JP2022129280A - Battery pack and power tool - Google Patents

Abstract

To provide a battery pack improved in applicability and used for a power tool, and a power tool having the same.SOLUTION: A battery pack 1 used for a power tool includes: a power storage unit 2 including a lithium ion battery that is a secondary battery 21; and positive electrode terminals 31, 33 and a negative electrode terminal 32 that are power supply terminals for supplying power to a main body of the power tool. The power storage unit includes an all-solid battery, as a secondary battery, having a solid electrolyte separating a positive electrode and a negative electrode as a separator, and comprises a signal output terminal 73 corresponding to a temperature detection terminal 75 for outputting a temperature of the power storage unit. The temperature detection terminal is a terminal for receiving a signal related to the temperature detected from the secondary battery from the secondary battery.SELECTED DRAWING: Figure 1

Description

TECHNICAL FIELD The present disclosure relates generally to battery packs and power tools, and more particularly to battery packs used in power tools and power tools including such battery packs.

Patent Literature 1 discloses a battery pack capable of detecting an abnormal state.

The battery pack of Patent Literature 1 includes an assembled battery, a processing section, and a determination section. The assembled battery includes a plurality of secondary batteries. The processing unit detects the voltage of each of the plurality of secondary batteries and outputs a first signal when the detected voltage of at least one of the plurality of secondary batteries is lower than a first threshold. The processing unit outputs a second signal when the detected voltage of at least one secondary battery among the plurality of secondary batteries is higher than a second threshold that is greater than the first threshold. The determination unit determines the abnormal state when both the first signal and the second signal are obtained from the processing unit.

JP 2019-79632 A

Battery packs, in which lithium-ion batteries are widely used at present, may be difficult to use depending on the usage environment, and further improvements in applicability may be required.

An object of the present disclosure is to provide a battery pack and an electric power tool with improved applicability.

A battery pack according to an aspect of the present disclosure is used in an electric power tool. The battery pack includes a power storage unit, a positive terminal serving as a power supply terminal, and a negative terminal. The power storage unit includes a secondary battery. The battery pack supplies power to the main body of the power tool through the positive terminal and the negative terminal, which are the power supply terminals. The power storage unit includes, as the secondary battery, an all-solid battery having a solid electrolyte as a separator separating a positive electrode and a negative electrode. The power storage unit includes a signal output terminal corresponding to a temperature detection terminal that outputs the temperature of the power storage unit.

A power tool according to an aspect of the present disclosure includes the battery pack and a main body to which the battery pack is detachably attached.

According to the present disclosure, it is possible to provide a battery pack and an electric power tool with improved applicability.

FIG. 1 is a block diagram of a battery pack used in an electric power tool according to one embodiment. FIG. 2 is a perspective view of a battery pack used in the power tool; FIG. 3 is a diagram for explaining an electric power tool provided with a battery pack used in the same electric power tool. FIG. 4 is a block diagram of a battery pack used in a power tool according to one modification. FIG. 5 is a block diagram of a battery pack used in a power tool according to a modification different from FIG.

Each embodiment and modifications described below are merely examples of the present disclosure, and the present disclosure is not limited to each embodiment and modification. Other than these embodiments and modifications, various modifications can be made according to the design and the like within the scope of the technical idea of the present disclosure.

(embodiment)
A battery pack 1 according to the present embodiment will be described below with reference to FIGS. 1 to 3. FIG.

(1) Overview of Electric Tool The electric tool 100 according to the present embodiment includes a main body 50 and a battery pack 1, as shown in FIG. The body portion 50 includes a drive portion 102 , a drive transmission portion 103 , a tool mounting portion 101 and a tip tool 40 . The power tool 100 is a tool that drives the tip tool 40 with the driving force of the driving portion 102 .

The drive unit 102 is a drive source that drives the tip tool 40 . The drive unit 102 is, for example, a brushless motor.

The drive transmission unit 103 adjusts the output (driving force) of the drive unit 102 and outputs it to the output shaft. The output shaft is a portion that is driven (for example, rotated) by the driving force output from the drive transmission section 103 . The tool mounting portion 101 is fixed to the output shaft, and is a portion to which the tip tool 40 is detachably mounted. The tip tool 40 (also referred to as bit) is, for example, a driver, socket or drill. Among various types of tip tools 40, the tip tool 40 corresponding to the application is attached to the tool attachment portion 101 and used.

A trigger volume 105 is an operation unit that receives an operation for controlling rotation of the drive unit 102 . The user can switch between on and off of the drive unit 102 by pulling the trigger volume 105 . In addition, the user can adjust the rotation speed of the output shaft, that is, the rotation speed of the drive unit 102 by the operation amount of the operation to pull the trigger volume 105 .

In the power tool 100 , the tip tool 40 is attached to the tool attachment portion 101 . The rotation speed of the tip tool 40 is controlled by controlling the rotation speed of the drive unit 102 by operating the trigger volume 105 .

