a positive connecting part and a negative connecting part are arranged in the charging connecting part and are respectively used for being electrically connected with a positive pole and a negative pole on the float tip or the float tail so as to charge the electronic float.

In one embodiment, the charging connection portion is a strip-shaped through hole or a strip-shaped groove, a positive output section and a negative output section are arranged on the inner side wall of the through hole or the strip-shaped groove, and the positive output section and the negative output section are respectively electrically connected with the first circuit board;

the positive output section and the negative output section are respectively used for being electrically connected with the positive conductive section and the negative conductive section on the float tip or the float tail so as to charge the electronic float.

In one embodiment, a permanent magnet or an electromagnet is arranged in the shell, an electromagnetic switch portion is arranged at a corresponding position on the shell, and when the electronic float is placed in the electromagnetic switch portion, the permanent magnet or the electromagnet sends out an electromagnetic signal to control the circuit in the electronic float to be conducted.

In one embodiment, the first circuit board is provided with a rectifying circuit, a voltage reduction circuit and a charge and discharge management circuit;

the input end of the rectification circuit is connected with a mains supply and is used for rectifying the input mains supply into high-voltage direct current, and the voltage reduction circuit is used for carrying out voltage reduction treatment on the rectified high-voltage direct current to obtain low-voltage direct current; the output end of the voltage reduction circuit is connected with the input end of the charge and discharge management circuit, and the charge and discharge management circuit is used for charging and discharging management of the float.

In one embodiment, the charging base is used for being connected with the charging connecting base in a plugging mode through a data line, and the charging base is used for being connected with a mains supply.

According to the electronic float and the charger adapted to the same, the electronic float comprises a float body, a float tail and a float tip, wherein the float tail and the float tip are arranged at two ends of the float body. Its float insulation sealing structure as an organic whole of body, inside moisture infiltration float body when avoiding fishing, damage inside circuit structure, its inside energy storage battery who is provided with the circuit board and is connected with the circuit board, be equipped with the anodal and the negative pole that are used for charging on the float tip, anodal and negative pole are connected with the circuit board. The charger is including the connecting seat that charges, the connecting seat that charges includes the casing and sets up the first circuit board in the casing, be equipped with at least one connecting portion that charges on the casing, be equipped with positive connecting portion and negative pole connecting portion in the connecting portion that charges, be used for respectively with float on the tip anodal and negative pole electricity be connected, charge to the electron float, when charging to the float, directly will float the tip or float anodal or negative pole on the tail and charge the positive connecting portion and the negative pole connecting portion electricity on the connecting portion and be connected, can charge to the electron float, this mode and current needs compare the mode of floating the body and taking apart, this mode charges more conveniently.

Drawings

FIG. 1 is a schematic view of a float according to an embodiment of the present application;

FIG. 2 is a schematic diagram of an internal circuit of the float according to the embodiment of the present application;

fig. 3 is a schematic structural diagram of a charger according to an embodiment of the present application from one perspective;

fig. 4 is a schematic structural diagram of a charger according to an embodiment of the present application from another perspective;

fig. 5 is a circuit diagram of a charger according to an embodiment of the present application.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The application provides an electron float and rather than the charger of adaptation, float the fashioned insulation sealing structure of body design integration in the electron float, like this moisture can not permeate in float 1 when the fishing to can not lead to the float to scrap because of damaging circuit board 11 and the circuit structure above it. Simultaneously will charge anodal and negative pole draw out to float on tip 2 or float tail 3, float tip 2 or float tail 3 design have anodal conducting segment 31 and the conducting segment 32 of negative pole of sectional type, need unnecessary wire isotructure like this, make the whole more pleasing to the eye of float, cooperate the charger of this application, insert the anodal conducting segment 31 and the conducting segment 32 of negative pole of float in charging connection portion 41, make anodal output section 411 and negative pole output section 412 be used for respectively with the anodal conducting segment and the negative pole conducting segment electricity on the tip are connected, in order to charge to the electron float. It is more convenient when the operation of charging like this, insert or place and to charge, also avoided floating the body design for split type structure for moisture gets into when leading to the fishing and floats in the body, damages whole float.

