JP2022147834A - discharge system - Google Patents

Abstract

To provide a discharge system capable of suppressing unnecessary consumption of the power stored in a battery.SOLUTION: A discharge system 10 includes a battery pack 20 and a discharge unit 30. The battery pack 20 includes: a battery 22; a terminal unit 28 connected to the discharge unit 30; and a switch unit 23 operated by a user. The discharge unit 30 has an output unit 36 that is controlled the output is turned on and off by operating the switch section 23, and which is an output unit 36 that outputs the power stored in battery 22 obtained via terminal unit 28.SELECTED DRAWING: Figure 1

Description

The present invention relates to a discharge system using a storage battery pack.

Patent Literature 1 discloses a storage battery system including a storage battery pack and a charging device.

WO2016/006152

The present invention provides a discharge system capable of suppressing unnecessary consumption of electric power stored in a storage battery.

A discharge system according to one aspect of the present invention includes a storage battery pack and a discharge device, and the storage battery pack includes a storage battery, a terminal connected to the discharge device, and a switch operated by a user. and the discharge device is an output unit that outputs the electric power stored in the storage battery obtained through the terminal unit, and the on/off of the output is controlled by the operation of the switch unit. It has an output section.

The discharge system of the present invention can suppress unnecessary consumption of electric power stored in the storage battery.

FIG. 1 is a block diagram showing a functional configuration of a discharge system according to Embodiment 1. FIG. FIG. 2 is a first external view of the discharge system according to Embodiment 1 as viewed from above. FIG. 3 is a second external view of the discharge system according to Embodiment 1 as viewed from above. FIG. 4 is a first external view of the discharge system according to Embodiment 1 as viewed from below. FIG. 5 is a second external view of the discharge system according to Embodiment 1 as viewed from below. FIG. 6 is an external view showing a usage example of the discharge system according to Embodiment 1. FIG. 7 is a sequence diagram of the operation of the discharge system according to Embodiment 1. FIG. 8 is an external view of a discharge device according to a modification of Embodiment 1. FIG. FIG. 9 is a first external view of the lighting system according to Embodiment 2 as viewed from above. FIG. 10 is a second external view of the lighting system according to Embodiment 2 as viewed from above. FIG. 11 is an external view of the lighting system according to Embodiment 2 as viewed from below. FIG. 12 is a first external view of the speaker system according to Embodiment 3 as viewed from above. FIG. 13 is a second external view of the speaker system according to Embodiment 3 as viewed from above. FIG. 14 is an external view of the speaker system according to Embodiment 3 as viewed from below.

Hereinafter, embodiments will be specifically described with reference to the drawings. It should be noted that the embodiments described below are all comprehensive or specific examples. Numerical values, shapes, materials, components, arrangement positions and connection forms of components, steps, order of steps, and the like shown in the following embodiments are examples and are not intended to limit the present invention. Further, among the constituent elements in the following embodiments, constituent elements not described in independent claims will be described as optional constituent elements.

Each figure is a schematic diagram and is not necessarily strictly illustrated. Moreover, in each figure, the same code|symbol is attached|subjected with respect to substantially the same structure, and the overlapping description may be abbreviate|omitted or simplified.

(Embodiment 1)
[Constitution]
First, the configuration of the discharge system according to Embodiment 1 will be described. FIG. 1 is a block diagram showing a functional configuration of a discharge system according to Embodiment 1. FIG. FIG. 2 is an external view of the discharge system according to Embodiment 1 as viewed from above. FIG. 3 is an external view of the discharge system in which the storage battery pack and the discharge device are separated, as viewed from above. FIG. 4 is an external view of the discharge system according to Embodiment 1 as viewed from below. FIG. 5 is an external view of the discharge system in which the storage battery pack and the discharge device are separated, as viewed from below.

As shown in FIGS. 1 to 5, the discharge system 10 includes a storage battery pack 20 and a discharge device 30 to which the storage battery pack 20 is detachably connected. A user can use the discharge system 10 as a power source for the device by connecting the device to the output unit 36 provided in the discharge device 30 . FIG. 6 is an external view of the discharge system 10 when used as a power source for charging a smart phone.