The power tool 100 of the present embodiment includes the tool mounting portion 101 so that the tip tool 40 can be replaced depending on the application, but the tip tool 40 need not be replaceable. For example, the power tool 100 may be a power tool that can use only a specific tip tool 40 .

Battery pack 1 is used in power tool 100 . The battery pack 1 includes a power storage unit 2, and a positive terminal 31 and a negative terminal 32, which are power supply terminals. Power storage unit 2 includes a secondary battery 21 . The battery pack 1 supplies power to the main body 50 of the power tool 100 via the positive terminal 31 and the negative terminal 32 which are power supply terminals. Power storage unit 2 includes, as secondary battery 21, all-solid battery 35 having a solid electrolyte as a separator for separating a positive electrode and a negative electrode. Power storage unit 2 includes a signal output terminal 73 corresponding to temperature detection terminal 75 for outputting the temperature of power storage unit 2 .

Battery pack 1 further includes power storage unit 2 , thermistor 22 , communication connector 7 , processing unit 4 , and housing 9 . The battery pack 1 is detachably attached to the main body 50 of the power tool 100 via the battery pack attachment portion 106, as shown in FIG.

The power storage unit 2 includes, for example, one or more secondary batteries 21 . In this embodiment, as shown in FIGS. 1 and 3, the power storage unit 2 has five secondary batteries 21 connected in series. A lithium-ion battery can be used as the secondary battery 21, but an all-solid-state battery 35 is used in this embodiment. The all-solid battery 35 has a solid electrolyte as a separator separating the positive electrode and the negative electrode.

The thermistor 22 measures the temperature of the all-solid battery 35 . The thermistor 22 is, for example, an NTC thermistor (Negative Temperature Coefficient Thermistor). Note that the thermistor 22 is not an essential component in the battery pack 1 and can be omitted as appropriate.

The communication connector 7 is a connector used as an interface for communicating with the power tool 100 and the charger.

For example, the processing unit 4 detects the voltage of each of the secondary batteries 21, and outputs a plurality of first signals when the detected voltage of at least one secondary battery 21 among the secondary batteries 21 is lower than the first threshold. output to the power tool 100 through the first output terminal 71 of the communication terminals 70 .

Housing 9 accommodates power storage unit 2 .

The communication connector 7, the processing unit 4, and the housing 9 will be described in detail later in "(2) Overall configuration of the battery pack".

(2) Overall Configuration of Battery Pack The battery pack 1 of the present embodiment can be used as a power source for a device to which the battery pack 1 can be attached and detached, such as the power tool 100 . Also, the battery pack 1 is charged by a charger that allows the battery pack 1 to be attached and detached.

The battery pack 1 includes a power storage unit 2 including a secondary battery 21 and a housing (see FIG. 2) that accommodates the power storage unit 2 .

The power storage unit 2 includes a plurality of (five in this embodiment) secondary batteries 21 . In power storage unit 2, a plurality of secondary batteries 21 are connected in series. Each of the plurality of secondary batteries 21 constitutes a cell of power storage unit 2 .

The housing 9 includes a body 90 and a cover 91 coupled to the body 90, as shown in FIG. The body 90 is box-shaped with the cover 91 side open. Body 90 accommodates power storage unit 2 . The cover 91 is box-shaped with the body 90 side open. The cover 91 includes a projecting base portion 92 projecting from one surface 911 on the side opposite to the body 90 side. The projecting base portion 92 has a flat rectangular parallelepiped shape. The body 90 is a synthetic resin molding. The material of the body 90 is ABS resin, for example. Body 90 has electrical insulation. The cover 91 is a synthetic resin molding. The material of the cover 91 is ABS resin, for example. The cover 91 has electrical insulation.

The projecting portion 92 has a first longitudinal end 921 and a second longitudinal end 922 . Battery pack 1 has three insertion grooves 931 , 933 , and 932 formed in first end 921 of projecting base portion 92 . The positive terminal 31, the negative terminal 32, and the positive terminal 33 are connected to the three insertion grooves 931, 932, and 933, respectively. Negative electrode terminal 32 is connected to the negative electrode of power storage unit 2 . In the battery pack 1 , the positive terminal 31 and the negative terminal 32 are used for discharging to the power tool 100 . In the battery pack 1, the positive terminal 33 and the negative terminal 32 are used for charging from the charger. The positive terminal 31, the negative terminal 32, and the positive terminal 33 are female connection terminals into which male connection terminals are inserted. The battery pack 1 is provided with three L-shaped hooks 941, 942, and 943 provided on each of a pair of lateral side surfaces 923 of the protruding base portion 92 as attachment portions to the device and the charger. .

The battery pack 1 also has a communication connector 7 . The communication connector 7 is a connector used as an interface for communicating with the power tool 100 and the charger. The communication connector 7 includes a plurality of communication terminals 70 (see FIG. 1). Here, the communication connector 7 is used when communicating battery pack information with the power tool 100 and the charger. Communication connector 7 includes a plurality of communication terminals 70 for outputting battery pack information. Battery pack information includes, for example, temperature information, rated temperature information, and the like. The temperature information is the temperature of battery pack 1 , more specifically, the temperature of power storage unit 2 in housing 9 . The rated voltage information is information about the rated voltage of the battery pack 1, and is information about the rated voltage of the power storage unit 2 in this embodiment.