The first embodiment is as follows:

referring to fig. 1 and 2, the present embodiment provides an electronic float, which includes a float body 1, and a float tail 3 and a float tip 2 disposed at two ends of the float body 1.

Wherein, the float of this embodiment is integrated into one piece's insulating seal structure, and its inside is packaged with circuit board 11 and the energy storage battery 113 of being connected with circuit board 11 in advance, and moisture can not permeate in float 1 like this when the fishing to can not lead to the float to scrap because of damaging circuit board 11 and the circuit structure on it. In addition, in order to charge the energy storage battery 113 conveniently, in the embodiment, the floating tail 2 is provided with a positive electrode and a negative electrode for charging, and the positive electrode and the negative electrode are connected with the circuit board 11 through a lead inside the floating tail 2. The float structure of this embodiment need not unpack float body 1 apart during charging for more convenient when charging.

Specifically, the positive electrode and the negative electrode of this embodiment are a positive electrode conducting segment 31 and a negative electrode conducting segment 32 disposed on the float tail 2, and the positive electrode conducting segment 31 and the negative electrode conducting segment 32 are respectively used for being electrically connected to a positive electrode output segment and a negative electrode output segment on the charger, so as to form a charging loop to charge the energy storage battery 113.

Specifically, the floating tail 2 is provided with a positive conductive segment 31 and a negative conductive segment 32 at intervals, and the positive conductive segment and the negative conductive segment are respectively connected with the circuit board 11 through the wires inside the floating tail 2. Namely, on the floating tail 2, the positive conductive segment 31 and the negative conductive segment 32 are conductive metal layers, and the rest are insulating layers.

Wherein, in order to see clearly the float when fishing at night, the light emitting device is also arranged on the float tip in the embodiment, the light emitting device of the embodiment is a light emitting diode 21, the light emitting diode 21 is electrically connected with the circuit board 11 for night illumination, so that a fisherman can see clearly the float.

The magnetic switch 110 is further disposed on a conduction circuit between the energy storage battery 113 and the light emitting diode 21, and the magnetic switch 110 is configured to receive a magnetic field signal to control conduction and turn-off of a power supply circuit of the light emitting diode 21, so as to control on and off of the light emitting diode 21. For example, when fishing at night, the magnetic switch 110 is turned on by emitting a magnetic field using a switch adapted to the magnetic switch 110, so that the light emitting diode 21 is turned on.

Further, a rectifying circuit 112 is further disposed on the circuit board 11, and an input end of the rectifying circuit 112 is electrically connected to the positive electrode and the negative electrode, that is, electrically connected to the positive conductive segment 31 and the negative conductive segment 32, and is configured to rectify current input during charging.

Further, a voltage stabilizing circuit 111 is further disposed on the circuit board 11, an output end of the rectifying circuit 112 is connected to an input end of the voltage stabilizing circuit 111, and an output end of the voltage stabilizing circuit 111 is connected to a charging end of the energy storage battery 113. The rectified and regulated current charges the energy storage battery 113.

The float 1 of this embodiment may be one of a reed float, a balsa float, a paulownia float, or a foamed resin float.

The energy storage battery 113 of this embodiment may be one of a lithium battery, a nickel-chromium battery, or a lead-acid battery.

Example two

Referring to fig. 3 and 4, the present embodiment provides a charger adapted to an electronic float of the first embodiment, which includes a charging connector seat, the charging connector seat includes a housing 4 and a first circuit board 50 disposed in the housing 4. At least one charging connecting part 41 is arranged on the shell 4, and a positive electrode connecting part and a negative electrode connecting part are arranged in the charging connecting part 41 and are respectively used for being electrically connected with a positive electrode and a negative electrode on the float tip so as to charge the electronic float. Like this, only need place in charging connecting portion 41 department on the tip of floating the float or floating the tail during charging for positive pole connecting portion and negative pole connecting portion in charging connecting portion 41 are connected with the anodal conducting segment and the negative pole conducting segment electricity on the tip or floating the tail, charge to the electron float. This charging mode need not to open the float body, has avoided split type float body long-term use, and its junction infiltration moisture leads to the circuit structure harm of inside to it is scrapped to lead to the float, and is more convenient when charging.

