JP2018129116A - Battery pack - Google Patents

Abstract

PROBLEM TO BE SOLVED: To protect batteries by blocking a current reliably in a case of abnormality, while producing inexpensively by reducing the number of protection elements for connection with batteries connected in series.SOLUTION: A battery pack includes a battery block 10 connecting multiple batteries 1 in series, switching elements 2 connected to the output side of the battery block 10, a protection current 4 for controlling the switching elements 2 by detecting the voltage of each battery 1 by an intermediate detection line 5 interconnecting respective batteries 1, and protection elements 3 connected in series with the battery 1, and blocking the current when the battery temperature goes above a set temperature. The switching elements 2 are connected to the first output side of the battery block 10, the number of the protection elements 3 is smaller than the number of series connections of the batteries 1, one of the protection elements 3 is connected with a second output side battery 1X connected to the second output side, and the protection element 3 is connected closer to the second output side than a connection point 7 of the second output side battery 1X and the intermediate detection line 5 connected between the battery 1 connected in series therewith and it.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a battery pack comprising a plurality of chargeable / dischargeable batteries and connecting these batteries in series, and in particular, a protection element that detects battery temperature and cuts off current is connected to the battery. It relates to a battery pack.

  In recent years, battery packs used in various electronic devices have been required to be high output and downsized. Such a battery pack includes a plurality of batteries and increases the output voltage by connecting these batteries in series. Furthermore, the battery pack can protect the battery by cutting off the current in a state where an overcurrent flows or when it is heated to an abnormal temperature by connecting a protection element that detects the battery temperature and cuts off the current to the battery. .

  FIG. 7 shows an example of a conventional battery pack that includes a plurality of batteries that can be charged and discharged, and that connects these batteries in series. In the battery pack shown in this figure, two batteries 91 are connected in series, and a protection element 93 is connected to each battery 91 in series. This battery pack protects each battery 91 with a protective element 93 connected to each battery 91 while increasing the output voltage by connecting two batteries 91 in series. In this battery pack, when an overcurrent flows in any of the batteries 91 or when any of the batteries 91 is heated to an abnormal temperature, the protection element 93 connected in series to the battery 91 cuts off the current and 91 can be reliably protected. In this battery pack, a detection line 95 for detecting an intermediate potential is connected to an intermediate connection point between two batteries 91 connected in series. This battery pack can protect the battery 91 by reliably preventing overcharge and overdischarge of the battery 91 by monitoring while the protection circuit 94 detects the voltage of each battery 91. (See Patent Document 1)

JP 2004-247198 A

  However, the above battery pack has a problem that the protective element is connected to each battery, so that the number of parts increases, the manufacturing cost increases, and it cannot be manufactured at a low cost. Further, this battery pack needs to secure a space for arranging a protection element connected to each battery, and may be restricted by the shape and size of the battery pack. The battery pack is desired to be reduced in size and cost, and from this point of view, it is required to reduce the number of protective elements incorporated in the battery pack.

  Here, in the conventional battery pack shown in FIG. 7, in order to reduce the number of protection elements 93, for example, a case where the protection element 93 connected to the right battery 91 is omitted is considered. In this case, in the state where the overcurrent flows through the two batteries 91 connected in series, the protection element 93 connected to the battery 91 on the left side operates to protect the battery 91 by cutting off the output current. it can. In addition, by thermally coupling the protection element 93 to the two batteries 91, even when any one of the batteries 91 is heated to an abnormal temperature, the protection element 93 is operated to cut off the output current, and the battery 91 can be protected. However, in a state where the protective element 93 connected to the right battery 91 is omitted, the conductive portion connected to the detection line 95 in the protective circuit 94 is short-circuited, and a short circuit including the right battery 91 is generated. The current flowing through the battery 91 cannot be cut off, and the battery 91 cannot be protected.

  The present invention has been developed for the purpose of solving the above drawbacks. An important object of the present invention is to reduce the number of protective elements connected to the battery while connecting a plurality of batteries in series, and to mass-produce it at low cost, and to reliably cut off the current when the battery is abnormal. The object is to provide a battery pack capable of protecting a battery.