First, the storage battery pack 20 will be described. Storage battery pack 20 functions as a power source for discharge device 30 . The storage battery pack 20 has a body portion 21 , a storage battery 22 , a switch portion 23 , a display portion 24 , a measurement circuit 25 , a control portion 26 , a storage portion 27 and a terminal portion 28 .

The body portion 21 is a housing that accommodates the storage battery 22, the control portion 26, and the storage portion 27 therein. The body portion 21 has a substantially rectangular parallelepiped shape elongated in the height direction. The corners of the upper surface of the main body 21 and the corners of the side faces of the main body 21 are rounded. The four side surfaces of body portion 21 have a symmetrical appearance. The body portion 21 is made of, for example, an insulating resin material. As shown in FIGS. 3 and 4, a switch section 23 and a display section 24 are provided on the upper portion of the body section 21 . Further, as shown in FIG. 5 , a terminal portion 28 is provided on the lower portion (lower surface) of the main body portion 21 .

The storage battery 22 is a secondary battery that can be repeatedly charged and discharged. The storage battery 22 is realized by, for example, a lithium ion battery.

The switch unit 23 is a push button switch operated by the user. When the switch unit 23 is operated (specifically, pressed) by the user, the control unit 26 causes the display unit 24 to display the remaining amount of the storage battery 22 . The switch unit 23 is not limited to a push button switch, and may be a slide switch, a rocker switch, or the like.

The display unit 24 displays the remaining amount of the storage battery. The display unit 24 is realized by, for example, a plurality of light-emitting elements, and displays the remaining amount of the storage battery 22 by the number of light-emitting elements. The light emitting element is, for example, an LED (Light Emitting Diode) element, but may be an organic EL (Electro-Luminescence) element. Also, the display unit 24 may be realized by a display panel such as a liquid crystal panel or an organic EL panel.

The measurement circuit 25 measures the remaining amount of the storage battery 22 . The measurement circuit 25 is, for example, a voltage measurement type measurement circuit (integrated circuit) that measures the terminal voltage of the storage battery 22, but may be a coulomb counter type measurement circuit or another type of measurement circuit.

The control unit 26 causes the display unit 24 to display the remaining amount of the storage battery 22 measured by the measurement circuit 25 based on the operation of the switch unit 23 . The controller 26 is specifically implemented by a microcomputer or processor. The functions of the control unit 26 are realized, for example, by executing a computer program stored in the storage unit 27 by a microcomputer or processor that constitutes the control unit 26 .

The storage unit 27 is a storage device that stores the computer program. The storage unit 27 is implemented by, for example, a semiconductor memory. Note that the storage unit 27 may be built in the control unit 26 .

The terminal portion 28 has a terminal structure for electrically connecting the storage battery pack 20 to the discharging device 30 , and specifically, is electrically and structurally connected to the terminal portion 32 of the discharging device 30 . The terminal portion 28 has a plurality of terminals. A plurality of terminals include a communication terminal 28a for the storage battery pack 20 (control unit 26) to communicate with the discharge device 30 (discharge control unit 34), and a storage battery pack 20 discharging electric power stored in the storage battery 22. A power terminal 28b for power transmission to the device 30 is included.

Next, discharge device 30 will be described. The discharging device 30¥ is a device that operates using the storage battery pack 20 as a power source. The discharge device 30 has a body portion 31, a terminal portion 32, a power conversion circuit 33, a discharge control portion 34, a storage portion 35, and a plurality of output portions 36 (only one is shown in FIG. 1). The discharge device 30 can be rephrased as a discharger or the like.

The body portion 31 is a housing that accommodates the discharge control portion 34 and the storage portion 35 therein. The main body portion 31 has a substantially rectangular parallelepiped shape, and the corners of the side surfaces thereof are rounded. The four sides of the main body 31 have similar appearances, including the sides not shown in the drawing. The body portion 31 is made of, for example, an insulating resin material. A terminal portion 32 is provided on the upper portion (upper surface) of the main body portion 31 . An output portion 36 is provided on a side portion (side surface) of the main body portion 31 .

