阅读说明：本技术 串联式电池激活方法及使用其的电池激活电路 (Tandem type battery activation method and battery activation circuit using same ) 是由 杨波 范晓华 吴勇 陈海峰 于 2021-01-05 设计创作，主要内容包括：本发明提供了一种串联式电池激活方法及使用其的电池激活电路,该激活方法包括：将多个单元电池依次串联连接,任一单元电池均包括两个电点火头；将多个单元电池分为一级单元电池组和二级单元电池组；将一级单元电池组中任一单元电池的电点火头并联连接,将并联连接后的一级单元电池组中任一单元电池的电点火头与电池组激活接口连接,将二级单元电池组中任一单元电池的电点火头并联连接,并与一级单元电池组的电池组输出接口连接；通过电池组激活接口激活一级单元电池组,利用激活后的一级单元电池组激活二级单元电池组。应用本发明的技术方案,以解决现有技术中并联式激活导致激活电流过大导致电池激活可靠性及安全性差的技术问题。(The invention provides a serial battery activation method and a battery activation circuit using the same, wherein the activation method comprises the following steps: connecting a plurality of unit batteries in series in sequence, wherein each unit battery comprises two electric ignition heads; dividing a plurality of unit cells into a primary unit cell group and a secondary unit cell group; connecting the electric ignition heads of any unit battery in the primary unit battery pack in parallel, connecting the electric ignition head of any unit battery in the primary unit battery pack after the parallel connection with the battery pack activation interface, connecting the electric ignition head of any unit battery in the secondary unit battery pack in parallel, and connecting the electric ignition head with the battery pack output interface of the primary unit battery pack; and activating the primary unit battery pack through the battery pack activation interface, and activating the secondary unit battery pack by using the activated primary unit battery pack. By applying the technical scheme of the invention, the technical problems of poor battery activation reliability and poor safety caused by overlarge activation current due to parallel activation in the prior art are solved.)

1. A tandem battery activation method, comprising:

connecting a plurality of unit cells in series in sequence, wherein each unit cell comprises two electric ignition heads;

dividing the plurality of unit cells into a primary unit cell group including at least one of the unit cells and a secondary unit cell group including at least one of the unit cells;

connecting the electric ignition heads of any unit battery in the primary unit battery pack in parallel, connecting the electric ignition head of any unit battery in the primary unit battery pack after the parallel connection with a battery pack activation interface, connecting the electric ignition head of any unit battery in the secondary unit battery pack in parallel, and connecting the electric ignition head of any unit battery in the secondary unit battery pack after the parallel connection with a battery pack output interface of the primary unit battery pack;

and activating the primary unit battery pack through the battery pack activation interface, and activating the secondary unit battery pack by using the activated primary unit battery pack.

2. The series battery activation method as claimed in claim 1, wherein any one of the unit cells further includes two current limiting resistors, one of the current limiting resistors is connected in series with one of the electric firing heads, the other current limiting resistor is connected in series with the other electric firing head, and the one of the current limiting resistors and the one of the electric firing heads after the series connection are connected in parallel with the other current limiting resistor and the other electric firing head after the series connection.

3. The series cell activation method according to claim 1, wherein each of the unit cells further includes a current limiting resistor, and the two electric ignition plugs are connected in parallel and then connected in series with the current limiting resistor.

4. A method for activating a series connected battery as claimed in any one of claims 1 to 3, wherein said current limiting resistor R is adapted to meet the requirementsWherein, U_maxTo activate the maximum value of the voltage, U_minFor minimum value of activation voltage, R_{Sending max}Is the maximum value of the resistance, R, of the electric igniter_{Hair-growing min}Is the minimum value of the resistance of the electric ignition head, I_maxTo activate the maximum value of the current, I_minTo activate a minimum value of current, R_ThreadIs the wire resistance of the circuit.

5. The series cell activation method of claim 1, wherein the electrical ignition tip is a semi-insensitive electrical ignition tip.

