CN215188929U - Novel cursory of modularization with response function - Google Patents

Abstract

The invention provides a novel modularized buoy with an induction function, which is characterized by comprising the following components: the sealing sleeve, the floating sleeve and the floating foot; the floating sleeve is sleeved on the sealing sleeve; the upper end of the sealing sleeve extends to the outside of the floating sleeve; a light-emitting element is arranged inside the upper end of the sealing sleeve, and a control circuit module and a battery are arranged inside the lower end of the sealing sleeve; the light-emitting element and the battery are both connected with the control circuit module; the upper end of the sealing sleeve is provided with a first electrode and a second electrode which are connected with the control circuit module; the lower end of the floating sleeve is provided with a fourth electrode and a floating pin which are connected with the control circuit module. The utility model discloses a modular design has improved packaging efficiency and water-proof effects, and sets up the different limit in a plurality of height positions on cursory surface, thereby can send the light of different colours according to the different control light-emitting component of water level, and the prompt effect is more accurate, and because there is the light to be fit for fishing night more.

Description

Novel cursory of modularization with response function

Technical Field

The invention relates to the field of floats, in particular to a novel modularized float with an induction function.

Background

The fishing float is a tool for the information reaction of fish biting when fishing. People can judge the eating condition of the fish through the action of the float so as to determine the timing of lifting the rod, and can judge what fish is biting the hook through the action of the float, so that the float is an important link for harvesting good and bad fishing. Whether a fish is hooked is judged by the length change of the display of the mesh number of the float exposed out of the water surface or the fact that the fish is submerged in the water, and the float needs to be stared without eyes in order to avoid missing the timing of lifting the rod. However, the float function becomes weak for the amateurs who are fishing at night or far fishing, and the float is difficult to see due to the influence of light during night fishing. Or the float is difficult to see when the distance between the person and the float is far.

People invent the luminous float, increase the success rate of receiving the pole, traditional float generally adopts the form of gravity-feed to give out light, but current gravity-feed float is not very intelligent, except that the fish is caught a hook and can produce the gravity-feed and give out light, the shake that blows and the shake that rivers lead to all can be the change that the float senses gravity to appear luminous phenomenon, this all causes the erroneous judgement of fishing easily, influences fishing efficiency. In addition, the traditional luminous float adopts a disposable battery, and has no charging function, so that the battery needs to be frequently replaced, and the waste of resources is caused.

Most of the traditional floats are of an integrally formed structure, and internal devices are thrown away when being damaged, so that resource waste and fishing cost increase are caused; or adopt detachable structure, but this kind of structure spare part is too many, and the equipment is troublesome, and sealed effect is not good.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a novel modularized float with an induction function, the assembly efficiency and the waterproof effect are improved through a modularized design, a plurality of poles with different heights are arranged on the surface of the float, the light-emitting elements can be controlled to emit light with different colors according to different water levels, the prompt effect is more accurate, and the novel modularized float with the induction function is more suitable for night fishing and long-distance fishing due to the fact that the light is bright.

The technical scheme of the invention is as follows:

a novel cursory of modularization with response function includes: a sealing sleeve, a floating sleeve and a floating foot; the floating sleeve is sleeved on the sealing sleeve; the upper end of the sealing sleeve extends to the outside of the floating sleeve; a light-emitting element is arranged inside the upper end of the sealing sleeve, and a control circuit module and a battery are arranged inside the lower end of the sealing sleeve; the light-emitting element and the battery are both connected with the control circuit module; the upper end of the sealing sleeve is provided with a first electrode and a second electrode which are connected with the control circuit module; the lower end of the floating sleeve is provided with a fourth electrode and a floating foot which are connected with the control circuit module.

Preferably, a cavity for placing the sealing sleeve is arranged in the floating sleeve; the lower end of the floating sleeve and the lower end of the sealing sleeve are provided with a second reserved cavity and a first connecting hole for mounting a fourth electrode; the mounting floating foot comprises a third electrode and a first strip-shaped object arranged on the third electrode; the bottom of the floating sleeve and the bottom of the sealing sleeve are provided with a first reserved cavity and a second connecting hole for installing a first strip-shaped object; the upper end of the sealing sleeve is respectively provided with a third reserved cavity for placing the first electrode and a fourth reserved cavity for placing the second electrode.