Means for Solving the Problems and Effects of the Invention

  The battery pack of the present invention comprises a battery block 10 formed by connecting a plurality of chargeable / dischargeable batteries 1 in series, a switching element 2 connected in series on the output side of the battery block 10, and a battery block 10. A protection circuit 4 for detecting the voltage of each battery 1 from an intermediate potential detected by an intermediate detection line 5 connected between the batteries 1 and controlling the switching element 2 on and off, and a battery block 10. And a protective element 3 that is connected in series with the battery 1 and that cuts off the current when the temperature of the connected battery 1 becomes higher than a set temperature. The switching element 2 is connected to the first output side that is either the positive output side or the negative output side of the battery block 10. The number of protection elements 3 is less than the number of series-connected batteries 1, and one of the protection elements 3 is a second output side that is the output side opposite to the first output side formed by connecting the switching element 2. Is connected to the second output side battery 1X. The protective element 3 connected to the second output side battery 1X is connected to the intermediate detection line 5 connected between the second output side battery 1X and the battery 1 connected in series with the second output side battery 1X. Is also connected to the second output side.

  The battery pack of the present invention is capable of mass production at a low cost by reducing the number of protection elements while connecting a plurality of batteries in series, and can reliably protect the battery by interrupting the current when the battery is abnormal. There is. In the battery pack of the present invention, the switching element is connected to the first output side of the battery block, and the number of protection elements is less than the number of series connection of the batteries. A second output-side battery connected to the second output-side battery, and a protection element connected to the second output-side battery, a second output-side battery and a battery connected in series with the second output-side battery; This is because it is connected to the second output side rather than the connection point with the intermediate detection line connected between the two. In this battery pack, the current of the battery connected to the first output side is interrupted by the switching element at the time of an abnormality in which the conductive portion connected to the intermediate detection line is short-circuited in the protection circuit, or the second The current of the second output side battery connected to the output side is interrupted by the protection element connected to the second output side battery. For this reason, the feature which can cut off current reliably and can protect a battery at the time of abnormality of a battery, reducing the number of protection elements connected to a battery and reducing manufacturing cost is realizable.

  The battery pack of the present invention has an intermediate detection line in which a protective element 3 connected to the second output battery 1X is connected between the second output battery 1X and the battery 1 connected in series with the second output battery 1X. 5 and the second output side battery 1X can be connected.

  According to the above configuration, the coupling between the second output side battery and the battery connected in series with the second output side battery is facilitated, and these batteries can be easily thermally coupled to the protection element and connected to the second output side battery. With this protective element, both the second output side battery and the battery connected in series can be ideally protected.

  In the battery pack of the present invention, the battery block 10 connects two batteries 1 in series, and the second output side from the connection point 7 with the intermediate detection line 5 connected between the two batteries 1. A single protection element 3 can be connected to each other.

  According to the said structure, a battery can be reliably protected using one protection element, connecting two batteries in series. This is because the current on the first output side is interrupted by the switching element or the current on the second output side is interrupted by the protection element connected to the second output side battery at the time of abnormality.

  In the battery pack of the present invention, the battery block 10 can connect three or more batteries 1 in series, and can include two or more protective elements 3. One of the protection elements 3 is connected to the second output side battery 1X as the main protection element 3X, and the rest of the protection elements 3 is connected to the second output side battery 1X as the sub protection element 3Y in series with the battery 1. It can be connected to the first output side.

  According to the above configuration, the current on the first output side is interrupted by the switching element or the current on the second output side is output to the second output in an abnormal state while three or more batteries are connected in series. The battery connected to the first output side rather than the battery connected in series to the second output side battery is blocked by the main protection element connected to the side battery by the sub protection element connected thereto. Shut off to protect the battery.

  In the battery pack of the present invention, the first output side can be the negative side of the battery block 10. According to the above configuration, since the first output side is the negative side of the battery block, there is a feature that the control of the switching element arranged on the first output side can be simplified.

  In the battery pack of the present invention, the protective element 3 can be disposed in a thermally coupled state to the battery 1 as any one of a breaker, a PTC, and a fuse.

