WO2024094021A1 - Battery apparatus and method for arranging same in device - Google Patents

Abstract

In order to reduce device damage and personal harm that are caused due to the danger of battery combustion, disclosed in the present invention is a battery apparatus, wherein an explosion apparatus is provided on a battery mounting position of the battery apparatus for mounting a battery, the explosion apparatus is provided with explosives and/or a detonator, the explosives are exploded when at least one situation such as combustion, deformation, high temperature or leakage of the battery occurs, and the detonator detonates the explosion apparatus after determining that a preset dangerous condition is met, such that the battery is blown away, thereby relieving the danger.

Description

一种电池装置及其被设置于设备的方法A battery device and a method for installing the same in a device 技术领域Technical Field

本申请涉及一种电能装置，具体而言，涉及一种电池装置。The present application relates to an electric energy device, and more particularly, to a battery device.

背景技术Background technique

近年来，随着科学技术的发展进步，用电设备摆脱供电线束缚的需求与日俱增，电池的应用越来越广泛。随之，为了减少非可充电池的更换次数，或是为了减少可充电池的充电次数，增加电池的单次服务时长，大容量电池的应用越来越多；在一些大功率的应用场景中，高功率电池的应用越来越多。然而因电池燃烧的危险造成设备损坏和人身危害的问题，随着电池的广泛使用，却越来越突出，特别是大容量、高功率电池尤为严重。In recent years, with the development and progress of science and technology, the demand for electrical equipment to get rid of the constraints of power lines has increased day by day, and the application of batteries has become more and more extensive. As a result, in order to reduce the number of replacements of non-rechargeable batteries, or to reduce the number of charging times of rechargeable batteries and increase the single service time of batteries, large-capacity batteries are increasingly used; in some high-power application scenarios, high-power batteries are increasingly used. However, the problem of equipment damage and personal injury caused by the danger of battery combustion has become more and more prominent with the widespread use of batteries, especially large-capacity and high-power batteries.

电池燃烧，可能是自燃导致，也可能是被其他燃烧物引燃导致，其他燃烧物也包括其他燃烧的电池等；电池燃烧的危险，不仅会造成设备损坏，而且引发人身危害。Battery combustion may be caused by spontaneous combustion or ignition by other combustible materials, including other burning batteries. The danger of battery combustion will not only cause damage to the equipment, but also cause personal injury.

电池燃烧的危险，可能发生于电池短路、破损、高温、变形、遇火等场景。比如：电池短路时，电流作用在内阻上，内部瞬时产生高温，内压增大电池膨胀，电池内部本来隔离的氧化剂与还原剂受到挤压接触，发生燃烧；或者内压增大电池膨胀，电池包装破损，内部可燃物接触空气燃烧；或者电池遇火，高温破坏包装，内部可燃物泄露，遇空气燃烧；或者电池包装被外力损坏，内部可燃物泄露，遇空气燃烧。The danger of battery combustion may occur in scenarios such as battery short circuit, damage, high temperature, deformation, and fire. For example: when the battery is short-circuited, the current acts on the internal resistance, and the internal temperature is instantly generated. The internal pressure increases and the battery expands. The oxidant and reductant that were originally isolated inside the battery are squeezed and contacted, causing combustion; or the internal pressure increases and the battery expands, the battery packaging is damaged, and the internal combustibles come into contact with the air and burn; or the battery is in fire, the high temperature destroys the packaging, the internal combustibles leak, and burn when exposed to air; or the battery packaging is damaged by external force, the internal combustibles leak, and burn when exposed to air.

导致电池燃烧的危险，有内在原因，也有外在原因。There are both internal and external causes that lead to the danger of battery combustion.

