CN215270157U - Induction type electronic luminous float head and float - Google Patents

Abstract

The utility model discloses an induction type electronic luminous floating head and cursory, it includes floating head and the response luminescent circuit of setting in the floating head, sets up in the floating head and holds the chamber, and the response luminescent circuit includes: the circuit board is positioned in the accommodating cavity, a floating battery is inserted into the accommodating cavity and electrically connected with the circuit board to supply power to the LED light source, and a capacitive sensing contact of a trigger circuit is arranged on the circuit board and is in contact with the inner wall of the accommodating cavity through an elastic conductor. The float head is combined with the float body and the float foot to form a complete float. The utility model discloses a work of induction type on-off control LED light source, cursory income water can light the LED light source, need not to set up the switch closing circuit on the cursory, perhaps takes off cursory battery and cuts off the power supply, and cursory battery can place in cursory always, just can work when only fishing, improves cursory battery life. In addition, because the sensing contact is directly encapsulated in the containing cavity, the structure of the floating body cannot be damaged, and the waterproof effect is good.

Description

Induction type electronic luminous float head and float

The technical field is as follows:

the utility model relates to a cursory product technical field refers in particular to an induction type electron luminous floating head and cursory.

Background art:

the buoy is an indispensable tool for fishing, and the general buoy comprises: the float head, float body and float foot are respectively fixed at the upper and lower ends of the float body. The float body is used as a main buoyancy providing object and is generally made of light materials, such as reed, plastic, peacock feather and the like. The float head is mostly made of plastic or carbon fiber, and different colors are usually marked on the float head to serve as the 'eyes' of the float. The floating foot is made of hard materials such as carbon fiber, steel and the like. When fishing, the angler judges whether the fish is hooked or not through the floating change in the floating head caused by floating and sinking, thereby doing the action of raising the rod.

Aiming at fishing enthusiasts at night, a plurality of luminous floats appear on the market at present. See, for example, patent application nos.: 201511010550.2 which discloses a light-transmitting float and a light-emitting float. A kind of shiny float, including transmitting float and illuminator, transmit float include float body and light conducting stick while being said, lead light stick pass float body from top to bottom while being said, locate float above part lead light stick float for float head, locate float inside part lead light stick float shaft while being said, locate float below part lead light stick float foot while being said, lead light stick to adopt the light-conducting material; the light output end of the illuminator is provided with a light guide rod interface, the float pin is inserted in the light guide rod interface, and the lower end of the illuminator is fixed with a pin. This technical scheme is floating the body (being float the body) with the luminous body setting, conducts away light through leaded light stick.

The prior luminous float for platform fishing has the following problems: 1. because the volume of this type of float is less, is difficult to place the large capacity battery, and battery capacity is effective, and in order to practice thrift cursory battery electric quantity, the user is under non-user state, directly takes off the battery usually, and the cursory battery is just installed to the user when fishing, though practiced thrift the electric quantity to a certain extent like this, at the middle intermittent type time of fishing process, can cause the waste of battery electric quantity equally. 2. Some floats set up a pair of trigger electrode as the switch, and this electrode is drawn forth to the surface of float, and when the float was gone into water, two electrodes switched on through water, and the float is luminous, otherwise the circuit is in the off-state, can not give out light. Although the battery can be effectively utilized in such a manner, the trigger electrode needs to be exposed on the surface of the float, so that the surface of the float needs to be damaged, the waterproofness is difficult to a certain degree, and meanwhile, the trigger electrode is directly contacted with water, so that the situation of poor contact caused by oxidation and rusting can be caused.

Along with the development of the sensing element, the sensing type electronic luminous float also generates, when the float is touched or the float is in water, the touch sensing element arranged in the float is triggered, the circuit is triggered, and the LED luminous point on the float can be lightened. However, although the current touch switch can be triggered without a human body directly contacting the electrode of the sensing element, there is still a certain difficulty in applying the touch switch to the table fishing float product. Firstly, although the existing capacitive touch sensing switch has certain penetrability, the float body of the platform fishing float is in a slender spindle shape due to the small volume of the float body, and the limited volume limits the circuit design, so that the circuit sensing sensitivity is limited; secondly, present platform float all adopts insulating material preparation such as wooden, reed, fibre, for using plastic material in the sea float, this kind of material very big isolated electric field response, this also leads to induction type electron luminous float sensitivity limited, often appears being difficult to be triggered after the income water, the condition that the float can't light.

The inventor of the invention continuously develops the following technical scheme in order to overcome the defects of the existing product.

The utility model has the following contents:

the utility model aims to solve the technical problem that overcome the not enough that prior art exists, provide the luminous float of induction type electron of a reaction sensitivity and use the cursory of this float.

