JP2000268883A - Battery pack charger - Google Patents

Abstract

(57) [Summary] [PROBLEMS] To make it possible to charge a plurality of different series of battery packs, and to improve economy, portability and safety. A first terminal unit including a plurality of terminals to which a first battery pack is attached, and a second terminal unit including a plurality of terminals to which a second battery pack is attached.
0 in a state in which the first battery pack and the second battery pack are separated from each other by a distance that can be attached to the first terminal unit 10 and the second terminal unit 20 only in a state where each of the first battery pack and the second battery pack is independent. The battery pack has a battery pack mounting portion 3 disposed to face the battery pack.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a battery pack charging device for charging a battery pack for supplying DC power to electronic equipment.

[0002]

2. Description of the Related Art At present, many battery packs containing one or more batteries therein for supplying DC power to portable electronic devices such as video cameras have been sold. There are many types available, including ones for different applications. In order to prevent malfunction or damage caused by mounting a battery pack that is not compatible with the electronic device, a structure dedicated to the corresponding electronic device is employed. For example, if the size and the positional relationship between the protrusion formed on the mounting portion of the battery pack and the groove of the battery pack do not match, the mounting cannot be performed.

A battery pack charger for charging such a battery pack has been adapted to a series of series that differ depending on the type of battery pack, for example, the capacity.

[0004]

When a video camera of a different model is newly purchased, it is necessary to purchase a battery pack charging device corresponding to the model, which is uneconomical. Furthermore, when a plurality of types of video cameras are used for shooting, it is necessary to carry charging by carrying each charging device corresponding to each model, and there is a problem that portability is impaired.

Accordingly, the present invention has been made in view of the above-mentioned problems in the conventional battery pack charging apparatus, and in order to improve economy and portability, a battery pack capable of charging a plurality of different series of battery packs. It is to provide a charging device.

[0006]

A battery pack charging apparatus according to the present invention comprises a first terminal portion having a plurality of terminals to which a first battery pack is mounted, and a plurality of terminals to which a second battery pack is mounted. And a second terminal portion comprising the first and second battery packs is only a distance that can be attached to the first and second terminal portions only when the first and second battery packs are in a single state. It is characterized by having a battery pack mounting portion that is disposed to face in a separated state.

[0007]

Embodiments of the present invention will be described below in detail with reference to the drawings.

The present invention is applied to, for example, a battery pack charging device 50 having a configuration as shown in FIG.

As shown in the perspective view of FIG. 1, the battery pack charging device 50 has a substantially rectangular parallelepiped housing 1 molded of a synthetic resin.
A battery pack mounting portion 3 having a frame 2 for receiving the battery pack is provided on the upper surface of the battery pack.
A display changeover switch 4, a mode changeover switch 5, a display section 6, a charge display lamp 7, and the like are provided. A DC output terminal 8 is provided on a side surface of the housing 1.
Further, a power cable 9 is led out from the back of the housing 1. At the end of the power cable 9, FIG.
As shown in the figure, the cigarette lighter socket 3 of the automobile
2, a plug 31 is provided. The battery pack charging device 50 is operated by attaching the plug 31 to the cigarette lighter socket 32 of the automobile, but may be operated by a commercial power supply.

The battery pack mounting section 3 has a
(A) and (B), the first terminal portion 10 to which the first battery pack 100 having the first length L1 is attached.
And a second length L as shown in FIGS. 4A and 4B.
The second terminal unit 20 to which the second second battery pack 200 is attached is connected to the first terminal unit 10 only when the first battery pack 100 and the second battery pack 200 are in a single state. A distance L0 that can be attached to the second terminal portion 20, that is, L0 <L1 + L2 L0> L1 L0> L2, is disposed to face each other while being separated by a distance L0.

The battery pack mounting section 3 has a
As shown in FIG. 5, a protrusion 4 for mounting and fixing the first battery pack 100 and the second battery pack 200 is provided.
7, 48, 49 are formed on the inner peripheral side of the frame 2 in line symmetry with respect to a substantially center line (not shown) in the width direction.