6. The tandem cell activation method according to any one of claims 1 to 5, the primary unit cell group including a first unit cell (10), the secondary unit cell group including a second unit cell (20), a third unit cell (30), and a fourth unit cell (40), the first unit cell (10), the second unit cell (20), the third unit cell (30), and the fourth unit cell (40) are sequentially connected in series, the first unit cell (10) includes a first electric firing head (11), a second electric firing head (12), a first current limiting resistor (13), and a second current limiting resistor (14), the first electric ignition head (11) and the first current limiting resistor (13) are connected in series to form a first branch circuit, the second electric ignition head (12) and the second current limiting resistor (14) form a second branch circuit; the second unit battery (20) comprises a third electric ignition head (21), a fourth electric ignition head (22), a third current limiting resistor (23) and a fourth current limiting resistor (24), the third electric ignition head (21) and the third current limiting resistor (23) are connected in series to form a third branch circuit, and the fourth electric ignition head (22) and the fourth current limiting resistor (24) form a fourth branch circuit; the third unit battery (30) comprises a fifth electric ignition head (31), a sixth electric ignition head (32), a fifth current limiting resistor (33) and a sixth current limiting resistor (34), the fifth electric ignition head (31) and the fifth current limiting resistor (33) are connected in series to form a fifth branch circuit, and the sixth electric ignition head (32) and the sixth current limiting resistor (34) form a sixth branch circuit; the fourth unit cell (40) comprises a seventh electric firing head (41), an eighth electric firing head (42), a seventh current limiting resistor (43) and an eighth current limiting resistor (44), the seventh electric firing head (41) and the seventh current limiting resistor (43) are connected in series to form a seventh branch, and the eighth electric firing head (42) and the eighth current limiting resistor (44) form an eighth branch; the first branch circuit and the second branch circuit are connected in parallel and then connected with the battery pack activation interface, and the third branch circuit, the fourth branch circuit, the fifth branch circuit, the sixth branch circuit, the seventh branch circuit and the eighth branch circuit are sequentially connected in parallel and then connected with the battery output interface of the first unit battery (10).

7. The tandem cell activation method according to any one of claims 1 to 5, the primary unit battery pack includes a first unit cell (10) and a second unit cell (20), the secondary unit battery pack includes a third unit battery (30) and a fourth unit battery (40), the first unit cell (10), the second unit cell (20), the third unit cell (30), and the fourth unit cell (40) are sequentially connected in series, the first unit cell (10) includes a first electric firing head (11), a second electric firing head (12), a first current limiting resistor (13), and a second current limiting resistor (14), the first electric ignition head (11) and the first current limiting resistor (13) are connected in series to form a first branch circuit, the second electric ignition head (12) and the second current limiting resistor (14) form a second branch circuit; the second unit battery (20) comprises a third electric ignition head (21), a fourth electric ignition head (22), a third current limiting resistor (23) and a fourth current limiting resistor (24), the third electric ignition head (21) and the third current limiting resistor (23) are connected in series to form a third branch circuit, and the fourth electric ignition head (22) and the fourth current limiting resistor (24) form a fourth branch circuit; the third unit battery (30) comprises a fifth electric ignition head (31), a sixth electric ignition head (32), a fifth current limiting resistor (33) and a sixth current limiting resistor (34), the fifth electric ignition head (31) and the fifth current limiting resistor (33) are connected in series to form a fifth branch circuit, and the sixth electric ignition head (32) and the sixth current limiting resistor (34) form a sixth branch circuit; the fourth unit cell (40) comprises a seventh electric firing head (41), an eighth electric firing head (42), a seventh current limiting resistor (43) and an eighth current limiting resistor (44), the seventh electric firing head (41) and the seventh current limiting resistor (43) are connected in series to form a seventh branch, and the eighth electric firing head (42) and the eighth current limiting resistor (44) form an eighth branch; the first branch circuit, the second branch circuit, the third branch circuit and the fourth branch circuit are sequentially connected in parallel and then connected with the battery pack activation interface, and the fifth branch circuit, the sixth branch circuit, the seventh branch circuit and the eighth branch circuit are sequentially connected in parallel and then connected with the battery output interface of the primary unit battery pack.

8. A serial battery activation circuit, characterized in that it uses the serial battery activation method according to any of claims 1 to 7 for battery activation.

9. The series battery activation circuit of claim 8, wherein the series battery activation circuit comprises a primary cell battery, a secondary cell battery, and a battery activation interface, the primary unit battery pack comprises at least one unit battery, the secondary unit battery pack comprises at least one unit battery, a plurality of unit batteries are sequentially connected in series, electric ignition heads of any unit battery in the primary unit battery pack are connected in parallel, the electric ignition head of any unit battery in the primary unit battery pack after being connected in parallel is connected with the battery pack activation interface, the electric ignition head of any unit battery in the secondary unit battery pack is connected in parallel, the electric ignition head of any unit battery in the secondary unit battery pack after the parallel connection is connected with the battery pack output interface of the primary unit battery pack.