Specifically, the charging connection portion 41 of this embodiment is a strip arc-shaped groove, the sidewall of the strip arc-shaped groove is provided with an anode output section 411 and a cathode output section 412 at intervals, the anode output section 411 and the cathode output section 412 are electrically connected to the first circuit board 50, and the first circuit board 50 supplies power to the anode output section 411 and the cathode output section 412. The positive output section 411 and the negative output section 412 are respectively used for being electrically connected with the positive conductive section and the negative conductive section on the float pin so as to charge the electronic float.

The positive output section 411 and the negative output section 412 are partially metal conductive layers, and the rest parts are insulating materials of an insulating shell, so that when the charging is carried out, only the floating tip needs to be clamped into or placed in the arc-shaped groove, the positive conductive section and the negative conductive section on the floating tip are just in contact conduction with the positive output section 411 and the negative output section 412, and the charging can be realized.

In another embodiment, the charging connection portion 41 may also be a strip-shaped through hole, a positive output segment and a negative output segment are disposed at an interval inside the strip-shaped through hole, and during charging, the floating tip or the floating tail is inserted into the strip-shaped through hole, so that the positive output segment and the negative output segment are electrically connected to the positive conductive segment and the negative conductive segment on the floating tip, respectively, to charge the electronic float.

Preferably, the charging connection portion 41 of this embodiment is provided with two, and two floats can be charged at the same time, and in another embodiment, one or more floats can be provided, and a plurality of electronic floats can be charged at the same time, which is not described in this embodiment.

Further, be equipped with the permanent magnet in the casing 4 of this embodiment, be equipped with electromagnetic switch portion 42 corresponding position on casing 4, the electromagnetic switch portion of this embodiment is a U type groove, and when the float was placed in the electromagnetic switch portion, the magnetic field that the inside permanent magnet of casing sent can control electromagnetic switch and switch on in the electron float, and then makes the circuit of the emitting diode of electron float switch on for it is luminous, is used for throwing light on to the float at night.

In another embodiment, the permanent magnet of this embodiment can also be replaced by an electromagnet, and the electromagnet sends out an electromagnetic signal when being electrified to control the circuit in the electronic float to be conducted.

As shown in fig. 5, the charger for the electronic float of the present embodiment has a rectifying circuit 51 and a voltage-reducing circuit 52 on a first circuit board 50; the input end of the rectifying circuit 51 is electrically connected with a commercial charging interface 43, the charging interface 43 is used for connecting a charging seat or commercial power, the rectifying circuit 51 is used for rectifying the input commercial power into high-voltage direct current, and the voltage reducing circuit 52 is used for reducing the voltage of the rectified high-voltage direct current to obtain low-voltage direct current, so that the electronic float is conveniently charged.

Furthermore, a charging and discharging management circuit 53 is further disposed on the first circuit board 50, an output terminal of the voltage reduction circuit 52 is electrically connected to an input terminal of the charging and discharging management circuit 53, and the charging and discharging management circuit 53 (i.e., the conventional BMS circuit) is used for charging and discharging the float, so as to prevent the component from being burned out due to overcharge or large charging current.

In an embodiment, the charging interface 43 in this embodiment can be directly replaced by a plug, that is, only used for connecting a socket, so that the electronic float can be charged.

In this embodiment can dismantle for this connecting seat, under the volume, can carry about go out the fishing, because set up it into split type, still include a charging seat rather than the adaptation promptly, be similar to the charging seat of cell-phone, mainly used and socket connection, the interface that charges of this embodiment is the USB interface, connects through the USB interface on USB data line and the charging seat, realizes charging the electron float.