  In the battery pack of the present invention, the protection element 3 can be disposed in a thermally coupled state to the plurality of batteries 1. According to the above configuration, since the protection elements are arranged in a thermally coupled state to the plurality of batteries, temperature abnormalities of the plurality of batteries can be detected and protected by the protection elements thermally coupled to these batteries. This structure can protect the battery by reliably detecting an abnormal temperature of the battery while reducing the number of protection elements.

  In the battery pack of the present invention, the switching element 2 can be composed of a charge switch 12 made of an FET for controlling the charge current of the battery 1 and a discharge switch 11 made of an FET for controlling the discharge current of the battery 1.

It is a circuit diagram of the battery pack concerning one Example of this invention. It is a figure which shows an example of the short circuit state of the protection circuit of the battery pack shown in FIG. It is a figure which shows another example of the short circuit state of the protection circuit of the battery pack shown in FIG. It is a circuit diagram of the battery pack concerning the other Example of this invention. It is a circuit diagram of the battery pack concerning the other Example of this invention. It is a circuit diagram of the battery pack concerning the other Example of this invention. It is a block diagram of the conventional battery pack.

  Embodiments of the present invention will be described below with reference to the drawings. However, the example shown below illustrates the battery pack for embodying the technical idea of the present invention, and the present invention does not specify the battery pack as follows. Further, this specification does not limit the members shown in the claims to the members of the embodiments.

  The battery pack shown in FIG. 1 includes a battery block 10 formed by connecting a plurality of chargeable / dischargeable batteries 1 in series, a switching element 2 connected in series on the output side of the battery block 10, and a battery block 10. A protection circuit 4 that detects the voltage of each battery 1 from an intermediate potential detected by an intermediate detection line 5 connected between each battery 1 and controls the switching element 2 on and off, and a battery block 10 are configured. And a protection element 3 that is connected in series with the battery 1 and that cuts off the current when the temperature of the connected battery 1 is higher than a set temperature.

(Battery 1)
The battery 1 is a secondary battery that can be charged and discharged. The battery pack uses a lithium ion secondary battery as the battery 1. Lithium ion secondary batteries have a large charge / discharge capacity with respect to capacity and weight, can reduce the outer shape of the battery pack, and can be lightened to increase the charge / discharge capacity. However, the battery pack of the present invention can use all other secondary batteries that can be charged and discharged in place of the lithium ion secondary battery.

(Battery block 10)
The battery pack includes a plurality of batteries 1, and these batteries 1 are connected in series to form a battery block 10. The battery pack shown in FIG. 1 has two batteries 1 connected in series. However, according to the present invention, the number of batteries connected in series with each other is not limited to two, and may be three or more. A battery pack formed by connecting three or more batteries in series will be described later in detail.

(Switching element 2)
The switching element 2 is connected to the first output side that is either the positive output side or the negative output side of the battery block 10. The battery pack shown in FIG. 1 uses the negative output side of the battery block 10 as the first output side. However, in the battery pack, as will be described in detail later, the positive output side of the battery block 10 may be the first output side.

  In the battery pack of FIG. 1, the switching element 2 is a charge / discharge switch that controls charge / discharge of the battery 1. The switching element 2 that is a charge / discharge switch has a discharge switch 11 and a charge switch 12 connected in series. The discharge switch 11 and the charge switch 12 are semiconductor switching elements such as FETs. In the battery pack, the discharge switch 11 is switched to an off state when the discharge of the battery 1 is stopped, and the charge switch 12 is switched to an off state when charging is stopped. In a state where the battery 1 is charged / discharged, the discharge switch 11 and the charge switch 12 are held in the on state. The discharge switch 11 and the charge switch 12 are controlled to be turned on / off by the protection circuit 4.

(Protection circuit 4)
The protection circuit 4 detects a charging / discharging stop state in which charging / discharging of the battery 1 is stopped, switches the switching element 2 to an off state, and interrupts the charging / discharging current flowing through the battery 1. The protection circuit 4 detects the voltage of each battery 1 connected in series and determines the charge / discharge stop state of the battery 1. Although not shown, the protection circuit 4 includes a voltage detection circuit that detects the voltage of each battery 1. The battery pack of FIG. 1 detects the voltage of each battery 1, the intermediate detection line 5 connected between the batteries 1 connected in series, and the output detection connected to the positive and negative output sides of the battery block 10. Line 6. The intermediate detection line 5 and the output detection line 6 are connected to the protection circuit 4, and the detected potential is input to the protection circuit 4. The voltage detection circuit detects the voltage of each battery 1 from the intermediate potential detected by the intermediate detection line 5 and the both-end potential detected by the output detection line 6.