In order to solve the technical problem, the utility model discloses well float head has adopted following technical scheme: an inductive electro-luminescent float, comprising: float and the response luminescent circuit of setting in the float, the float in set up and hold the chamber, response luminescent circuit include: circuit board and LED light source, the circuit board be located and hold the chamber in, its characterized in that: a floating battery is inserted into the accommodating cavity and electrically connected with the circuit board to supply power for the LED light source, and the circuit board is provided with a capacitive sensing contact of a trigger circuit, and the sensing contact is contacted with the inner wall of the accommodating cavity through an elastic conductor.

Further, among the above-mentioned technical scheme, the appearance intracavity be provided with one and be used for the card stopper with cursory battery and circuit board electric connection, the card stopper include: the battery pack comprises an insulating seat and positive and negative electrode needles fixed on the insulating seat, wherein a jack for inserting the floating battery is formed in the clamping plug.

Further, in the above technical solution, the upper ends of the positive and negative electrode pins are welded to the circuit board, and the lower ends thereof are in contact with the positive and negative electrodes of the floating battery, so that the positive and negative electrodes of the floating battery inserted into the insertion hole are in electrical contact with the positive and negative electrode pins, respectively, to supply power to the circuit board; the floating battery is a cylinder, the positive electrode of the floating battery is a positive electrode pole with a raised upper end, and the negative electrode of the floating battery is the side wall of the floating battery.

Furthermore, in the above technical solution, the positive and negative electrode pins and the circuit board are welded by half-holes.

Further, in the above technical solution, the float head includes: a float head seat used for being connected with the float body and a float eye rod fixed on the float head seat.

Furthermore, in the above technical solution, the floating eye rod is a hollow tube, the LED light source is a string light connected by a wire, the string light is disposed in the floating eye rod, and the end of the wire is welded on the circuit board.

Furthermore, in the above technical scheme, the floating rod is a light pipe, the LED light source is located at the lower end of the floating rod, the LED light source is welded on the circuit board, and when the LED light source emits light, the light is transmitted through the floating rod.

Furthermore, in the above technical solution, the elastic conductor is any one of elastic metal strips of a metal spring elastic metal sheet, and one end of the elastic conductor is welded to the induction contact, so that the other end of the elastic conductor is elastically pressed against the inner wall of the cavity.

The utility model discloses well cursory following technical scheme that has adopted: this cursory has foretell float, the cursory platform angle cursory, it includes: the float head floats the body and floats the foot, float head and float foot be located the upper and lower both ends that float the body respectively.

Furthermore, in the above technical scheme, the float head and the float body are connected by screw threads.

After the technical scheme is adopted in the utility model, its biggest advantage is exactly whether adopt the work of induction type on-off control LED light source. Under the general condition, go into the water and can light the LED light source, also can light the LED light source through human touch float head surface, whether person's LED light source just can not give out light, the electric quantity of cursory battery just can not form the loss just like this, just so need not to set up in addition on cursory switch close circuit, perhaps take off the cursory battery and cut off the power supply, cursory battery can place in cursory always, just can work when only fishing, improves cursory battery life greatly. In addition, because the sensing contact is directly encapsulated in the containing cavity, the sensing contact does not need to be exposed on the surface of the buoy, so that the structure of the buoy body is not damaged, the waterproof effect is good, and the problem of poor contact caused by oxidation and rusting of the sensing contact due to direct contact with water can not occur.

In addition, the utility model discloses a floating head does not change the molding and the mechanism of traditional cursory, and it can directly regard as ordinary cursory to use, takes off the back with the battery, combines just can regard as ordinary cursory to use with floating body, float foot, need not change completely.

Description of the drawings:

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

FIG. 2 is a schematic structural view of a first embodiment of the float head of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a schematic perspective exploded view of FIG. 3;

fig. 5 is a circuit diagram of the present invention;

fig. 6 is a schematic structural view of a second embodiment of the float head of the present invention.

The specific implementation mode is as follows:

the present invention will be further described with reference to the following specific embodiments and accompanying drawings.

The utility model relates to a response electron is luminous cursory, it is shown in figure 1, figure 2 to see, the utility model discloses a cursory 1 is provided with response luminescent circuit in. Wherein, the buoy 1 includes: float head 11, float body 12 and float foot 13, float head 11 and float foot 13 fix respectively in float body 12 upper and lower both ends.

As shown in fig. 3 and 4, a cavity 10 is provided in the float 11, and the induction light-emitting circuit includes: the LED lamp comprises a circuit board 2 and an LED light source 4, wherein the circuit board 2 is positioned in a containing cavity 10, and a floating battery 3 can be inserted into the containing cavity 10 from bottom to top and is electrically connected with the circuit board 2 to supply power to the LED light source 4.

