JP3194644U - Battery box structure with automatic discharge - Google Patents

Abstract

A battery box structure capable of automatically discharging a battery without changing the electronic product inside out is provided. A battery box structure includes a case part, a first circuit board, a push button, and a box part. A first receiving groove 111 penetrating the lower surface is provided in the outer concave surface of the case portion, the first circuit board is fixed inside the case portion, and the first circuit board is inserted into the first receiving groove. At least one pair of elastic joining terminals 24 is fixed, the push button is provided between the case portion and the first circuit board, and the box portion is provided in the first receiving groove. A battery housing groove is provided on the inner side surface of the box portion, and at least one pair of conductive plates that are in contact with the corresponding elastic joint terminals are fixedly provided on the upper surface of the box portion. If the push button is pressed, the elastic joint terminal can be removed by pushing the conductive plate and sliding the box to remove the battery. [Selection] Figure 4

Description

The present invention relates to a battery box structure, and more particularly to a battery box structure capable of automatic discharge.

As shown in FIG. 1, an electronic product 100 ′ such as a remote controller or a joystick for a game machine has a built-in battery 200 ′ and needs to supply necessary power. Usually, the rear surface of the electronic product 100 ′ for a remote control, a game machine or the like is recessed inside to provide a battery housing groove, and after the battery 200 ′ is mounted, the battery 200 ′ is attached to the electronic product 100 ′ by the battery lid 101 ′. It is restricted not to fall off.

When replacing the battery 200 'with the conventional electronic product 100', it is necessary to turn the product over 180 degrees and open the battery cover 101 'for replacement. When the replacement of the battery 200 'is completed, the battery cover 101' must be closed and the electronic product 100 'must be turned over 180 degrees again. Replacing the battery 200 'in the electronic product 100' takes time and the area of the battery lid 101 'is large. If it is necessary to reduce the area of the battery cover 101 ′ in the electronic product 100 ′ in appearance, the method of opening the battery cover 101 ′ is not appropriate.

The present invention provides a battery box structure that can be automatically discharged without turning the electronic product upside down for convenient use by a user, can be replaced automatically, has a short time, and has a small battery lid area. There was a need.

The purpose of the present invention is to solve the deficiencies and shortcomings existing in the prior art, so that the battery can be replaced conveniently without turning over the electronic product, the replacement time is short, and the battery lid An object of the present invention is to provide a battery box structure that can be automatically discharged with a small area and is convenient for the user.

In order to achieve the above object, the battery box structure that can be automatically discharged according to the present invention is provided in an electronic product and is used to construct a battery. The battery box structure includes a case part, a first circuit board, a push button, and a box part. The outer surface of the case portion is provided with a first receiving groove that is recessed inward and penetrates the lower surface of the case portion. The first circuit board is fixed inside the case portion and above the first accommodation groove. The first circuit board is provided with a pair of elastic joint terminals that are curved in an arch shape and inserted into the first receiving groove. The push button is elastically installed between the case portion and the first circuit board, and extends to the outer surface of the case portion. The box portion is provided in the first receiving groove from the bottom to the top, and the upper end is engaged with the push button. A battery housing groove is recessed in the inner surface of the box portion, and at least one battery is housed in the battery housing groove. At least one pair of flat plate-like conductive plates is provided on the upper surface of the box, and each conductive plate abuts a corresponding elastic joint terminal. The elastic joint terminal is contracted to accumulate elastic force, and the conductive plate is electrically connected to the positive electrode and the negative electrode of the battery, respectively. When the push button is pressed, the push button is not engaged with the box part, and the conductive plate is pressed by the elastic force released by the elastic joint terminal, and the box part slides downward by a predetermined distance, The battery can be replaced by removing the box.