  Since the battery pack shown in FIG. 1 has two batteries 1 connected in series, one intermediate detection line 5 is connected between the two batteries 1. Furthermore, the battery pack shown in FIG. 1 has three output detection lines 6 connected to the positive and negative output sides of the battery block 10. The battery pack of FIG. 1 includes a first output detection line 6A that detects a potential on the positive output side of the battery block 10, a second output detection line 6B that detects a potential on the negative output side of the battery block 10, and the battery block 10. And a third output detection line 6C for detecting the potential on the output side of the switching element 2 arranged on the first output side. Here, the first output detection line 6A and the second output detection line 6B are used to detect the output voltage of the battery block 10 and the voltage of each battery 1 connected in series. The third output detection line 6C is used for checking the output voltage of the battery pack and the operating state of the switching element 2.

  The protection circuit 4 determines the charge / discharge stop state of the battery 1 from the voltage of each battery 1 detected by the voltage detection circuit. When the voltage of any one of the batteries 1 exceeds a preset threshold, the protection circuit 4 determines that the charging / discharging is stopped and switches the switching element 2 to the off state. When the voltage of the discharged battery 1 becomes lower than the minimum threshold, the protection circuit 4 switches the discharge switch 11 to an off state to stop the discharge and prevent the battery 1 from being overdischarged. Further, when the voltage of the battery 1 being charged becomes higher than the maximum threshold value, the charging switch 12 is switched to an off state to stop the charging and prevent the battery 1 from being overcharged.

  Further, the protection circuit can also determine the battery charge / discharge stop state by detecting the battery temperature, for example, the temperature of the battery that reaches the highest temperature. Although not shown, the battery pack having a protection circuit that detects the battery temperature and determines the charge / discharge stop state of the battery has a temperature sensor disposed in the battery block in a thermally coupled state, and the protection circuit detects the signal from the temperature sensor. The battery temperature is detected, and the charge / discharge stop state of the battery is determined. When the battery temperature becomes higher than the maximum threshold value or lower than the minimum threshold value, the protection circuit determines that the charge / discharge state is stopped and switches the switching element to the off state to protect the battery.

(Protective element 3)
The protection element 3 is an element that cuts off the current when an overcurrent flows through the battery 1 or cuts off the current when the battery 1 is heated to an abnormal temperature. As such a protective element, a breaker, a PTC, a fuse or the like can be used. The protective element 3 in the figure is a breaker. The protection element 3 that is a breaker is connected in series to the battery 1 and protects the battery 1 by interrupting current in a state where the temperature of the battery 1 is abnormally high. Although not shown in the drawings, the breaker may have a plate-like structure including lead plates protruding from both ends of the rectangular main body. This breaker can be connected to the positive and negative electrodes of the battery 1 via a connection lead plate connected to a pair of lead plates.

  The protection element 3 is disposed in a thermally coupled state to the battery 1. The protection element 3 quickly detects the temperature of the thermally coupled battery 1 and cuts off the current flowing through the battery 1 when the battery temperature is abnormally high. Furthermore, the protection element 3 is preferably thermally coupled to the plurality of batteries 1. For example, the protection elements 3 connected in the middle of the batteries 1 connected in series with each other can be thermally coupled by coupling these batteries 1. The protective element 3 can be connected to the plurality of batteries 1 in a thermally coupled state via, for example, a heat conductive resin. Moreover, the protection element 3 connected in the middle of the battery 1 can also be thermally coupled by being connected through a metal connecting member such as a lead plate that connects the battery 1 in series.