Preferably, the sealing sleeve is integrally formed by light-transmitting plastic.

Preferably, the third electrode is of an annular structure.

Preferably, the sealing kit comprises a first sealing unit and a second sealing unit; the first sealing unit is detachably connected with the second sealing unit; the first sealing unit includes a first sealing unit body for mounting a light emitting element and a connecting member; a third reserved cavity and a fourth reserved cavity are arranged on the first sealing unit body; the second sealing unit comprises a first mounting groove unit for mounting the control circuit module and the battery and a second mounting groove unit for mounting the connecting part; the lower end of the second sealing unit is provided with a first connecting hole; and a second connecting hole is formed in the bottom of the second sealing unit.

Preferably, the first sealing unit is made of light-transmitting plastic; and a sealing gasket is arranged at the joint of the first sealing unit and the second sealing unit.

Preferably, the first electrode, the second electrode, the fourth electrode and the first strip are strip-shaped metals; the second reserved cavity, the first connecting hole, the first reserved cavity, the second connecting hole, the third reserved cavity and the fourth reserved cavity are strip-shaped through holes corresponding to the strip-shaped metal in shape.

Preferably, the first electrode, the second electrode and the fourth electrode are ring-shaped metals; the third reserved cavity, the fourth reserved cavity and the second reserved cavity are annular through holes corresponding to the shape of the annular metal; a first connecting point is arranged in the first connecting hole; the first connecting point and the first strip-shaped object are strip-shaped metal; the first connecting hole, the second connecting hole and the first reserved cavity are strip-shaped through holes corresponding to the strip-shaped metal in shape; the fourth electrode is connected with the control circuit module through a first connecting point.

Preferably, the surface of the floating sleeve is of an arc structure;

preferably, the upper part of the floating sleeve is provided with a first identification area; and a second identification area is arranged at the lower part of the floating sleeve.

The invention has the beneficial effects that:

1. the utility model is provided with a plurality of poles with different height positions, and realizes the connection between different poles according to the difference of water levels, thereby controlling the luminous element to emit lights with different colors as indication, and being more suitable for night fishing and long-distance fishing enthusiasts; when the float is positioned under water, the float foot is communicated with the fourth pole point, so that the light-emitting element is controlled to display light of a first color, no fish is hooked, and the light-emitting element is normally bright when the float is positioned under water, so that the fishing rod is suitable for night fishing and long-distance fishing; when the fish hook receives the pulling force, the float sinks, and the float foot is communicated with the second pole point, so that the light-emitting element is controlled to display light of a second color, a prompt effect is achieved, and the prompt effect is more accurate and sensitive; when the floating pin and the first pole are respectively connected with the anode and the cathode of the charger, the battery can be charged, so that repeated use is realized, and energy is saved.

2. The utility model discloses being assembled by sealed external member, floating sleeve and three kinds of modules of floating foot and forming, circuit components and parts are sealed in sealed external member, simple structure, and water-proof effects is good, and in the industrial production process, modular design has improved the packaging efficiency, practices thrift the cost, the maintenance in the later stage of being convenient for simultaneously.

3. The sealing sleeve of the utility model adopts an integral type and a detachable luminous element, the integral type is more convenient for production and assembly, and the waterproof performance is better; the detachable maintenance and the replacement that not only can realize light emitting component of light emitting component can also maintain and replace the components and parts in the sealed external member simultaneously.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is apparent that the drawings in the following description are only a part of the embodiments of the present invention, and modifications without creative efforts made within the scope of the teaching of the inventive concept can be used as other embodiments of the present invention.