The terminal portion 32 has a terminal structure for electrically connecting the discharge device 30 to the battery pack 20 , and specifically, is electrically and structurally connected to the terminal portion 28 of the battery pack 20 . The terminal portion 32 has a plurality of terminals. The plurality of terminals includes a terminal 32a for communication and a terminal 32b for power reception. Terminal 32 a for communication is electrically connected to terminal 28 a for communication of storage battery pack 20 , and terminal 32 b for power reception is electrically connected to terminal 28 b for power transmission of storage battery pack 20 .

The power conversion circuit 33 acquires the power stored in the storage battery 22 via the power receiving terminal 32b, converts the acquired power into power suitable for the output unit 36, and outputs the converted power to the output unit 36. do. The power conversion circuit 33 is implemented by, for example, a DC (Direct Current)-DC converter circuit that converts DC power stored in the storage battery 22 into DC power suitable for the output unit 36 . As will be described later, when the output unit 36 outputs AC power, the power conversion circuit 33 converts the DC power stored in the storage battery 22 into AC power suitable for the output unit 36. It is implemented by an AC (Alternating Current) converter circuit.

The discharge control unit 34 controls on and off of the power conversion circuit 33 , that is, on and off of the power output via the output unit 36 . The discharge controller 34 is specifically implemented by a microcomputer or processor. The functions of the discharge control section 34 are realized, for example, by executing a computer program stored in the storage section 35 by a microcomputer or processor constituting the discharge control section 34 .

The storage unit 35 is a storage device that stores the computer program. The storage unit 35 is implemented by, for example, a semiconductor memory. Note that the storage unit 35 may be incorporated in the discharge control unit 34 .

The output unit 36 has a terminal structure to which devices (external devices) other than the discharge system 10 are connected. As shown in FIGS. 2 to 6, two output units 36 are provided on each of the four side surfaces of the main body 31, for example. The output unit 36 outputs the power stored in the storage battery 22 and converted by the power conversion circuit 33 to a device connected to the output unit 36 . The output unit 36 is realized by, for example, a USB (Universal Serial Bus) connector. USB connectors include various connectors such as USB Type-A, USB Type-B, USB Type-C, Mini USB Type-B, micro USB Type-B, USB-PD (Power Delivery), and Lightning.

It should be noted that it is not essential that the output unit 36 is implemented by a USB connector. The output unit 36 may be realized by, for example, an RJ-45 type connector (connector to which a so-called LAN (Local Area Network) cable is connected) conforming to the Ethernet (registered trademark) standard. Also, the output unit 36 may be realized by an AC outlet or may be a DC outlet. Further, the plurality of output sections 36 provided in the discharge device 30 may all have the same type of terminal structure, or the plurality of output sections 36 provided in the discharge device 30 may have different terminal structures (for example, a USB connector and an AC connector). outlets, etc.).

[motion]
Next, operation of the discharge system 10 will be described. FIG. 7 is a sequence diagram of the operation of the discharge system 10. FIG.

The user operates the switch section 23 of the storage battery pack 20 while the terminal section 28 of the storage battery pack 20 is connected to the terminal section 32 of the discharging device 30 . The switch unit 23 accepts the user's operation (S11), and the control unit 26 causes the display unit 24 to display the remaining amount of the storage battery 22 when the user's operation is accepted by the switch unit 23 (S12). Specifically, the control unit 26 causes some or all of the plurality of light emitting elements included in the display unit 24 to emit light according to the remaining amount of the storage battery 22 measured by the measurement circuit 25 . In addition, the display of the remaining amount of the storage battery 22 is stopped, for example, after a certain period of time has elapsed since the display was started.

Further, the control unit 26 transmits a discharge start command to the discharge control unit 34 when the user's operation is accepted by the switch unit 23 in step S11 (S13).

The discharge control unit 34 receives a discharge start command via the communication terminal 28a and the communication terminal 32a. The discharge control unit 34 starts outputting power from the output unit 36 based on the received discharge start command (S14). Specifically, the discharge control unit 34 turns on the power conversion circuit 33, and the turned-on power conversion circuit 33 outputs power obtained from the storage battery 22 via the terminal 28b for power transmission and the terminal 32b for power reception. The converted power is converted to power suitable for the unit 36 and the converted power is output to the output unit 36 . As a result, power output from the output unit 36 is started.

