CN218354199U - Gravity sensing of many gears sensitivity is discolourd and is black float electron float - Google Patents

Abstract

The utility model discloses a multi-gear sensitivity's gravity-feed response discolours and black float electron float, including floating the body and setting up respectively at the light emitting component who floats the body both ends and float the tail, it comprises float head casing and float body to float the body, float head casing is provided with the circuit board with the junction that floats body, be connected with gravity sensor on the circuit board, float the one end that body is close to float head casing and seted up the holding chamber, be provided with the battery in the holding chamber, the outer wall connection that floats body has trigger assembly, and floats the inner chamber of body and be connected with the outage subassembly, and this multi-gear sensitivity's gravity-feed response discolours and black float electron float, through setting up trigger assembly and outage subassembly, has effectually avoided novice person can not accurate judgement whether have the fish to bite the hook for the fish brokenly breaks free from the problem that the fishhook ran after having accomplished bait.

Description

Gravity sensing of many gears sensitivity is discolourd and is black float electron float

Technical Field

The utility model relates to an apparatus technical field of fishing specifically is a gravity sensing of many gears sensitivity discolours and black float electron float concurrently.

Background

The electronic float is specially designed for night fishing, and is a float provided with a battery and a light-emitting element, and is mainly used for facilitating observation of float phase at night.

At present, chinese patent with patent application number CN201820891878.2, disclose a but the gravity-feed induction of adjustable sensitivity electronic float that discolours, the float can be according to fisher's demand, through in the time quantum of predetermineeing, the number of times is predetermine to the plug battery, can realize the setting of required sensitivity, sensitivity setting rate has been promoted, the different sensitivity demands of the fishing environment that fisher is different have also been satisfied, and then the reaction accuracy of the bite induction signal of different fishing environment has been improved, however current electronic float is at the in-process that uses, it only can provide for the user and observe float looks light when fishing at night, but to novice person who angles, when fishing at night, novice person angles the accurate judgement whether have the fish to bite, make the fish break away after having eaten bait and flee the fishhook, thereby lead to this electronic float's result of use is lower. Therefore, the gravity sensing color-changing and black-floating electronic float with multi-gear sensitivity is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a gravity-feed tank of many gears sensitivity is discolourd and is black float electron float to solve the problem that provides in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a gravity-feed tank of many gears sensitivity is discolourd and is black float electron float, is floating the body and setting up respectively and floating the light emitting component at body both ends and float the tail, float the body by float the head casing with float the body and constitute, float the head casing and be provided with the circuit board with the junction that floats the body, be connected with gravity sensor on the circuit board, float the one end that the body is close to float the head casing and seted up the holding chamber, be provided with the battery in the holding chamber, the outer wall connection that floats the body has trigger assembly, and the inner chamber that floats the body is connected with the outage subassembly.

Preferably, the trigger assembly includes the first collar that is connected with the outer wall of the floating body, be connected with a plurality of springs on the first collar, the one end that first collar was kept away from to the spring is connected with the floating collar, one side that the spring was kept away from to the floating collar is connected with first magnet circle.

Preferably, the power-off assembly comprises a fixed rod arranged at the bottom of the inner cavity of the accommodating cavity, the outer side of the fixed rod is connected with a sleeve, the sleeve is connected with a second mounting ring, the second mounting ring is connected with a second magnet ring, and the sleeve is connected with a first conductor; the circuit board further comprises a second conductor arranged on the circuit board, wherein the second conductor is in contact with the first conductor but is not connected with the first conductor.

Preferably, the power-off assembly comprises a fixed rod arranged at the bottom of the inner cavity of the accommodating cavity, a sleeve is connected to the outer side of the fixed rod, a second mounting ring is connected to the sleeve, a second magnet ring is connected to the second mounting ring, a first conductor is connected to the sleeve, and a cavity is formed in one end, away from the sleeve, of the first conductor; the second conductor is arranged on the circuit board and is sleeved with the first conductor through the cavity.

Preferably, the one end that floats the head shell and be close to and float the body is connected with the screwed pipe, float the head shell through the screwed pipe with float body coupling, and the junction is provided with waterproof rubber ring.

Preferably, the thickness of the floating ring is twice as large as that of the first magnetic ring.

Preferably, the thickness of the inner wall of the floating body at the accommodating cavity is one millimeter.