The battery pack 1 includes, as shown in FIG. and a notification unit 8.

(3) Configuration The secondary battery 21 in the power storage unit 2 of the battery pack 1 is formed of an all-solid-state battery 35 . The all-solid battery 35 has a solid electrolyte as a separator separating the positive electrode and the negative electrode. The rated voltage of the all-solid-state battery is, for example, 3.6V. The rated voltage of the battery pack 1 is, for example, 18.0 V, and in this embodiment, as shown in FIG. 1, five secondary batteries 21 are connected in series. Electric storage unit 2 is accommodated in housing 9 .

The processing unit 4 detects the voltage of each of the secondary batteries 21, and when the detected voltage of at least one secondary battery 21 among the secondary batteries 21 is lower than a first threshold, the processing unit 4 transmits the first signal to a plurality of communications. Output to the power tool 100 through the first output terminal 71 of the terminals 70 . Further, the processing unit 4 outputs the second signal to the plurality of communication terminals 70 when the detected voltage of the secondary batteries 21 excluding at least one secondary battery 21 is higher than a second threshold larger than the first threshold. It outputs to the power tool 100 through the second output terminal 72 . The first threshold is a voltage value lower than the rated voltage of the secondary battery 21, for example 2V. The second threshold is a voltage value higher than the rated voltage of the secondary battery 21, for example 4V.

The processing unit 4 includes a battery monitoring unit 41 , a discharge control unit 42 and a charge control unit 43 .

Battery monitoring unit 41 detects the voltage of each secondary battery 21 . When the detected voltage of at least one secondary battery 21 among the secondary batteries 21 is lower than the first threshold, the battery monitoring unit 41 sends a discharge disable signal (for example, an L level voltage signal) to the discharge control unit 42 . Output. When the detected voltage of at least one secondary battery 21 among the secondary batteries 21 of the secondary batteries 21 is higher than the second threshold value, the battery monitoring unit 41 sends a charge disable signal (for example, H level) to the charge control unit 43 . voltage signal). When the detected voltage of each of the secondary batteries 21 is equal to or higher than the first threshold value and equal to or lower than the second threshold value, the battery monitoring unit 41 outputs a discharge permission signal (for example, an H level voltage signal) and a charge permission signal (for example, an L level voltage signal). voltage signal). The battery monitoring unit 41 includes an IC (Integrated Circuit) element. Battery monitoring unit 41 operates using power storage unit 2 as a power source. The battery monitoring unit 41 is mounted on the circuit board. The circuit board is configured by a printed wiring board, for example.

The discharge control unit 42 is connected to the battery monitoring unit 41 so as to acquire the discharge permission signal and the discharge prohibition signal output from the battery monitoring unit 41 . Also, the discharge control unit 42 is connected to the first output terminal 71 of the plurality of communication terminals 70 . The discharge control unit 42 voltage-converts and logically inverts the signals (discharge permission signal and discharge disable signal) output from the battery monitoring unit 41 and outputs them. The discharge control unit 42 outputs a first signal (for example, an H-level voltage signal) when the battery monitoring unit 41 outputs the discharge-impossible signal. The discharge controller 42 includes, for example, a signal conversion circuit. The signal conversion circuit has, for example, an npn transistor, a resistor, and a Zener diode. In the signal conversion circuit, the collector of an npn-type transistor is connected via a resistor to the high potential side output end of the power supply circuit in the battery pack 1, and the emitter of the npn-type transistor is grounded. In the discharge control unit 42, the battery monitoring unit 41 is connected to the base of the npn transistor. The output end of the discharge control section 42 (the connection point with the resistance of the transistor) is connected to the first output terminal 71 . The cathode of the Zener diode is connected to the collector of the npn transistor, and the anode of the Zener diode is connected to the emitter of the npn transistor. The power tool 100 that has acquired the first signal output from the first output terminal 71 determines that the battery pack 1 has insufficient voltage. When the power tool 100 acquires the first signal while discharging to the load of the power tool 100, the power tool 100 stops discharging. The discharge controller 42 is mounted on the circuit board.

The charge controller 43 is connected to the battery monitor 41 so as to acquire the charge permission signal and the charge prohibition signal output from the battery monitor 41 . Also, the charging control unit 43 is connected to one second output terminal 72 of the plurality of communication terminals 70 . The charge control unit 43 converts the voltage of the signal (the charge permission signal and the charge prohibition signal) output from the battery monitoring unit 41, logically inverts the signal, and outputs the converted signal. The charging control unit 43 outputs a second signal (for example, an L-level voltage signal) when the battery monitoring unit 41 outputs the charge-impossible signal. The charge controller 43 includes, for example, a signal conversion circuit. The signal conversion path has an npn transistor, a resistor and a Zener diode. In the signal conversion circuit, the collector of an npn-type transistor is connected via a resistor to the high potential side output end of the power supply circuit in the battery pack 1, and the emitter of the npn-type transistor is grounded. In addition, in the charging control unit 43, the battery monitoring unit 41 is connected to the base of the npn transistor. An output terminal (a connection point between a transistor and a resistor) of the charging control section 43 is connected to the second output terminal 72 . The cathode of the Zener diode is connected to the collector of the npn transistor, and the anode of the Zener diode is connected to the emitter of the npn transistor. The charger that acquires the second signal output from the second output terminal 72 determines that the battery pack 1 is fully charged. The charger stops charging the battery pack 1 when the second signal is received while the battery pack 1 is being charged. The charge controller 43 is mounted on the circuit board.