As described above, in the battery box structure capable of automatic discharge according to the present invention, the first circuit board is provided with at least one pair of elastic joint terminals that are curved in an arch shape and inserted into the first receiving groove. On the upper surface of the box portion, at least one pair of flat conductive plates that are in contact with the elastic joining terminals are provided. When the push button is pressed, the elastic junction terminal propels the conductive plate, the box part is slid downward by a predetermined distance, and the battery can be replaced by removing the box part. The box part can be discharged automatically. Even if the electronic product is not turned over, the battery can be replaced by removing the box, and the time required for replacement can be shortened.

FIG. 1 is a diagram showing an electronic product and a battery lid in the prior art. FIG. 2 is a three-dimensional view of an embodiment of the battery box structure capable of automatic discharge according to the present invention. FIG. 3 is a three-dimensional view of the battery box structure capable of automatic discharge shown in FIG. 2 when the box portion is not attached. FIG. 4 is a three-dimensional exploded view of the battery box structure capable of automatic discharge shown in FIG. FIG. 5 is a three-dimensional view of the box portion in the battery box structure capable of automatic discharge according to the present invention. FIG. 6 is a three-dimensional exploded view of the push button in the battery box structure capable of automatic discharge according to the present invention. FIG. 7 is a three-dimensional view of the first case in the battery box structure capable of automatic discharge according to the present invention. FIG. 8 is a three-dimensional view taken at another angle in the first case shown in FIG. FIG. 9 is a three-dimensional view when the pressing portion in the battery box structure capable of automatic discharge according to the present invention is assembled to the first case. FIG. 10 is a three-dimensional view when the box part and the second case are not mounted in the battery box structure capable of automatic discharge according to the present invention. FIG. 11 is a diagram showing a state where the push button and the box portion are engaged in the battery box structure capable of automatic discharge according to the present invention. FIG. 12 is a view showing a state where the push button and the box portion are not engaged when the push button is pressed in the battery box structure capable of automatic discharge according to the present invention.

In the following, in order to explain the technical contents of the present invention, the characteristics of the structure, the purpose and effect to be achieved, a detailed description will be given using examples and drawings.

As shown in FIG. 2 and FIG. 4, the battery box structure 100 of the present invention that can be automatically discharged is provided in an electronic product (not shown). Preferably, the electronic product is a joystick for a game machine, and the battery box structure 100 that can be automatically discharged includes a case part 10, a first circuit board 20, a push button 30, and a box part 40.

As shown in FIGS. 4, 7, and 8, the outer surface of the case portion 10 is provided with a first receiving groove 111 that is recessed inward and penetrates the lower surface of the case portion 10. Specifically, the case portion 10 includes a first case 11 and a second case 12, and the first receiving groove 111 is provided so as to be recessed from the outer surface of the first case 11 to the inside, and below the first case 11. Penetrates the surface. A first cutout groove 112 is provided in the top wall of the first receiving groove 111, and an opening 113 is provided in the top wall of the first cutout groove 112. On both side walls of the first receiving groove 111, guide portions 114 are provided so as to extend vertically and are parallel to each other. A first through hole 115 is provided above the first housing groove 111 in the first case 11, and the upper side, the left side, and the right side of the first through hole 115 on the inner surface of the first case 11 are reversed inward. A first holding piece 116 that forms a U-shape is protruded, and is arranged in the lateral direction below the first through hole 115 on the inner surface of the first case 11 and is arranged in two directions toward the inside. The second holding piece 117 is protruded. The two second holding pieces 117 have a vertical portion 1171 and a horizontal portion 1172 extending in the longitudinal direction. The first holding piece 116 and the second holding piece 117 are engaged to form the second receiving groove 18. A convex column 119 is provided above the first holding piece 116 on the inner surface of the first case 11, and the first holding piece 116 and the two second holding pieces 117 on the inner surface of the first case 11 are vertically arranged. Convex columns 119 are provided between the portions 1171, and each convex column 119 is provided with a guide hole 1191 penetrating inward and outward. The second case 12 is provided on the outer surface of the first case 11 to cover the top of the first receiving groove 111, thereby reducing the portion of the first receiving groove 111 exposed to the second case 12, A second through hole 121 is provided at a location corresponding to the first through hole 115 of the second case 12.

