CN212232770U - Hard tail gravity sensing strain photoelectron buoy with diversion trench - Google Patents

Abstract

The invention relates to a hard tail gravity sensing strain photoelectron buoy with a diversion trench, which comprises a buoy body, a buoy tail and buoy feet, wherein a power supply and a control circuit are arranged in the buoy body, the buoy tail is a hard tail provided with a plurality of light-variable small bulbs, each small bulb is provided with a jujube-core-shaped striking bean, the center of each striking bean is provided with a through sleeve hole which is sleeved at the small bulb on the buoy tail, or the striking bean and the buoy tail are integrated into a whole, the periphery of each striking bean is provided with at least two diversion trenches in the vertical direction, the center or the surface of the buoy tail is grooved, and a lead wire connected with the small bulb is connected with the control circuit in the buoy body through the grooves; the control circuit comprises a gravity sensor or an acceleration sensor and an MCU, the MCU receives data of the gravity sensor or the acceleration sensor and controls the small bulb to change light, the MCU is electrified to switch the sensitivity of the light change once, and the sensitivity has at least two cycles. The invention has small and striking resistance to water entry, adjustable light-changing sensitivity and strong adaptability.

Description

Hard tail gravity sensing strain photoelectron buoy with diversion trench

Technical Field

The invention relates to the technical field of floats, in particular to a striking structure of a float tail.

Background

The float is one of the indispensable equipment of fishing activity for stabilize the fishhook position and indicate whether have the fish to get on the hook, and the instruction function wherein is accomplished mainly by floating the tail. In order to improve the visibility of the buoy, the striking beans with various colors and sizes appear in the market, and the striking beans are sleeved on the floating tail to increase the visible area of the floating tail or make the color of the floating tail more vivid and visible.

Meanwhile, in order to adapt to night fishing, the luminous electronic float with the luminous function also forms a larger market.

However, whether the conventional float or the electronic float is adopted, the currently common striking beans are usually smooth cylinders, fusiform shapes and the like, have heavy floating tails, are single in form and not striking, and have large water entry resistance.

In addition, the existing part of electronic floats have a light changing function, namely, the floats emit light of one color when floating, and if a fish catches on the hook to drag the floats, the floats can change into light of another color to prompt a fisherman. The sensitivity of the light-changing buoy is fixed, and due to the fact that the force ways of big fishes and small fishes are different and disturbance of environment wind blowing, the light-changing function can generate a lot of false actions, and the using effect is poor.

Disclosure of Invention

The invention aims to improve and innovate the defects and problems in the background art and provides an electronic float with small water inlet resistance, striking and adjustable light-changing sensitivity.

The invention has the technical scheme that a gravity-sensitive strain photoelectron buoy with a guide groove and a hard tail comprises a buoy body, a buoy tail and buoy feet, wherein a power supply and a control circuit are arranged in the buoy body, the buoy tail is a hard tail, a plurality of serially or parallelly connected light-variable small bulbs are arranged on the buoy tail, each small bulb is provided with a jujube-kernel-shaped or oval striking bean, the striking beans are small in upper part, large in middle part and small in lower part and are symmetrical in upper and lower parts, the centers of the striking beans are provided with penetrating trepanning holes which are sleeved at the small bulbs on the buoy tail or are integrated with the buoy tail, at least two guide grooves in the upper and lower directions are uniformly arranged on the periphery of the striking beans, the center or the surface of the buoy tail is provided with a groove, and a lead wire connected with the small bulbs is connected with the control circuit in the buoy body through the groove; the control circuit comprises a gravity sensor or an acceleration sensor and an MCU, the MCU receives data of the gravity sensor or the acceleration sensor and controls the small bulb to change light, the MCU is electrified to switch the sensitivity of the light change once, and the sensitivity of the light change has at least two cycles.

Furthermore, each flow guide groove comprises two planes or cambered surfaces, and the two planes or cambered surfaces have an included angle of 20-170 degrees.