Preferably, the first conductor and the second conductor are electrically connected to the circuit board and the battery, respectively.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a set up and trigger subassembly and outage subassembly, the second magnet circle is because the suction of first magnet circle is with first electric conductor and second electric connection, thereby make gravity sensor control light emitting component shine, when floating the body downstream, it drives whole outage subassembly downstream to float the body, because first magnet circle floats on the surface of water owing to the holding power of floating the circle, thereby make first magnet circle and second magnet circle take place the dislocation, make second magnet circle drive first electric conductor and second electric conductor disconnection, light emitting component did not shine this moment, show that there is the fish-bite this moment with this, wholly set up effectual new hand person of having avoided fishing can not be accurate judge whether have the fish-bite, make the fish eat the problem that the fish-bite escaped after the bait.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a partial sectional view of the floating body structure of the present invention;

FIG. 3 is a schematic view of the power-off assembly of the present invention;

fig. 4 is a cross-sectional view of the first electrical conductor structure of the present invention.

In the figure: 1-a light emitting element; 2-a floating body; 21-a float head housing; 211-threaded pipes; 22-a floating body; 23-an accommodating cavity; 3-floating tail; 4-a circuit board; 5-a gravity sensor; 6-a battery; 7-a trigger component; 70-a first mounting ring; 71-a spring; 72-a floating ring; 73-a first magnetic ring; 8-a power-off component; 80-a fixation rod; 81-a second mounting ring; 82-a second magnetic ring; 83-sleeve; 84-a first electrical conductor; 841-a cavity; 85-a second electrical conductor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example one

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides a gravity-sensing that many gears sensitivity is discolourd and is black float electron float, including floating body 2 and setting up respectively floating the light emitting component 1 at body 2 both ends and float tail 3, it comprises float body 21 and float body 22 to float body 2, float body 21 and the junction that floats body 22 are provided with circuit board 4, be connected with gravity sensor 5 on the circuit board 4, it has seted up holding chamber 23 to float body 22 near the one end that floats body 21, be provided with battery 6 in the holding chamber 23, the outer wall connection that floats body 22 has trigger assembly 7, and the inner chamber that floats body 22 is connected with outage subassembly 8, wherein, for the convenience of changing battery 6 and preventing that water from entering into and floating body 2 inner chamber, the one end that floats body 22 is close to float body 21 is connected with screwed pipe 211, float body 21 and be connected through screwed pipe 211, and the junction is provided with waterproof rubber ring, in addition, can inhale second ring 82 in order to guarantee first ring 73, the inner wall thickness that magnet body 22 is located holding chamber 23 department is a millimeter.

The trigger assembly 7 comprises a first mounting ring 70 connected with the outer wall of the floating body 22, a plurality of springs 71 are connected on the first mounting ring 70, a floating ring 72 is connected at one end of the spring 71 far away from the first mounting ring 70, a first magnetic ring 73 is connected at one side of the floating ring 72 far away from the spring 71, wherein, in order to provide enough buoyancy for the first magnetic ring 73, the thickness of the floating ring 72 is twice that of the first magnetic ring 73.

The power-off assembly 8 comprises a fixing rod 80 arranged at the bottom of the inner cavity of the accommodating cavity 23, the outer side of the fixing rod 80 is connected with a sleeve 83, the sleeve 83 is connected with a second mounting ring 81, the second mounting ring 81 is connected with a second magnet ring 82, and the sleeve 83 is connected with a first conductor 84; the LED illuminating device further comprises a second conductor 85 arranged on the circuit board 4, wherein the second conductor 85 is in contact with the first conductor 84 but not connected with the first conductor 84, and in order to enable the battery 6 to supply power to the circuit board 4 and enable the illuminating element 1 to normally illuminate, the first conductor 84 and the second conductor 85 are respectively electrically connected with the circuit board 4 and the battery 6.