导致电池燃烧的危险的内在原因，有电池自身缺陷因素，也有电池自身老化因素。电池自身缺陷因素：设计缺陷和生产缺陷都比较常见，如生产缺陷造成的内部偶发型短路等。电池自身老化因素：有的因为使用或放置时间老化，有的因为环境高温，造成内部析晶现象偶发型短路等。The inherent reasons for the danger of battery combustion include battery defects and battery aging. Battery defects: design defects and production defects are common, such as accidental internal short circuits caused by production defects. Battery aging: some are due to aging due to use or storage time, and some are due to high temperature in the environment, causing internal crystallization and accidental short circuits.

导致电池燃烧的危险的外在原因，有电池不当使用因素，也有电池意外事故因素。电池不当使用因素：有的因为使用过程中外部短路；也有可充电池，使用过程中过充等。电池意外事故因素：比如使用中发生电池碰撞事故、电池穿刺事故、电池受到挤压、或者事故造成的电池高温、电池破损等。The external causes of the danger of battery combustion include improper battery use and battery accident factors. Improper battery use factors: some are due to external short circuits during use; some are due to overcharging of rechargeable batteries during use. Battery accident factors: such as battery collision accidents, battery puncture accidents, battery squeezing, or battery high temperature and battery damage caused by accidents during use.

电池燃烧前，会有一个持续蓄热升温的过程，该升温可持续至电池燃烧熄灭；电池正常使用过程中，虽然温度也会升高，但是被动散热量会随温度升高、温差增大而增大，或者主动散热的介入，总会被限制在一个合理的温度范围；上述合理的温度范围的具体参数一般由电池供应商提供，用户应该在上述合理的温度范围最高温度以下使用电池；上述合理的温度范围的最高温度被称之为正常工作最高温度；当持电池续蓄热升温，超过上述合理的温度范围，被称之为电池异常高温，或被称之为电池过热。Before the battery burns, there will be a process of continuous heat storage and temperature rise, which can continue until the battery burns out. During normal use of the battery, although the temperature will also rise, the passive heat dissipation will increase with the increase in temperature and temperature difference, or the intervention of active heat dissipation will always be limited to a reasonable temperature range. The specific parameters of the above-mentioned reasonable temperature range are generally provided by the battery supplier, and users should use the battery below the highest temperature in the above-mentioned reasonable temperature range. The highest temperature in the above-mentioned reasonable temperature range is called the normal working maximum temperature. When the battery continues to store heat and the temperature rises, exceeding the above-mentioned reasonable temperature range, it is called abnormally high battery temperature, or battery overheating.

电池异常高温，直至超过燃点，电池会发生一般的燃烧、***、爆燃。区别于一般的燃烧，所谓***就是电池极其剧烈的燃烧，期间电池体积瞬间增大而破裂。区别于一般的燃烧、***，爆燃就是电池一般的燃烧、***交替的发生。电池一般的燃烧、***、爆燃， 都属于广义的燃烧。本申请所述燃烧指广义的燃烧。The battery is abnormally hot, until it exceeds the ignition point, and the battery will experience general combustion, explosion, and deflagration. Different from general combustion, the so-called explosion is an extremely violent combustion of the battery, during which the battery volume increases instantly and ruptures. Different from general combustion and explosion, deflagration is the alternating occurrence of general combustion and explosion of the battery. General combustion, explosion, and deflagration of the battery, All belong to combustion in a broad sense. The combustion described in this application refers to combustion in a broad sense.

电池燃烧，过程可能是：一般的燃烧、***、先一般的燃烧再***、先***再一般的燃烧、先一般的燃烧再***后继续一般的燃烧等。When a battery burns, the process may be: general combustion, explosion, general combustion first and then explosion, explosion first and then general combustion, general combustion first and then explosion and then continued general combustion, etc.

电池燃烧，可能造成设备的损坏，甚至人身危害。尤其是，当使用多个电池时，由于一个电池的燃烧，蔓延至其他电池燃烧，会造成更严重的设备损坏、人身危害。Battery combustion may cause damage to the equipment or even personal injury. In particular, when multiple batteries are used, the combustion of one battery may spread to other batteries, causing more serious damage to the equipment and personal injury.

