CN210929246U - Electronic buoy that charges that suitability is good - Google Patents

Abstract

The utility model discloses a charging electronic float with good adaptability, which comprises a float tail, a float body and a float foot arranged at one end of the float body, wherein the float body is hollow and is internally provided with a battery and a protection component, and the end part of the float body far away from the float foot is provided with an internal thread connector; the protection assembly is fixed in the float body and comprises a protection shell, the protection shell is coated on a wiring end of the battery, and a conductive connecting piece, a partition plate and a spring thimble are arranged in the protection shell; the baffle is vertical to be installed in the protective housing, is equipped with two through-holes on the baffle, and electrically conductive connecting piece arranges baffle one side in and its be close to the battery, and electrically conductive connecting piece terminal surface is circular form and its insulating layer that includes anodal conductive loop, the conductive loop of negative pole and arrange anodal conductive loop, the conductive loop of negative pole in between. The utility model discloses economical and practical, the suitability is good, wherein float the body and float the tail and pass through threaded connection, and protective housing in the float body can play the guard action to battery, electrically conductive connecting piece and spring thimble.

Description

Electronic buoy that charges that suitability is good

Technical Field

The utility model relates to a fishing tackle technical field specifically is a charging electron is cursory that suitability is good.

Background

Fishing is a popular sports and recreational activity. Particularly, at night, the weather is cool and most suitable for fishing, so the electronic float is also a common electronic tool for fishing enthusiasts. A common electronic float on the market is mainly characterized in that a float body is divided into two parts with different sizes, the large part is connected with a float foot, the small part is connected with a float tail, the float body is hollow and is provided with a light source and a battery, and the two parts of the float body are combined together through a spiral connector. However, this structure has the following disadvantages: the protection nature is poor, need frequently changing the battery moreover, need dismantle float body inside changing the battery, harm float body easily, and then lead to whole float to scrap, and its suitability is poor simultaneously.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a good electronic float that charges of suitability to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a charging electronic float with good adaptability comprises a float tail, a float body and a float foot arranged at one end of the float body, wherein the float body is hollow, a battery and a protection component are arranged in the float body, and an internal thread connector is arranged at the end part of the float body, which is far away from the float foot; the protection assembly is fixed in the float body and comprises a protection shell, the protection shell is coated on a wiring end of the battery, and a conductive connecting piece, a partition plate and a spring thimble are arranged in the protection shell; the battery protection device comprises a protective shell, a baffle plate, a conductive connecting piece and a battery, wherein the baffle plate is vertically arranged in the protective shell, two through holes are formed in the baffle plate, the conductive connecting piece is arranged on one side of the baffle plate and is close to the battery, and the end face of the conductive connecting piece is circular and comprises a positive conductive ring, a negative conductive ring and an insulating layer arranged between the positive conductive ring and the negative conductive ring; the spring thimble includes anodal electrically conductive thimble, the electrically conductive thimble of negative pole and overlaps the spring that establishes respectively on anodal electrically conductive thimble, the electrically conductive thimble of negative pole, and anodal electrically conductive thimble, the electrically conductive thimble of negative pole one end pass the through-hole on the baffle and correspond with anodal electrically conductive circle, the electrically conductive circle of negative pole respectively.

Preferably, the float tail is arranged at the front end of the float body and comprises a joint end and an electronic light-emitting end, the joint end is in a hollow column shape, external threads are arranged on the outer surface of the joint end, and the joint end extends into the float body and is in threaded connection fit with the internal thread connecting port.

Preferably, a pin-type conductor is arranged in the connector end, the pin-type conductor comprises a conductive column and a conductive pin, a conductive connecting piece is also arranged at the end part of the pin-type conductor, and a positive conductive ring and a negative conductive ring of the conductive connecting piece respectively correspond to the positive conductive thimble and the negative conductive thimble.

Preferably, the positive conductive thimble and the negative conductive thimble are provided with a stop block, and the other ends of the positive conductive thimble and the negative conductive thimble penetrate through the protective shell and extend into the internal thread connecting port.

Preferably, a light emitting diode is arranged in the electronic light emitting end, and the positive pin and the negative pin of the light emitting diode are respectively connected with the conductive column body and the conductive needle.

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

the utility model discloses economical and practical, the suitability is good, will float the body and float the tail and establish separately, can realize partially changing when the float part damages, can not cause whole to scrap, wherein float the body and float the tail and pass through threaded connection, the protective housing in the body can play the guard action to battery, electrically conductive connecting piece and spring thimble. When in use, the joint end of the floating tail is screwed into the internal thread connector of the floating body, the conductive connecting piece in the joint end also enters the internal thread connector, the joint end drives the conductive connecting piece to contact and tightly abut against the positive conductive thimble and the negative conductive thimble under the action of force, at the moment, the positive conductive thimble and the negative conductive thimble are communicated with the conductive connecting piece but are not communicated with the battery, then the joint end is continuously screwed, so that the positive conductive ring and the negative conductive ring respectively abut against the positive conductive thimble and the negative conductive thimble, the positive conductive thimble and the negative conductive thimble are stressed to move to one side of the battery and compress the spring, the positive conductive thimble and the negative conductive thimble are stressed to be contacted with the conductive connecting piece connected with the battery end, at the moment, the light-emitting diode on the floating tail can emit light, and when not in use, the floating tail can be reversely twisted to separate the conductive connecting piece connected with the battery end from the spring thimble, the on-off of the light-emitting diode and the battery can be realized, so that the power saving effect is realized, and the float body can also be connected with different float tails to form different floats. Meanwhile, the floating tail composed of the needle type electric conductor and the electric connecting piece has good adaptability.