The float 11 comprises: a float head seat 111 used for connecting with the float body 12 and a float rod 112 fixed on the float head seat 111. The cavity 10 is opened on the float seat 111, and the float body 12 is also opened with a cavity corresponding to the cavity 10 to accommodate the lower part of the battery 3. The float head 11 and the float body 12 can be connected through screw threads, and after the float foot 13 is combined, a complete float 1 is formed. In order to ensure sealing and prevent water from entering the cavity 10, a sealing groove 123 is provided at the threaded connection position.

The induction light-emitting circuit comprises: the LED lamp comprises a circuit board 2, a buoy battery 3 and an LED light source 4, wherein the circuit board 2 is located in a containing cavity 10, the buoy battery 3 is inserted into the containing cavity 10 from bottom to top and is electrically connected with the LED light source 4 and the circuit board 2, a capacitive sensing contact 21 of a trigger circuit is arranged on the circuit board 2, and the sensing contact 21 is in contact with the buoy 1 through an elastic conductor 5. Referring to fig. 5, when the induction light-emitting circuit works, the floating battery 3 provides 3V power, and the induction contact 21 is connected with the capacitor 22. When a person touches the proximity sensing contact 21 or floats into water, the capacitor 22 changes to a certain extent, and whether the float contacts with a human body or enters water can be judged according to the change, so that the control chip 23 responds to light the LED light source 4. The control chip 23 may adopt a touch control chip with a model number of TTP 233D.

The LED light source 4 is a light string connected by a wire 41, and the light string is arranged in the float 11. Specifically, the eye-floating rod 112 is a hollow tube, the string of the LED light source 4 is disposed in the eye-floating rod 112, and the end of the wire 41 is welded to the circuit board 2, so that the string of the LED light source 4 is packaged in the floating head 11, and the floating battery 3 supplies power to the LED light source 4 through the circuit board 2, so that the light emitted by the LED light source 4 is transmitted by the floating head 11. In order to reduce the size, the LED light source 4 may directly adopt LED chips, and a plurality of LED chips are directly soldered on the two parallel wires 41, and the tail ends of the wires 41 are soldered on the upper end of the circuit board 2.

The LED elements in the LED light source 4 can be connected in series or in parallel through a wire 41, and the number of the LED elements can be set according to the requirement of the buoy.

A plug 6 is further arranged in the cavity 10, and the plug 6 comprises: positive and negative electrode pins 61, 62, and an insulating base 60 injection-molded integrally with the positive and negative electrode pins 61, 62. The card plug 6 has an insertion hole 600 formed therein into which the float battery 3 is inserted. The plug 6 is used for electrically connecting the floating battery 3 with the circuit board 2. The upper ends of the positive and negative electrode pins 61 and 62 are welded on the circuit board 2, and the lower ends of the positive and negative electrode pins are in contact with the floating battery 3, so that the positive and negative electrodes of the floating battery 3 are respectively in electrical contact with the positive and negative electrode pins 61 and 62, and power is supplied to the circuit board 2. The float battery 3 used in conjunction with the utility model adopts a standard float battery, for example, the model is CR425, CR435(4 represents the outer diameter; 25, 35 represents the length, unit millimeter), or the model is CR322, CR316 (3 represents the outer diameter, 22, 16 represents the length, unit millimeter). The shape of the floating battery is generally a cylinder, and the side wall and the electrode column 31 protruding from the upper end of the floating battery 3 are respectively used as the positive electrode and the negative electrode of the floating battery. When the floating battery 3 is inserted into the insertion hole 600, the positive and negative electrodes of the floating battery 3 are respectively in electrical contact with the positive and negative electrode pins 61 and 62 on the card plug 6, so as to supply power to the circuit board 2.

The utility model provides a so through elastic conductor 5 with response contact 21 with hold the contact of chamber 10 inner wall, this is because, because the utility model discloses a float 1 is platform fishing float, and float seat 111 and float 12 adopt light material to make, for example materials such as reed, plastic, peacock feather. After a human body touches the buoy or the buoy enters water, the capacitance change is small, the buoy is difficult to trigger, and the buoy cannot be lightened. The sensitivity of the sensing is improved by adding an elastic conductor 5 to bring the sensing contact 21 into direct contact with the float. The elastic conductor 5 is any one of a metal spring, an elastic metal sheet and an elastic metal strip, and one end of the elastic conductor 5 is directly connected with the induction contact 21 in a welding mode, so that one end is elastically pressed against the inner wall of the cavity 10.

After the technical scheme is adopted in the utility model, its biggest advantage is exactly whether adopt the work of induction type on-off control LED light source 4. Under the general condition, go into water and can light LED light source 4, no person LED light source 4 just can not give out light, and the electric quantity of cursory battery 3 just so can not form the loss just can not form in addition on cursory, and just so need not to set up the switch and close the circuit, perhaps takes off cursory battery and cuts off the power supply, and cursory battery can be placed in cursory always, just can work when only fishing, improves cursory battery life greatly. In addition, because the sensing contact 21 is directly encapsulated in the accommodating cavity 10, the sensing contact does not need to be exposed on the surface of the buoy, so that the structure of the buoy is not damaged, the waterproof effect is good, and the problem of poor contact caused by oxidation and rusting of the sensing contact 21 due to direct contact with water is avoided. Of course, touching the float by a human body can also trigger the switch of the LED light source 4.