Specifically, when the floating body 2 has no fish biting hook in water, the first magnet ring 73 floats on the water surface through the buoyancy provided by the floating body 2 and the floating ring 72 fixedly connected with the floating body 2, when a fish bites the hook, the fish pulls the floating body 2 to move downwards through a fish line, so that the floating body 2 drives the power-off component 8 in the inner cavity of the accommodating cavity 23 to move downwards, at this time, the second magnet ring 82 receives the dragging force of the fish and the buoyancy generated by the floating body 2, the first magnet ring 73 fixedly connected to the floating ring 72 also receives the buoyancy provided by the floating ring 72 while receiving the dragging force of the fish and the buoyancy generated by the floating body 2, and because the first magnet ring 73 and the second magnet ring 82 are not stressed uniformly, the second magnet ring 82 moves downwards relative to the first magnet ring 73, therefore, the first magnet ring 73 and the second magnet ring 82 are dislocated, so that the second magnet ring 82 is not subjected to the magnetic force of the first magnet ring 73, at this time, the second magnet ring 82 moves downwards due to the self gravity, the second magnet ring 82 is respectively fixedly connected with the second mounting ring 81 and the sleeve 83, the sleeve 83 is sleeved on the fixing rod 80, the second magnet ring 82 drives the second mounting ring 81 and the sleeve 83 to move downwards on the fixing rod 80, the sleeve 83 is fixedly connected with the first conductor 84, the sleeve 83 drives the first conductor 84 to move downwards, the first conductor 84 and the second conductor 85 are disconnected, at this time, the battery 6 stops supplying power to the circuit board 4, so that the light-emitting element 1 is not lighted, and thus the fish biting at this time is indicated.

Example two

Please continue to refer to fig. 4, the utility model provides another kind of technical scheme, a gravity-sensing that many gears sensitivity changes colour and black float electron float, including floating body 2 and setting up respectively at the light emitting component 1 that floats body 2 both ends and float tail 3, it comprises float body 2 by float body 21 and float body 22 to float body 2, float body 21 and the junction that floats body 22 are provided with circuit board 4, be connected with gravity sensor 5 on the circuit board 4, it has seted up holding chamber 23 to float body 22 near the one end of float body 21, be provided with battery 6 in the holding chamber 23, the wall connection that floats body 22 has trigger assembly 7, and the inner chamber that floats body 22 is connected with outage subassembly 8, wherein, for the convenience of changing battery 6 and preventing that water from entering into and floating body 2 inner chamber, float body 21 is connected with screwed pipe 211 near the one end that floats body 22, float body 21 is connected with through screwed pipe 211 and floats body 22, and the junction is provided with waterproof rubber ring, in addition, in order to guarantee that first magnet ring 73 can hold second magnet ring 82, the thickness that float body 22 is located the inner wall that body 22 is located holding chamber 23 millimeters.

The trigger assembly 7 comprises a first mounting ring 70 connected with the outer wall of the floating body 22, a plurality of springs 71 are connected on the first mounting ring 70, one end of each spring 71, which is far away from the first mounting ring 70, is connected with a floating ring 72, one side of each floating ring 72, which is far away from the springs 71, is connected with a first magnetic ring 73, wherein, in order to provide enough buoyancy for the first magnetic ring 73, the thickness of the floating ring 72 is twice that of the first magnetic ring 73.

The power-off assembly 8 comprises a fixed rod 80 arranged at the bottom of the inner cavity of the accommodating cavity 23, the outer side of the fixed rod 80 is connected with a sleeve 83, the sleeve 83 is connected with a second mounting ring 81, the second mounting ring 81 is connected with a second magnet ring 82, the sleeve 83 is connected with a first conductor 84, and one end of the first conductor 84, which is far away from the sleeve 83, is provided with a cavity 841; the light-emitting element further comprises a second conductor 85 arranged on the circuit board 4, wherein the second conductor 85 is sleeved with the first conductor 84 through a cavity 841, and in order to enable the battery 6 to supply power to the circuit board 4 and enable the light-emitting element 1 to normally shine, the first conductor 84 and the second conductor 85 are electrically connected with the circuit board 4 and the battery 6 respectively.