After that, the user operates the switch unit 23 of the storage battery pack 20 again. The switch unit 23 accepts the user's operation (S15), and the control unit 26 causes the display unit 24 to display the remaining amount of the storage battery 22 when the user's operation is accepted by the switch unit 23 (S16). The processing of step S16 is the same as the processing of step S12.

The control unit 26 transmits a discharge stop command to the discharge control unit 34 when the user's operation is accepted by the switch unit 23 in step S15 (S17).

The discharge control unit 34 receives a discharge stop command via the communication terminal 28a and the communication terminal 32a. The discharge control unit 34 stops outputting power from the output unit 36 based on the received discharge stop command (S18). Specifically, the discharge control unit 34 turns off the power conversion circuit 33 , and the turned off power conversion circuit 33 stops outputting power to the output unit 36 . As a result, power output from the output unit 36 is stopped.

As described above, in the discharge system 10 , the on/off of the power output from the discharge device 30 is controlled by the user's operation of the switch section 23 provided in the storage battery pack 20 . In such a discharge system 10, power is not output from the output section 36 unless the switch section 23 is operated. Unnecessary consumption of the electric power stored in the storage battery 22 can be suppressed as compared with the discharge system in which the discharge system is performed. Moreover, in the discharge system 10, since it is not necessary to provide a switch section on the side of the discharge device 30, it is possible to simplify the configuration of the discharge device 30 and reduce power consumption.

Also, the switch section 23 is a switch section for displaying the remaining amount of the storage battery 22 . Since the switch unit 23 is also used for turning on and off the discharge device 30 (that is, it is also used), there is an advantage that it is not necessary to separately provide a switch unit for turning on and off the discharge device 30 in the storage battery pack 20 . Further, for the user, there is an advantage that the remaining amount of the storage battery 22 can be grasped when the discharging device 30 is turned on and off.

It is not essential that the switch unit 23 for displaying the remaining amount of the storage battery 22 is also used for turning on and off the discharge device 30 , and the switch unit provided in the storage battery pack 20 for other purposes is used for the discharge device 30 . It may be used for turning on and off, or the storage battery pack 20 may be provided with a dedicated switch section for turning on and off the discharging device 30 .

[Modification]
In the discharge device 30 , the output section 36 may be detachably attached to the body section 31 . FIG. 8 is an external view of a discharge device according to such a modification.

As shown in FIG. 8, a discharge device 30a according to a modification includes a body portion 31a and an output unit 36a detachably attached to a recess provided in the body portion 31a. Two output sections 36 are provided in the output unit 36a. The output unit 36 in this case is a USB connector, and the power conversion circuit 33 corresponding to the USB connector is housed inside the output unit 36a.

The discharge device 30a can replace the output unit 36a with an output unit 37a. An output section 37 is provided in the output unit 37a. The output unit 37 in this case is an AC outlet, and the power conversion circuit 33 corresponding to the AC outlet is housed inside the output unit 37a.

Thus, the discharge device 30a can change the power output mode by replacing the output unit.

[Effects, etc.]
As explained above, the discharge system 10 includes the storage battery pack 20 and the discharge device 30 . The storage battery pack 20 has a storage battery 22, a terminal portion 28 connected to the discharging device 30, and a switch portion 23 operated by a user. The discharge device 30 is an output section 36 that outputs the electric power stored in the storage battery 22 obtained through the terminal section 28, and the output section 36 is controlled on and off by operating the switch section 23. 36.

Such a discharge system 10 does not consume the power stored in the storage battery 22 unnecessarily, compared to a discharge system in which power is always output from the output unit 36 when the storage battery pack 20 is connected to the discharge device 30. can be suppressed.

Further, for example, the storage battery pack 20 further has a display unit 24 that displays the remaining amount of the storage battery 22 by the above operation.

Such a discharge system 10 can control on/off of power output from the output unit 36 based on an operation for displaying the remaining amount of the storage battery 22 .

Also, for example, the output unit 36 includes at least one of a USB connector, a DC terminal, a PD terminal, and an AC outlet.

Such a discharge system 10 can control on and off power output from a USB connector or an AC outlet.

Further, for example, the terminal portion 28 includes a terminal 28 b for power transmission from the storage battery pack 20 to the discharge device 30 and a terminal 28 a for communication between the storage battery pack 20 and the discharge device 30 .