现有的电池装置中，为了减少电池燃烧的危险造成的设备损坏、人身危害，采用：将电池原材料全部替换为新型难燃、阻燃材料，此方法尚存在诸如电池能量密度、电池材料成本等研发推广困难，且目前上述难燃、阻燃材料的性能尚不能全部达到不可燃的程度。In existing battery devices, in order to reduce the risk of battery combustion causing equipment damage and personal injury, the following approach is adopted: replacing all battery raw materials with new flame-retardant and fire-retardant materials. However, this method still has difficulties in research and development and promotion, such as battery energy density and battery material cost. At present, the performance of the above-mentioned flame-retardant and fire-retardant materials cannot reach the level of being non-flammable.

或采用：为电池设置灭火装置，考虑到灭火装置的体积、重量、成本等因素，都对灭火装置和其容纳的灭火剂的容量有限制，此方法很难将火彻底熄灭，并且灭火剂释放后电池留在原位，灭火后仍有复燃的危险，进而造成设备损坏和人身危害。Alternatively, a fire extinguishing device may be provided for the battery. However, the volume, weight, cost and other factors of the fire extinguishing device may limit the capacity of the fire extinguishing device and the fire extinguishing agent it contains. This method makes it difficult to completely extinguish the fire. Furthermore, after the fire extinguishing agent is released, the battery remains in place, and there is still a risk of re-ignition after the fire is extinguished, thereby causing damage to the equipment and personal injury.

或采用：为电池设置包覆阻燃材料装置，考虑到材料的厚度、重量、成本等因素，都对阻燃效果有限制，此方法电池留在原位燃烧，有可能期间发生***破坏阻燃材料，或者有可能烧透阻燃材料，进而造成设备损坏和人身危害。Alternatively, a flame retardant material coating device may be provided for the battery. However, the thickness, weight, cost and other factors of the material may limit the flame retardant effect. In this method, the battery is left in situ to burn, which may cause an explosion and destroy the flame retardant material, or may burn through the flame retardant material, causing damage to the equipment and personal injury.

发明内容Summary of the invention

本申请的目的包括：提供一种电池装置，其能够减少电池燃烧的危险导致的设备损坏和人身危害。The purpose of the present application includes: to provide a battery device that can reduce the risk of battery combustion causing equipment damage and personal injury.

本申请的目的还包括：提供一种设备设置所述电池装置的方法，其能够减少电池燃烧的危险导致的设备损坏和人身危害。The purpose of the present application also includes: to provide a method for setting up the battery device in a device, which can reduce the risk of battery combustion causing damage to the device and personal injury.

本申请的实施例提供了一种电池装置，包括：装置主体，所述装置主体包括第一电池安装位，所述第一电池安装位用于安装至少一个电池；所述电池；所述第一电池安装位包括安装位主体、***装置；所述***装置设置于所述安装位主体与所述电池之间，并与所述电池接触或接近，用于将所述电池从所述第一电池安装位炸离；所述***装置包括***和/或引爆装置；所述***可被以下其中至少一个引爆，使所述***装置***：所述电池燃烧、所述电池变形导致的挤压、所述电池异常高温、所述电池破损导致的泄漏物；所述引爆装置用于在以下其中一个单独发生和/或以下其中多个共同发生于所述第一电池安装位时引爆所述***装置：火花、温度变化超过预设值、气压改变超出预设范围、亮度变化超过预设值、安装的所述电池变形、安装的所述电池泄露、安装的所述电池燃烧、安装的所述电池***、安装的所述电池电压改变超出预设范围、安装的所述电池电流改变超出预设范围、设置的所述引爆装置收到电子引爆信号。An embodiment of the present application provides a battery device, comprising: a device body, the device body comprising a first battery mounting position, the first battery mounting position being used to mount at least one battery; the battery; the first battery mounting position comprising a mounting position body and an explosion device; the explosion device is arranged between the mounting position body and the battery, and is in contact with or close to the battery, and is used to blow the battery away from the first battery mounting position; the explosion device comprises explosives and/or a detonating device; the explosives can be detonated by at least one of the following to cause the explosion device to explode: combustion of the battery, extrusion caused by deformation of the battery, abnormally high temperature of the battery, leakage caused by damage to the battery; the detonating device is used to detonate the explosion device when one of the following occurs alone and/or multiple of the following occur together at the first battery mounting position: sparks, temperature changes exceeding a preset value, air pressure changes exceeding a preset range, brightness changes exceeding a preset value, deformation of the installed battery, leakage of the installed battery, combustion of the installed battery, explosion of the installed battery, voltage changes of the installed battery exceeding a preset range, current changes of the installed battery exceeding a preset range, and the set detonating device receives an electronic detonation signal.