Specifically, when the floating body 2 has no fish bite in water, the first magnet ring 73 floats on the water surface by the buoyancy provided by the floating body 2 and the floating ring 72 fixedly connected with the floating body 2, when a fish bites, the fish pulls the floating body 2 downwards by a fish wire, so that the floating body 2 drives the power-off component 8 in the inner cavity of the accommodating cavity 23 to move downwards, at this time, the second magnet ring 82 receives the dragging force of the fish and the buoyancy generated by the floating body 2, the first magnet ring 73 fixedly connected to the floating ring 72 receives the dragging force of the fish and the buoyancy generated by the floating body 2, and simultaneously receives the buoyancy provided by the floating ring 72, because the first magnet ring 73 and the second magnet ring 82 are not stressed consistently, the second magnet ring 82 moves downwards relative to the first magnet ring 73, so that the first magnet ring 73 and the second magnet ring 82 are dislocated to prevent the second magnet ring 82 from receiving the magnetic force of the first magnet ring 73, at this time, the second magnet ring 82 will move downward due to its own weight, because the second magnet ring 82 is respectively and fixedly connected to the second mounting ring 81 and the sleeve 83, and the sleeve 83 is sleeved on the fixing rod 80, the second magnet ring 82 drives the second mounting ring 81 and the sleeve 83 to move downward on the fixing rod 80, because the sleeve 83 is fixedly connected to the first conductor 84, the sleeve 83 can drive the first conductor 84 to move downward, because the first conductor 84 is sleeved with the second conductor 85 through the cavity 841, the contact area between the first conductor 84 and the second conductor 85 is smaller and smaller in the downward movement process of the first conductor 84, so that the resistance of the circuit formed by the battery 6 and the circuit board 4 through the first conductor 84 and the second conductor 85 becomes larger, the current flowing into the circuit board 4 becomes smaller, and the luminous intensity of the light-emitting element 1 changes, when the first conductor 84 and the second conductor 85 are completely separated, the circuit between the battery 6 and the circuit board 4 is broken, and the light-emitting element 1 is not lighted any more, thereby informing the fisher that a fish bites the hook.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a gravity-feed tank of many gears sensitivity is discolourd and is black float electron float, including floating body (2) and setting up luminous element (1) floating body (2) both ends respectively and float tail (3), its characterized in that: float body (2) by float body (21) and float body (22) and constitute, float body (21) and the junction that floats body (22) are provided with circuit board (4), be connected with gravity sensor (5) on circuit board (4), float body (22) and be close to the one end that floats body (21) and seted up holding chamber (23), be provided with battery (6) in holding chamber (23), the outer wall connection that floats body (22) has trigger assembly (7), and floats the inner chamber of body (22) and be connected with outage subassembly (8).

2. The gravity sensing color-changing and black float electronic float of multi-gear sensitivity according to claim 1, characterized in that: trigger subassembly (7) include first collar (70) that is connected with body (22) outer wall that floats, be connected with a plurality of springs (71) on first collar (70), the one end that first collar (70) were kept away from in spring (71) is connected with floating collar (72), one side that spring (71) were kept away from in floating collar (72) is connected with first magnet circle (73).

3. The gravity sensing color-changing and black-bleaching electronic float according to claim 1, characterized in that: the power-off assembly (8) comprises a fixing rod (80) arranged at the bottom of an inner cavity of the accommodating cavity (23), the outer side of the fixing rod (80) is connected with a sleeve (83), the sleeve (83) is connected with a second mounting ring (81), the second mounting ring (81) is connected with a second magnet ring (82), and the sleeve (83) is connected with a first conductor (84);

and a second conductor (85) arranged on the circuit board (4), wherein the second conductor (85) is contacted with the first conductor (84) but not connected with the first conductor.

4. The gravity sensing color-changing and black float electronic float of multi-gear sensitivity according to claim 1, characterized in that: the power-off assembly (8) comprises a fixing rod (80) arranged at the bottom of an inner cavity of the accommodating cavity (23), the outer side of the fixing rod (80) is connected with a sleeve (83), the sleeve (83) is connected with a second mounting ring (81), the second mounting ring (81) is connected with a second magnet ring (82), the sleeve (83) is connected with a first conductor (84), and one end, far away from the sleeve (83), of the first conductor (84) is provided with a cavity (841);

the circuit board further comprises a second conductor (85) arranged on the circuit board (4), and the second conductor (85) is sleeved with the first conductor (84) through a cavity (841).

5. The gravity sensing color-changing and black-bleaching electronic float according to claim 1, characterized in that: the utility model discloses a float, including float body (22), float head shell (21), the one end that float head shell (21) is close to and floats body (22) is connected with screwed pipe (211), float head shell (21) pass through screwed pipe (211) and float body (22) and be connected, and the junction is provided with waterproof rubber ring.

6. The gravity sensing color-changing and black-bleaching electronic float according to claim 2, characterized in that: the thickness of the floating ring (72) is twice that of the first magnet ring (73).

7. The gravity sensing color-changing and black float electronic float of multi-gear sensitivity according to claim 1, characterized in that: the thickness of the inner wall of the floating body (22) at the accommodating cavity (23) is one millimeter.

8. The gravity sensing color-changing and black-bleaching electronic float according to claim 3, characterized in that: the first conductor (84) and the second conductor (85) are respectively and electrically connected with the circuit board (4) and the battery (6).

Images