The included angle points to the center of the jujube-pit-shaped striking bean, and the corner is provided with a chamfered edge or a chamfered corner.

The flow guide groove is internally provided with a coating with a color different from that of the striking beans, and the coating is of a single color or at least two colors which are distributed at intervals.

The small bulb is an LED or other luminous bodies.

Also includes the following functions: the direction of the buoy is judged when the buoy is powered on, and only the light is lightened and the light is not changed when the buoy tail is downward.

The invention has the advantages and beneficial effects that: according to the invention, the jujube-pit-shaped or oval striking beans are added with the thick floating tails, and the guide grooves are arranged on the striking beans, so that the integral water inlet resistance of the buoy can be reduced, and the weight of the floating tails is reduced. The coating that the colour is different from striking beans main part is set up in the guiding gutter for striking beans colour is more, more obvious, observes when being favorable to fishing. Gravity sensor or acceleration sensor can respond to the motion of floating body, makes the small bulb discolour when judging that there is the fish to get on the hook, reinforcing suggestion effect. And at least two levels of sensitivity are adjusted, so that switching can be performed according to different application scenes, and misoperation is reduced.

Drawings

Fig. 1 is a schematic view of the overall structure of the embodiment.

Fig. 2 is a view a-a of fig. 1.

Fig. 3 is a schematic diagram of a light emitting circuit.

FIG. 4 is a view B-B of FIG. 1 in one embodiment.

Fig. 5 is a view B-B of fig. 1 in another embodiment.

Fig. 6 and 7 are schematic diagrams of another two structures of the diversion trench.

Fig. 8 is a flow chart of a typical application.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "disposed" on another element, it can be directly disposed or attached to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Example 1

As shown in fig. 1-4, a hard tail gravity-sensing strain photoelectron buoy with a diversion trench comprises a buoy body 1, a buoy tail 2 and a buoy foot 3, wherein a power supply 4 and a control circuit 5 are arranged inside the buoy body 1, the buoy tail 2 is a hard tail, two serially connected light-variable small bulbs 6 are arranged on the buoy tail 2, each small bulb 6 is provided with a jujube-core-shaped striking bean 7, the striking beans 7 are small in upper part, large in middle part and small in lower part, and are symmetrical in upper and lower parts, a through trepanning is arranged in the center of the striking bean 7, the striking beans are sleeved at the small bulbs on the buoy tail 2, four diversion trenches 8 in the upper and lower directions are uniformly arranged at the periphery of the striking beans 7, a central trench 9 of the buoy tail 2 is formed in the center, and a lead 13 connected with the small bulbs 6 is connected with the control circuit 5 in the buoy body 1 through the trench 9; the control circuit 5 comprises a gravity sensor 10 and an MCU (11), wherein the MCU (11) receives data of the gravity sensor 10 and controls the small bulb 6 to change light, the MCU is electrified once to switch the sensitivity of light changing once, and the sensitivity of light changing has three-gear cycle.

Each of the flow guide grooves 8 includes two planes having an included angle α of 60 degrees. The angle α points to the center of the eye-catching bean 10 and has a rounded corner.

The flow guide groove 8 is internally provided with a coating 14 with a color different from that of the date-pit-shaped light guide body, and the coating is distributed in a single color or at least two colors at intervals.

The upper part and the lower part of the striking beans can be conical or spindle-shaped.

Example 2

As shown in fig. 5, unlike embodiment 1, the floating tail of this embodiment has a slot on its surface, and the wires connected to the small bulb are connected to the control circuit along the slot.

Obviously, the number of the date core-shaped eye-catching beans is not limited to two in the present embodiment, and one, three or more may be provided. Similarly, the number of the diversion trenches on the jujube-pit-shaped eye-catching beans is not limited to four in the embodiment.

The guiding groove can also be formed by two curved surfaces, as shown in fig. 6 and 7, the included angle between the two planes or curved surfaces is deeper at 20-30 degrees, and shallower at 150-170 degrees.