FIG. 1 is a schematic structural diagram according to a first embodiment;

FIG. 2 is a schematic structural diagram of a floating sleeve according to an embodiment;

FIG. 3 is a schematic view of a sealing assembly according to an embodiment;

FIG. 4 is a schematic structural view of the floating leg of the present invention;

FIG. 5 is a schematic structural diagram of the second embodiment;

FIG. 6 is a sectional view of the second embodiment;

FIG. 7 is a schematic structural view of a second floating jacket according to an embodiment;

FIG. 8 is a schematic structural diagram of a second sealing sleeve according to an embodiment;

FIG. 9 is a sectional view of a third embodiment;

fig. 10 is a schematic structural diagram of a third second sealing unit according to the embodiment.

Fig. 11 is a schematic structural diagram of a third first sealing unit according to the embodiment.

Fig. 12 is a schematic circuit diagram of the present invention.

Description of reference numerals: a sealing sleeve 1; a floating sleeve 2; a first identification area 201; a second identification area 202; a cavity 203; a first reserve chamber 204; a second reserve chamber 205; a first electrode 3; a second electrode 4; a floating foot 5; a third electrode 501; a first bar 502; a fourth electrode 6; a control circuit module 7; a light emitting element 8; a second connecting post 802; a battery 9; a first connection hole 101; a first connection point 1011; a second connection hole 102; a first sealing unit 103; a first sealing unit body 1031; a connecting member 1032; a second sealing unit 104; a sealing gasket 105; a mounting groove 106; a first mounting groove unit 1061; a second mounting groove unit 1062; a third reserved chamber 107; a fourth reserve chamber 108.

Detailed Description

The present invention will be further described with reference to the accompanying drawings so as to facilitate the understanding of the present invention by those skilled in the art.

All directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship, movement, etc. of each component in a specific posture (as shown in the figure), and if the specific posture is changed, the directional indicator is changed correspondingly; all technical features, such as "first", "second", or "first", "second", etc., named with a number are used for reference only, without meaning to indicate quantity or importance; all terms "connected" or the like are to be interpreted broadly, e.g., as meaning a mechanical or electrical connection, a direct or indirect connection, a fixed or removable connection, etc., as determined by the actual intent of the solution; the technical features of the embodiments can be freely combined without conflict, as long as a corresponding technical solution for solving the technical problem can be formed.

Example one

As shown in fig. 1, a novel modularized buoy with sensing function comprises: the sealing sleeve component 1, the floating sleeve 2 and the floating foot 5; the floating sleeve 2 is sleeved on the sealing sleeve 1; the upper end of the sealing sleeve 1 extends to the outside of the floating sleeve 2; a light-emitting element 8 is arranged inside the upper end of the sealing sleeve 1, and a control circuit module 7 and a battery 9 are arranged inside the lower end of the sealing sleeve 1; the light-emitting element 8 and the battery 9 are both connected with the control circuit module 7; the upper end of the sealing sleeve 1 is provided with a first electrode 3 and a second electrode 4 which are connected with a control circuit module 7; the lower end of the floating sleeve 2 is provided with a fourth electrode 6 and a floating foot 5 which are connected with a control circuit module 7. In this embodiment, preferably, the sealing sleeve 1 is integrally formed by using a transparent plastic, the light-emitting element 8, the wires, the control circuit module 7 and the battery 9 are all connected in advance before the sealing sleeve 1 is formed, and then the sealing sleeve is molded by using the transparent plastic, so that a good waterproof effect can be achieved, and the preset wires can be connected with an electrode which is installed later, so as to achieve the connection between the electrode and the control circuit module 7.

As shown in fig. 2-4, in the present embodiment, a cavity 203 for placing the sealing sleeve 1 is provided in the floating sleeve 2; the lower end of the floating sleeve 2 and the lower end of the sealing sleeve 1 are provided with a second reserved cavity 205 and a first connecting hole 101 for installing the fourth electrode 6; the mounting float foot 5 comprises a third electrode 501 and a first strip 502 arranged on the third electrode 501; the bottom of the floating sleeve 2 and the bottom of the sealing sleeve 1 are provided with a first reserved cavity 204 and a second connecting hole 102 for installing a first strip 502; the upper end of the sealing sleeve 1 is provided with a third pre-chamber 107 for placing the first electrode 3 and a fourth pre-chamber 108 for placing the second electrode 4, respectively.