See fig. 6, it is that the utility model discloses embodiment two of floating head, this embodiment two is different from above-mentioned embodiment one in that, in this embodiment two, float aim pole 112 be the light pipe, LED light source 4 directly adopt the LED luminous element, it is located and floats aim pole 112 lower extreme, and the pin welding of LED light source 4 is on circuit board 2, and after the circuit switched on, LED light source 4 was luminous, light transmitted out through the light pipe as floating aim pole 112, appeared luminous effect. In the second embodiment, a conventional light-emitting manner is adopted, the floating rod 112 is directly made to emit light through a light pipe, and the floating rod 112 may be made of optical fiber or other materials. Of course, since the optical fiber is soft, in order to keep the eye-floating rod 112 in an upright state, a plastic transparent tube can be sleeved outside the eye-floating rod 112 as a support.

Of course, the above description is only an exemplary embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes and modifications made by the constructions, features, and principles of the present invention in accordance with the claims of the present invention are intended to be included in the scope of the present invention.

Claims (10)

1. An inductive electro-luminescent float, comprising: float head (11) and the response luminescent circuit of setting in float head (11), float head (11) in be provided with and hold chamber (10), response luminescent circuit include: circuit board (2) and LED light source (4), circuit board (2) be located and hold chamber (10), its characterized in that: a floating battery (3) is inserted into the accommodating cavity (10) and electrically connected with the circuit board (2) to supply power to the LED light source (4), a capacitive sensing contact (21) of a trigger circuit is arranged on the circuit board (2), and the sensing contact (21) is in contact with the inner wall of the accommodating cavity (10) through an elastic conductor (5).

2. An induction type electronic luminous float head according to claim 1, characterized in that: appearance chamber (10) in be provided with one and be used for card stopper (6) with cursory battery (3) and circuit board (2) electric connection, card stopper (6) include: the floating battery comprises an insulating seat (60), and a positive electrode needle (61) and a negative electrode needle (62) which are fixed on the insulating seat (60), wherein an insertion hole (600) for inserting the floating battery (3) is formed in the clamping plug (6).

3. An induction type electronic luminous float head according to claim 2, characterized in that: the upper ends of the positive electrode needle (61) and the negative electrode needle (62) are welded on the circuit board (2), the lower ends of the positive electrode needle and the negative electrode needle are in contact with the positive electrode and the negative electrode of the floating battery (3), the positive electrode and the negative electrode of the floating battery (3) inserted into the jack (600) are respectively in electrical contact with the positive electrode needle (61) and the negative electrode needle (62), and power is supplied to the circuit board (2); the floating battery (3) is a cylinder, the positive electrode of the floating battery is a positive electrode pole (31) with a convex upper end, and the negative electrode of the floating battery is the side wall of the floating battery (3).

4. An induction type electronic luminous float head according to claim 2, characterized in that: and the positive electrode needle (61), the negative electrode needle (62) and the circuit board (2) are welded by adopting half holes.

5. An induction type electronic luminous float head according to claim 2, characterized in that: the float head (11) comprises: a float head seat (111) used for being connected with the float body (12) and a float rod (112) fixed on the float head seat (111).

6. An induction type electronic luminous float head according to claim 5, characterized in that: the eye floating rod (112) is a hollow tube, the LED light source (4) is a lamp string connected by a lead (41), the lamp string is arranged in the eye floating rod (112), and the tail end of the lead (41) is welded on the circuit board (2).

7. An induction type electronic luminous float head according to claim 5, characterized in that: the LED light source is characterized in that the floating eye rod (112) is a light guide pipe, the LED light source (4) is positioned at the lower end of the floating eye rod (112), the LED light source is welded on the circuit board (2), and when the LED light source (4) emits light, the light is transmitted out through the floating eye rod (112).

8. An induction type electronic luminous float head according to claim 1, characterized in that: the elastic conductor (5) is any one of a metal spring, an elastic metal sheet and an elastic metal strip, one end of the elastic conductor (5) is welded on the induction contact (21), and the other end of the elastic conductor is elastically pressed against the inner wall of the cavity (10).

9. A float is characterized in that: the float (1) has a float head (11) according to any one of claims 1-8, said float (1) being a table fishing float comprising: float head (11), float body (12) and float foot (13), float head (11) and float foot (13) be located the upper and lower both ends of float body (12) respectively.

10. A float as claimed in claim 9, wherein: the float head (11) is in threaded connection with the float body (12).

Images