The information output section 6 is connected to the communication connector 7 . Information output unit 6 outputs battery pack information via communication connector 7 . The information output section 6 includes a constant voltage output section 61 and an identification information output section 62 . The information output unit 6 also includes a plurality of (two in this embodiment) switch elements 10 .

Constant voltage output unit 61 outputs a dummy signal including a constant voltage signal that is a constant voltage. The lithium ion battery, which is the secondary battery 21 , has a temperature sensor section and outputs temperature information to the power tool 100 via the temperature detection terminal 75 . Here, the temperature detection terminal 75 is a terminal for receiving a signal related to the temperature detected by the lithium ion battery from the lithium ion battery.

A lithium ion battery, a nickel-cadmium battery, or an all-solid-state battery 35 can be used as the secondary battery 21, for example. In this embodiment, an all-solid battery 35 is used as the secondary battery 21 . Therefore, it is not necessary to measure the temperature by the temperature sensor and to output the temperature to the power tool 100 via the temperature detection terminal 75 . However, when comparing the case where the secondary battery 21 is composed of the lithium ion battery and the case where the secondary battery 21 is composed of the all-solid-state battery 35, the temperature detection terminal 75 does not receive a signal related to the temperature of the lithium ion battery. is not output, the battery pack 1 does not operate. Therefore, the power storage unit 2 includes a signal output terminal (third output terminal) 73 that outputs a signal to the temperature detection terminal 75 even when the all-solid-state battery 35 is used as the secondary battery 21. . However, the signal output from the signal output terminal 73 contains a dummy signal corresponding to the temperature detection terminal 75 . In this embodiment, the dummy signal includes a constant voltage signal that is a constant voltage output by the constant voltage output section 61 . Since the power tool 100 uses the all-solid-state battery 35 for the power storage unit 2 of the battery pack 1, the signal output terminal 73 outputs a dummy signal.

When using a lithium-ion battery, temperature control is important for stable operation of the lithium-ion battery. Electrolytes used in lithium ion batteries are sensitive to heat, and the temperature detection terminal 75 is an essential component of the lithium ion battery, and the operating temperature range of the lithium ion battery is determined. When the temperature information is transmitted to the main body portion 50 of the power tool 100 via the temperature detection terminal 75, the main body portion 50 controls the operation of the power tool 100 if the temperature information of the lithium ion battery is within the operating temperature range. It is judged that it is possible to continue The operating temperature range is, for example, 0 to 35 degrees. On the other hand, when the temperature information transmitted to the main unit 50 exceeds the operating temperature range of the lithium ion battery, the main unit 50 determines that the operation of the electric power tool 100 cannot be continued, and stops the operation of the electric power tool 100. Stop.

Compared to a lithium ion battery, the all-solid-state battery 35 used in the present embodiment has a lower possibility of electrolyte leakage, ignition, etc. due to the use of a solid electrolyte. Reliability is high. In addition, the all-solid-state battery 35 has a highly stable solid electrolyte, and can be used in both high-temperature and low-temperature conditions. Therefore, when the all-solid-state battery 35 is used, it is not necessary to measure the temperature of the all-solid-state battery 35 . However, in order to determine the operation of the power tool 100 using the temperature information, the main body 50 requires the temperature information even when the power storage unit 2 of the battery pack 1 is composed of the all-solid-state battery 35. . Therefore, when the power storage unit 2 is composed of the all-solid-state battery 35, a dummy signal is output to the temperature detection terminal 75, and the main unit 50 that receives the dummy signal detects that the all-solid-state battery 35 is within the usable range. and determines that the power tool 100 can continue to operate.

The identification information output unit 62 outputs rated voltage information of the battery pack 1 (in this embodiment, information representing the rated voltage of the power storage unit 2) as battery pack information. That is, the information output unit 6 outputs the rated voltage information of the battery pack 1 as the battery pack information. If the rated voltage of the battery pack 1 is, for example, 18.0V, the rated voltage information is, for example, a voltage signal with a voltage level of 2.5V. The identification information output section 62 is accommodated within the housing 9 . The identification information output section 62 is connected to one fourth output terminal 74 of the plurality of communication terminals 70 . The identification information output section 62 includes an identification resistor. The resistance value of the identification resistor is predetermined to be a different resistance value for each rated voltage of the power storage unit. Therefore, in the battery pack 1, the output signal of the identification information output section 62 output from the fourth output terminal 74 differs for each battery pack 1 having a different rated voltage. The identification information output section 62 is mounted on the circuit board. In the power tool 100 and the charger to which the battery pack 1 is attached, the rated voltage information of the battery pack 1 can be obtained by detecting the resistance value of the identification resistor, for example.