As shown in FIGS. 4 and 10, the first circuit board 20 is provided with a groove (not shown) penetrating the lower surface of the first circuit board 20, and at the center of the top wall of the groove. A convex plate 21 whose lower surface projects from the lower surface of the first circuit board 20 projects and extends, and the convex plate 21 partitions the groove into two first grooves 22. A rectangular insulating main body 23 is fixed to the convex plate 21, and the lower surface of the insulating main body 23 coincides with the lower surface of the convex plate 21. The first circuit board 20 is provided with at least one pair of elastic joint terminals 24 that are curved in an arch shape. Specifically, two pairs of elastic joining terminals 24 are fixed in the insulating body 23, and the ends of the elastic joining terminals 24 are curved in an arch shape and arranged in the lateral direction, and It has an elastic contact portion 241 that protrudes from the lower surface.

As shown in FIGS. 4 and 6, the push button 30 includes a pressing portion 31, a fixing piece 32, and an elastic member. The pressing portion 31 has a lid-like base 311. A pressing cap 312 is protruded at the center of the outer surface of the base 311. Extending plates 313 are protruded downward on both sides of the lower surface of the base 311. Is done. A hooking portion 314 is connected to the inner surface at the lower end of each stretched plate 313, first extending inward and downward, further downward, and further outward. A guide post 315 protruding outward is provided. A mounting panel 316 is connected to the upper surface of the base 311, and a guide post 315 is projected outward from the outer surface of the mounting panel 316. A mounting groove 317 is provided in the center of the inner surface of the base portion 311, and two mounting convex portions 318 arranged in the longitudinal direction are provided on the left and right side walls of the mounting groove 317 in a correspondingly protruding manner. A locking groove 319 is formed between the mounting protrusion 318 corresponding to each other and the top wall and the bottom wall of the mounting groove 317, respectively. The fixed piece 32 is made of a metal material. The elastic member is a spring 33, the spring 33 is extended in the lateral direction, and the spring 33 has an elastic portion 331 whose center is curved in an arch shape. Abutting portions 332 that are curved and extended to the outside are formed at both ends of the elastic portion 331, and locking pieces 333 are curved to the outside at both side edges at the center of the elastic portion 331.

As shown in FIG. 3, FIG. 4, FIG. 5 and FIG. 11, a battery housing groove 41 is projected on the inner surface of the box 40, and at least one battery 200 is housed in the battery housing groove 41. On the upper surface of the box portion 40, a flat conductive plate 431 that is electrically connected to the positive electrode and the negative electrode of the battery 200 is fixed. Specifically, the upper surface of the box portion 40 is provided with a joint convex portion 42 that protrudes upward, and a mounting groove 421 is provided at the center of the upper surface of the joint convex portion 42. A second circuit board 43 is provided. The conductive plates 431 are two pairs, and each conductive plate 431 is arranged in the horizontal direction and fixed on the upper surface of the second circuit board 43. The two pairs of conductive plates 431 are connected to the second circuit board 43 and lead wires (see FIG. Are not electrically connected to the positive electrode and the negative electrode of the battery 200. Locking plates 44 are projected upward on both sides of the mounting groove 421 on the upper surface of the joint convex portion 42, and locking grooves 441 are provided on the inner surface of each locking plate 44. At least one guide groove 45 extending vertically and parallel to each other is provided in the center of both side surfaces of the box portion 40, the two guide grooves 45 are parallel to each other, and both side walls at the upper ends of the two guide grooves 45 are A guide cutout 46 is formed by expanding each of them. A second cutout groove 47 is provided in the upper part of the outer surface of the box portion 40.

