JPS6112220Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a battery holding device such as an electric float that uses a light emitting diode as a light source.

Generally, elongated lithium batteries are used as batteries for electric floats, etc. As shown in Figure 5, this lithium battery has a convex portion 31 with a diameter d that serves as one electrode, and an outer case that serves as the other electrode. 32, or, as shown in FIG. 6, a convex portion 33 having a larger diameter _d1 and a shorter length _l1 than the convex portion 31 is used as one electrode. There is.

Therefore, the present invention aims to provide a battery holding device that can securely hold any of the above-mentioned batteries, and the present invention will be described below based on drawings showing embodiments thereof. In Fig. 1, reference numeral 1 denotes a cylindrical upper case constituting the float body, and this upper case 1 has a thin top part 2 formed at the upper part, and this top part 2 is equipped with a light emitting diode 3 that serves as a light source. are doing. Reference numeral 4 denotes a battery holding portion, and this battery holding portion 4 is hermetically fixed to the lower end opening of the upper case 1 and is press-fitted into the upper end opening of the cylindrical lower case 5. Reference numeral 6 denotes a lithium battery in the form of an elongated rod. This lithium battery 6 is housed in the lower case 5 and is fitted by being inserted into the battery holding portion. Moreover, the battery holding part 4 is a lithium battery 6
These conductors and the light emitting diode 3 are electrically connected via lead wires 7 and 7'.

Next, the structure of the battery holding part 4 will be explained based on FIGS. 2 to 4. Reference numeral 8 denotes a core rod made of an insulating material, and the lower part of the core rod 8 has a cylindrical base 9 with a large diameter. 10 and 11 are light emitting diodes 3
These conductors 10 and 11 are arranged in grooves 12 and 13 on both sides of the core rod 8, and are electrically connected through lead wires 7 and 7'.
In this case, in order to prevent displacement in the vertical direction, the conductors 10 and 11 have U-shaped bent portions 10' and 1, respectively.
1' is provided, and the bent parts 10' and 11' are fitted into the deep grooves 12' and 13' of the corresponding groove parts 12 and 13,
In addition, by press-fitting the cylinder 14 to the outside of the core rod 8, the conductors 10 and 11 are sandwiched. The upper part of the cylindrical body 14 is fixed to the inner wall of the lower end opening of the upper case 1, and the lower part is press-fitted into the upper end opening of the lower case 5.
A ring 15 is provided, and this O-ring 15 prevents water from entering into the lower case 5. Of the conductors 10 and 11, the elastic contact portion 16 formed at the bottom of one of the conductors 10 is shaped like a coil spring, and has approximately the same diameter as the exterior case 17 of the battery 6 so as to face inside the cylindrical base 9. ing. Also, the other conductor 11
The elastic contact part 18 formed at the lower part of the conductor 10 has a coil spring shape similar to the lower elastic contact part 16 of the one conductor 10, and its diameter is a long convex part 19 projecting from the upper end surface of the exterior case 17 of the battery 6. The core rod 8 has a diameter that extends through the hole 20 at the bottom of the core rod 8. In FIG. 2, the cylindrical outer case 17 is used as one electrode,
This figure shows a state in which a lithium battery 6 is fitted into the battery holding part 4, and the other electrode is constituted by a protrusion 19 with a long protruding dimension that protrudes from the end surface of the outer case 17, and serves as one electrode. Exterior case 17
A coil spring-like elastic contact portion 16 formed at the bottom of one of the conductors 10 comes into contact with the upper end surface, and a protrusion 19 with a long protruding dimension that becomes the other electrode is formed at the bottom of the other conductor 11. Coil spring-like elastic contact part 1
Penetrates inside 8. In this case, since the diameter of the lower part of the elastic contact part 18 is slightly larger than the diameter of the convex part 19, in order to ensure the contact between the convex part and the elastic contact part 18, the convex part 19
A small diameter part 21 having a smaller diameter than the lower part is provided at the upper part of the elastic contact part 18 so that the elastic contact part comes into contact with the upper surface of the elastic contact part 18. FIG. 3 shows a state in which one electrode of the cylindrical outer case 17 is used, and the convex portion 22 that protrudes from the end surface of the outer case 17 with a short dimension is used as the other electrode, and a lithium battery 6 is fitted into the battery holding part 14. In this case, since the diameter of the convex part 22 with a short protruding dimension is larger than the diameter of the convex part 19 with a long protruding dimension,
Even if the length of the convex part 22 is short, the convex part 22 reliably abuts on the elastic contact part 18 shaped like a coil spring. Here lithium battery 6
Since it is spring-biased downward by coil spring-like elastic contact parts 16 and 18, it is necessary to prevent it from coming off downward, but generally the outer case of the lithium battery 6 is attached to the bottom of the lower case 5. Since the bottom of 17 is pushed up, it does not slip downward. Further, as shown in FIGS. 2 and 3, a convex portion 23 is formed on the inner surface of the base 9, and when the lithium battery 6 is inserted, the convex portion 23 is elastically inserted into the annular recess 24 provided on the upper outer periphery of the outer case 17. Even if the lithium battery 6 is engaged in a specific manner, the lithium battery 6 can be prevented from coming off downward.