Technical Field

The invention relates to the technical field of serial connection type activation circuits of high-voltage thermal batteries, in particular to a serial connection type battery activation method and a battery activation circuit using the same.

Background

With the increasing power of the missile-borne equipment, the missile-borne battery is used as a main power supply for the missile to work, and the selection of the high-voltage thermal battery becomes a necessary choice. The high-voltage thermal battery can provide higher power and lower current. The thermal battery is a thermally activated reserve battery, which is a disposable reserve battery activated by using molten salt as electrolyte and melting the molten salt by using a heat source. The high-voltage thermal battery is mainly realized by the series-parallel combination of unit cells. The output voltage of the battery pack is increased by increasing the number of series connections, and the output current and power of the battery are increased by increasing the number of parallel connections. High-power high-voltage thermal batteries generally consist of 4 or more unit cells. Each unit cell is composed of a cell cover assembly, a cell can assembly, a stack, an activation mechanism, a ignition assembly, and the like. Each unit cell has a corresponding activation circuit and components, all of which need to be reliably activated at the same time. When the missile gives an activation signal, each unit battery is activated and establishes voltage, and a normal no-load voltage is established through the series-parallel combination, so that the battery pack completes the activation process.

In order to improve the activation reliability of a thermal battery which is activated and used at one time, a double-path insensitive firing head activation and redundancy backup design is generally adopted in a traditional small-sized single thermal battery activation circuit. As long as one of the two paths is successfully ignited, the thermal battery activation is completed. The existing high-power thermal battery has more unit batteries, and each unit battery is internally provided with a double-path activation firing head for ensuring the redundant activation of the unit batteries. If the high voltage thermal battery is composed of 4 unit cells, the battery is designed conventionally, and the activation current exceeds 40A. At present, the activation current of some emission platforms does not exceed 10A, and the traditional activation mode of a high-voltage battery pack cannot be met under the existing conditions.

Disclosure of Invention

The invention provides a serial battery activation method and a battery activation circuit using the same, which can solve the technical problems of poor battery activation reliability and safety caused by overlarge activation current due to parallel activation in the prior art.

According to an aspect of the present invention, there is provided a serial battery activation method, including: connecting a plurality of unit batteries in series in sequence, wherein each unit battery comprises two electric ignition heads; dividing a plurality of unit batteries into a primary unit battery pack and a secondary unit battery pack, wherein the primary unit battery pack comprises at least one unit battery, and the secondary unit battery pack comprises at least one unit battery; connecting the electric ignition heads of any unit battery in the primary unit battery pack in parallel, connecting the electric ignition head of any unit battery in the primary unit battery pack after the parallel connection with the activation interface of the battery pack, connecting the electric ignition head of any unit battery in the secondary unit battery pack in parallel, and connecting the electric ignition head of any unit battery in the secondary unit battery pack after the parallel connection with the output interface of the battery pack of the primary unit battery pack; and activating the primary unit battery pack through the battery pack activation interface, and activating the secondary unit battery pack by using the activated primary unit battery pack.

Further, any unit cell also comprises two current limiting resistors, wherein one current limiting resistor is connected with one electric ignition head in series, the other current limiting resistor is connected with the other electric ignition head in series, and one current limiting resistor and one electric ignition head which are connected in series are connected with the other current limiting resistor and the other electric ignition head which are connected in series in parallel.

Furthermore, any unit cell also comprises a current-limiting resistor, and the two electric ignition heads are connected in parallel and then connected in series with the current-limiting resistor.

Further, the current limiting resistor R needs to satisfyWherein, U_maxTo activate the maximum value of the voltage, U_minFor minimum value of activation voltage, R_{Sending max}Is the maximum value of the resistance, R, of the electric igniter_{Hair-growing min}Is the minimum value of the resistance of the electric ignition head, I_maxTo activate the maximum value of the current, I_minTo activate a minimum value of current, R_ThreadIs the wire resistance of the circuit.

Further, the electric ignition head is a semi-insensitive electric ignition head.