Here, the first battery pack 100
As shown in an external perspective view of FIG. 6, the device has a case 110 including an upper case 111 and a bottom case 112 formed of, for example, a synthetic resin material. This first
The battery pack 100 is a battery pack for a video camera device, and includes two cylindrical battery cells in a case 110.

A bottom case 112 of the first battery pack 100 has a front portion 120 in a mounting direction (longitudinal direction) with respect to a battery pack mounting portion of a video camera device or a battery pack charging device. A first input / output terminal 121 and a second input / output terminal 122 are provided, respectively, and a communication terminal 123 is provided adjacent to the first input / output terminal 121.

The first input / output terminal 121 and the second input / output terminal 122 are connected to the first battery pack 100.
Functions as a charging electrode when the battery pack is charged in the battery pack charging device, and the first battery pack 100
Functions as a power supply electrode when the power supply is supplied by attaching the to the video camera device. The communication terminal 123 is
It functions as a communication electrode for supplying an information signal such as the remaining power of the battery cell to a video camera device or a battery pack charging device to which the second battery pack 200 is attached.

Each of the input / output terminals 121 and 122 is formed of a conductive metal sleeve, and one end facing the outside is located in a substantially rectangular recess formed in the front surface 120 of the bottom case 112. As a result, the battery pack is prevented from being damaged by abutting on portions other than the connection terminals of the mounting portion. The communication terminal 123 is formed by bending a conductive metal plate to have an L-shaped cross section, and is provided from the front surface 120 of the bottom case 112 to the bottom surface 124.

As shown in FIG. 7, around the bottom case 112 of the first battery pack 100, guide holes 126A and 126B having ribs are formed so as to be substantially parallel to the center line (not shown) in the width direction. Each is formed symmetrically. These guide holes 126A and 126B are provided in the first
When the battery pack 100 is mounted on the battery pack mounting portion of the battery pack charging device or the video camera device, the battery pack 100 engages with the projections 47 and 48 provided on the battery pack mounting portion 3 as shown in FIG. Is done.

The first battery pack 100
The bottom case 112 has a bottom surface 1 as shown in FIG.
24, the guide groove 101 and the identification recess 1 along the center line.
02, 103 and locking recesses 104, 105 are provided, and the detecting recess 1 is provided along one side of the bottom case 112.
06 is provided.

The first battery pack 100 includes identification recesses 102, 103, 1 provided in a bottom case 112.
06 indicates the function of the battery pack. The identification recess 102 is provided for spare use, and the identification recess 103 indicates that the battery cell is a lithium (Li) battery.
Reference numeral 6 indicates a battery. The first battery pack 100 includes the identification recesses 102, 10
Depending on whether or not 3,106 engages with the engagement projections formed on the battery pack charging device or the video camera device, it is determined whether the battery pack is compatible or incompatible with the battery pack charging device or the video camera device. Is detected.

In the battery pack charging device 50, the first terminal 10 side of the battery pack mounting portion 3 is
As shown in FIG. 8, the guide holes 126A, 126B of the first battery pack 100 are provided on the respective sides facing the both sides in the width direction of the first battery pack 100, adjacent to the battery pack mounting surface 45. Are provided with guide projections 47 and 48, respectively.

When the first battery pack 100 is mounted, the guide projections 47 and 48 are inserted into the guide holes 126A and 126B of the case 110, respectively. The insertion direction is guided with the bottom surface 124 substantially parallel to the mounting surface 45, and the first battery pack 100 is held by the first terminal unit 10.

When the first battery pack 100 is mounted, the first terminal section 10 has first and second connection terminals 11 and 12 on the abutting surface 14 of the battery pack mounting section 3 facing the front face 120 thereof. A third connection terminal 13 is provided.