  In the battery pack of the present invention, in order to reduce the number of protection elements 3 connected to the battery 1, the number of protection elements 3 is made smaller than the number of series connection of the batteries 1. The battery pack shown in FIG. 1 includes one protective element 3 because two batteries 1 are connected in series. Furthermore, in the battery pack of the present invention, the connection position of the protection element 3 is made a unique position in order to reliably protect the battery 1 at the time of abnormality while reducing the number of the protection elements 3. In the battery pack of the present invention, the protection element 3 is connected to the second output side battery 1X connected to the second output side which is the output side opposite to the first output side to which the switching element 2 is connected. Connected. In the battery pack shown in FIG. 1, since the negative output side of the battery block 10 is the first output side, the positive output side of the battery block 10 is the second output side, and the battery 1 connected to the most positive output side. Is the second output battery 1X. Further, the protection element 3 connected to the second output side battery 1X has a connection point 7 between an intermediate detection line 5 connected between the second output side battery 1X and the battery 1 connected in series thereto. It is connected to the second output side which is the plus output side. The protection element 3 connected to this position is connected to the battery block 10 more than the connection point 7 of the detection line 5 in a state where an overcurrent flows through the battery 1 or in a state where the temperature of the thermally coupled battery 1 is abnormally high. The battery 1 can be protected by interrupting the current flowing to the second output side.

  The battery pack shown in FIG. 1 includes a connection point 7 between the second output-side battery 1X and the intermediate detection line 5 connected between the second output-side battery 1X and the battery 1 connected in series to the second output-side battery 1X. A protective element 3 is connected between them. The protection element 3 connected to this position is connected in a thermally coupled state to the second output-side battery 1X and the battery 1 connected in series thereto. This structure is characterized in that the protective element 3 connected between the batteries 1 connected in series with each other can be arranged ideally in a thermally coupled state with respect to both the batteries 1.

  However, the battery pack can also be connected to the second output side of the second output side battery 1X as shown by the chain line in FIG. The protective element 3 connected to this position is preferably arranged in a thermally coupled state to the second output side battery 1X, or is thermally coupled to the second output side battery 1X and the battery 1 connected in series thereto. It can also be arranged in a state.

  FIGS. 2 and 3 show a state in which the battery pack described above protects the battery by cutting off the current when there is an abnormality. 2 and 3 show a state in which the conductive portions of the intermediate detection line 5 and the output detection line 6 are short-circuited inside the protection circuit 4, respectively.

  FIG. 2 shows a state in which an abnormality has occurred in which the terminal a to which the first output detection line 6 </ b> A is connected and the terminal d to which the intermediate detection line 5 is connected are short-circuited inside the protection circuit 4. In this state, on the second output side of the battery block 10, as shown by the thick line A in the figure, the second output side battery 1X, the first output detection line 6A, the short circuit portion 14 in the protection circuit 4, and the intermediate detection The line 5 forms a loop-like short circuit. At this time, the protection element 3 connected to the second output side of the connection part 7 of the intermediate detection line 5 operates to cut off the current, so that the battery 1 is protected. Further, on the first output side of the battery block 10, as shown by the thick line B in the figure, the battery 1 on the first output side, the intermediate detection line 5, the short circuit portion 14 in the protection circuit 4, and the first output detection. The line 6A forms a circuit for conducting the positive and negative output terminals 8. At this time, the switching element 2 connected to the first output side of the battery block 10 is switched off to cut off the current. Battery 1 is protected

  FIG. 3 shows a state in which an abnormality has occurred in which the terminal c to which the third output detection line 6C is connected and the terminal d to which the intermediate detection line 5 is connected are short-circuited inside the protection circuit 4. In this state, on the second output side of the battery block 10, as shown by the thick line C in the figure, the third output detection line 6C, the short circuit portion 15 in the protection circuit 4, the intermediate detection line 5, and the second output side The battery 1X forms a circuit that makes the positive and negative output terminals 8 conductive. At this time, the protection element 3 connected to the second output side rather than the connection portion 7 of the intermediate detection line 5 operates to generate a current. Since it cuts off, the battery 1 is protected. Further, on the first output side of the battery block 10, as shown by the thick line D in the figure, the battery 1 on the first output side, the intermediate detection line 5, the short-circuit portion 15 in the protection circuit 4, and the third output detection A loop-like short circuit is formed by the line 6C. At this time, the switching element 2 connected to the first output side of the battery block 10 is switched off to interrupt the current, and the battery 1 Protected

  The battery pack described above has the negative output side of the battery block 10 as the first output side, and the negative output side of the battery block 10 includes a charge switch 12 made of an FET that controls the charging current of the battery 1 as the switching element 2. A discharge switch 11 comprising an FET for controlling the discharge current of the battery 1 is connected. This structure has a feature that a gate voltage can be applied while simplifying the circuit configuration because an n-type FET can be used as the FET constituting the switching element 2.