Further, the primary unit battery pack comprises a first unit battery, the secondary unit battery pack comprises a second unit battery, a third unit battery and a fourth unit battery, the first unit battery, the second unit battery, the third unit battery and the fourth unit battery are sequentially connected in series, the first unit battery comprises a first electric ignition head, a second electric ignition head, a first current-limiting resistor and a second current-limiting resistor, the first electric ignition head and the first current-limiting resistor are connected in series to form a first branch, and the second electric ignition head and the second current-limiting resistor form a second branch; the second unit cell comprises a third electric ignition head, a fourth electric ignition head, a third current-limiting resistor and a fourth current-limiting resistor, the third electric ignition head and the third current-limiting resistor are connected in series to form a third branch circuit, and the fourth electric ignition head and the fourth current-limiting resistor form a fourth branch circuit; the third unit cell comprises a fifth electric ignition head, a sixth electric ignition head, a fifth current-limiting resistor and a sixth current-limiting resistor, the fifth electric ignition head and the fifth current-limiting resistor are connected in series to form a fifth branch circuit, and the sixth electric ignition head and the sixth current-limiting resistor form a sixth branch circuit; the fourth unit cell comprises a seventh electric ignition head, an eighth electric ignition head, a seventh current limiting resistor and an eighth current limiting resistor, the seventh electric ignition head and the seventh current limiting resistor are connected in series to form a seventh branch circuit, and the eighth electric ignition head and the eighth current limiting resistor form an eighth branch circuit; the first branch and the second branch are connected in parallel and then connected with the battery pack activation interface, and the third branch, the fourth branch, the fifth branch, the sixth branch, the seventh branch and the eighth branch are sequentially connected in parallel and then connected with the battery output interface of the first unit battery.

Further, the primary unit battery pack comprises a first unit battery and a second unit battery, the secondary unit battery pack comprises a third unit battery and a fourth unit battery, the first unit battery, the second unit battery, the third unit battery and the fourth unit battery are sequentially connected in series, the first unit battery comprises a first electric ignition head, a second electric ignition head, a first current-limiting resistor and a second current-limiting resistor, the first electric ignition head and the first current-limiting resistor are connected in series to form a first branch, and the second electric ignition head and the second current-limiting resistor form a second branch; the second unit cell comprises a third electric ignition head, a fourth electric ignition head, a third current-limiting resistor and a fourth current-limiting resistor, the third electric ignition head and the third current-limiting resistor are connected in series to form a third branch circuit, and the fourth electric ignition head and the fourth current-limiting resistor form a fourth branch circuit; the third unit cell comprises a fifth electric ignition head, a sixth electric ignition head, a fifth current-limiting resistor and a sixth current-limiting resistor, the fifth electric ignition head and the fifth current-limiting resistor are connected in series to form a fifth branch circuit, and the sixth electric ignition head and the sixth current-limiting resistor form a sixth branch circuit; the fourth unit cell comprises a seventh electric ignition head, an eighth electric ignition head, a seventh current limiting resistor and an eighth current limiting resistor, the seventh electric ignition head and the seventh current limiting resistor are connected in series to form a seventh branch circuit, and the eighth electric ignition head and the eighth current limiting resistor form an eighth branch circuit; the first branch, the second branch, the third branch and the fourth branch are sequentially connected in parallel and then connected with the battery pack activation interface, and the fifth branch, the sixth branch, the seventh branch and the eighth branch are sequentially connected in parallel and then connected with the battery output interface of the primary unit battery pack.

According to a further aspect of the invention, there is provided a serial battery activation circuit for battery activation using the serial battery activation method as described above.

Further, the serial battery activation circuit comprises a primary unit battery pack, a secondary unit battery pack and a battery pack activation interface, the primary unit battery pack comprises at least one unit battery, the secondary unit battery pack comprises at least one unit battery, the unit batteries are sequentially connected in series, the electric ignition heads of any unit battery in the primary unit battery pack are connected in parallel, the electric ignition head of any unit battery in the primary unit battery pack after the parallel connection is connected with the battery pack activation interface, the electric ignition head of any unit battery in the secondary unit battery pack after the parallel connection is connected in parallel, and the electric ignition head of any unit battery in the secondary unit battery pack after the parallel connection is connected with the battery pack output interface of the primary unit battery pack.