Such a discharge system 10 can realize on/off control of power output from the output section 36 based on the operation of the switch section 23 through communication between the storage battery pack 20 and the discharge device 30 .

(Embodiment 2)
[Constitution]
In Embodiment 2, a lighting system using storage battery pack 20 will be described. FIG. 9 is an external view of the lighting system according to Embodiment 2 as viewed from above. FIG. 10 is an external view from above of the lighting system in which the storage battery pack and the lighting device are separated. FIG. 11 is an external view of the lighting system in which the storage battery pack and the lighting device are separated, viewed from below.

As shown in FIGS. 9 to 11, lighting system 40 includes storage battery pack 20 and lighting device 50 to which storage battery pack 20 is detachably connected. The illumination device 50 is a device that operates using the storage battery pack 20 as a power source, and has a main body portion 51 , a terminal portion 52 , and a light source portion 53 .

The body portion 51 is a housing that accommodates the light source portion 53 therein. The main body portion 51 has a substantially rectangular parallelepiped shape, and the corners of the side surfaces thereof are rounded. The four side surfaces of the main body 51 have similar appearances, including the side surfaces not shown in the drawings. The body portion 51 is made of, for example, an insulating resin material. The side surface of the body portion 51 is mainly made of a translucent material (for example, a transparent material), and the light source portion 53 can be visually recognized from the outside. A terminal portion 52 is provided on the upper portion (upper surface) of the main body portion 51 .

The terminal portion 52 has a terminal structure for electrically connecting the lighting device 50 to the battery pack 20 , and specifically, is electrically and structurally connected to the terminal portion 28 of the battery pack 20 . Terminal portion 52 has the same structure as terminal portion 32 of discharge device 30 . In other words, the terminal portion 52 of the lighting device 50 is shared with the terminal portion 32 of the discharge device 30 . Terminal portion 52 has a plurality of terminals, and the plurality of terminals includes a communication terminal and a power receiving terminal. The communication terminal is electrically connected to the communication terminal 28 a of the storage battery pack 20 , and the power receiving terminal is electrically connected to the power transmission terminal 28 b of the storage battery pack 20 .

The light source unit 53 is implemented by a light-emitting element such as an LED element or an organic EL element, and emits white light, for example. More specifically, the white light emitted by the light source unit 53 is daylight (D), daylight white (N), white (W), warm white (WW), light bulb color (L), and the like.

In such a lighting system 40 , turning on and off of the lighting device 50 (light source section 53 ) is controlled by user's operation of the switch section 23 provided in the storage battery pack 20 .

(Embodiment 3)
[Constitution]
In Embodiment 3, a speaker system using storage battery pack 20 will be described. FIG. 12 is an external view of the speaker system according to Embodiment 3 as viewed from above. FIG. 13 is an external view of the speaker system in which the storage battery pack and the speaker device are separated, viewed from above. FIG. 14 is an external view of the speaker system in which the storage battery pack and the speaker device are separated, as viewed from below.

As shown in FIGS. 12 to 14, speaker system 60 includes storage battery pack 20 and speaker device 70 to which storage battery pack 20 is detachably connected. The speaker device 70 is a device that operates using the storage battery pack 20 as a power source, and has a main body portion 71 , a terminal portion 72 , a speaker portion 73 , and an adjustment portion 74 .

The body portion 71 is a housing that accommodates a drive circuit for the speaker portion 73 and the like. The body portion 71 has a substantially rectangular parallelepiped shape, and the corners of the side surfaces thereof are rounded. The body portion 71 is made of, for example, an insulating resin material. A terminal portion 72 is provided on the upper portion (upper surface) of the main body portion 71 . A speaker portion 73 is provided on the front surface of the body portion 71 , and an adjustment portion 74 is provided on the side surface of the body portion 71 .

The terminal portion 72 has a terminal structure for electrically connecting the speaker device 70 to the battery pack 20 , and specifically, is electrically and structurally connected to the terminal portion 28 of the battery pack 20 . Terminal portion 72 has the same structure as terminal portion 32 of discharge device 30 . In other words, the terminal portion 72 of the speaker device 70 is shared with the terminal portion 32 of the discharge device 30 . Terminal portion 72 has a plurality of terminals, and the plurality of terminals includes terminals for communication and terminals for power reception. The communication terminal is electrically connected to the communication terminal 28 a of the storage battery pack 20 , and the power receiving terminal is electrically connected to the power transmission terminal 28 b of the storage battery pack 20 .