The jujube-stone-shaped striking beans can be integrated with the floating tails into a whole.

The small bulb can be an LED, so that energy and electricity are saved. Of course other lights are possible.

The invention also comprises the following functions: when the floating tail faces downwards, only the lamp is lightened, and the light is not changed, and a typical application flow chart is shown in FIG. 8.

According to the invention, the date-pit-shaped eye-catching beans are thickened and float tails are arranged, and the guide grooves are arranged on the light guide body, so that the integral water inlet resistance of the float can be reduced, and the weight of the float tails is reduced. The coating that the colour is different from striking beans main part is set up in the guiding gutter for striking beans colour is more, more obvious, observes when being favorable to fishing. Gravity sensor or acceleration sensor can respond to the motion of floating body, makes the small bulb discolour when judging that there is the fish to get on the hook, reinforcing suggestion effect. When light is required to be emitted, a battery is inserted to supply power to the control circuit, if the sensitivity of light variation needs to be changed, the battery is pulled out and inserted again, and the sensitivity is switched once when the battery is reinserted once. The sensitivity of at least two gears can be adjusted by switching according to different application scenes, thereby reducing false actions, for example, when fishing big fish, the gear is switched to be a gear with lower sensitivity, when fishing small fish, the gear is switched to be a gear with higher sensitivity, and when meeting wind weather, the sensitivity of light change can be adjusted to be lower. The following functions may also be included: judging the floating direction when the power is on, and changing light when the floating tail is upward; when the floating tail faces downwards, only the lamp is lighted without changing light.

The embodiments of the present invention are described only for the preferred embodiments of the present invention, and not for the limitation of the concept and scope of the present invention, and various modifications and improvements made to the technical solution of the present invention by those skilled in the art without departing from the design concept of the present invention shall fall into the protection scope of the present invention, and the technical content of the present invention which is claimed is fully set forth in the claims.

Claims (5)

1. The utility model provides a take hard tail gravity of guiding gutter to feel optoelectronic float that meets an emergency which characterized in that: the multifunctional float comprises a float body, a float tail and float feet, wherein a power supply and a control circuit are arranged in the float body, the float tail is a hard tail, a plurality of serially or parallelly connected variable light small bulbs are arranged on the float tail, each small bulb is provided with a jujube-core-shaped or oval striking bean, the striking beans are small in size, large in size and small in size and are symmetrical up and down, a through sleeve hole is formed in the center of each striking bean, the striking beans are sleeved at the small bulbs on the float tail or are integrated with the float tail, at least two guide grooves in the up-and-down direction are uniformly formed in the periphery of each striking bean, the center or the surface of the float tail is provided with a groove, and a lead wire connected with the small bulbs is connected with the control circuit in the float body through the grooves; the control circuit comprises a gravity sensor or an acceleration sensor and an MCU, the MCU receives data of the gravity sensor or the acceleration sensor and controls the small bulb to change light, the MCU is electrified to switch the sensitivity of the light change once, and the sensitivity of the light change has at least two cycles.

2. The hard tail gravity strain sensing optoelectronic float with a flow guide groove according to claim 1, is characterized in that: each flow guide groove comprises two planes or cambered surfaces, and the two planes or cambered surfaces form an included angle of 20-170 degrees.

3. The hard tail gravity strain sensing optoelectronic float with a flow guide groove according to claim 2, is characterized in that: the included angle points to the center of the jujube-pit-shaped striking bean, and the corner is provided with a chamfered edge or a chamfered corner.

4. The hard tail gravity strain sensing optoelectronic float with a flow guide groove according to claim 1, is characterized in that: the flow guide groove is internally provided with a coating with a color different from that of the striking beans, and the coating is of a single color or at least two colors which are distributed at intervals.

5. The channeled hard tail gravity strain sensitive optoelectronic float of claim 1, further comprising the following functions: judging the floating direction when the power is on, and changing light when the floating tail is upward; when the floating tail faces downwards, only the lamp is lighted without changing light.

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