The first and second connection terminals 11 and 12 are located on both sides of the battery pack mounting portion 3 in the width direction.
The abutting surface 14 of the battery pack mounting part 3 is parallel to the bottom surface 124 of the battery pack 100 and parallel to the longitudinal direction of the first battery pack 100.
Are provided respectively. First and second connection terminals 1
The first and second input / output terminals 121 and 122 of the first battery pack 100 are connected to 1 and 12, respectively. The third connection terminal 13 is made of a conductive metal piece that is elastically displaceable and protrudes from the mounting surface 45 of the battery pack mounting portion 3, and performs communication when the first battery pack 100 is mounted. The terminal 123 is pressed to be electrically connected.

The first terminal portion 10 is opened and closed by a shutter plate 10A which is moved in the attaching / detaching directions a1, a2 of the battery pack 100. The shutter plate 10A covers the first and second connection terminals 11, 12 and the third connection terminal 13, and connects the first and second connection terminals 11, 12 and the third connection terminal 13 from outside. For protection, it is opened when the first battery pack 100 is mounted, and returns to the original position when the first battery pack 100 is removed.
An elastic force is applied by a spring (not shown).

As shown in FIG. 8, the mounting surface 45 of the battery pack mounting portion 3 has a guide projection at a position where it engages with the guide groove 101 on the bottom surface 124 of the first battery pack 100 to be mounted. 16 are formed. The guide protrusion 16 is formed parallel to the longitudinal direction of the mounting surface 45, and guides the first battery pack 100 in the attaching / detaching direction.

An elastic lock claw 17 is formed on the mounting surface 45 of the battery pack mounting portion 3 at a position where the terminal end of the guide groove 101 is locked.
An elastic lock claw 18 is formed at a position where the end of the lock member 02 is locked. Each of the elastic locking claws 17 and 18 locks the terminal end of the guide groove 101 and the end of the identification concave portion 102, so that the battery pack mounting portion 3 is locked.
The first battery pack 100 mounted on the first terminal unit 10 is held at the mounting position. When the first battery pack 100 is attached to or detached from the first terminal portion 10 of the battery pack mounting portion 3, the elastic lock claws 17 and 18 are elastically displaced in a direction perpendicular to the mounting surface 45. Accordingly, the first battery pack 100 is slidable on the mounting surface 45 in the mounting / removing direction.

Further, on the mounting surface 45 of the battery pack mounting portion 3, an identification projection 19 which is engaged with the identification recess 103 of the first battery pack 100 is formed.

In this battery pack charging device 50,
The guide groove 101 and the identification recess 102 are provided in the bottom case 1.
Only the first battery pack 100 provided in the battery pack 12 can be mounted on the first terminal section 10 of the battery pack mounting section 3.

Also, the second battery pack 200
As shown in an external perspective view of FIG. 9, the case 210 includes a case 210 including an upper case 211 and a bottom case 212 formed of, for example, a synthetic resin material. The second battery pack 200 is a battery pack for a video camera device, and has a total of four cylindrical battery cells stacked in two stages in the case 210 in a two-stage manner.

As shown in FIG. 10, guide holes 226A and 226B having ribs are formed around the bottom case 212 of the second battery pack 200 with respect to a substantially center line (not shown) in the width direction. Each is formed symmetrically. These guide holes 226A and 226B are
When the battery pack 200 is mounted on the battery pack mounting portion of the battery pack charging device or the video camera device, for example, the guide projections 47 and 48 provided on the battery pack mounting portion 3 as shown in FIG.
Is engaged.

Further, the second battery pack 200
The bottom case 212 has a first input / output terminal 221 and a first input / output terminal 221 on both sides in the width direction of the case 210 on a front portion 220 in a mounting direction (longitudinal direction) of the video camera device or the battery pack charging device with respect to the battery pack mounting portion. Two input / output terminals 222 are provided, and a communication terminal 223 is provided substantially at the center in the width direction.

The first input / output terminal 221 and the second input / output terminal 222 are connected to the second battery pack 200.
Functions as a charging electrode when the battery pack is mounted on the battery pack charging device and functions as a power supply electrode when the second battery pack 200 is mounted on the video camera device and supplies power. Further, the communication terminal 223 functions as a communication electrode for supplying an information signal such as the remaining power of the battery cell to a video camera device or a battery pack charging device to which the second battery pack 200 is attached. In addition, each input / output terminal 2
Each of the battery terminals 21 and 222 and the communication terminal 223 is formed of a conductive metal sleeve, and one end facing outward is located in a substantially rectangular recess formed in the front surface 220 of the case 210. The mounting portion is prevented from being damaged by abutting portions other than the connection terminals.