在本申请的实施例所述***装置设置所述***被所述电池燃烧引爆，所述***装置***技术方案中，一旦所述电池发生燃烧，所述***装置设置所述***将被所述电池燃烧直接引爆；所述***装置***，将燃烧的所述电池炸离；可实现燃烧的所述电池被炸离所述第一电池安装位，避免对所述电池装置的继续破坏，减少设备损坏和人身危害。In the embodiment of the present application, the explosive device is arranged so that the explosive is detonated by the combustion of the battery. In the explosion technical scheme of the explosive device, once the battery burns, the explosive device is arranged so that the explosive is directly detonated by the combustion of the battery; the explosion device explodes to blow the burning battery away; the burning battery can be blown away from the first battery installation position, thereby avoiding further damage to the battery device and reducing equipment damage and personal injury.

在本申请的实施例所述***装置设置所述***被所述电池变形导致的挤压引爆，所 述***装置***的技术方案中，一旦所述电池发生变形导致所述***挤压，所述***装置因设置所述***被所述电池变形导致的挤压引爆；所述***装置***，将变形的所述电池炸离；可实现变形的所述电池被炸离所述第一电池安装位，避免所述电池变形后发生燃烧对所述电池装置的破坏，减少设备损坏和人身危害。In the embodiment of the present application, the explosive device is configured to be detonated by the extrusion caused by the deformation of the battery. In the technical solution of the explosion of the explosive device, once the battery is deformed and the explosive is squeezed, the explosive device is set to be detonated by the squeezing caused by the deformation of the battery; the explosive device explodes and blows the deformed battery away; the deformed battery can be blown away from the first battery installation position, thereby avoiding damage to the battery device caused by combustion after the battery is deformed, reducing equipment damage and personal injury.

在本申请的实施例所述***装置设置所述***被所述电池异常高温引爆，所述***装置***的技术方案中，一旦发生所述电池异常高温，所述***装置因设置所述***被所述电池异常高温引爆；所述***装置***，将异常高温的所述电池炸离；可实现异常高温的所述电池被炸离所述第一电池安装位，避免所述电池异常高温后发生燃烧对所述电池装置的破坏，减少设备损坏和人身危害。In the embodiment of the present application, the explosion device is arranged so that the explosive is detonated by the abnormally high temperature of the battery. In the technical scheme for the explosion of the explosion device, once the battery becomes abnormally hot, the explosion device is detonated by the abnormally high temperature of the battery due to the arrangement of the explosive; the explosion device explodes to blow away the abnormally hot battery; the abnormally hot battery can be blown away from the first battery installation position, thereby avoiding damage to the battery device caused by combustion after the abnormally high temperature of the battery, and reducing equipment damage and personal injury.