In another embodiment, the rectifying circuit 51, the voltage-reducing circuit 52 and the charge-discharge management circuit 53 of this embodiment may also be integrated into a charging seat, that is, only a permanent magnet is disposed in the charging seat of this embodiment to function as an electromagnetic switch, and a necessary connection circuit is also disposed to connect the charging seat with the positive output section 411 and the negative output section 412.

Wherein, all be equipped with rectifier circuit in the charger of electron float and rather than adaptation in this embodiment, can carry out twice rectification to the commercial power, can guarantee that the input is more stable for the electric current that energy storage battery 113 charges, avoids damaging energy storage battery 113. In an embodiment, a rectifying circuit can be arranged in the electronic float or a charger matched with the electronic float to achieve a rectifying effect.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims (10)

1. An electronic float is characterized by comprising a float body, a float tail and a float tip, wherein the float tail and the float tip are arranged at two ends of the float body;

the float body is an integrated insulating sealing structure, and a circuit board and an energy storage battery connected with the circuit board are arranged in the float body; and the floating tip or the floating tail is provided with a positive electrode and a negative electrode for charging, and the positive electrode and the negative electrode are electrically connected with the circuit board.

2. The electronic float of claim 1, wherein the positive and negative electrodes are a positive electrode conducting segment and a negative electrode conducting segment disposed on the float tip or float tail, and are respectively used for electrically connecting with a positive electrode output segment and a negative electrode output segment on a charger, and the positive electrode conducting segment and the negative electrode conducting segment are disposed at intervals and are respectively electrically connected with the circuit board.

3. The electronic float of claim 2, wherein a light emitting device is further provided on said float tip, said light emitting device being electrically connected to said circuit board for illumination.

4. The electronic float of claim 3, wherein a magnetic switch is disposed in the circuit on the circuit board for controlling the power supply circuit of the light emitting device to be turned on and off, thereby controlling the light emitting device to be turned on and off.

5. The electronic float of claim 3, wherein the light emitting device is a light emitting diode.

6. A charger for an electronic float is characterized by comprising a charging connecting seat, wherein the charging connecting seat comprises a shell and a first circuit board arranged in the shell;

the electronic float is characterized in that at least one charging connecting part is arranged on the shell, and a positive connecting part and a negative connecting part are arranged in the charging connecting part and are respectively used for being electrically connected with a positive pole and a negative pole on the float tip or the float tail so as to charge the electronic float.

7. The charger for the electronic float according to claim 6, wherein the charging connection part is a strip-shaped through hole or a strip-shaped groove, the inner side wall of the through hole or the strip-shaped groove is provided with a positive output section and a negative output section, and the positive output section and the negative output section are respectively electrically connected with the first circuit board;

the positive output section and the negative output section are respectively used for being electrically connected with the positive conductive section and the negative conductive section on the float tip or the float tail so as to charge the electronic float.

8. The charger according to claim 7, wherein a permanent magnet or an electromagnet is disposed in the housing, an electromagnetic switch portion is disposed at a corresponding position on the housing, and when the float is placed in the electromagnetic switch portion, the permanent magnet or the electromagnet sends out an electromagnetic signal to control the circuit in the electronic float to be turned on.

9. The charger for the electronic float according to claim 8, wherein the first circuit board is provided with a rectifying circuit, a voltage-reducing circuit and a charging and discharging management circuit;

the input end of the rectification circuit is connected with a mains supply and is used for rectifying the input mains supply into high-voltage direct current, and the voltage reduction circuit is used for carrying out voltage reduction treatment on the rectified high-voltage direct current to obtain low-voltage direct current; the output end of the voltage reduction circuit is connected with the input end of the charge and discharge management circuit, and the charge and discharge management circuit is used for charging and discharging management of the float.

10. The charger for the electronic float according to claim 9, further comprising a charging seat, wherein the charging seat is connected to the charging connecting seat by a data line in a plug-in manner, and the charging seat is connected to a commercial power.

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