Drawings

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

fig. 2 is a schematic structural view of the conductive connecting member of the present invention;

fig. 3 is a schematic structural diagram of a charging assembly for charging a battery according to the present invention.

In the figure: 1. floating feet; 2. floating; 21. an internal thread connector; 3. floating the tail; 31. a joint end; 32. An electronic light emitting terminal; 4. a battery; 5. a protective housing; 51. a partition plate; 52. a positive conductive thimble; 53. A negative conductive thimble; 54. a spring; 6. a conductive connection member; 61. a positive conductive ring; 62. a negative conductive ring; 63. an insulating layer; 7. a pin-type electrical conductor; 71. a conductive post; 72. a conductive pin; 8. an externally threaded nipple; 9. and a USB charging wire.

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.

In the description of the present invention, it should be noted that the terms "vertical", "upper", "lower", "horizontal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Referring to fig. 1-2, the present invention provides a technical solution: a charging electronic float with good adaptability comprises a float tail 3, a float body 2 and a float foot 1 arranged at one end of the float body 2, wherein the float body 2 is hollow, a battery 4 and a protection component are arranged in the float body 2, and an internal thread connecting port 21 is arranged at the end part of the float body 2 far away from the float foot 1; the protection assembly is fixed in the float body 2 and comprises a protection shell 5, the protection shell 5 is coated on a wiring terminal of the battery 4, and a conductive connecting piece 6, a partition plate 51 and a spring thimble are arranged in the protection shell 5; the separator 51 is vertically arranged in the protective shell 5, two through holes are formed in the separator 51, the conductive connecting piece 6 is arranged on one side of the separator 51 and close to the battery 4, the end face of the conductive connecting piece 6 is circular and comprises a positive conductive ring 61, a negative conductive ring 62 and an insulating layer 63 arranged between the positive conductive ring 61 and the negative conductive ring 62; the spring thimble comprises an anode conductive thimble 52, a cathode conductive thimble 53 and a spring 54 respectively sleeved on the anode conductive thimble 52 and the cathode conductive thimble 53, and one end of the anode conductive thimble 52 and one end of the cathode conductive thimble 53 penetrate through holes on the partition plate 51 and respectively correspond to the anode conductive ring 61 and the cathode conductive ring 62.

Furthermore, the float tail 3 is arranged at the front end of the float body 2 and comprises a joint end 31 and an electronic light-emitting end 32, the joint end 31 is in a hollow column shape, external threads are arranged on the outer surface of the joint end 31, and the joint end 31 extends into the float body 2 and is in threaded connection and matching with the internal threaded connector 21.

Furthermore, the positive conductive thimble 52 and the negative conductive thimble 53 are provided with a stopper, and the other ends of the positive conductive thimble 52 and the negative conductive thimble 53 penetrate through the protective shell 5 and extend into the internal thread connector 21.

Further, a pin-type conductor 7 is disposed in the connector end 31, the pin-type conductor 7 includes a conductive column 71 and a conductive pin 72, a conductive connector 6 is also mounted at an end of the pin-type conductor 7, and the positive conductive ring 61 and the negative conductive ring 62 of the conductive connector 6 respectively and correspondingly extend into the positive conductive thimble 52 and the negative conductive thimble 53 of the internal threaded connector 21.

Further, a light emitting diode is disposed in the electronic light emitting end 32, and positive and negative leads of the light emitting diode are respectively connected to the conductive column 71 and the conductive pin 72.

Please refer to fig. 3, fig. 3 is a charging assembly for the battery 4 of the present invention, the charging assembly includes an external thread connector 8, a conductive connecting member 6 and a USB charging wire 9, wherein, the external thread connector 8 cooperates with the internal thread connector 21 by thread connection, the conductive connecting member 6 is disposed at the end of the external thread connector 8, the conductive connecting member 6 is connected with the USB charging wire 9, the positive conductive ring 61 and the negative conductive ring 62 of the conductive connecting member 6 respectively correspond to the positive conductive thimble 52 and the negative conductive thimble 53 extending to the internal thread connector 21. When charging, connect the charger with USB joint of USB charging wire 9, with the external screwed joint 8 screw in of USB charging wire 9 float body 2, make electrically conductive connecting piece 6 connect anodal electrically conductive thimble 52, the electrically conductive thimble 53 of negative pole, continue to screw up float body 2 after that, make anodal electrically conductive circle 61, the electrically conductive circle 62 of negative pole support respectively and press the spring thimble, the spring thimble atress removes to battery 4 one side, the electrically conductive connecting piece 6 contact of spring thimble atress and battery end connection to realize charging, and it is very reliable to charge.