The front part 220 of the bottom case 212
As shown in FIG. 10, a pair of regulating recesses 228, 2
29 are formed respectively. These regulating recesses 22
8, 229 are each formed symmetrically with respect to a substantially center line in the width direction. At the time of mounting, these restricting concave portions 228 and 229 serve as restricting convex portions of the battery pack mounting portion of the video camera device or the battery pack charging device, for example, the first restricting convex portion 65 of the battery pack mounting portion 3 shown in FIG. , 66 to regulate the widthwise inclination of the case 210 with respect to the battery pack mounting portion.

As shown in FIG. 10, the regulating recesses 228 and 229 are formed in a first portion formed orthogonal to the bottom surface portion 224 of the bottom case 212 and in a shape orthogonal to the first portion. And a second portion, which is formed in a substantially L-shaped cross section. A substantially rectangular identification recess 230 for identifying whether or not the battery pack is fitted is provided substantially at the center of the bottom surface 224 of the bottom case 212.
Are formed.

The identification recess 230 is provided in the bottom case 212.
The bottom case 212 is formed substantially on the center line in the width direction of the bottom case 212 and located on the side of the front surface 220 from the approximate center of the bottom surface 224 of the bottom case 212. A substantially rectangular identification groove 232 is formed on the bottom surface inside the identification concave portion 230 at a position substantially on the center line in the width direction of the bottom case 212 at both ends in the longitudinal direction. This identification recess 230
Inside, step portions are respectively formed on both sides in the width direction of the bottom portion 224 of the case 210. This identification recess 2
The width direction 30 has a width W ₀ .

The first guide groove 234 adjacent to the communication terminal 223 is formed parallel to the longitudinal direction of the case 210. The first guide groove 234 is
One end is opened in the front surface portion 220 of the O. 0, and the other end is formed to be continuous with the concave portion 230 for identification. This first
A step portion 235 having a different depth in a direction orthogonal to the bottom portion 224 of the case 210 is formed at a position adjacent to the front portion 220 side of the case 210 in the guide groove 234. The first guide groove 234 guides the mounting direction with respect to the battery pack mounting portion.

The bottom portion 224 of the case 210 has a structure shown in FIG.
As shown in (2), a second guide groove 236 is formed at a position facing the first guide groove 234 with the communication terminal 223 interposed therebetween. The second guide groove 236 is
0 is formed in parallel with the longitudinal direction of the bottom surface portion 224,
One end is formed to open to the front part 220 of the case 210.

The first side of the case 210 is provided on both sides in the width direction.
In addition, a restriction groove 237 adjacent to the second input / output terminals 221 and 222 is formed. The regulating groove 237 is located on the front surface 22.
0 and are formed substantially parallel to the bottom portion 224, respectively.
4 to regulate the inclination in the width direction.

A first locking recess 238 and a second locking recess 238 which are engaged with the battery pack mounting portion when mounted on the battery pack mounting portion are provided on the bottom portion 224 of the case 210.
Are formed respectively. First
Is formed in a substantially rectangular shape.
It is formed substantially on the center line in the width direction of the case 210 and adjacent to the identification concave portion 238. The second locking recess 239 is formed in a substantially rectangular shape slightly larger than the first locking recess 238, and
It is located substantially on the center line in the width direction of 0, and is formed on the back side in the mounting direction.

The side of the second terminal section 20 of the battery pack mounting section 3 of the battery pack charging apparatus 50 is shown in FIG.
As shown in FIG. 5, on each side opposite to both sides in the width direction of the second battery pack 200, adjacent to the mounting surface 45,
Each guide groove 226A of the second battery pack 200,
226B are provided with guide projections 47 and 48, respectively. When the second battery pack 200 is mounted on the second terminal section 20, the battery pack mounting section 3
Guide projections 4 are provided on each of 226A and 226B of case 210.
Cases 2 and 7 are inserted, respectively.
The second battery pack 200 mounted on the second terminal portion 20 is held while guiding the insertion direction with the bottom surface 224 of the 10 being substantially parallel to the mounting surface 45.