The technical scheme of the invention is applied to provide a serial battery activation method, the serial battery activation method divides a plurality of unit batteries connected in series, a part of the unit batteries are used as a primary unit battery pack, the rest of the unit batteries are used as secondary unit batteries, the primary unit battery pack is activated through a battery pack activation interface, and the activated primary unit battery pack is used for activating the rest of the secondary unit battery packs at the same time. By the method, the activation current can not be overlarge when the unit cells of the battery pack are activated in series, and the reliability and safety of the activation of the battery pack are improved. Therefore, compared with the prior art, the serial battery activation method provided by the invention adopts a graded and serial activation mode, which can effectively reduce the activation current of the whole battery pack and solve the problem of small activation current of the weapon launching platform.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

Fig. 1 shows a schematic diagram of a tandem battery activation circuit provided in accordance with a first embodiment of the present invention;

fig. 2 shows a schematic diagram of a serial battery activation circuit according to a second embodiment of the present invention.

Wherein the figures include the following reference numerals:

10. a first unit cell; 11. a first electric firing head; 12. a second electric firing head; 13. a first current limiting resistor; 14. a second current limiting resistor; 20. a second unit cell; 21. a third electric firing head; 22. a fourth electric firing head; 23. a third current limiting resistor; 24. a fourth current limiting resistor; 30. a third unit cell; 31. a fifth electric firing head; 32. a sixth electric firing head; 33. a fifth current limiting resistor; 34. a sixth current limiting resistor; 40. a fourth unit cell; 41. a seventh electric firing head; 42. an eighth electric firing head; 43. a seventh current limiting resistor; 44. and an eighth current limiting resistor.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

The relative arrangement of the components and steps, the numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present invention unless specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

As shown in fig. 1 and 2, according to an embodiment of the present invention, there is provided a serial battery activation method including: connecting a plurality of unit batteries in series in sequence, wherein each unit battery comprises two electric ignition heads; dividing a plurality of unit batteries into a primary unit battery pack and a secondary unit battery pack, wherein the primary unit battery pack comprises at least one unit battery, and the secondary unit battery pack comprises at least one unit battery; connecting the electric ignition heads of any unit battery in the primary unit battery pack in parallel, connecting the electric ignition head of any unit battery in the primary unit battery pack after the parallel connection with the activation interface of the battery pack, connecting the electric ignition head of any unit battery in the secondary unit battery pack in parallel, and connecting the electric ignition head of any unit battery in the secondary unit battery pack after the parallel connection with the output interface of the battery pack of the primary unit battery pack; and activating the primary unit battery pack through the battery pack activation interface, and activating the secondary unit battery pack by using the activated primary unit battery pack.

With this configuration, a serial battery activation method is provided, in which a plurality of unit cells connected in series are divided, a part of the unit cells are used as a primary unit battery pack, the remaining part of the unit cells are used as secondary unit cells, the primary unit battery pack is activated through a battery activation interface, and the activated primary unit battery pack is used to simultaneously activate the remaining secondary unit battery packs. By the method, the activation current can not be overlarge when the unit cells of the battery pack are activated in series, and the reliability and safety of the activation of the battery pack are improved. Therefore, compared with the prior art, the serial battery activation method provided by the invention adopts a graded and serial activation mode, which can effectively reduce the activation current of the whole battery pack and solve the problem of small activation current of the weapon launching platform.

Further, in the present invention, in order to ensure that the entire battery pack can be reliably activated, as shown in fig. 1, each of the unit cells may be configured to further include two current limiting resistors, one of which is connected in series with one of the electrical ignition heads, the other of which is connected in series with the other of the electrical ignition heads, and the one of which and the one of the electrical ignition heads which are connected in series are connected in parallel with the other of the current limiting resistors and the other of the electrical ignition heads which are connected in series.

As another embodiment of the present invention, not shown in the drawings, any one of the unit cells may be configured to further include a current limiting resistor, and the two electric ignition heads are connected in parallel and then connected in series with the current limiting resistor.

In the invention, one of the unit batteries can be selected to be activated according to the general constraint conditions and the technical requirements of the battery pack, and the activated unit batteries are used for simultaneously activating the rest unit batteries. The general constraints include the platform and the activation current, which ensures that the multi-battery pack is activated by a small current, and the technical requirements of the battery pack include the capacity and voltage of the battery pack. When the number of the unit batteries of the high-voltage battery pack is excessive, the number of the first-stage activated unit batteries can be reasonably selected, the activation risk of the second-stage unit batteries is reduced, and the activation reliability of the second-stage unit batteries is improved. A principle circuit can be designed according to specific pop-up conditions and the thought, and a proper current-limiting resistor is selected according to the theoretical activation current to complete the design of the whole activation circuit.