在本申请的实施例所述***装置设置所述***被所述电池破损导致的泄漏物引爆，所述***装置***的技术方案中，一旦所述电池发生破损导致的泄漏，所述***装置因设置所述***被所述电池破损导致的泄漏物引爆；所述***装置***，将破损导致的泄漏的所述电池炸离；可实现破损导致的泄漏的所述电池被炸离所述第一电池安装位，避免所述电池破损导致的泄漏后发生燃烧对所述电池装置的破坏，减少设备损坏和人身危害。In the embodiment of the present application, the explosive device is arranged so that the explosive is detonated by the leakage caused by the battery damage. In the technical scheme for the explosion of the explosive device, once the battery leaks due to damage, the explosive device is detonated by the leakage caused by the battery damage due to the arrangement of the explosive; the explosive device explodes to blow away the battery that has leaked due to damage; the battery that has leaked due to damage can be blown away from the first battery installation position, thereby avoiding damage to the battery device caused by combustion after leakage due to damage of the battery, and reducing equipment damage and personal injury.

在本申请的实施例所述***装置设置所述***可被设置为只被所述电池燃烧、所述电池变形导致的挤压、所述电池异常高温、所述电池破损导致的泄漏物其一引爆所述***，使***装置***，或可被设置为被所述电池燃烧、所述电池变形导致的挤压、所述电池异常高温、所述电池破损导致的泄漏物其中多个都能引爆所述***，使所述***装置***。In the embodiments of the present application, the explosive device may be configured such that the explosive may be detonated by only one of the burning of the battery, the extrusion caused by the deformation of the battery, the abnormally high temperature of the battery, and the leakage caused by the battery damage, thereby causing the explosive device to explode; or the explosive may be configured such that the burning of the battery, the extrusion caused by the deformation of the battery, the abnormally high temperature of the battery, and the leakage caused by the battery damage, thereby causing the explosive device to explode.

本申请的实施例所述***调整感度的方式，不限于：更换感度更低或更高的成分、使用混合成分、调整密度、增加或减少内部空穴等达到目标感度；设置所述***被所述电池变形导致的挤压引爆，则调整所述***机械感度满足所述挤压引爆即可；设置所述***被所述电池异常高温引爆，则调整所述***热感度满足所述高温引爆即可；设置所述***被所述电池破损导致的泄漏物引爆，则调整所述***对泄漏物中其一的化学感度满足所述泄漏物引爆即可。The manner of adjusting the sensitivity of the explosives described in the embodiments of the present application is not limited to: replacing components with lower or higher sensitivity, using mixed components, adjusting density, increasing or decreasing internal cavities, etc. to achieve the target sensitivity; if the explosive is set to be detonated by extrusion caused by deformation of the battery, then the mechanical sensitivity of the explosive is adjusted to satisfy the extrusion detonation; if the explosive is set to be detonated by abnormally high temperature of the battery, then the thermal sensitivity of the explosive is adjusted to satisfy the high temperature detonation; if the explosive is set to be detonated by leakage caused by damage to the battery, then the chemical sensitivity of the explosive to one of the leakages is adjusted to satisfy the detonation of the leakage.

本申请的实施例设置所述***被所述电池异常高温引爆的方案中：所述电池异常高温，又称为电池过热，指超过所述电池正常工作最高温度；所述电池正常工作最高温度，即电池正常的使用温度范围的最大值，该范围的具体参数一般由电池供应商按照电池型号及其应用场景等提供，用户应该在上述合理的温度范围的最高温度以下使用电池，以防电池发生燃烧危险。In an embodiment of the present application, the explosive is set up in a scheme where the explosive is detonated by the abnormally high temperature of the battery: the abnormally high temperature of the battery, also known as battery overheating, refers to a temperature exceeding the maximum normal working temperature of the battery; the maximum normal working temperature of the battery is the maximum value of the normal operating temperature range of the battery. The specific parameters of this range are generally provided by the battery supplier according to the battery model and its application scenario. The user should use the battery below the maximum temperature in the above reasonable temperature range to prevent the battery from burning.