The second terminal portion 20 has first to third connection terminals 51, 52, 52, on the abutting surface 46 of the battery pack mounting portion 3 facing the front surface 220 when the second battery pack 200 is mounted. 53 are provided. This first
Of the first to third connection terminals 51, 52,
53 and a shutter plate 60.

First connection terminal 51 and second connection terminal 5
2 are provided on both sides of the battery pack mounting portion 3 in the width direction, respectively.
Are connected to the first and second input / output terminals 221 and 222, respectively. The third connection terminal 53 is located at substantially the center in the width direction of the battery mounting unit 3 and is connected to the communication terminal 223 of the second battery pack 200. The first, second, and third connection terminals 51, 52, and 53 are provided on the abutment surface 46 of the battery mounting portion 3 so as to be parallel to the bottom surface 224 of the second battery pack 200 and the second battery pack 200. Are provided in parallel with the longitudinal direction.

The shutter plate 60 is provided so as to be rotatable in the directions of arrows b ₁ and b _{2 with} respect to the battery pack mounting portion 3, and includes first, second and third connection terminals 51, 52, and 52.
53 is protected from the outside.

The shutter plate 60 is formed of, for example, a synthetic resin material, and has a protection piece 61 formed in a substantially rectangular shape, and support pieces 62, 62 for supporting the protection piece 61. The protection piece 61 of the shutter plate 60 has a surface facing the mounting surface 45 of the battery pack mounting portion 3,
An inclined surface portion inclined in the thickness direction is formed. When the second battery pack 200 is mounted on the battery mounting portion 3, the shutter plate 60 is inserted into the protective piece 61 by contacting the case 210 with the protective piece 61, thereby forming an arrow b _1.
It is easily rotated in the direction. Support piece 6 for shutter plate 60
Reference numerals 2 and 62 denote abutting surfaces 46 of the battery pack mounting portion 3.
Are rotatably supported via a pivot shaft (not shown). The shutter plate 60 is provided with a torsion coil spring (not shown) on the outer periphery of the rotation support shaft. One end of the torsion coil spring has an abutting surface 46 of the battery mounting portion 3.
And the other end is supported by the support piece 6 of the shutter plate 60.
2 and 62. Thus, the shutter plate 60, by the elastic force of the torsion coil spring is biased to rotate in the arrow b ₂ direction, the first, second and third
Connection terminals 51, 52, 53.

The battery pack mounting portion 3 has a pair of regulating protrusions 65 that engage with the respective regulating recesses 228 and 229 of the second battery pack 200 across the abutment surface 46 and the mounting surface 45. , 66 are integrally formed substantially symmetrically with respect to the center line in the width direction.

Each of the restricting projections 65 and 66 is provided on the mounting surface 4.
5 has a first portion formed orthogonal to the first portion and a second portion formed orthogonal to the first portion, and has a substantially L-shaped cross section. Each of these regulation protrusions 6
5, 66 are the bottom surfaces 22 of the second battery pack 200.
4 is restricted from being inclined in the width direction with respect to the mounting surface 45 of the battery pack mounting portion 3.

The battery pack mounting portion 3 has a third connection terminal 53 extending across the abutment surface 46 and the mounting surface 45.
A first guide projection 68 that guides the insertion direction of the second battery pack 200 is formed integrally with a position adjacent to the first battery pack 200. As shown in FIG. 11, the first guide projection 68 is formed in parallel with the longitudinal direction of the mounting surface 45, and is provided on the bottom surface 2 of the second battery pack 200 to be mounted.
24 are formed at positions where they are engaged with the first guide grooves 234.