In the power tool 100 to which the battery pack 1 is attached, if the temperature information (voltage level of the voltage signal) is within the first predetermined range and the rated voltage information (voltage level of the voltage signal) is within the second predetermined range, Discharge to the load of the power tool 100 can be performed. Further, in the charger with the battery pack 1 attached, if the temperature information (voltage level of the voltage signal) is within the third predetermined range and the rated voltage information (voltage level of the voltage signal) is within the fourth predetermined range, , the battery pack 1 can be charged.

Each switch element 10 is, for example, a normally-on transistor. One switch element 11 of the two switch elements 10 is connected between the third output terminal 73 of the constant voltage output section 61 and the other switch element 12 is connected between the identification information output section 62 and the fourth output terminal 74. is connected between Each switch element 10 is mounted on the circuit board.

In the battery pack 1 , the discharge control section 42 and the charge control section 43 of the processing section 4 are connected to the determination section 5 .

In the processing unit 4 , the discharge control unit 42 outputs the same signal to the first output terminal 71 and the determination unit 5 . Also, in the processing unit 4 , the charging control unit 43 outputs the same signal to the second output terminal 72 and the determination unit 5 . Therefore, in the battery pack 1 , when the battery monitoring unit 41 outputs the non-discharge signal, the determination unit 5 acquires the first signal. Further, in the battery pack 1, when the battery monitoring unit 41 outputs the charging failure signal, the determination unit 5 acquires the second signal.

The determination unit 5 determines an abnormal state when both the first signal and the second signal are obtained from the processing unit 4 . The battery pack 1 includes an output terminal 79 for outputting a third signal indicating an abnormality when the determination unit 5 determines that the battery pack is in an abnormal state. In the battery pack 1 , among the communication terminals 70 , the third output terminal 73 and the fourth output terminal 74 also serve as the output terminal 79 . When both the first signal and the second signal are acquired, the determination unit 5 controls each of the plurality of switch elements 10 from the ON state to the OFF state, thereby enabling the third output terminal 73 and the fourth output terminal 74 is set to a high impedance state (open) to output a third signal indicating abnormality. The third signal output from the third output terminal 73 is a voltage signal having a voltage level that is neither included in the first predetermined range nor the third predetermined range. The fourth signal output from the fourth output terminal 74 is a voltage signal having a voltage level that is neither included in the second predetermined range nor the fourth predetermined range. Although the determination unit 5 is configured by an IC, it is not limited to this, and may be configured by a logic circuit or the like. The determination unit 5 is mounted on the circuit board.

A notification unit 8 in the battery pack 1 notifies that the battery pack 1 is in an abnormal state when the determination unit 5 determines that the battery pack 1 is in an abnormal state.

The notification unit 8 includes an LED (Light Emitting Diode) provided in the housing 9 . The notification unit 8 is controlled by the determination unit 5 . The determination unit 5 operates the notification unit 8 so that the LED of the notification unit 8 blinks or lights up for a predetermined time (for example, 20 seconds).

(4) Operation The operation of the battery pack 1 will be explained using FIG. The power storage unit 2 of the battery pack 1 is composed of an all-solid-state battery 35 .

When the battery pack 1 is attached to the body portion 50 , the battery pack 1 outputs temperature information (dummy signal) from the information output portion 6 to the body portion 50 via the third output terminal 73 . In this embodiment, the constant voltage output section 61 outputs a constant voltage signal, which is a constant voltage, to the main body section 50 via the signal output terminal 73 . Therefore, the main body 50 determines that the temperature information of the battery pack 1 is constant and is within the operating temperature range, and continues the operation of the power tool 100 . In other words, the user can continue using the power tool 100 .

The operation in the case where the power storage unit 2 is composed of a plurality of all-solid-state batteries 35 as the secondary battery 21 will be described. In this case, the processing unit 4 detects the voltage of each of the secondary batteries 21, and outputs a plurality of first signals when the detected voltage of at least one of the secondary batteries 21 is lower than the first threshold. of the communication terminals 70 to the main body 50 of the power tool 100 via the first output terminal 71 . Also, the processing unit 4 outputs the first signal to the determination unit 5 . The processing unit 4 detects the voltage of each of the secondary batteries 21, and when the detected voltage of at least one of the secondary batteries 21 is higher than a second threshold larger than the first threshold, the second A signal is output to the main body portion 50 of the power tool 100 via the second output terminal 72 of the plurality of communication terminals 70 . Also, the processing unit 4 outputs the second signal to the determination unit 5 . The determination unit 5 determines that an abnormal state has occurred when both the first signal and the second signal are transmitted to the main body 50 of the power tool 100 .