In the above embodiment, a battery holding device for an electric float has been described, but this battery holding device can also be applied as a battery holding device for a light-emitting lure, a light-emitting squid needle, a rod tip light, and the like.

As described above, according to the present invention, an elastic contact part is formed on the other conductor provided at a position that contacts the convex part of the battery, and this elastic contact part is used when a battery having a convex part with a short protrusion dimension is inserted. Since the small diameter part of the upper part of the elastic contact part contacts the top surface of the convex part and is biased by a spring so that when a battery having a long protruding protrusion is inserted, the small diameter part of the upper part of the elastic contact part contacts the top surface of the convex part. Regardless of whether the length of the protrusion protruding from the end face of the battery is long or short, contact is ensured, and as a result, it has the excellent feature of being able to hold any battery. In addition, if a coil spring-like elastic contact part is formed on one of the conductors that comes into contact with the end face of the battery's outer case, this elastic contact part will be spring-biased in a direction perpendicular to the end face of the battery's outer case. It has the feature of being able to achieve straightness.

[Brief explanation of the drawing]

FIG. 1 is a vertical sectional view of an electric float employing a battery holding device according to an embodiment of the present invention, FIGS. The figure is an exploded perspective view of the battery holding part.
5 and 6 are side views of the lithium battery. 1... Upper case, 3... Light emitting diode, 4...
...Battery holding part, 5...Lower case, 6...Battery, 1
0, 11... Conductor, 16, 18... Elastic contact part, 1
7... Exterior case, 19, 22... Convex portion.

Claims (1)

[Scope of utility model registration request] Two types of batteries were constructed, in which a light emitting diode provided on the float body, an outer case were used as one electrode, and a protrusion protruding from the end face of the outer case was used as the other electrode, and the protruding length of the other electrode was different. a battery holding part capable of holding either one of the conductors, and one conductor provided in the battery holding part at a position that is electrically connected to the light emitting diode and in contact with the end surface of the outer case of the battery; The other conductor is electrically connected to the light emitting diode, is insulated from the one conductor, and is provided at a position in contact with the convex portion of the battery, and this other conductor has a coil spring shape and has a lower part. An elastic contact portion is formed with a larger diameter and a smaller diameter at the upper portion, and this lower elastic contact portion with a larger diameter contacts the upper surface of the protrusion when a battery having a protrusion with a short protrusion and a large diameter is inserted, A battery holding device such as an electric float, which is spring-biased so that an upper elastic contact portion with a small diameter comes into contact with the upper surface of the convex portion when a battery having a convex portion with a long protruding dimension and a small diameter is inserted. Device.