The speaker unit 73 outputs sound. For example, when a radio receiving circuit is built in the body portion 71 of the speaker device 70, the speaker portion 73 outputs radio sound. Further, when a wireless communication circuit capable of communicating with an information terminal such as a smart phone is incorporated in the main body portion 71 of the speaker device 70 (that is, when the speaker device 70 is a network speaker), the speaker portion 73 is provided from the information terminal. output the playback sound of the music content.

The adjustment section 74 is a volume adjustment knob for adjusting the volume of sound output from the speaker section 73 . If the speaker device 70 incorporates a radio reception circuit, the adjustment section 74 may be a knob for switching reception channels.

In such a speaker system 60 , turning on and off of the speaker device 70 is controlled by user's operation of the switch section 23 provided in the storage battery pack 20 .

(Other embodiments)
Although the embodiments have been described above, the present invention is not limited to the above embodiments.

For example, the components included in the discharge system described in the above embodiment may be distributed in any way to the storage battery pack and the discharge device. For example, part or all of the power conversion circuit of the discharge device may be provided in the storage battery pack.

Further, in the above-described embodiments, the processing executed by a specific processing unit may be executed by another processing unit. In addition, the order of multiple processes may be changed, and multiple processes may be executed in parallel.

Also, in the above embodiments, each component may be realized by executing a software program suitable for each component. Each component may be realized by reading and executing a software program recorded in a recording medium such as a hard disk or a semiconductor memory by a program execution unit such as a CPU or processor.

Also, each component may be realized by hardware. Each component may be a circuit (or integrated circuit). These circuits may form one circuit as a whole, or may be separate circuits. These circuits may be general-purpose circuits or dedicated circuits.

Also, general or specific aspects of the present invention may be implemented in a system, apparatus, method, integrated circuit, computer program or recording medium such as a computer-readable CD-ROM. Also, any combination of systems, devices, methods, integrated circuits, computer programs and recording media may be implemented.

For example, the present invention may be implemented as the discharge device of the above embodiment. Further, the present invention may be implemented as a control method for the discharge system of the above embodiment. The present invention may be implemented as a program for causing a computer to execute such a control method, or may be implemented as a computer-readable non-temporary recording medium in which such a program is recorded.

In addition, forms obtained by applying various modifications to each embodiment that a person skilled in the art can think of, or realized by arbitrarily combining the constituent elements and functions of each embodiment without departing from the spirit of the present invention. Also included in the present invention.

REFERENCE SIGNS LIST 10 discharge system 20 storage battery pack 21 main unit 22 storage battery 23 switch unit 24 display unit 25 measurement circuit 26 control unit 27, 35 storage unit 28, 32, 52, 72 terminal unit 28a, 32a terminal for communication 28b terminal for power transmission 30 , 30a discharge device 31, 31a, 51, 71 main body 32b power receiving terminal 33 power conversion circuit 34 discharge control section 36, 37 output section 36a, 37a output unit 40 lighting system 50 lighting device 53 light source section 60 speaker system 70 speaker Device 73 Speaker section 74 Adjustment section

Claims (4)

a battery pack;
a discharge device;
The storage battery pack is
a storage battery;
a terminal portion connected to the discharge device;
a switch unit operated by a user;
The discharge device is an output unit that outputs the electric power stored in the storage battery obtained through the terminal unit, and the output unit is controlled on and off by the operation of the switch unit. a discharge system. The discharge system according to claim 1, wherein the storage battery pack further has a display unit that displays the remaining amount of the storage battery by the operation. 3. The output unit according to claim 1, wherein the output unit includes at least one of a USB (Universal Serial Bus) connector, a DC (Direct Current) terminal, a PD (Power Delivery) terminal, and an AC (Alternating Current) outlet. discharge system. 4. The terminal part according to any one of claims 1 to 3, wherein the terminal portion includes a terminal for power transmission from the storage battery pack to the discharge device and a communication terminal for the storage battery pack and the discharge device. discharge system.

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