本申请的实施例设置所述***被所述电池破损导致的泄漏物引爆的方案中：通常电池泄漏物包含铝、铅或者碱金属等易于实现化学引爆的物质；但如果电池自身泄漏物不包含常见的触发所述***化学感度***的物质，则可以在电池包装内置常见的触发所述***化学感度***的物质，使其随所述电池破损泄露后引爆所述***，例如：所述***使用雷酸汞，将电池包装内预置少许锌铝镁粉，包装破损后雷酸汞遇到泄露的锌铝镁粉会***等。In an embodiment of the present application, a scheme is set up in which the explosive is detonated by the leakage caused by the battery damage: usually the battery leakage contains substances such as aluminum, lead or alkali metals that are easy to achieve chemical detonation; but if the battery itself The leakage does not contain common substances that trigger the chemical sensitivity explosion of the explosive, then the common substances that trigger the chemical sensitivity explosion of the explosive can be built into the battery package so that it will detonate the explosive after the battery is damaged and leaked. For example: the explosive uses mercury fulminate, and a small amount of zinc, aluminum and magnesium powder is pre-placed in the battery package. After the package is damaged, the mercury fulminate will explode when it encounters the leaked zinc, aluminum and magnesium powder.

发明人研究发现，所述电池燃烧前后常伴随有火花、温度异常升高、气压异常改 变、亮度异常变亮、安装的所述电池变形、安装的所述电池泄露、安装的所述电池燃烧、安装的所述电池***、安装的所述电池电压异常改变、安装的所述电池电流异常改变等发生于所述第一电池安装位等征兆或现象，可将这些征兆或现象用来触发所述***装置，实现提前或更精准的引爆所述***装置，达到进一步减少设备损坏和人身危害的目的。The inventors have found that the battery is often accompanied by sparks, abnormal temperature rise, abnormal pressure change, etc. before and after combustion. If there are signs or phenomena occurring at the first battery installation position, such as the voltage of the installed battery changes, the brightness becomes abnormally brighter, the installed battery deforms, the installed battery leaks, the installed battery burns, the installed battery explodes, the installed battery voltage changes abnormally, the installed battery current changes abnormally, etc., these signs or phenomena can be used to trigger the explosive device, so as to detonate the explosive device in advance or more accurately, thereby further reducing equipment damage and personal injury.

在本申请的实施例所述***装置设置引爆装置的技术方案中：In the technical solution of the explosive device provided with a detonating device in the embodiment of the present application:

所述引爆装置可被设置为所述第一电池安装位发生火花时引爆所述***装置；The detonation device may be configured to detonate the explosion device when a spark occurs at the first battery installation position;

或者所述引爆装置可被设置为所述第一电池安装位发生温度变化超过预设值时引爆所述***装置，预设值可以是所述引爆装置在包括：机械或机构层面的、物理或化学层面的、硬件或软件层面的、模拟或数字电路层面的、软件配置或程序层面的等预设对应的触发引爆的温度值，预设值根据实际情况和具体需求设定，也就是说，设定方式有很多种：预设值可以在所述电池燃烧发生时的温度范围，也可以在所述电池燃烧即将发生时的温度范围，预设值可以针对温度变化中的温度瞬时值，也可以针对温度值在时间维度上的变化，如温度变化速度、加速度等的值，预设值可以针对未经处理的原始值，也可以针对经过处理的处理值，如平均值、移动滑差值、滤波值、修正值、降噪值等，预设值可以针对具体的所述电池燃烧情况减少设备损坏和人身危害，也可以针对统计的所述电池燃烧大量样本减少发生的设备损坏和人身危害的概率；Alternatively, the detonation device may be configured to detonate the explosive device when the temperature change at the first battery installation position exceeds a preset value. The preset value may be a temperature value of the detonation device that is preset to trigger detonation at the mechanical or mechanism level, the physical or chemical level, the hardware or software level, the analog or digital circuit level, the software configuration or program level, etc. The preset value is set according to the actual situation and specific needs. That is, there are many ways to set the preset value: the preset value may be in the temperature range when the battery combustion occurs, or in the temperature range when the battery combustion is about to occur. The preset value may be for the instantaneous value of the temperature in the temperature change, or for the change of the temperature value in the time dimension, such as the value of the temperature change speed, acceleration, etc. The preset value may be for the unprocessed original value, or for the processed value, such as the average value, the moving slip value, the filtering value, the correction value, the noise reduction value, etc. The preset value may be for reducing equipment damage and personal injury for the specific battery combustion situation, or for reducing the probability of equipment damage and personal injury for a large number of statistical battery combustion samples;