In this embodiment, it is preferable that the first electrode 3, the second electrode 4, the fourth electrode 6, and the first bar 502 are bar-shaped metals; the second reserved cavity 205, the first connection hole 101, the first reserved cavity 204, the second connection hole 102, the third reserved cavity 107 and the fourth reserved cavity 108 are strip-shaped through holes corresponding to the shape of the strip-shaped metal. In the specific operation, lines for connecting the control circuit module 7 are preset at the first connecting hole 101, the second connecting hole 102, the third reserved cavity 107 and the fourth reserved cavity 108 of the sealing sleeve member 1, the sealing sleeve member 1 is installed in the cavity 203 in the floating sleeve 2, at this time, the first connecting hole 101 is aligned with the second reserved cavity 205, the first reserved cavity 204 is aligned with the second connecting hole 102, and then the first electrode 3 and the second electrode 4 are inserted into the third reserved cavity 107 and the fourth reserved cavity 108 and connected with the control circuit module 7 through the preset lines; the fourth electrode 6 is inserted into the second reserved cavity 205 and the first connection hole 101 and is connected with the control circuit module 7 through a preset line; the floating foot 5 is inserted into the first reserved cavity 204 and the second connecting hole 102, and is connected with the control circuit module 7 through a preset line.

As shown in fig. 4, in the present embodiment, the third electrode 501 is a ring structure, which can be conveniently connected to a fishing line.

As shown in fig. 1, in the present embodiment, the surface of the floating jacket 2 has an arc structure to reduce resistance with water, but the shape of the floating jacket 2 is not limited and may be a cone, an ellipse, a circle, or the like. The upper part of the floating sleeve 2 is provided with a first identification area 201; the lower part of the floating sleeve 2 is provided with a second identification area 202 which can be used for observing the specific position of the float in water in the daytime, and the identification area can be distinguished by coating different colors or pasting stickers with different colors.

In specific implementation, the electrodes can be made of conductive materials such as metal, alloy, carbon and the like, and the floating sleeve 2 can be made of light materials such as plastic, wood materials, reed materials and the like.

In a specific embodiment, the control circuit module 7 includes a plurality of switching logic circuits, and power input terminals of the switching logic circuits are connected to positive and negative electrodes of the battery 9, and are used for controlling the light emitting elements 8 to operate. Preferably, the light emitting element 8 is a two-color light emitting diode, such as a green light emitting diode and a red light emitting diode, respectively, and the control circuit module 7 includes a resistor, a transistor, and an electric wire. The specific circuit connection relationship is shown in fig. 12: the positive electrode of a battery 9 is connected with the input end of a resistor R1, the positive electrode of the battery 9 is further connected with a floating pin 5, the output end of a resistor R1 is respectively connected with the positive electrodes of a green light-emitting diode D1 and a red light-emitting diode D2, the negative electrodes of the green light-emitting diode D1 and the red light-emitting diode D2 are respectively connected with the collectors of triodes GB1 and GB2, the emitters of the triodes GB1 and GB2 are respectively connected with the negative electrode of the battery 9, the bases of the triodes GB1 and GB2 are respectively connected with a fourth electrode 6 and a second electrode 4, and the negative electrode of the battery is further connected with a first electrode 3.

When the float foot 5 is connected with the fourth electrode 6, the light emitting element 8 is controlled to display light of a first color; when the float foot 5 is connected with the second electrode 4, the light emitting element 8 is controlled to display light of a second color; when the float foot 5 is connected to the first electrode 3, the battery 9 can be charged. The concrete expression is as follows: before use, the circuit of the float is in a static working state, the current is almost zero, after the float is put into water, the water is used as a conductor to communicate the float pin 5 with the fourth electrode 6, and therefore the brightness of the green light emitting diode D1 is controlled; when a fish catches a hook or floats and sinks, the floating foot 5 is communicated with the fourth electrode 6, the floating foot 5 is communicated with the second electrode 4 at the same time, so that the green light-emitting diode D1 is controlled to be turned off, the red light-emitting diode D2 is controlled to be lightened, or the green light-emitting diode D1 and the red light-emitting diode D2 are lightened at the same time, and finally, light with a color completely different from that of green light is displayed to distinguish the fish. The change of the color of the light-emitting element 8 can provide better prompt for the user to the change situation of the position of the buoy, and the buoy is more accurate than a simple gravity reaction buoy. When the buoy leaves the water surface, the luminous elements 8 stop emitting light completely, thereby saving the discharging time of the battery. The floating pin 5 is connected with the anode of the charging plug, the first electrode 3 is connected with the cathode of the charging plug, and the charging plug is inserted into the socket, so that the battery 9 can be charged.

