JP2719362B2 - Charger - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial applications]

The present invention relates to a battery charger for charging a storage battery, and more particularly to a battery charger having a plurality of freely connectable batteries.

[Prior art]

There are chargers that can be freely connected to a plurality of storage batteries to be charged. For example, Shokai 63
In the -65962 publication, a recess is provided on one side of the charger,
A feed power terminal is arranged in this recess, and a convex portion to be inserted into the recess is provided on one side surface of another charger,
The figure shows a case where a receiving terminal connected to a feed power terminal is provided.

[Problems to be solved by the invention]

However, in this type of conventional charger, the commercial power supply is directly connected to each charger, and each charger has a built-in step-down transformer, so that it is large and the cost is high. have. The present invention has been made in view of such a point, and an object of the present invention is to provide an inexpensive and small-sized charger.

[Means for Solving the Problems]

Thus, the present invention comprises a parent charger having a charging connection for a storage battery, and a child charger that is detachable from the parent charger and has a charging connection for a storage battery,
The step-down transformer is provided only in the parent charger, and the child charger is provided with mechanical connection means to the parent charger and an electrical connection for receiving supply of charging power from the parent charger. I have. [Operation] According to the present invention, since only the master charger is provided with the step-down transformer, the size can be reduced as a whole and the cost can be reduced. [Embodiment] Hereinafter, the present invention will be described in detail with reference to the illustrated embodiment. The illustrated example is for charging a storage battery 30 incorporated in the electric toothbrush 3, and includes a parent charger 1 and a main charger 1. It comprises a child charger 2 connected to the parent charger 1, and the child charger 2 is configured to be able to connect another child charger 2. As shown in FIG. 2, the parent charger 1 has a step-down transformer 14 and a rectifier circuit D mounted in a rectangular parallelepiped housing 10 having a notch 11 opened laterally and upwardly and forwardly on one side. The printed circuit board 15 is built in, and the housing 10 is provided on the side where the notch 11 is provided and on the lower side of the notch 11 and the side surface of the back of the notch 11 as is apparent from FIG. As described above, concave grooves 12 connected to each other are provided, and in each of the concave grooves 12, each of a pair of terminal plates 16, 16 disposed in the housing 10 and having one end connected to the printed circuit board 15 is provided. The feed terminals 18, 18 at the other end are located. The terminal plates 16, 16 disposed below the notch 11 are connected to charging terminals 17, 17, respectively, and these charging terminals 17, 17 are projected portions located below the notch 11. It is arranged in 13. On the other hand, as shown in FIG. 3, the child charger 2 has an L-shaped longitudinal section having cutouts 21 opened on both sides and upward and forward, and one side thereof has the parent charger 1 and Similar groove
22 is provided, and an engagement projection 23 is provided on the other side surface. The connection terminals 29, 29 at one end of the pair of terminal plates 26, 26 disposed inside are located in the engagement projection 23, and the feed terminals 28, 28 at the other end are located in the concave groove 22. In addition, the charging terminal 27, 27 connected to the terminal plate 26, 26 has
Located within 4. The engaging protrusion 23 is inserted into the groove 12 of the parent charger 1 or the groove 22 of the other child charger 2, and at this time, it engages with the inner surfaces of the grooves 12, 22 and is careless. Protrusions 25, 25 are provided to prevent slippage. Thus, in this charger, the engaging projection 23 of the sub charger 2 is inserted into the concave groove 12 on one side of the main charger 1,
If the two are mechanically connected, the feed terminal 18 is connected to the connection terminals 29,2.
9 are connected to each other, an electrical connection is also made. As shown in FIG. 1, two electric toothbrushes 3, 3 are provided.
Are connected to the projection 13 of the parent charger 1 and the projection 24 of the child charger 2, respectively.
1 is connected, and these storage batteries 30, 30 can be charged simultaneously. When the number of storage batteries to be charged is large, the engaging protrusion 23 of the other child charger 2 is inserted into the concave groove 22 of the child charger 2 and the connection terminal 29 is connected to the feed terminal 28, so that the fourth terminal As shown in the figure, a plurality of sub chargers 2 can be connected. As shown in FIG. 5, a current limiting resistor connected in parallel with the switch S ₂ to S _4, which is closed in conjunction with the connection of the child charger 2 to each switch S ₂ ~S ₄ R ₁ ~R ₄ and R _{If 0} is provided in the main charger 1, the main charger 1 can supply a charging current corresponding to the number of connected sub chargers 2. As is apparent from the above description, this charger is provided with the step-down transformer 14 in the parent charger 1.
The secondary charger 2 is merely provided with a mechanical connection means and an electrical connection to the parent charger 1 or another secondary charger 2, and a charging connection for a storage battery. For this reason, each child charger 2 is small and requires a small installation space, and the manufacturing cost is low. When only the parent charger 1 is used, the parent charger 1 is used.
The groove 12 remains open on the side surface of the sub charger 2 and the feed terminal 18 is exposed. In addition, when the sub charger 2 is connected, the feed terminal 28 is exposed in the groove 22 of the sub charger 2. In this case, the end cap 4 having the engaging convex portion 41 detachably engaged with the concave groove 12 or the concave groove 22 is prepared to prevent the feed terminals 18 and 28 from being exposed. . 7 in the figure
Is a light emitting element provided in the parent charger 1 for display during charging. In connecting a plurality of child chargers 2 to the parent charger 1, instead of connecting other child chargers 2 via the child charger 2, as shown in FIG. A plurality of sub chargers 2 may be directly connected. In this case, as shown in FIG. 7, an operation unit C ₁ for detecting the number of the child chargers 2 connected to the parent charger 1 side.
And the control circuit C _{2 and the} distribution circuit C _3, and the charging is sequentially performed for a preset time T in accordance with the number of the detected secondary chargers 2, so that stable charging can be performed. . FIG. 8A shows a case where three child chargers 2 are connected.
FIG. 2B shows a case where only the main charger 1 is provided. In the above-described embodiment, the constant charge type or the charge current is small, the charge time is long, and the charge control circuit is not required. A control circuit may be provided for each load, that is, for each of the parent charger 1 and the child charger 2. Also,
Although the charger in which the device incorporating the storage battery 30 is made detachable is shown, it is needless to say that a single storage battery 30 taken out from the device may be attached. Further, here, the main charger 1 having each member in a single housing 10 is shown. However, the power supply unit including the step-down transformer 14 and the rectifier circuit D is the same as the sub charger 2. It may take a form separated from the charger having the configuration.