As shown in FIGS. 2 to 11, when the battery box structure 100 according to the present invention is assembled, the first circuit board 20 is located above the first receiving groove 111 inside the first case 11 of the case portion 10. Is fixed. The elastic contact portion 241 at the lower end of the convex plate 21 and the end of the elastic joint terminal 24 is inserted into the first receiving groove 111 from the inside of the opening 113 downward. The push button 30 is elastically installed between the case portion 10 and the first circuit board 20 and is extended to the outer surface of the case portion 10. Specifically, the fixing piece 32 is provided on the inner surface of the first case 11, the inner surface of the fixing piece 32 abuts on the outer surface of the first circuit board 20, and the outer surface of the fixing piece 32 is the first holding piece 116. And the second holding piece 117. The base portion 311 of the pressing portion 31 is installed between the fixed piece 32 and the first case 11 in the second receiving groove 18 so as to be slidable inside and outside by the guide of the guide column 315. The two extending plates 313 are accommodated between the vertical portions 1171 of the first holding piece 116 and the second holding piece 117, respectively, and the hooking portion 314 is provided in the first groove 22 on the outside of the first circuit board 20. . The hook portion 314 is located above the opening 113, and each guide column 315 is accommodated in the guide hole 1191 so as to be slidable inward and outward, and the pressing cap 312 is connected to the first through-hole 115 and the first through-hole 115. 2 is accommodated in the through hole 121 and protrudes from the outer surface of the second case 12. The spring 33 is provided between the pressing portion 31 and the fixed piece 32, and is locked in the two locking pieces 333 in the locking groove 319, and the two contact portions 332 are in contact with the fixed piece 32. . The battery 200 is installed in the battery receiving groove 41 of the box 40, and then the box 40 is installed in the first receiving groove 111 from the lower part to the upper part. Specifically, the guide groove 45 is slid upward by the guide 114 by the guidance of the guide notch 46, and the bottom wall of the second notch 47 is in contact with the lower surface of the second case 12. The joining convex portion 42 is accommodated in the first cutout groove 112, and the locking plate 44 is inserted into the first case 11 from the inside of the opening 113 upward. Each hook portion 314 is locked in the corresponding locking groove 441, each conductive plate 431 is in contact with the elastic contact portion 241 of the corresponding elastic joint terminal 24, and the elastic contact portion 241 is contracted and deformed. Accumulate elastic force.

As shown in FIG. 2 to FIG. 4 and FIG. 8 to FIG. 12, when the battery 200 is replaced, the battery box structure 100 of the present invention automatically presses the pressing cap 312 of the push button 30 and the base 311 It is slid inside. The spring 33 contracts and the elastic force is accumulated, and the hooking portion 314 of the pressing portion 31 is moved inward and inserted into the first groove 22 respectively. As a result, the hook portion 314 is not locked in the locking groove 441, and the elastic contact portion 241 releases the elastic force and presses the conductive plate 431, so that the box portion 40 is guided by the guide groove 45 and guided. 114 slides downward by a predetermined distance (the lateral part 1172 of the two second holding pieces 117 restricts the downward movement of the base part 311 and the locking plate 44 of the box part 40 is moved downward. The movement of the pressing part 31 is prevented), and the battery unit 200 can be replaced by removing the box part 40. The pressing cap 312 of the push button 30 is loosened, the spring 33 releases the elastic force, and the pressing portion 31 is pressed and recovered to the position before being pressed.

As described above, in the battery case structure 100 of the present invention that can be automatically discharged, the first circuit board 20 is provided with at least one pair of elastic joint terminals 24 that are curved in an arch shape and inserted into the first receiving groove 111. On the upper surface of the box portion 40, at least a pair of flat conductive plates 431 that are in contact with the elastic bonding terminals 24 are fixed. When the push button 30 is pressed, the elastic joint terminal 24 can push the conductive plate 24 and slide the box part 40 downward by a predetermined distance, so that the battery part 200 can be removed and the battery 200 can be replaced. . Thereby, the box 40 of the electronic product is automatically discharged, and the battery 200 can be easily removed by replacing the battery 200 without turning over the electronic product of the battery box structure 100 that can be automatically discharged. Yes, it takes less time. Furthermore, since the second case 12 is covered on the upper part of the first receiving groove 111 and the portion exposed to the second case 12 of the first receiving groove 111 is small, it is exposed to the case part 10 of the box part 40. The area is small, and the external demand for reducing the area of the battery lid in electronic products is satisfied.