The battery pack mounting portion 3 has a second guide protrusion 5 that guides the mounting direction of the second battery pack 200 across the abutment surface 46 and the mounting surface 45.
4 are integrally formed in parallel with the longitudinal direction of the mounting surface 45. The second guide projection 54 guides the mounting direction by engaging with the second guide groove 236 of the second battery pack 200.

Further, on both side surfaces in the width direction of the battery pack mounting portion 3, regulating claws 55 which engage with the regulating grooves 237 are integrally formed so as to protrude. The restriction claw 55 is formed parallel to the mounting surface 45 and parallel to the longitudinal direction of the second battery pack 200.

The battery pack mounting portion 3 is integrally formed with an identification protrusion 56 that engages with the identification recess 230 of the second battery pack 200 at substantially the center of the mounting surface 45. The identification protrusion 56 is formed in a substantially rectangular parallelepiped shape. The tip of the identification projection 56 has a second
Of the battery pack 200 is integrally formed with the identification projection 57 that engages with the identification groove 232. As shown in FIG. 11, the dimension of the identification projection 56 parallel to the width direction of the mounting surface 45 is smaller than the width W ₀ of the identification recess 230 of the second battery pack 200. It is formed to have a width W ₁ and can be inserted into the identification recess 230. Further, the identification projection 56 is formed at a position separated by a distance L _{1 in} a direction orthogonal to the abutment surface 46.

With the configuration described above, the second battery pack 200 can be mounted on the second terminal section 20 in the battery pack mounting section 3.

Next, the battery pack charging device 50
Will be described with reference to FIGS. 12 and 13. FIG.

As shown in the block diagram of FIG. 12, the battery pack charging apparatus 50 includes a DC power supply circuit 51 to which power is supplied from the outside via a power cable 9, and a first power supply circuit 51 of the first terminal 10. A connection point between the connection terminal 11 and the first connection terminal 51 of the second terminal portion 20 and the DC power supply circuit 5
1 and a control unit 53 connected to the DC power supply circuit 51 and the current detection circuit 52, and the like. The control unit 53 is connected to the third connection terminals 13 and 53 of the first and second terminal units 10 and 20, respectively, and the display changeover switch 4, the mode changeover switch 5, the display unit 6, The charging lamp 7 and the like are connected.

When the power is supplied from the outside via the DC power supply circuit 51 and the power supply cable 9, the operation state is established. The operation of the DC power supply circuit 51 is controlled by the control unit 5.
3 is controlled.

The current detection circuit 52 is provided between the connection point of the first connection terminal 11 of the first terminal section 10 and the first connection terminal 51 of the second terminal section 20 and the DC power supply circuit 51. A connected resistor 52A, a sense amplifier 51B for detecting a voltage between terminals of the resistor 52A,
A / D converter 51 for digitizing the detection output by 2B
C. The current detection circuit 52 converts the magnitude of the charging current output from the DC power supply circuit 51 via the resistor 52A into a voltage value of the resistor 52A,
1B, and the detection output is digitized by an A / D converter 52C and supplied to the control unit 53.

The control section 53 is constituted by a microcomputer, and when the DC power supply circuit 51 is activated, starts a control operation and performs a control operation as shown in the flowchart of FIG.

That is, the control section 53 first determines whether or not the mode changeover switch 5 is set to the charging mode side (step S1).

If the result of the determination in step S1 is "N
O ”, that is, if it is not the charging mode, the control unit 5
3 controls the DC power supply circuit 51 to the operation state of the video / camera mode (step S2). This step S
2, the control unit 53 includes the DC power supply circuit 51
Output the charging current from the DC power supply circuit 5
From 1 to a state in which only a DC power supply for driving an external device such as a video camera through the DC output terminal 8 is output,
The DC power supply circuit 51 is controlled.

If the result of the determination in step S1 is "YES", that is, if the charging mode is set, the control section 53 controls the DC power supply circuit 51 to the operating state in the charging mode (step S3). In this step S3, the control unit 53 does not output DC power from the DC power circuit 51 via the DC output terminal 8,
The DC power supply circuit 51 is controlled so that the charging current is output from the DC power supply circuit 51 via the current detection circuit 52.

