阅读说明：本技术 一种海竿电子放线器及海竿 (Sea rod electron unwrapping wire ware and sea rod ) 是由 潘健 熊嘉鑫 陈庆东 宋豪杰 刘孙德 刘雨晴 张琦 石迪 陈光义 李昊容 于 2020-07-22 设计创作，主要内容包括：本发明提供一种海竿电子放线器及海竿,所述海竿电子放线器包括倾角传感器(s)、单片机(m)、开关管(k<Sub>sw</Sub>)、电磁铁(d)、金属夹(g)和开关按钮(K),金属夹(g)靠近电磁铁(d),受到电磁铁(d)吸引时,能够将鱼线夹住；当海竿使用者抛线前,单片机(m)检测开关按钮(K)被点击后打开开关管(k<Sub>sw</Sub>),电磁铁(d)通电产生电磁,吸引金属夹(g),金属夹(g)夹住鱼线；抛线过程中,倾角传感器(s)实时检测海竿与地面夹角(θ),当单片机(m)判断当前夹角(θ)大于设定夹角(θ<Sub>d</Sub>)时关闭开关管(k<Sub>sw</Sub>),电磁铁(d)断电失去电磁,由金属夹(g)释放鱼线,电子放线器完成放线。本发明提供了方便的钓鱼辅助设备。(The invention provides a sea rod electronic paying-off device and a sea rod sw ) The fishing line clamping device comprises an electromagnet (d), a metal clamp (g) and a switch button (K), wherein the metal clamp (g) is close to the electromagnet (d) and can clamp a fishing line when being attracted by the electromagnet (d); before the line is cast by the sea fishing rod user, the singlechip (m) detects that the switch button (K) is clicked and then opens the switch tube (K) sw ) The electromagnet (d) is electrified to generate electromagnetism to attract the metal clip (g), and the metal clip (g) clips the fishing line; in the line casting process, the inclination angle sensor(s) detects the included angle (theta) between the sea rod and the ground in real time, and when the single chip microcomputer (m) judges that the current included angle (theta) is larger than the set included angle (theta) d ) Time-off switch tube (k) sw ) When the electromagnet (d) is powered off and loses electromagnetism, the metal clip (g) releases the fishing line, and the electronic paying-off device finishes paying-off. The invention provides convenient fishing auxiliary equipment.)

1. The utility model provides a sea rod electron unwrapping wire ware which characterized in that: comprises an inclination angle sensor(s), a singlechip (m) and a switch tube (k)_sw) The electromagnetic switch comprises an electromagnet (d), a metal clamp (g) and a switch button (K), wherein the switch button (K) and a tilt angle sensor(s) are respectively connected to a single chip microcomputer (m), and the single chip microcomputer (m) is connected to a switch tube (K)_sw) Switch tube (k)_sw) Connected with an electromagnet (d), a metal clip (g) is close to the electromagnet (d) and is electrifiedWhen the magnet (d) attracts, the metal clip (g) can clip the fishing line;

before the line is cast by the sea fishing rod user, the singlechip (m) detects that the switch button (K) is clicked and then opens the switch tube (K)_sw) The electromagnet (d) is electrified to generate electromagnetism to attract the metal clip (g), and the metal clip (g) clips the fishing line; in the line casting process, the inclination angle sensor(s) detects the included angle (theta) between the sea rod and the ground in real time and inputs the included angle (theta) to the single chip microcomputer (m), and when the single chip microcomputer (m) judges that the current included angle (theta) is larger than the set included angle (theta)_d) Time-off switch tube (k)_sw) When the electromagnet (d) is powered off and loses electromagnetism, the metal clamp (g) is released, the fishing line is released by the metal clamp (g), and the electronic paying-off device finishes paying-off.

2. The electronic paying out device of sea rod of claim 1, characterized in that: the plane of the tilt angle sensor(s) is parallel to the straight line of the sea rod, and the included angle (theta) of the tilt angle sensor(s) relative to the ground is the same as the included angle (theta) of the sea rod relative to the ground.

3. The electronic paying out device of sea rod of claim 1, characterized in that: a setting knob (r) for selecting the set angle (theta)_d)。

4. The electronic paying out device of sea rod of claim 2, characterized in that: the knob (r) is realized by adopting a potentiometer and is connected to the singlechip (m).

5. The electronic paying out device of sea rod of claim 3, characterized in that: setting the angle (theta)_d) The value is 0-85 degrees.

6. The electronic paying-off device for a sea rod as claimed in claim 1, 2, 3, 4 or 5, wherein: a battery (B) is provided for supplying electrical energy.

7. The electronic paying out device of sea rod of claim 6, wherein: a voltage stabilizing chip (t) is arranged, and a power supply output by the battery (B) is respectively connected to the singlechip (m) and the inclination angle sensor(s) through the voltage stabilizing chip (t).

8. A fishing rod, characterized in that: an electronic pay-off device for a fishing rod as claimed in claims 1 to 6 is installed.

Technical Field

The invention belongs to the field of fishing tools, and particularly relates to a sea rod line casting auxiliary device and a sea rod with the same, wherein the sea rod line casting auxiliary device can automatically detect an included angle between a sea rod and the ground in a sea rod line casting process and release a fishing line at a set angle.