DESCRIPTION OF SYMBOLS 100 Battery box structure 10 Case part 11 1st case 111 1st accommodating groove 112 1st notch groove 113 Opening hole 114 Guide part 115 1st through-hole 116 1st holding piece 117 2nd holding piece 1171 Vertical part 1172 Horizontal part 18 1st 2 receiving groove 119 convex column 1191 guide hole 12 second case 121 second through hole 20 first circuit board 21 convex board 22 first groove 23 insulating body 24 elastic joint terminal 241 elastic contact part 30 push button 31 pressing part 311 base 312 Press cap 313 Stretch plate 314 Hooking portion 315 Guide column 316 Mounting panel 317 Mounting groove 318 Mounting convex portion 319 Locking groove 32 Fixing piece 33 Spring 331 Elastic portion 332 Contacting portion 333 Locking piece 40 Box portion 41 Battery receiving groove 42 Joint convex portion 421 Mounting groove 43 Second circuit board 431 Conductive plate 44 Locking plate 441 Locking groove 45 Guide groove 46 Guide notch 47 Second notch 2 0 battery

Claims (11)

In a battery box structure that is provided in an electronic product and can be automatically discharged for use in battery construction,
The outer surface of the case part including the case part, the first circuit board, the push button, and the box part is provided with a first receiving groove that is recessed inward and penetrates the lower surface of the case part,
The first circuit board is provided above the first housing groove inside the case portion, and is at least one pair of elastic joint terminals that are curved in an arch shape and extend into the first housing groove on the first circuit board. Is fixed,
The push button is elastically spanned between the case portion and the first circuit board, and is extended to the outer surface of the case portion.
The box portion is installed in the first housing groove from the bottom to the top, the upper end is engaged with the push button, and the inner surface is provided with a recessed battery housing groove for housing at least one battery inside. The upper surface of the box portion is provided with at least one pair of flat plate-like conductive plates, each conductive plate is in contact with the corresponding elastic joint terminal, and the elastic joint terminal contracts to accumulate elastic force. The conductive plate is electrically connected to the positive and negative electrodes of the battery,
When the push button is pressed, the push button and the box portion are not engaged, and the elastic joining terminal releases the elastic force, thereby pressing the conductive plate, and the box portion is slid downward by a predetermined distance. Battery box structure that can be automatically discharged so that the battery can be replaced by removing the box. The case portion includes a first case and a second case, and the first receiving groove is recessed from the outer surface of the first case to the inside, and the second case is fixed to the outer surface of the first case. The battery box structure capable of automatic discharge according to claim 1, wherein the battery box structure is in contact with and covers an upper portion of the first accommodation groove. A first notch groove is provided upward on the upper wall of the first housing groove, and an opening is provided in the top wall of the first notch groove,
Bonding projections are extended upward on the upper surface of the box portion, locking plates are projected upward on both sides of the upper surface of the bonding projection, and the inner surface of each locking plate is engaged. There is a stop groove,
The joint convex portion is accommodated in the first cutout groove,
The locking plate is inserted into the first case from the inside of the opening upward,
The push button includes a pressing portion, the pressing portion has a base, a stretching plate is extended downward on both sides of the lower surface of the base, and a hooking portion is provided on the inner surface of the lower end of each stretching plate. The battery box structure according to claim 2, wherein the battery boxes are connected to each other, and each of the hook portions is positioned above the opening and is locked in a corresponding locking groove. The first circuit board is fixed inside the first case and above the first receiving groove, and the first circuit board is provided with a groove penetrating a lower surface of the first circuit board, the groove In the center of the top wall, a convex plate whose lower surface protrudes from the lower surface of the first circuit board is extended downward, and the groove is partitioned into two first grooves by the convex plate,
The lower end of the convex plate is inserted into the first receiving groove from the inside of the opening downward, and the hooking portion is provided outside the first circuit board and in the first groove,