Next, the control section 53 includes the current detection circuit 5
It is determined whether or not the battery pack is mounted by determining whether or not the charging current is flowing based on the detection output by the second (step S4).

When the result of the determination in step S4 is "N
O ”, that is, when the battery pack is not mounted, the control unit 53 executes the above steps S1 to S
Repeat step 4 to wait for the battery pack to be mounted.

If the result of the determination in step S4 is "YES", that is, if the battery pack is mounted, the control unit 53 connects the circuit in the mounted battery pack to the third connection. Communication is performed via the terminal 13 or the third connection terminal 53, and information necessary for charge control such as the type and capacity of the battery pack is obtained from the circuit in the battery pack (step S5).

Next, the control section 53 determines the type of the mounted battery pack based on information given from a circuit in the battery pack (step S6).

As a result of the determination in step S6, when the first battery pack 100 is mounted on the first terminal section 10, the control section 53 sets the first
The magnitude of the charging current and the charging time suitable for the first battery pack 100 are set based on the information given from the circuit in the battery pack 100 of
The charging of the first battery pack 100 by the DC power supply circuit 51 is controlled while monitoring the magnitude of the charging current on the basis of the detection output by the CPU (step S7), and it is determined whether or not the first battery pack 100 is fully charged (step S7) S8) Steps S6 and S7 are repeated until the battery is fully charged.

When the result of the determination in step S8 is "YES", that is, when the battery is fully charged and the charging of the first battery pack 100 is completed, the control unit 53 enters a standby state.

As a result of the determination in step S 6, the second battery pack 2 is connected to the second terminal 20.
00 is attached, based on information given from a circuit in the second battery pack 200,
The magnitude of the charging current and the charging time suitable for the second battery pack 200 are set, and the magnitude of the charging current is monitored based on the detection output of the current detection circuit 52, while the magnitude of the charging current is monitored by the DC power supply circuit 51. 200 is controlled (step S9). Further, it is determined whether or not the battery is fully charged (step S10), and steps S8 to S10 are repeated until the battery is fully charged.

When the result of the determination in step S10 is "YES", that is, the battery is fully charged and the charging of the second battery pack 200 is completed, the control unit 53 enters a standby state.

The battery pack charging device 50
In the display unit 6, as shown in FIG. 14, the battery type display area AR1, the charging abnormality display area AR
2, charge remaining time display area AR3, operation mode display area AR4, usable time display area AR5, time display area A
An R6, a full charge display area AR7, and a battery mark display area AR8 are provided, and the control unit 53 controls the display contents of the various display areas AR1 to AR8.

In this battery pack charging apparatus 50, the control unit 53 is provided, for example, as shown in FIG.
As shown in (B) and (C), the second
(A) A usable time display mode in which the usable time of the attached battery pack is displayed in the time display area AR6 based on the information of the battery pack 200 of (B). Practical charge end time display mode displayed in time display area AR6 (C) Full charge end time display mode in which time is displayed in time display area AR6 until the full charge of the mounted battery pack is displayed. Each time is operated, display control is performed by sequentially switching.

[0069]

According to the battery pack charging apparatus of the present invention, the first battery pack and the second battery pack can be selectively charged.

In this battery pack charging device, only the first battery pack can be mounted on the first terminal portion, and only the second battery pack can be mounted on the second terminal portion. In addition, since the first battery pack and the second battery pack are not mounted at the same time, the size can be reduced and the safety during charging can be ensured.

Also, in this battery pack charging device, the charging circuit based on the detection output by the current detection circuit provided between the charging terminals of the first terminal portion and the second terminal portion and the charging circuit. Can be displayed on the display unit, so that the user can easily confirm the state of charge.

Further, in this battery pack charging device, the first terminal portion and the second terminal portion have communication terminals for communicating with circuits in the battery pack, so that the battery pack is charged via the communication terminals. Based on the information provided from the internal circuit, the control unit can determine the type of the attached battery pack, and switch the charging operation according to the determination result.