Example two

As shown in fig. 5, a novel modularized buoy with sensing function comprises: the sealing sleeve component 1, the floating sleeve 2 and the floating foot 5; the floating sleeve 2 is sleeved on the sealing sleeve 1; the upper end of the sealing sleeve 1 extends to the outside of the floating sleeve 2; a light-emitting element 8 is arranged inside the upper end of the sealing sleeve 1, and a control circuit module 7 and a battery 9 are arranged inside the lower end of the sealing sleeve 1; the light-emitting element 8 and the battery 9 are both connected with the control circuit module 7; the upper end of the sealing sleeve 1 is provided with a first electrode 3 and a second electrode 4 which are connected with a control circuit module 7; the lower end of the floating sleeve 2 is provided with a fourth electrode 6 and a floating foot 5 which are connected with a control circuit module 7. In a specific operation, the sealing sleeve 1 may be integrally formed or may be a split structure, and preferably, the sealing sleeve 1 may be composed of a left part and a right part, wherein a plurality of mounting grooves 106 are formed in the left part and the right part, and the combination can be used for accommodating and fixing the light emitting element 8, the electric wire, the control circuit module 7 and the battery 9. All the components are connected in advance in the sealing sleeve 1, then the left part and the right part of the sealing sleeve 1 are fixed, namely the assembly of the sealing sleeve 1 is completed, and the preset wires can be connected with the electrodes which are arranged later, so that the electrodes are connected with the control circuit module 7.

As shown in fig. 6-8, in the present embodiment, a cavity 203 for placing the sealing sleeve 1 is provided in the floating sleeve 2; the lower end of the floating sleeve 2 and the lower end of the sealing sleeve 1 are provided with a second reserved cavity 205 and a first connecting hole 101 for installing the fourth electrode 6; the mounting float foot 5 comprises a third electrode 501 and a first strip 502 arranged on the third electrode 501; the bottom of the floating sleeve 2 and the bottom of the sealing sleeve 1 are provided with a first reserved cavity 204 and a second connecting hole 102 for installing a first strip 502; the upper end of the sealing sleeve 1 is provided with a third pre-chamber 107 for placing the first electrode 3 and a fourth pre-chamber 108 for placing the second electrode 4, respectively.

In this embodiment, the first electrode 3, the second electrode 4, and the fourth electrode 6 are preferably ring-shaped metals, and the ring shape may be a thin-sheet ring-shaped metal or a ring-shaped metal with a certain thickness; the third reserved cavity 107, the fourth reserved cavity 108 and the second reserved cavity 205 are annular through holes corresponding to the shape of annular metal; a first connection point 1011 is arranged in the first connection hole 101; the first connection point 1011 and the first bar 502 are bar metals; the first connecting hole 101, the second connecting hole 102 and the first reserved cavity 204 are strip-shaped through holes corresponding to the shape of the strip-shaped metal; the fourth electrode 6 is connected to the control circuit module 7 via a first connection point 1011. In the specific operation, lines for connecting the control circuit module 7 are preset at the first connecting hole 101, the second connecting hole 102, the third reserved cavity 107 and the fourth reserved cavity 108 of the sealing sleeve member 1, the sealing sleeve member 1 is installed in the cavity 203 in the floating sleeve 2, at this time, the first connecting hole 101 is aligned with the second reserved cavity 205, the first reserved cavity 204 is aligned with the second connecting hole 102, then the first electrode 3 and the second electrode 4 are embedded into the third reserved cavity 107 and the fourth reserved cavity 108 and are connected with the control circuit module 7 through the preset lines; the first connecting point 1011 is inserted into the first connecting hole 101 and connected with the control circuit module 7 through a preset line, the fourth electrode 6 is embedded into the second reserved cavity 205, and the embedded fourth electrode 6 is connected with the first connecting point 1011, so that the fourth electrode 6 is connected with the control circuit module 7; the floating foot 5 is inserted into the first reserved cavity 204 and the second connecting hole 102, and is connected with the control circuit module 7 through a preset circuit.