Background

Fishing is a recreational activity, which has been known to be two thousand years old today. Along with the development of fishing activities, two main types of fresh water fishing and sea fishing are available, wherein the fresh water fishing can be divided into modes of bottom-sinking fishing, running water fishing, middle-layer fishing and the like, and the sea fishing can be divided into two modes of bank fishing and boat fishing.

The sea rod has the characteristic of short rod and long line, and can throw bait hooks to a farther water area. The big fish inhabit in the deep water area of the far bank, the sea rod has the advantage of throwing far, and the fishing rod creates favorable conditions for fishing the big fish.

The experienced fishing hand can throw the bait hook for a long distance and can throw a proper distance according to the target position, but the ordinary fishing hand is difficult to do. The fishing hand needs to hold the line throwing force and the line throwing time in the line throwing process, and the common fishing hand is difficult to hold the two factors simultaneously. The invention designs an electronic pay-off device for a sea fishing rod, which can solve the problem that the pay-off time is difficult to control. In the line throwing process, a fishing hand only needs to control the line throwing force, and the electronic line releaser can release the fishing line at a proper time, so that the aim of throwing a long distance under the same line throwing force is fulfilled. On the contrary, the force for throwing the same throwing distance can be reduced, thereby achieving the aim of saving labor.

Disclosure of Invention

The invention aims to fill up the blank of the corresponding technology and provides a novel electronic paying-off device for a sea rod and the sea rod with the device.

The technical scheme of the invention provides an electronic pay-off device for a sea rod, which comprises a tilt angle sensor s, a single chip microcomputer m and a switch tube k_swElectromagnet d, metal clamp g and switch button K, wherein switch button K and inclination angle sensor s are respectively connected to single chip microcomputer m, and single chip microcomputer m is connected to switching tube K_swSwitching tube k_swThe metal clip g is close to the electromagnet d and can clip the fishing line when being attracted by the electromagnet d;

before the line is cast by the sea fishing rod user, the switch tube K is opened after the single chip microcomputer m detects that the switch button K is clicked_swThe electromagnet d is electrified to generate electromagnetism to attract the metal clip g, and the metal clip g clips the fishing line; in the line casting process, the inclination angle sensor s detects the included angle theta between the sea rod and the ground in real time and inputs the included angle theta into the singlechip m, and when the singlechip m judges that the current included angle theta is larger than the set included angle theta_dTime-off switch tube k_swAnd when the electromagnet d is powered off and loses electromagnetism, the metal clamp g is released, the fishing line is released by the metal clamp g, and the electronic paying-off device finishes paying-off.

And the plane of the tilt sensor s is parallel to the straight line of the sea rod, and the included angle theta of the tilt sensor s relative to the ground is the same as the included angle theta of the sea rod relative to the ground.

Further, a knob r is provided for selecting the set angle θ_d。

And the knob r is realized by adopting a potentiometer and is connected to the singlechip m.

Furthermore, the angle theta is set_dThe value is 0-85 degrees.

Also, a battery B is provided for supplying electric power.

And a voltage stabilizing chip t is arranged, and a power supply output by the battery B is respectively connected to the singlechip m and the inclination angle sensor s through the voltage stabilizing chip t.

The invention also provides a sea rod which is provided with the electronic pay-off device for the sea rod.

The invention has the beneficial effects that:

(1) the electronic paying-off device provided by the invention is small in size, can be mounted on various sea poles, and is convenient fishing auxiliary equipment.

(2) In the line throwing process, the electronic line releaser can release the fishing line at a proper time, so that the throwing distance is increased. On the contrary, the force for throwing the same throwing distance can be reduced, thereby achieving the aim of saving labor.

(3) The dip angle sensor s can acquire accurate information of the included angle theta between the sea rod and the ground, the real-time performance is high, and the response speed of the whole system is high. The releasing time of each throwing line fish line is basically consistent, thereby being beneficial to a fishing hand to hold the throwing distance.

(4) The electromagnet is electrified only in the line throwing process, and is not electrified in the rest time, so that the electric quantity of the battery is saved, and the working time is prolonged.

Drawings

FIG. 1 is a schematic diagram of a first embodiment of the present invention;

FIG. 2 is a schematic view of an installation location of an embodiment of the present invention;

FIG. 3 is a schematic diagram of a sea fishing rod according to an embodiment of the present invention;

FIG. 4 is a schematic view of an electronic paying-off device for paying off a fishing rod during the line casting process of the fishing rod according to the embodiment of the present invention.

Fig. 5 is a control block diagram of a first embodiment of the present invention.

FIG. 6 is a schematic view of the installation position of the tilt sensor s relative to the sea pole according to the embodiment of the present invention.

Fig. 7 is a schematic diagram of a second embodiment of the present invention.

FIG. 8 is a circuit diagram of a knob r according to a second embodiment of the present invention.

Detailed Description

The technical solution and technical principle related to the present invention will be described in detail below with reference to the accompanying drawings and examples.