Further, in this battery pack charging device, the first terminal portion and the second terminal portion have projections corresponding to the grooves formed in the battery pack to be mounted on the first terminal portion and the second terminal portion, respectively. Only the first battery pack can be mounted on the terminal portion of the second battery portion, and only the second battery pack can be mounted on the second terminal portion, thereby preventing erroneous mounting of the battery pack. And safety during charging can be ensured.

Therefore, according to the present invention, a plurality of different series of battery packs can be charged,
A battery pack charger excellent in economy, portability, and safety can be provided.

[Brief description of the drawings]

FIG. 1 is an external perspective view of a battery pack charging device to which the present invention is applied.

FIG. 2 is a diagram showing a use state of the battery pack charging device.

FIG. 3 is a diagram showing a state where a first battery pack is mounted on a battery pack mounting portion of the battery pack charging device.

FIG. 4 is a diagram showing a state in which a second battery pack is mounted on a battery pack mounting portion of the battery pack charging device.

FIG. 5 is a plan view of the battery pack charging device.

FIG. 6 is an external perspective view of a first battery pack mounted on a battery pack mounting portion of the battery pack charging device.

FIG. 7 is a bottom view of the first battery pack.

FIG. 8 is an enlarged perspective view showing a first terminal portion side of a battery pack mounting portion to which the first battery pack is mounted.

FIG. 9 is an external perspective view of a second battery pack mounted on a battery pack mounting portion of the battery pack charging device.

FIG. 10 is a perspective view of the first battery pack as viewed from the bottom side.

FIG. 11 is an enlarged perspective view showing a second terminal portion side of a battery pack mounting portion to which the second battery pack is mounted.

FIG. 12 is a block diagram showing an electrical configuration of the battery pack charging device.

FIG. 13 is a flowchart showing a control operation by a control unit of the battery pack charging device.

FIG. 14 is a diagram showing a configuration of a display unit of the battery pack charging device.

FIG. 15 is a diagram illustrating an example of display control of a display unit by the control unit.

[Explanation of symbols]

1 housing, 2 frames, 3 battery pack mounting section, 4
Display changeover switch, 5 mode changeover switch, 6 display section, 7 charging indicator lamp, 8 DC output terminal 3 power cable, 10 first terminal section, 11, 12, 51, 5
2, 53 connection terminal, 20 second terminal unit, 50 battery pack charging device, 51 DC power supply circuit, 52 current detection circuit, 53 control unit, 100 first battery pack, 200 second battery pack

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Norio Koyama, Inventor F-term (reference) 5G003 AA01 BA01 CA01 CB06 EA01 FA03 FA07 GC05 5H020 AS06 AS15 AS25 CC06 within 7-35 Kita-Shinagawa, Shinagawa-ku, Tokyo CC12 CC32 DD02 MM01 5H030 AA03 AS06 AS18 BB04 DD07 FF42 FF51

Claims (4)

[Claims] A first terminal portion including a plurality of terminals to which the first battery pack is mounted; and a second terminal portion including a plurality of terminals to which the second battery pack is mounted. A battery pack disposed so as to face the first terminal unit and the second terminal unit in a state where the first terminal unit and the second terminal unit are separated by a distance attachable to the second terminal unit only in a single state. A battery pack charging device having a mounting portion. 2. A current detection circuit provided between a charging terminal of each of the first terminal portion and the second terminal portion and a charging circuit; and the charging based on a detection output by the current detection circuit. 2. The battery pack charging device according to claim 1, further comprising a display unit for displaying a charging state by the circuit. 3. The battery pack according to claim 1, wherein the first terminal unit and the second terminal unit have communication terminals for communicating with circuits in the first and second battery packs. 2. The battery pack charging device according to claim 1, further comprising: a control unit that determines a type of the mounted battery pack based on information provided from a circuit in the unit, and switches a charging operation according to a result of the determination. . 4. The battery according to claim 1, wherein the first terminal portion and the second terminal portion each have a protrusion corresponding to a groove formed in a battery pack mounted on each of the first terminal portion and the second terminal portion. 2. The battery pack charging device according to 1.