As shown in fig. 4, in the present embodiment, the third electrode 501 is a ring structure, which can be conveniently connected to a fishing line.

As shown in fig. 5, in the present embodiment, the surface of the floating jacket 2 has an arc structure to reduce resistance with water, but the shape of the floating jacket 2 is not limited and may be a cone, an ellipse, a circle, or the like. The upper portion of floating sleeve 2 is provided with first sign district 201, and the lower part of floating sleeve 2 is provided with second sign district 202, can be used to the specific position of observing the float in aqueous daytime, and this sign district can distinguish through the sticker of coating different colours or pasting different colours.

In specific implementation, the electrodes can be made of conductive materials such as metal, alloy, carbon and the like, and the floating sleeve 2 can be made of light materials such as plastic, wood materials, reed materials and the like.

In a specific embodiment, the control circuit module 7 includes a plurality of switching logic circuits, and power input terminals of the switching logic circuits are connected to positive and negative electrodes of the battery 9, and are used for controlling the light emitting elements 8 to operate. Preferably, the light emitting element 8 is a two-color light emitting diode, such as a green light emitting diode and a red light emitting diode, respectively, and the control circuit module 7 includes a resistor, a transistor, and an electric wire. The specific circuit connection relationship and operation principle are the same as those of the first embodiment, and therefore, will not be described herein.

EXAMPLE III

As shown in fig. 9, a novel modularized buoy with sensing function comprises: the sealing sleeve component 1, the floating sleeve 2 and the floating foot 5; the floating sleeve 2 is sleeved on the sealing sleeve 1; the upper end of the sealing sleeve 1 extends to the outside of the floating sleeve 2; a light-emitting element 8 is arranged inside the upper end of the sealing sleeve 1, and a control circuit module 7 and a battery 9 are arranged inside the lower end of the sealing sleeve 1; the light-emitting element 8 and the battery 9 are both connected with the control circuit module 7; the upper end of the sealing sleeve 1 is provided with a first electrode 3 and a second electrode 4 which are connected with a control circuit module 7; the lower end of the floating sleeve 2 is provided with a fourth electrode 6 and a floating foot 5 which are connected with a control circuit module 7.

As shown in fig. 7 and 10, preferably, a cavity 203 for placing the sealing sleeve 1 is arranged in the floating sleeve 2; the lower end of the floating sleeve 2 and the lower end of the sealing sleeve 1 are provided with a second reserved cavity 205 and a first connecting hole 101 for installing the fourth electrode 6; the mounting float foot 5 comprises a third electrode 501 and a first strip 502 arranged on the third electrode 501; the bottom of the floating sleeve 2 and the bottom of the sealing sleeve 1 are provided with a first reserved cavity 204 and a second connecting hole 102 for installing a first strip 502; the upper end of the sealing sleeve 1 is provided with a third pre-chamber 107 for placing the first electrode 3 and a fourth pre-chamber 108 for placing the second electrode 4, respectively.

In the present embodiment, as shown in fig. 10, it is preferable that the sealing kit 1 includes a first sealing unit 103 and a second sealing unit 104; the first sealing unit 103 is detachably connected with the second sealing unit 104; the first sealing unit 103 includes a first sealing unit body 1031 for mounting the light emitting element 8 and a connection member 1032; the first sealing unit body 1031 is provided with a third reserved chamber 107 and a fourth reserved chamber 108; the second sealing unit 104 includes a first mounting groove unit 1061 for mounting the control circuit module 7 and the battery 9, and a second mounting groove unit 1062 for mounting the connection member 1032; the lower end of the second sealing unit 104 is provided with a first connection hole 101; the bottom of the second sealing unit 104 is provided with a second connection hole 102.