  Further, as shown in FIG. 4, the battery pack can have the positive output side of the battery block 10 as the first output side. In this battery pack, the negative output side of the battery block 10 is the second output side, the battery 1 connected to the most negative output side is the second output side battery 1X, and the protection element 3 is connected to the second output side battery 1X. Is connected. Further, the protection element 3 connected to the second output side battery 1X has a connection point 7 between an intermediate detection line 5 connected between the second output side battery 1X and the battery 1 connected in series thereto. It is connected to the second output side, which is the minus output side.

  The battery pack shown in FIG. 4 includes a connection point 7 between the second output battery 1X and the intermediate detection line 5 connected between the battery 1 connected in series with the second output battery 1X and the second output battery 1X. A protective element 3 is connected between them. The protection element 3 connected to this position is connected in a thermally coupled state to the second output-side battery 1X and the battery 1 connected in series thereto. However, this battery pack can also be connected to the second output side of the second output side battery 1X as shown by the chain line in the figure. The protective element 3 connected to this position is preferably arranged in a thermally coupled state to the second output side battery 1X, or is thermally coupled to the second output side battery 1X and the battery 1 connected in series thereto. It can also be arranged in a state.

  In this battery pack, on the positive output side of the battery block 10, a charge switch 12 made of an FET for controlling the charge current of the battery 1 as a switching element 2 and a discharge switch 11 made of an FET for controlling the discharge current of the battery 1 are provided. Connected. In the illustrated battery pack, a p-type FET is used as the FET constituting the switching element 2.

  Although not shown, the above battery pack also protects the battery 1 by interrupting the current in the protection circuit 4 in the event of an abnormality in which the conductive portions of the intermediate detection line 5 and the output detection line 6 are short-circuited. In this battery pack, as indicated by a one-dot chain line in FIG. 4, there is an abnormality in which the terminal c to which the third output detection line 6 </ b> C is connected and the terminal d to which the intermediate detection line 5 is connected are short-circuited inside the protection circuit 4. When it occurs, on the first output side which is the positive output side of the battery block 10, the battery 1 on the first output side, the third output detection line 6 </ b> C, the short-circuit portion 16 in the protection circuit 4, and the intermediate detection line 5. A loop-like short circuit is formed. At this time, the switching element 2 connected to the first output side of the battery block 10 is switched off, whereby the current is interrupted and the battery 1 is protected. Further, on the second output side which is the negative output side of the battery block 10, the second output side battery 1X, the intermediate detection line 5, the short-circuit portion 16 in the protection circuit 4, and the first output detection line 6A make positive and negative. A circuit for conducting the output terminal 8 is formed. At this time, since the protection element 3 connected to the second output side from the connection portion 7 of the intermediate detection line 5 operates to cut off the current, the battery 1 Protected.

  Furthermore, in this battery pack, as shown by a two-dot chain line in FIG. 4, the terminal b to which the second output detection line 6 </ b> B is connected and the terminal d to which the intermediate detection line 5 is connected are short-circuited inside the protection circuit 4. When the abnormality occurs, the second output detection line 6B, the short-circuit portion 16 in the protection circuit 4, the intermediate detection line 5, and the first output side of the battery block 10 on the first output side which is the positive output side The battery 1 forms a circuit that makes the positive and negative output terminals 8 conductive. At this time, the switching element 2 connected to the first output side of the battery block 10 is switched off to interrupt the current. The battery 1 is protected. Further, on the second output side which is the negative output side of the battery block 10, the second output side battery 1X, the intermediate detection line 5, the short-circuit portion 16 in the protection circuit 4, and the second output detection line 6B are positive and negative. A circuit for conducting the output terminal 8 is formed. At this time, since the protection element 3 connected to the second output side from the connection portion 7 of the intermediate detection line 5 operates to cut off the current, the battery 1 Protected.