Further, in the present invention, in order to ensure the reliability of activation, the current limiting resistor R needs to satisfyWherein, U_maxTo activate the maximum value of the voltage, U_minFor minimum value of activation voltage, R_{Sending max}Is the maximum value of the resistance, R, of the electric igniter_{Hair-growing min}Is the minimum value of the resistance of the electric ignition head, I_maxTo activate the maximum value of the current, I_minTo activate a minimum value of current, R_ThreadIs the wire resistance of the circuit.

Further, in the present invention, in order to improve the safety and reliability of the battery activation, the electric ignition tip of the unit battery may be configured as a semi-insensitive electric ignition tip.

A first embodiment of the present invention will be described in detail with reference to fig. 1. As shown in fig. 1, the primary unit battery pack includes a first unit battery 10, the secondary unit battery pack includes a second unit battery 20, a third unit battery 30 and a fourth unit battery 40, the first unit battery 10, the second unit battery 20, the third unit battery 30 and the fourth unit battery 40 are sequentially connected in series, the first unit battery 10 includes a first electric igniter 11, a second electric igniter 12, a first current limiting resistor 13 and a second current limiting resistor 14, the first electric igniter 11 and the first current limiting resistor 13 are connected in series to form a first branch, and the second electric igniter 12 and the second current limiting resistor 14 form a second branch; the second unit cell 20 includes a third electric firing head 21, a fourth electric firing head 22, a third current limiting resistor 23 and a fourth current limiting resistor 24, the third electric firing head 21 and the third current limiting resistor 23 are connected in series to form a third branch, and the fourth electric firing head 22 and the fourth current limiting resistor 24 form a fourth branch; the third unit cell 30 includes a fifth electric firing head 31, a sixth electric firing head 32, a fifth current limiting resistor 33, and a sixth current limiting resistor 34, the fifth electric firing head 31 and the fifth current limiting resistor 33 are connected in series to form a fifth branch, and the sixth electric firing head 32 and the sixth current limiting resistor 34 form a sixth branch; the fourth unit cell 40 includes a seventh electric firing head 41, an eighth electric firing head 42, a seventh current limiting resistor 43, and an eighth current limiting resistor 44, the seventh electric firing head 41 and the seventh current limiting resistor 43 are connected in series to form a seventh branch, and the eighth electric firing head 42 and the eighth current limiting resistor 44 form an eighth branch; the first branch and the second branch are connected in parallel and then connected with the battery pack activation interface, and the third branch, the fourth branch, the fifth branch, the sixth branch, the seventh branch and the eighth branch are sequentially connected in parallel and then connected with the battery output interface of the first unit battery 10.

In this embodiment, when the battery needs to be activated, the first electric firing head 11 and the second electric firing head 12 of the first unit battery 10 are activated through the battery pack activation interface, and activation of the first unit battery can be completed when any one of the first electric firing head 11 and the second electric firing head 12 is activated, and the second unit battery 20, the third unit battery 30, and the fourth unit battery 40 are simultaneously activated by using the activated output voltage of the first unit battery.

As another embodiment of the present invention, as shown in fig. 2, a battery activation circuit is provided according to a second specific embodiment of the present invention, in this embodiment, a primary unit battery pack includes a first unit battery 10 and a second unit battery 20, a secondary unit battery pack includes a third unit battery 30 and a fourth unit battery 40, the first unit battery 10, the second unit battery 20, the third unit battery 30 and the fourth unit battery 40 are sequentially connected in series, the first unit battery 10 includes a first electric ignition head 11, a second electric ignition head 12, a first current limiting resistor 13 and a second current limiting resistor 14, the first electric ignition head 11 and the first current limiting resistor 13 are connected in series to form a first branch, and the second electric ignition head 12 and the second current limiting resistor 14 form a second branch; the second unit cell 20 includes a third electric firing head 21, a fourth electric firing head 22, a third current limiting resistor 23 and a fourth current limiting resistor 24, the third electric firing head 21 and the third current limiting resistor 23 are connected in series to form a third branch, and the fourth electric firing head 22 and the fourth current limiting resistor 24 form a fourth branch; the third unit cell 30 includes a fifth electric firing head 31, a sixth electric firing head 32, a fifth current limiting resistor 33, and a sixth current limiting resistor 34, the fifth electric firing head 31 and the fifth current limiting resistor 33 are connected in series to form a fifth branch, and the sixth electric firing head 32 and the sixth current limiting resistor 34 form a sixth branch; the fourth unit cell 40 includes a seventh electric firing head 41, an eighth electric firing head 42, a seventh current limiting resistor 43, and an eighth current limiting resistor 44, the seventh electric firing head 41 and the seventh current limiting resistor 43 are connected in series to form a seventh branch, and the eighth electric firing head 42 and the eighth current limiting resistor 44 form an eighth branch; the first branch, the second branch, the third branch and the fourth branch are sequentially connected in parallel and then connected with the battery pack activation interface, and the fifth branch, the sixth branch, the seventh branch and the eighth branch are sequentially connected in parallel and then connected with the battery output interface of the primary unit battery pack.