As shown in fig. 10 and 11, the first electrode 3, the second electrode 4, and the fourth electrode 6 are preferably made of a ring-shaped metal; the third reserved cavity 107, the fourth reserved cavity 108 and the second reserved cavity 205 are annular through holes corresponding to the shape of annular metal; a first connection point 1011 is arranged in the first connection hole 101; the first connection point 1011 and the first bar 502 are bar metals; the first connecting hole 101, the second connecting hole 102 and the first reserved cavity 204 are strip-shaped through holes corresponding to the shape of the strip-shaped metal; the fourth electrode 6 is connected to the control circuit module 7 via a first connection point 1011.

In this embodiment, the first sealing unit 103 is preferably made of light-transmitting plastic. In a specific operation, the light emitting element 8 and the line are arranged in the first sealing unit 103 in advance, and specifically, the line is arranged at each of the light emitting element 8, the third reserved cavity 107 and the fourth reserved cavity 108; the second sealing unit 104 is provided with a circuit and a circuit connection point corresponding to the circuit in the first sealing unit 103, in addition to the control circuit module 7 and the battery 9, and connects the electrodes, the light emitting element 8, and the battery 9 to the control circuit module 7 through the circuits. Circuits for connecting the control circuit module 7 are preset in the first connecting hole 101 and the second connecting hole 102 of the second sealing unit 104, and when the first sealing unit 103 and the second sealing unit 104 are assembled, the circuit in the first sealing unit 103 is connected with the circuit connecting point with the corresponding function in the second sealing unit 104 to form a passage, so that the electronic component in the first sealing unit 103 is connected with the control circuit module 7.

In a specific operation, the assembled sealing sleeve 1 is installed into the cavity 203 in the floating sleeve 2, at this time, the first connection hole 101 is aligned with the second reserved cavity 205, the first reserved cavity 204 is aligned with the second connection hole 102, and then the first electrode 3 and the second electrode 4 are embedded into the third reserved cavity 107 and the fourth reserved cavity 108 and connected with the control circuit module 7 through a preset line. The first connection point 1011 is inserted into the first connection hole 101 and connected to the control circuit module 7 through a preset line, the fourth electrode 6 is embedded into the second reserved cavity 205, and the embedded fourth electrode 6 is connected to the first connection point 1011, so that the fourth electrode 6 is connected to the control circuit module 7. The floating foot 5 is inserted into the first reserved cavity 204 and the second connecting hole 102, and is connected with the control circuit module 7 through a preset circuit.

A sealing gasket 105 is further arranged at the joint of the first sealing unit 103 and the second sealing unit 104, and is used for sealing a gap between the first sealing unit 103 and the second sealing unit 104, so that the waterproof effect is improved.

As shown in fig. 4, in the present embodiment, the third electrode 501 is a ring structure, which can be conveniently connected to a fishing line.

As shown in fig. 5, in the present embodiment, the surface of the floating jacket 2 has an arc structure to reduce resistance with water, but the shape of the floating jacket 2 is not limited and may be a cone, an ellipse, a circle, or the like. The upper portion of floating sleeve 2 is provided with first sign district 201, and the lower part of floating sleeve 2 is provided with second sign district 202, can be used to the specific position of observing the float in aqueous daytime, and this sign district can distinguish through the sticker of coating different colours or pasting different colours.

In specific implementation, the electrodes can be made of conductive materials such as metal, alloy, carbon and the like, and the floating sleeve 2 can be made of light materials such as plastic, wood materials, reed materials and the like.

In a specific embodiment, the control circuit module 7 includes a plurality of switching logic circuits, and power input terminals of the switching logic circuits are connected to positive and negative electrodes of the battery 9, and are used for controlling the light emitting elements 8 to operate. Preferably, the light emitting element 8 is a two-color light emitting diode, such as a green light emitting diode and a red light emitting diode, respectively, and the control circuit module 7 includes a resistor, a transistor, and an electric wire. The specific circuit connection relationship and operation principle are the same as those of the first embodiment, and therefore, will not be described herein.