An insulating main body is fixed to the convex plate, and the lower surface of the insulating main body coincides with the lower surface of the convex plate,
4. The automatic discharge according to claim 3, wherein the elastic joint terminals are provided in the insulating body, and the ends of the elastic joint terminals are curved in an arch shape and are arranged in a lateral direction and are extended to the lower surface of the insulating body. Battery box structure. The push button further includes an elastic member and a fixing piece, the fixing piece is fixed to the inner surface of the first case, and the inner surface of the fixing piece is in contact with the outer surface of the first circuit board,
5. The automatically dischargeable battery according to claim 4, wherein the base portion is provided between the fixed piece and the first case so as to be slidable inside and outside, and the elastic member is provided between the pressing portion and the fixed piece. Box structure. A mounting groove is provided in the middle of the inner surface of the base portion, and two mounting protrusions arranged in the longitudinal direction are respectively provided on the left and right side walls of the mounting groove so as to correspond to each other. The two mounting projections each form a locking groove between the top wall and the bottom wall of the mounting groove,
The elastic member is a spring, the spring is extended in a lateral direction, and the spring has an elastic portion whose center is curved in an arch shape, and both ends of the elastic portion are extended outward to form contact portions. ,
Locking pieces that are curved and extended to the outside are formed on both side edges at the center of the elastic part, and the two locking pieces are locked in locking grooves, respectively.
The battery box structure according to claim 5, wherein each of the contact portions is in contact with a fixed piece. Guide columns are extended outward on the outer surfaces of the two extending plates, a mounting panel is connected to the upper surface of the base, and guide columns are extended outward on the outer surface of the mounting panel. ,
Convex columns are respectively provided on the inner surface of the first case so as to correspond to the respective guide columns, and each convex column is provided with a guide hole through which the inside and the outside penetrate. The battery box structure according to claim 5, wherein the battery box structure is accommodated in the guide hole so as to be slidable inward and outward. A mounting groove is provided in the center of the upper surface of the joint projection, and a second circuit board is provided in the mounting groove,
The battery box structure according to claim 4, wherein the conductive plate is fixed on an upper surface of the second circuit board, and the conductive plate is electrically connected to the positive electrode and the negative electrode of the battery by the second circuit board. . A pressing cap projects from the center of the outer surface of the base,
A first through hole is provided above the first accommodation groove in the first case, and a second through hole is provided in the second case corresponding to the first through hole,
The battery box structure according to claim 5, wherein the pressing cap is accommodated in the first through hole and the second through hole and protrudes from an outer surface of the second case. On the inner surface of the first case, on the upper side, the left side and the right side of the first through hole, there are provided inverted U-shaped first holding pieces protruding inward,
On the inner surface of the first case portion, two second holding pieces that protrude inward and are arranged in the lateral direction protrude below the first through hole,
The first holding piece and the second holding piece are engaged to form a second receiving groove,
The automatic outer surface according to claim 9, wherein an outer surface of the fixed piece abuts on the first holding piece and the second holding piece, and a base portion of the pressing portion is installed in the second receiving groove so as to be slidable inside and outside. Battery case structure that can be discharged. The side walls of the first receiving groove are provided with guide portions extending at least up and down and parallel to each other,
In the center of the both side surfaces of the box portion is provided with guide grooves extending at least up and down and parallel to each other,
The battery box structure according to claim 1, wherein the box part is guided by a guide groove and slides up and down along the guide part.