The working principle is as follows:

the utility model discloses to float body 2 and float 3 branch of tail and establish, can realize partially changing when the float part damages, can not cause whole to scrap, wherein float body 2 and float tail 3 and pass through threaded connection, and protective housing 5 in the float body 2 can play the guard action to battery 4, conductive connecting piece 6 and spring thimble. When in use, the joint end 31 of the floating tail 3 is screwed into the internal thread connecting port 21 of the floating body 2, the conductive connecting piece 6 in the joint end 31 also enters the internal thread connecting port 21, the joint end 31 drives the conductive connecting piece 6 to contact and abut against the positive conductive thimble 52 and the negative conductive thimble 53 under the action of force, at the moment, the positive conductive thimble 52 and the negative conductive thimble 53 are communicated with the conductive connecting piece 6 but are not communicated with the battery 4, then the joint end 31 is screwed continuously, so that the positive conductive ring 61 and the negative conductive ring 62 abut against the positive conductive thimble 52 and the negative conductive thimble 53 respectively, the positive conductive thimble 52 and the negative conductive thimble 53 move to one side of the battery 4 under the stress and compress the spring 54, the positive conductive thimble 52 and the negative conductive thimble 53 contact with the conductive connecting piece 6 connected with the battery end under the stress, at the moment, the light-emitting diode on the floating tail can emit light, thereby realizing the light emission, when the floating tail is not used, the floating tail 3 can be reversely twisted, the spring thimble is separated from the conductive connecting piece 6 connected with the battery end, the on-off of the light-emitting diode and the battery 4 can be realized, the power saving effect is realized, and the floating body 2 can also be connected with different floating tails to form different floats. Meanwhile, the floating tail composed of the needle type electric conduction device 7 and the electric conduction connecting piece 6 is good in adaptability, and the needle type electric conduction device 7 and the electric conduction connecting piece 6 can be assembled on different floating tails, so that connection with a floating body is achieved.

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 (5)

1. A charging electronic float with good adaptability is characterized by comprising a float tail (3), a float body (2) and a float foot (1) arranged at one end of the float body (2), wherein the float body (2) is hollow, a battery (4) and a protection component are arranged in the float body, and an internal threaded connector (21) is arranged at the end part of the float body (2) far away from the float foot (1); the protection assembly is fixed in the float body (2), and comprises a protection shell (5), the protection shell (5) is coated on a terminal of the battery (4), and a conductive connecting piece (6), a partition plate (51) and a spring thimble are arranged in the protection shell; the battery protection device is characterized in that the partition plate (51) is vertically arranged in the protection shell (5), two through holes are formed in the partition plate (51), the conductive connecting piece (6) is arranged on one side of the partition plate (51) and is close to the battery (4), the end face of the conductive connecting piece (6) is circular and comprises a positive conductive ring (61), a negative conductive ring (62) and an insulating layer (63) arranged between the positive conductive ring (61) and the negative conductive ring (62); the spring thimble comprises an anode conductive thimble (52), a cathode conductive thimble (53) and a spring (54) sleeved on the anode conductive thimble (52) and the cathode conductive thimble (53), wherein one end of the anode conductive thimble (52) and one end of the cathode conductive thimble (53) penetrate through a through hole in the partition plate (51) and correspond to the anode conductive ring (61) and the cathode conductive ring (62) respectively.

2. The charging electronic buoy of claim 1, which is characterized in that: the float tail (3) is arranged at the front end of the float body (2) and comprises a joint end (31) and an electronic light-emitting end (32), the joint end (31) is in a hollow column shape, external threads are arranged on the outer surface of the joint end, and the joint end (31) extends into the float body (2) and is in threaded connection and matching with the internal thread connecting port (21).

3. The charging electronic buoy of claim 1, which is characterized in that: the positive conductive thimble (52) and the negative conductive thimble (53) are provided with a stop block, and the other ends of the positive conductive thimble (52) and the negative conductive thimble (53) penetrate through the protective shell (5) and extend into the internal thread connector (21).

4. The charging electronic buoy of claim 2, which is characterized in that: the connector is characterized in that a needle type conductive device (7) is arranged in the connector end (31), the needle type conductive device (7) comprises a conductive column body (71) and a conductive needle (72), a conductive connecting piece (6) is also arranged at the end part of the needle type conductive device (7), and a positive conductive ring (61) and a negative conductive ring (62) of the conductive connecting piece (6) respectively and correspondingly extend into a positive conductive thimble (52) and a negative conductive thimble (53) of the internal thread connector (21).

5. The charging electronic buoy of claim 2, which is characterized in that: and the electronic light-emitting end (32) is internally provided with a light-emitting diode, and the positive pin and the negative pin of the light-emitting diode are respectively connected with the conductive column body (71) and the conductive needle (72).

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