(5) Advantages Battery pack 1 is used in power tool 100 . The battery pack 1 includes a power storage unit 2, a positive electrode terminal 31 and a negative electrode terminal 32, which are power supply terminals. Power storage unit 2 includes a secondary battery 21 . The battery pack 1 supplies power to the main body 50 of the power tool 100 via a positive terminal 31 and a negative terminal 32 which are power supply terminals. Power storage unit 2 includes, as secondary battery 21, all-solid battery 35 having a solid electrolyte as a separator for separating a positive electrode and a negative electrode. Power storage unit 2 includes a signal output terminal 73 corresponding to temperature detection terminal 75 for outputting the temperature of power storage unit 2 .

With this configuration, it is possible to provide the battery pack 1 and the power tool 100 with improved applicability. For example, when the temperature of the environment in which the power tool 100 is used is high, or when the temperature of the battery pack 1 of the power tool 100 rises due to continuous use of the power tool 100, the operating temperature range of the lithium ion battery is exceeded. Therefore, prohibiting the power supply and discharge of the battery pack 1 causes a problem of poor work efficiency. On the other hand, in this embodiment, by using the all-solid-state battery 35 that has a wider operating temperature range than the lithium-ion battery, the power tool 100 can be used even when the temperature is high and when it is used continuously. , and the applicability of the battery pack 1 is improved.

Further, even if the secondary battery 21 is the all-solid-state battery 35, the main body 50 side of the power tool 100 can perform determination processing as if a lithium-ion battery with an appropriate operating temperature range is used. .

A signal output from the signal output terminal 73 includes a dummy signal corresponding to the temperature detection terminal 75, and the dummy signal includes a constant voltage signal that is a constant voltage.

According to this configuration, even if the secondary battery 21 used by the power storage unit 2 is switched from the lithium ion battery to the all-solid-state battery 35, since the dummy signal is output to the temperature detection terminal 75, the all-solid-state battery 35 It becomes possible to use the battery pack 1 provided with the electric storage part 2 comprised by.

The power tool 100 further includes a plurality of communication terminals 70 , a processing section 4 and a determination section 5 . A plurality of communication terminals 70 output signals to the power tool 100 . The processing unit 4 detects the voltage of each of the secondary batteries 21 and outputs the first signal to the plurality of communication terminals 70 when the detected voltage of at least one of the secondary batteries 21 is lower than the first threshold. It outputs to the power tool 100 through the first output terminal 71 among them. The processing unit 4 outputs the second signal to the plurality of communication terminals 70 when the detected voltage of the secondary batteries 21 other than the at least one secondary battery 21 is higher than a second threshold larger than the first threshold. It outputs to the power tool 100 through the second output terminal 72 . The determination unit 5 determines an abnormal state when the processing unit 4 transmits both the first signal and the second signal to the power tool 100 .

With this configuration, the battery pack 1 can detect an abnormal state.

(6) Modifications The above-described embodiment is merely one of various embodiments of the present invention. The above-described embodiment can be modified in various ways according to design and the like, as long as the object of the present invention can be achieved. Modifications are listed below. It should be noted that the modified examples described below can be applied in appropriate combination with the above-described embodiment.

In the embodiment, the dummy signal is configured to include a constant voltage signal that is a constant voltage, but the configuration is not limited to this. As for the dummy signal, as in the battery pack 1A shown in FIG. 4, the information output unit 6 has a constant current output unit 61A that outputs a constant current, and the dummy signal includes a constant current signal that is a constant current. may be

In the embodiment, the dummy signal is configured to include a constant voltage signal that is a constant voltage, but the configuration is not limited to this. As for the dummy signal, as in the battery pack 1B shown in FIG. 5, the information output unit 6 may include a ground (GND) 61B that outputs a ground level, and the dummy signal may include the ground signal.

In the embodiment, the number of secondary batteries 21 is five, but the configuration is not limited to this. The number of secondary batteries 21 in power storage unit 2 may be one or more, and is not limited to five. The number of secondary batteries 21 may be four, for example.

In the embodiment, the battery monitoring unit 41 is configured by an IC element, but is not limited to this configuration. Battery monitoring unit 41 may include an IC element and other electronic components. Moreover, the battery monitoring part 41 may be comprised by the microcontroller (Microcontroller). A microcontroller is configured as a one-chip device that includes a processor that operates according to a program, a memory for storing the program that operates the processor, and a working memory. In this case, the battery monitoring unit 41 can be implemented by causing a microcontroller to execute a program. Also, the battery monitoring unit 41 may be configured to include a plurality of discrete electronic components without including an IC element and a microcontroller.

In the embodiment, in the battery pack 1, the information output section 6 is configured to include two switch elements 10, but the configuration is not limited to this. The number of switch elements 10 is not limited to two, and may be one or three or more.

In the embodiment, in the battery pack 1, the information output section 6 is configured to include two switch elements 10, but the configuration is not limited to this. The determination unit 5 may be configured to cause the identification information output unit 62 to output the third signal when the determination unit 5 determines that there is an abnormality.