In this embodiment, when the batteries need to be activated, the first electric fire head 11 and the second electric fire head 12 of the first unit battery 10 and the third electric fire head 21 and the fourth electric fire head 22 of the second unit battery 20 are activated through the battery pack activation interface, activation of the first unit battery 10 can be completed when any one of the first electric fire head 11 and the second electric fire head 12 is activated, activation of the second unit battery 20 can be completed when any one of the third electric fire head 21 and the fourth electric fire head 22 is activated, and the third unit battery 30 and the fourth unit battery 40 are simultaneously activated by using the output voltages of the activated first unit battery and the activated second unit battery, so that the activation current of the whole battery pack can be effectively reduced, and the problem of small activation current of the weapon launching platform is solved.

According to another aspect of the present invention, there is provided a serial battery activation circuit for battery activation using the serial battery activation method as described above. The serial connection type battery activation circuit comprises a primary unit battery pack, a secondary unit battery pack and a battery pack activation interface, wherein the primary unit battery pack comprises at least one unit battery, the secondary unit battery pack comprises at least one unit battery, the unit batteries are sequentially connected in series, the electric ignition head of any unit battery in the primary unit battery pack is connected in parallel, the electric ignition head of any unit battery in the primary unit battery pack after the parallel connection is connected with the battery pack activation interface, the electric ignition head of any unit battery in the secondary unit battery pack after the parallel connection is connected in parallel, and the electric ignition head of any unit battery in the secondary unit battery pack after the parallel connection is connected with the battery pack output interface of the primary unit battery pack.

With this configuration, there is provided a serial battery activation circuit for battery activation using the serial battery activation method as described above, the serial battery activation circuit dividing a plurality of unit cells connected in series, using a part of the unit cells as a primary unit cell group and the remaining part of the unit cells as a secondary unit cell group, activating the primary unit cell group through a cell group activation interface, and simultaneously activating the remaining secondary unit cell groups using the activated primary unit cell group. By the method, the activation current can not be overlarge when the unit cells of the battery pack are activated in series, and the reliability and safety of the activation of the battery pack are improved. Therefore, compared with the prior art, the serial battery activation circuit provided by the invention adopts a grading and serial activation mode, and the mode can effectively reduce the activation current of the whole battery pack and solve the problem of small activation current of a weapon launching platform.

In order to further understand the present invention, the serial battery activation method and circuit provided by the present invention are described in detail below with reference to fig. 1.

As shown in fig. 1, a serial battery activation circuit according to an embodiment of the present invention includes a primary unit battery pack, a secondary unit battery pack, and a battery activation interface, the primary unit battery pack includes a first unit battery 10, the secondary unit battery pack includes a second unit battery 20, a third unit battery 30, and a fourth unit battery 40, the first unit battery 10, the second unit battery 20, the third unit battery 30, and the fourth unit battery 40 are sequentially connected in series, the first unit battery 10 includes a first electric igniter 11, a second electric igniter 12, a first current limiting resistor 13, and a second current limiting resistor 14, the first electric igniter 11 and the first current limiting resistor 13 are connected in series to form a first branch, and the second electric igniter 12 and the second current limiting resistor 14 form a second branch; the second unit cell 20 includes a third electric firing head 21, a fourth electric firing head 22, a third current limiting resistor 23 and a fourth current limiting resistor 24, the third electric firing head 21 and the third current limiting resistor 23 are connected in series to form a third branch, and the fourth electric firing head 22 and the fourth current limiting resistor 24 form a fourth branch; the third unit cell 30 includes a fifth electric firing head 31, a sixth electric firing head 32, a fifth current limiting resistor 33, and a sixth current limiting resistor 34, the fifth electric firing head 31 and the fifth current limiting resistor 33 are connected in series to form a fifth branch, and the sixth electric firing head 32 and the sixth current limiting resistor 34 form a sixth branch; the fourth unit cell 40 includes a seventh electric firing head 41, an eighth electric firing head 42, a seventh current limiting resistor 43, and an eighth current limiting resistor 44, the seventh electric firing head 41 and the seventh current limiting resistor 43 are connected in series to form a seventh branch, and the eighth electric firing head 42 and the eighth current limiting resistor 44 form an eighth branch; the first branch and the second branch are connected in parallel and then connected with the battery pack activation interface, and the third branch, the fourth branch, the fifth branch, the sixth branch, the seventh branch and the eighth branch are sequentially connected in parallel and then connected with the battery output interface of the first unit battery 10.