The parts of the invention not described in detail can be realized by the prior art, and the invention is not limited.

The above examples are only for illustrating the preferred embodiments of the present invention and are not to be construed as limiting the invention, and those skilled in the art can change the embodiments and applications of the present invention according to the spirit of the present invention, and the content of the present description should not be construed as limiting the invention.

Claims (10)

1. The utility model provides a novel cursory of modularization with response function which characterized in that includes: a sealing sleeve, a floating sleeve and a floating foot; the floating sleeve is sleeved on the sealing sleeve; the upper end of the sealing sleeve extends to the outside of the floating sleeve; a light-emitting element is arranged inside the upper end of the sealing sleeve, and a control circuit module and a battery are arranged inside the lower end of the sealing sleeve; the light-emitting element and the battery are both connected with the control circuit module; the upper end of the sealing sleeve is provided with a first electrode and a second electrode which are connected with the control circuit module; the lower end of the floating sleeve is provided with a fourth electrode and a floating foot which are connected with the control circuit module.

2. The novel modularized buoy with the induction function, as claimed in claim 1, is characterized in that a cavity for placing a sealing sleeve is arranged in the floating sleeve; the lower end of the floating sleeve and the lower end of the sealing sleeve are provided with a second reserved cavity and a first connecting hole for mounting a fourth electrode; the floating foot comprises a third electrode and a first strip-shaped object arranged on the third electrode; the bottom of the floating sleeve and the bottom of the sealing sleeve are provided with a first reserved cavity and a second connecting hole for installing a first strip-shaped object; the upper end of the sealing sleeve is respectively provided with a third reserved cavity for placing the first electrode and a fourth reserved cavity for placing the second electrode.

3. The novel modular buoy of claim 2, wherein the sealing sleeve is integrally formed of a transparent plastic.

4. The novel modular buoy with induction function as claimed in claim 2, characterized in that the third electrode is of a ring structure.

5. The novel modular buoy with induction function as claimed in claim 2, characterized in that the sealing kit comprises a first sealing unit and a second sealing unit; the first sealing unit is detachably connected with the second sealing unit; the first sealing unit includes a first sealing unit body for mounting a light emitting element and a connecting member; a third reserved cavity and a fourth reserved cavity are arranged on the first sealing unit body; the second sealing unit comprises a first mounting groove unit for mounting the control circuit module and the battery and a second mounting groove unit for mounting the connecting part; the lower end of the second sealing unit is provided with a first connecting hole; and a second connecting hole is formed in the bottom of the second sealing unit.

6. The novel modularized buoy with the induction function, as claimed in claim 5, is characterized in that the first sealing unit is made of light-transmitting plastic; and a sealing gasket is arranged at the joint of the first sealing unit and the second sealing unit.

7. The novel modular buoy with induction function as claimed in claim 2 or 5, characterized in that the first electrode, the second electrode, the fourth electrode and the first strip are strip-shaped metal; the second reserved cavity, the first connecting hole, the first reserved cavity, the second connecting hole, the third reserved cavity and the fourth reserved cavity are strip-shaped through holes corresponding to the strip-shaped metal in shape.

8. The novel modular buoy with induction function as claimed in claim 2 or 5, characterized in that the first electrode, the second electrode and the fourth electrode are made of annular metal; the third reserved cavity, the fourth reserved cavity and the second reserved cavity are annular through holes corresponding to the shape of the annular metal; a first connecting point is arranged in the first connecting hole; the first connecting point and the first strip-shaped object are strip-shaped metal; the first connecting hole, the second connecting hole and the first reserved cavity are strip-shaped through holes corresponding to the strip-shaped metal in shape; the fourth electrode is connected with the control circuit module through a first connecting point.

9. The novel modular buoy with induction function as claimed in claim 1, characterized in that the surface of the floating sleeve is of an arc-shaped structure.

10. The novel modular buoy with the induction function as claimed in claim 1, wherein a first identification area is arranged at the upper part of the floating sleeve; and a second identification area is arranged at the lower part of the floating sleeve.

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