In the embodiment, in the battery pack 1, all (two) of the plurality (four) of the communication terminals 70 connected to the information output section 6 are also used as the output terminal 79, but at least It is sufficient that one communication terminal 70 is also used as the output terminal 79 .

In the embodiment, the power storage unit 2 is configured to include the thermistor 22, but is not limited to this configuration. Power storage unit 2 may not include a thermistor.

In the embodiment, the thermistor 22 is configured as an NTC thermistor, but is not limited to this configuration. The thermistor 22 may be configured as a PCT thermistor (Positive Temperature Coefficient Thermistor).

In the embodiment, the resistance value of the identification resistor is set in advance to different resistance values for each rated voltage of the power storage unit, but the present invention is not limited to this configuration. The identification information output unit 62 may have a different identification resistance value for each combination of rated voltage and rated capacity.

In the embodiment, the battery pack 1 is configured to include the information output section 6, the communication connector 7, and the notification section 8, but is not limited to this configuration. The information output unit 6, the communication connector 7, and the notification unit 8 are not essential components, and can be omitted as appropriate.

In the embodiment, the notification unit 8 is configured to perform notification by means of an LED emission color, a blinking pattern, or the like, but is not limited to this configuration. The notification unit 8 may notify by sound. The notification unit 8 may be configured to perform notification by, for example, a combination of an audio IC and a speaker, a buzzer, or the like.

Battery pack 1 may further include a protective element between positive electrode terminal 33 and the positive electrode of power storage unit 2 to cut off the electrical path between positive electrode terminal 33 and power storage unit 2 . The protection element includes, for example, a heater resistor and a fuse, and the fuse melts to cut off the electric circuit when current flows through the heater resistor. The protection element may be controlled by, for example, the charging control section 43 .

In the embodiment, the battery pack information is temperature information and rated voltage information, but is not limited to this configuration. The battery pack information may include, for example, remaining capacity information, rated capacity information, charging frequency information, and the like. The remaining capacity information is information representing the remaining capacity of the battery pack 1 . The rated capacity information is information representing the rated capacity of the battery pack 1 . The number-of-charges information is information representing the number of times the battery pack 1 has been charged.

(summary)
As described above, the battery pack (1, 1A, 1B) according to the first aspect is used in the power tool (100). A battery pack (1) includes a power storage unit (2), and a positive terminal (31) and a negative terminal (32), which are power supply terminals. The power storage unit (2) includes a secondary battery (21). The battery pack (1) supplies power to the main body (50) of the power tool (100) through the positive terminal (31) and the negative terminal (32), which are power supply terminals. The power storage unit (2) includes, as a secondary battery (21), an all-solid battery (35) having a solid electrolyte as a separator separating a positive electrode and a negative electrode. The power storage unit (2) has a signal output terminal (73) corresponding to the temperature detection terminal (75) for outputting the temperature of the power storage unit (2).

According to this configuration, it is possible to provide the battery pack (1) and the power tool (100) with improved applicability.

In the battery pack (1, 1A, 1B) according to the second aspect, in the first aspect, the temperature detection terminal (75) is a terminal for receiving a signal related to the temperature detected by the lithium ion battery from the lithium ion battery. be.

According to this configuration, the battery pack (1, 1A, 1B) includes the temperature detection terminal (75), so that the battery pack (1) used in the power tool (100) can A lithium ion battery can be used as the secondary battery (21).

In the battery pack (1, 1A, 1B) according to the third aspect, in the first aspect, the signal output by the signal output terminal (73) includes a dummy signal corresponding to the temperature detection terminal (75).

According to this configuration, the signal output from the signal output terminal (73) of the battery pack (1, 1A, 1B) is a dummy signal corresponding to the temperature detection terminal (75), so that the power tool (100) The battery pack (1) used in can be used for all-solid-state batteries (35) in addition to lithium-ion batteries.

In the battery pack (1) according to the fourth aspect, in the third aspect, the dummy signal contains a constant voltage signal that is a constant voltage.

According to this configuration, the dummy signal can be realized by the output of the constant voltage circuit included in the constant voltage output unit 61 by including the constant voltage signal, which is a constant voltage.

In the battery pack (1) according to the fifth aspect, in any one of the first to fourth aspects, a plurality of communication terminals (70), a processing section (4), and a determination section (5) are further Prepare. A plurality of communication terminals (70) output signals to the power tool (100). A processing unit (4) detects the voltage of each of the secondary batteries (21), and when the detected voltage of at least one secondary battery (21) among the secondary batteries (21) is lower than a first threshold, A first signal is output to the power tool (100) through a first output terminal (71) of the plurality of communication terminals (70). The processing unit (4) outputs a plurality of second signals when the detected voltage of the secondary batteries (21) excluding the at least one secondary battery (21) is higher than a second threshold larger than the first threshold. output to the power tool (100) through the second output terminal (72) of the communication terminals (70). A determination unit (5) determines an abnormal state when the processing unit (4) transmits both the first signal and the second signal to the power tool (100).

According to this configuration, the battery pack (1) can detect an abnormal state.