In this embodiment, the 270V thermal battery pack is designed using a four-cell combination. The no-load voltage of each unit battery is 75V, and the voltage output of the battery pack adopts a series design of four unit batteries. Each unit battery adopts a redundant design of parallel connection of the double ignition heads, and the activated electric ignition head adopts a semi-insensitive electric ignition head, so that the safety and the reliability of activation can be improved. The electric ignition head is activated for reliable detonation for 2.5A and 50ms, and then the current limiting resistors are respectively connected in series to ensure the reliable activation of the whole battery pack. The four unit batteries are divided into one unit battery for primary activation, and the other three unit batteries are activated in parallel. The activation interface provides two paths of activation voltage which are 2 positive and 2 negative.

The bomb provides an activation voltage range of 27.5V-31.5V, the ignition head is a semi-insensitive ignition head, the resistance of the semi-insensitive ignition head is 0.8 omega-1.2 omega, the line group of the bomb circuit is designed by 0.5 omega, the resistance value of the current limiting resistor is R, and the following can be listed according to ohm's law:

according to the formula, the power can be calculated according to the following formula that R is more than 3.2 omega and less than 3.8 omega: w is ═ I²R is 7.52 multiplied by 3.5 which is 197W, so the TRY-B-0.5W-3.5 omega type current limiting resistor can be selected as R.

The battery pack activation current of the series combination of four unit cells is designed to satisfy the 10A reliable activation. The four unit batteries adopt the redundancy design of series connection of the insensitive ignition heads and the current-limiting resistors, so that the activation reliability is ensured.

In the design of a battery, in order to achieve a battery reliability index, a reliability design of a mathematical model is required. The battery pack consists of four unit batteries, an assembly frame and an electric connector, wherein each unit battery consists of an ignition head, an ignition heating assembly, a galvanic pile, an insulating layer, a battery cover, a battery shell and the like. The reliability R of the battery pack is 0.99996676 as a result of the reliability modeling analysis.

In this embodiment, when the battery needs to be activated, the first electric firing head 11 and the second electric firing head 12 of the first unit battery 10 are activated through the battery pack activation interface, and activation of the first unit battery can be completed when any one of the first electric firing head 11 and the second electric firing head 12 is activated, and the second unit battery 20, the third unit battery 30, and the fourth unit battery 40 are simultaneously activated by using the activated output voltage of the first unit battery.

In summary, the present invention provides a serial battery activation method and an activation circuit, in which a plurality of unit batteries connected in series are divided, a part of the unit batteries are used as a primary unit battery pack, the remaining unit batteries are used as secondary unit batteries, the primary unit battery pack is activated through a battery pack activation interface, and the activated primary unit battery pack is used to simultaneously activate the remaining secondary unit battery packs. By the method, the activation current can not be overlarge when the unit cells of the battery pack are activated in series, and the reliability and safety of the activation of the battery pack are improved. In addition, the activation method can reasonably select the activation number of the primary unit cells according to engineering experience aiming at high-voltage thermal batteries with different specifications, thereby improving the reliability and efficiency of activation. Therefore, compared with the prior art, the serial battery activation method provided by the invention adopts a hierarchical and serial activation mode, the activation current of the battery is small, the adaptive platforms are various, and the activation reliability is high.

Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

It should be noted that the terms "first", "second", and the like are used to define the components, and are only used for convenience of distinguishing the corresponding components, and the terms have no special meanings unless otherwise stated, and therefore, the scope of the present invention should not be construed as being limited.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.