  Further, as shown in FIGS. 5 and 6, the battery pack can include three or more batteries 1 connected in series and two or more protection elements 3. The battery pack shown in FIG. 5 has three batteries 1 connected in series, and the battery pack of FIG. 6 has four batteries 1 connected in series. Further, the battery pack of FIG. 5 and FIG. 6 includes two protection elements 3, and the number of protection elements 3 is smaller than the number of batteries 1 connected in series.

  In these battery packs, the switching element 2 is connected to the first output side, which is the negative output side of the battery block 10, and the positive output side of the battery block 10 is used as the second output side. In these battery packs, on the second output side, the battery 1 connected to the most positive output side is the second output side battery 1X, and one of the protection elements 3 is used as the main protection element 3X on the second output side battery 1X. The remaining protective elements 3 are connected to the first output side as the sub protective element 3Y rather than the battery 1 connected in series to the second output side battery 1X.

  The battery pack shown in FIG. 5 has a main protection element 3X connected between the second output side battery 1X and the intermediate battery 1 among the three batteries 1 connected in series. The sub-protective element 3Y is connected to the battery 1 connected to the output side. In this battery pack, the main protection element 3X is thermally coupled to the second output side battery 1X and the intermediate battery 1, and the sub protection element 3Y is thermally coupled to the intermediate battery 1 and the first output side battery 1. I am letting. In this structure, when any one of the three batteries 1 is heated higher than the set temperature, at least one of the main protection element 3X and the sub protection element 3Y operates to cut off the current. The battery 1 is protected.

  Here, the battery pack shown in FIG. 5 connects the main protection element 3X connected to the second output side battery 1X between the connection point 7 to which the intermediate detection line 5 is connected. The element 3X can also be connected to the output side of the second output side battery 1X as indicated by the chain line in the figure. The main protection element 3X can be thermally coupled only to the second output side battery 1X. Further, in the battery pack shown in FIG. 5, the sub protection element 3Y thermally coupled to the two batteries 1 on the first output side is connected to the first output side of the intermediate battery 1, and the intermediate detection line 5. Connected to the connection point 7 to which the sub-protection element 3Y is connected to the connection point 7 side of the battery 1 on the first output side, as shown by the chain line in the figure. It can also be connected to the output side of the battery 1 on the first output side. When the main protection element 3X is thermally coupled to all the batteries 1, the sub protection element 3Y is not always necessary.

  The battery pack having this structure also protects the battery 1 by interrupting the current in the protection circuit 4 when an abnormality occurs in which the conductive portions of the intermediate detection line 5 and the output detection line 6 are short-circuited. This battery pack has one of a terminal a connected to the first output detection line 6A and a terminal c connected to the third output detection line 6C, and a terminal d or a terminal e connected to the intermediate detection line 5. When an abnormality occurs in which either one of them is short-circuited inside the protection circuit 4, at least the main protection element 3X connected to the second output side battery 1X cuts off the current flowing to the second output side of the battery block 10, In addition, the switching element 2 connected to the first output side of the battery block 10 is switched off to cut off the current flowing to the second output side of the battery block 10 to protect the battery 1.

  Further, the battery pack shown in FIG. 6 has a main protection element 3X connected between two batteries 1 connected to the second output side among four batteries 1 connected in series, and the first The sub protection element 3Y is connected between the two batteries 1 connected to the output side. In this battery pack, the main protection element 3X is thermally coupled to the two batteries 1 on the second output side, and the sub protection element 3Y is thermally coupled to the two batteries 1 on the first output side. In this structure, when any one of the four batteries 1 is heated higher than the set temperature, the protection element 3 of the main protection element 3X or the sub protection element 3Y operates to cut off the current. The battery 1 is protected. The battery pack having this structure is provided with two protection elements 3 for four batteries 1, thereby most efficiently detecting that any one of the batteries 1 rises to an abnormal temperature, The battery 1 can be protected by blocking.