In the battery pack (1) according to the sixth aspect, in the fifth aspect, when the determining section (5) determines that an abnormal state exists, the third signal indicating the abnormality is sent to the third signal of the plurality of communication terminals (70). It further comprises an information output section (6) that outputs information to the power tool (100) through a third output terminal (73) different from the first output terminal (71) and the second output terminal (72).

According to this configuration, the battery pack (1) used in the power tool (100) can output the third signal indicating the abnormality when in an abnormal state.

In the battery pack (1) according to the seventh aspect, in the sixth aspect, the information output section (6) outputs the battery pack information indicating the state of the battery pack (1) through the third output terminal (73). Output to the power tool (100).

According to this configuration, the information output section (6) outputs the third signal to the power tool (100) via the third output terminal (73) for outputting the third signal. There is an advantage that the output terminal (79) need not be provided separately from the plurality of communication terminals (70).

In the battery pack (1) according to the eighth aspect, in the seventh aspect, the power storage unit (2) includes the thermistor (22), and the battery pack information includes temperature information based on the thermistor (22).

According to this configuration, the battery pack (1) is equipped with a thermistor, so that temperature information can be obtained even when the battery pack (1) used in the power tool (100) uses an all-solid-state battery (35). be able to.

In the battery pack (1) according to the ninth aspect, in the seventh or eighth aspect, the battery pack information includes rated voltage information indicating the rated voltage of the power storage unit (2).

According to this configuration, when the electric power tool (100) or the charger is attached to the battery pack (1) and the electric power tool (100) or the charger tries to detect the rated voltage information of the battery pack, the determination unit ( If an abnormal state is determined in 5), it becomes possible to output the third signal from the fourth output terminal (74).

A battery pack (1) according to a tenth aspect, in any one of the fifth to ninth aspects, further comprises a notification unit (8) for notifying when the determination unit (5) determines that an abnormal state has occurred.

According to this configuration, the battery pack (1) can notify that the battery pack (1) is in an abnormal state.

An electric power tool (100) according to an eleventh aspect is, in any one of the first to tenth aspects, a battery pack (1), a main body (50) to which the battery pack (1) is detachably attached, Prepare.

According to this configuration, the power tool (100) can use not only the battery pack (1) using the lithium-ion battery, but also the battery pack (1) using the all-solid-state battery (35).

1 battery pack 2 power storage unit 4 processing unit 5 determination unit 6 information output unit 8 reporting unit 21 secondary battery 22 thermistor 31 positive electrode terminal 32 negative electrode terminal 35 all-solid battery 50 main unit 70 communication terminals 71 first output terminal 72 second 2 output terminals 73 signal output terminal 75 temperature detection terminal 100 power tool

Claims (11)

A battery pack used for an electric tool,
a power storage unit including a secondary battery;
a positive electrode terminal and a negative electrode terminal, which are power supply terminals for supplying power to the main body of the power tool;
The power storage unit includes, as the secondary battery, an all-solid-state battery having a solid electrolyte as a separator separating a positive electrode and a negative electrode,
The power storage unit includes a signal output terminal corresponding to a temperature detection terminal that outputs the temperature of the power storage unit.
battery pack. The temperature detection terminal is a terminal that receives from the lithium ion battery a signal related to the temperature detected by the lithium ion battery.
The battery pack according to claim 1. The signal output by the signal output terminal includes a dummy signal corresponding to the temperature detection terminal.
The battery pack according to claim 1. The dummy signal includes a constant voltage signal that is a constant voltage,
The battery pack according to claim 3. a plurality of communication terminals that output signals to the power tool;
detecting the voltage of each of the secondary batteries, and outputting a first signal to a first output of the plurality of communication terminals when the detected voltage of at least one of the secondary batteries is lower than a first threshold; output to the power tool through the terminal, and when the detected voltage of the secondary batteries excluding the at least one secondary battery is higher than a second threshold larger than the first threshold, the plurality of second signals a processing unit that outputs to the power tool through a second output terminal of the communication terminals of
a determination unit that determines an abnormal state when the processing unit transmits both the first signal and the second signal to the power tool;
The battery pack according to any one of claims 1-4. When the determination unit determines that the state is abnormal, a third signal indicating the abnormality is transmitted from the power tool through a third output terminal different from the first output terminal and the second output terminal among the plurality of communication terminals. Further comprising an information output unit that outputs to
The battery pack according to claim 5. The information output unit outputs battery pack information indicating a state of the battery pack to the power tool via the third output terminal.
The battery pack according to claim 6. The power storage unit includes a thermistor,
wherein the battery pack information includes temperature information based on the thermistor;
The battery pack according to claim 7. The battery pack information includes rated voltage information indicating the rated voltage of the power storage unit,
The battery pack according to claim 7 or 8. Further comprising a notification unit that notifies when an abnormal state is determined by the determination unit,
The battery pack according to any one of claims 5-9. An electric power tool comprising: the battery pack according to any one of claims 1 to 10; and a main body to which the battery pack is detachably attached.

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