【The invention's effect】

As described above, in the present invention, the storage battery can be charged not only by the parent charger, but also by the child charger if the child charger is connected to the parent charger. Can be simultaneously charged to the storage battery, and the step-down transformer is only provided in the parent charger. The child charger receives the power for charging from the parent charger, so the child charger is small. The installation space can be reduced, and the manufacturing cost is also reduced.

[Brief description of the drawings]

FIG. 1 is a cutaway front view of one embodiment of the present invention, and FIGS.
(D) is a plan view, a front view, a right side view, and a bottom view of the parent charger with the bottom cover removed, and FIGS. 3 (a) to (d) are a plan view, a front view, and a right side of the child charger. 4 is a schematic circuit diagram of the above, FIG. 5 is another schematic circuit diagram of the above embodiment, FIG. 6 is a schematic plan view of another embodiment,
FIG. 7 is a schematic circuit diagram of the above, and FIGS. 8 (a) and 8 (b) are time charts showing the operation of the above.
2 is a child charger, 12 and 22 are concave grooves, 14 is a step-down transformer, 18 is a feed terminal, 23 is an engagement projection, and 29 is a connection terminal.

 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-61-135072 (JP, A) JP-A-62-281735 (JP, A) JP-A-63-52642 (JP, A) Jpn. 163526 (JP, U) Fully open 1986-149935 (JP, U) Really open 63-65962 (JP, U) Fully open 1988-93740 (JP, U)

Claims (1)

(57) [Claims] 1. A battery charger comprising a parent charger having a charging connection for a storage battery, and a child charger detachable from the parent charger and having a charging connection for the storage battery. A battery charger provided only in the battery charger, wherein the child battery charger is provided with mechanical connection means to the parent battery charger and an electrical connection for receiving supply of power for charging from the parent battery charger.