Fig. 1 is a schematic diagram of a first embodiment of the present invention. As shown in figure 1, a battery B provides electric energy for the whole system, a tilt angle sensor s, a singlechip m and a switch tube k_swThe switch button K is located on the circuit board, the electromagnet d is connected to the circuit board through a wire, and the metal clip g is close to the electromagnet d, so that the electromagnet d can attract the metal clip g conveniently. When attracted by the electromagnet d, the metal clip g can clip the fishing line。

Before the line is cast by the user of the sea fishing rod, the included angle theta of the sea fishing rod is kept small, and the user can click the switch button K. The singlechip m detects that the switch button K is clicked and then opens the switch tube K_swThe electromagnet d is electrified to generate electromagnetism to attract the metal clip g, and the metal clip g clips the fishing line. In the line casting process, the inclination angle sensor s detects the included angle theta between the sea rod and the ground in real time and inputs the included angle theta to the single chip microcomputer m. When the single chip microcomputer m judges that the current included angle theta is larger than the set included angle theta_dTime-off switch tube k_swAnd when the electromagnet d is powered off and loses electromagnetism, the metal clamp g is released, the metal clamp g releases the fishing line, and the electronic paying-off device finishes the paying-off task.

The inclination angle sensor s preferably adopts JY61P, the single chip microcomputer m preferably adopts STM32F103T8U6, and the switch tube k_swPreferably, AO3400 is used, and the electromagnet d preferably uses ELE-P20/15.

The metal clip g includes a left fixed portion and a right non-fixed portion, the non-fixed portion being rotatable about a rotation axis. When the electromagnet d is electrified, the bottom of the non-fixed part of the metal clip can be attracted, and the metal clip can clip the fishing line. When the electromagnet d is powered off, the bottom of the non-fixed part of the metal clip is released, and the metal clip releases the fishing line at the moment.

Fig. 2 is a schematic view of the installation position of the present invention. As shown in fig. 2, the electronic payoff device is mounted above the reel, on the same side as the reel. This mounted position makes things convenient for electron unwrapping wire ware trapping cord, and difficult emergence fish tape winding phenomenon during the unwrapping wire.

FIG. 3 is a schematic diagram of a fishing rod before line casting. As shown in FIG. 3, the user starts to swing the fishing rod from the back, and the fishing rod is nearly parallel to the ground, and the angle of inclination θ of the fishing rod is small. The fish wire is placed in the metal clip g and the switch button K is clicked. The singlechip m detects that the switch button K is clicked and then opens the switch tube K_swThe electromagnet d is electrified to generate electromagnetism to attract the metal clip g. When attracted by the electromagnet d, the metal clip g clamps the fishing line.

FIG. 4 is a schematic view of the electronic paying-off device paying-off during the line casting process of the sea fishing rod. As shown in FIG. 4, the angle θ between the fishing rod and the ground is larger. The singlechip m judges that the current included angle theta is larger than the set included angle theta_dM turn-off switch tube k of single chip microcomputer_sw. Switch tubek_swIs switched off and electromagnet d loses its electromagnet. The electromagnet d releases the metal clip g, and then the metal clip g releases the fishing line.

FIG. 5 is a control block diagram according to an embodiment of the present invention. The switch button K and the tilt sensor s are respectively connected to a single chip microcomputer m, and the single chip microcomputer m is connected to a switch tube K_swSwitching tube k_swAnd an electromagnet d is connected. The battery B supplies power to active components, and is generally a singlechip m and an inclination sensor s.

In order to provide power, a voltage stabilizing chip t can be arranged, and the power output by the battery B is respectively connected to the singlechip m and the inclination angle sensor s through the voltage stabilizing chip t. The voltage stabilizing chip t preferably adopts AMS1117-3.3, can convert the voltage of the battery into 3.3V voltage and supplies power for the singlechip m and the inclination angle sensor s.

Before line casting, keeping the included angle theta between the sea rod and the ground smaller than a set included angle theta_d. Clicking a switch button K, detecting that the switch button K is clicked by a singlechip m, and opening a switch tube K_sw. Switch tube k_swWhen the electromagnet d is switched on, the electromagnet d is electrified to generate electromagnetism to attract the metal clip g. The metal clip g clamps the fishing line by using the lever principle. In the line casting process, the inclination angle sensor s detects the included angle theta between the sea rod and the ground in real time and transmits the data of the included angle theta to the single chip microcomputer m. When the single chip microcomputer m judges that the current included angle theta is larger than the set included angle theta_dWhen the switch tube k is closed by the output signal_swAnd the electromagnet d is powered off, the metal clip g is released, and then the metal clip g releases the fishing line, so that the automatic line throwing process is completed. The output judgment process is automatically carried out by the singlechip m, and accurate release is ensured.

Fig. 6 is a schematic view showing the installation position of the tilt sensor s with respect to the fishing rod. As shown in FIG. 6, the tilt sensor s is located on the circuit board, and the plane of the tilt sensor s is parallel to the line of the fishing rod. The angle theta of the tilt sensor s relative to the ground is the same as the angle theta of the fishing rod relative to the ground.