  The battery pack shown in FIG. 6 includes one sub protection element 3Y on the first output side of the battery 1 connected in series to the second output side battery 1X. However, although not shown, the battery pack can also include two sub protection elements. In this battery pack, the sub protection element can be connected between the batteries connected in series with each other, or one of the sub protection elements can be connected to the output side of the battery arranged on the first output side. . When the main protection element 3X is thermally coupled to all the batteries 1, the sub protection element 3Y is not always necessary.

  The battery pack having this structure also protects the battery 1 by interrupting the current in the protection circuit 4 when an abnormality occurs in which the conductive portions of the intermediate detection line 5 and the output detection line 6 are short-circuited. This battery pack includes a terminal a to which the first output detection line 6A is connected, a terminal c to which the third output detection line 6C is connected, and a terminal d to a terminal f to which the intermediate detection line 5 is connected. When an abnormality occurs in which either one of them is short-circuited inside the protection circuit 4, at least the main protection element 3X connected to the second output side battery 1X cuts off the current flowing to the second output side of the battery block 10, and The switching element 2 connected to the first output side of the battery block 10 is switched off to cut off the current flowing to the second output side of the battery block 10 to protect the battery 1.

  The present invention is a battery pack in which a plurality of chargeable / dischargeable batteries are connected in series, and a protection element that detects battery temperature and cuts off current is connected to the battery. It is suitably used for required battery packs, for example, battery packs for AV equipment.

DESCRIPTION OF SYMBOLS 1 ... Battery 1X ... 2nd output side battery 2 ... Switching element 3 ... Protection element 3X ... Main protection element 3Y ... Sub protection element 4 ... Protection circuit 5 ... Intermediate detection line 6 ... Output detection line 6A ... 1st output detection line 6B 2nd output detection line 6C ... 3rd output detection line 7 ... Connection point 8 ... Output terminal 10 ... Battery block 11 ... Discharge switch 12 ... Charge switch 14 ... Short-circuit part 15 ... Short-circuit part 16 ... Short-circuit part 17 ... Short-circuit part

Claims (8)

A battery block formed by connecting a plurality of chargeable / dischargeable batteries in series;
A switching element connected in series to the output side of the battery block;
A protection circuit for detecting the voltage of each battery from an intermediate potential detected by an intermediate detection line connected between the batteries constituting the battery block and controlling the switching element on and off;
A battery pack comprising a protection element that is connected in series with the battery that constitutes the battery block, and that interrupts current when the temperature of the connected battery is higher than a set temperature,
The switching element is connected to the first output side which is either the positive output side or the negative output side of the battery block,
The number of the protective elements is less than the number of series connection of the batteries,
One of the protection elements is connected to a second output side battery connected to a second output side which is an output side opposite to the first output side formed by connecting the switching element,
The protection element connected to the second output side battery is more than a connection point between the second output side battery and the intermediate detection line connected between the battery connected in series with the second output side battery. A battery pack connected to the second output side. The battery pack according to claim 1,
The connection point of the protection element formed by connecting to the second output side battery and the intermediate detection line connected between the second output side battery and the battery connected in series with the second output side battery; A battery pack connected to the second output side battery. The battery pack according to claim 1 or 2,
The battery block connects two batteries in series,
A battery pack in which one protection element is connected to a second output side of the connection point with the intermediate detection line connected between the two batteries. The battery pack according to claim 1 or 2,
The battery block connects three or more batteries in series, and includes two or more protection elements,
One of the protection elements is connected to the second output side battery as a main protection element,
The battery pack is characterized in that the rest of the protection elements are connected to the first output side rather than the battery connected in series to the second output side battery as a sub protection element. The battery pack according to any one of claims 1 to 4,
The battery pack, wherein the first output side is a negative side of the battery block. The battery pack according to any one of claims 1 to 5,
The battery pack, wherein the protection element is any one of a PTC, a breaker, and a fuse, and is disposed in a thermally coupled state with the battery. The battery pack according to any one of claims 1 to 6,
A battery pack in which the protection element is arranged in a thermally coupled state to the plurality of batteries. The battery pack according to any one of claims 1 to 7,
A battery pack in which the switching element includes a charge switch made of an FET for controlling the charge current of the battery and a discharge switch made of an FET for controlling the discharge current of the battery.

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