或者所述引爆装置可被设置为所述第一电池安装位发生气压改变超出预设范围时引爆所述***装置，预设范围可以是所述引爆装置在包括：机械或机构层面的、物理或化学层面的、硬件或软件层面的、模拟或数字电路层面的、软件配置或程序层面的等预设对应的触发引爆的气压范围，预设范围根据实际情况和具体需求设定，也就是说，设定方式有很多种：预设范围可以针对相对封闭环境所述电池燃烧发生时的气压的改变，也可以针对相对开放环境所述电池燃烧发生时的气压的改变，预设范围可以针对气压变化中的气压瞬时值，也可以针对气压值在时间维度上的变化，如气压变化速度、加速度等的值，预设范围可以针对未经处理的原始值，也可以针对经过处理的处理值，如平均值、移动滑差值、滤波值、修正值、降噪值等，预设范围可以针对具体的所述电池燃烧情况减少设备损坏和人身危害，也可以针对统计的所述电池燃烧大量样本减少发生的设备损坏和人身危害的概率；Alternatively, the detonation device may be configured to detonate the explosive device when the air pressure change at the first battery installation position exceeds a preset range. The preset range may be a preset corresponding air pressure range for triggering detonation of the detonation device at the mechanical or mechanism level, the physical or chemical level, the hardware or software level, the analog or digital circuit level, the software configuration or program level, etc. The preset range is set according to the actual situation and specific needs. That is to say, there are many ways to set it: the preset range may be for the change in air pressure when the battery combustion occurs in a relatively closed environment, or for the change in air pressure when the battery combustion occurs in a relatively open environment. The preset range may be for the instantaneous value of air pressure during the change in air pressure, or for the change in air pressure value in the time dimension, such as the value of air pressure change speed, acceleration, etc. The preset range may be for the unprocessed original value, or for the processed value, such as the average value, moving slip value, filter value, correction value, noise reduction value, etc. The preset range may be for reducing equipment damage and personal injury for the specific battery combustion situation, or for reducing the probability of equipment damage and personal injury for a large number of statistical battery combustion samples;

或者所述引爆装置可被设置为所述第一电池安装位发生亮度变化超过预设值时引爆所述***装置，预设值可以是所述引爆装置在包括：机械或机构层面的、物理或化学层面的、硬件或软件层面的、模拟或数字电路层面的、软件配置或程序层面的等预设对应的触发引爆的亮度值，预设值根据实际情况和具体需求设定，也就是说，设定方式有很多种：预设值一般在所述电池燃烧发生时的亮度范围，预设值可以针对亮度变化中的亮度瞬时值，也可以针对亮度值在时间维度上的变化，如亮度变化速度、加速度等的值，预设值可以针对未经处理的原始值，也可以针对经过处理的处理值，如平均值、移动滑差值、滤波值、修正值、降噪值等，预设值可以针对具体的所述电池燃烧情况减少设备损坏和人身危害，也可以针对统计的所述电池燃烧大量样本减少发生的设备损坏和人身危害的概率； Alternatively, the detonation device may be configured to detonate the explosive device when the brightness change at the first battery installation position exceeds a preset value. The preset value may be a preset brightness value of the detonation device corresponding to the triggering detonation at the mechanical or mechanism level, physical or chemical level, hardware or software level, analog or digital circuit level, software configuration or program level, etc. The preset value is set according to the actual situation and specific needs. That is to say, there are many ways to set it: the preset value is generally in the brightness range when the battery combustion occurs. The preset value may be for the instantaneous brightness value in the brightness change, or for the change of the brightness value in the time dimension, such as the value of the brightness change speed, acceleration, etc. The preset value may be for the unprocessed original value, or for the processed value, such as the average value, moving slip value, filter value, correction value, noise reduction value, etc. The preset value may be for reducing equipment damage and personal injury for the specific battery combustion situation, or for reducing the probability of equipment damage and personal injury for a large number of statistical battery combustion samples;

或者所述引爆装置可被设置为所述第一电池安装位发生安装的所述电池变形时引爆所述***装置；Alternatively, the detonating device may be configured to detonate the detonating device when the battery installed at the first battery installation position is deformed;

或者所述引爆装置可被设置为所述第一电池安装位发生安装的所述电池泄露时引爆所述***装置；Alternatively, the detonation device may be configured to detonate the explosion device when leakage occurs in the battery installed at the first battery installation position;

或者所述引爆装置可被设置为所述第一电池安装位发生安装的所述电池燃烧时引爆所述***装置；Alternatively, the detonation device may be configured to detonate the explosion device when the battery installed at the first battery installation position burns;

或者所述引爆装置可被设置为所述第一电池安装位发生安装的所述电池***时引爆所述***装置；Alternatively, the detonation device may be configured to detonate the explosion device when the battery installed at the first battery installation position explodes;

或者所述引爆装置可被设置为所述第一电池安装位发生安装的所述电池电压改变超出预设范围时引爆所述***装置，预设范围可以是所述引爆装置在包括：机械或机构层面的、物理或化学层面的、硬件或软件层面的、模拟或数字电路层面的、软件配置或程序层面的等预设对应的触发引爆的电压范围，预设范围根据实际情况和具体需求设定，也就是说，设定方式有很多种：预设范围可以不包括所述电池燃烧发生时的电压范围，也可以不包括所述电池燃烧即将发生时的电压范围，预设范围可以针对电压变化中电压瞬时值，也可以针对电压值在时间维度上的变化，如电压变化速度、加速度等的值，预设范围可以针对未经处理的原始值，也可以针对经过处理的处理值，如平均值、移动滑差值、滤波值、修正值、降噪值等，预设范围可以针对具体的所述电池燃烧情况减少设备损坏和人身危害，也可以针对统计的所述电池燃烧大量样本减少发生的设备损坏和人身危害的概率；Alternatively, the detonation device may be configured to detonate the explosive device when the voltage of the battery installed at the first battery installation position changes beyond a preset range. The preset range may be a preset corresponding voltage range for triggering detonation of the detonation device at the mechanical or mechanism level, the physical or chemical level, the hardware or software level, the analog or digital circuit level, the software configuration or the program level, etc. The preset range is set according to the actual situation and specific needs. That is to say, there are many ways to set it: the preset range may not include the voltage range when the battery combustion occurs, or may not include the voltage range when the battery combustion is about to occur. The preset range may be for the instantaneous value of the voltage during the voltage change, or for the change of the voltage value in the time dimension, such as the value of the voltage change speed, the acceleration, etc. The preset range may be for the unprocessed original value, or for the processed value, such as the average value, the moving slip value, the filtering value, the correction value, the noise reduction value, etc. The preset range may be for reducing equipment damage and personal injury for the specific battery combustion situation, or for reducing the probability of equipment damage and personal injury for a large number of statistical battery combustion samples;

或者所述引爆装置可被设置为所述第一电池安装位发生安装的所述电池电流改变超出预设范围时引爆所述***装置，预设范围可以是所述引爆装置在包括：机械或机构层面的、物理或化学层面的、硬件或软件层面的、模拟或数字电路层面的、软件配置或程序层面的等预设对应的触发引爆的电流范围，预设范围根据实际情况和具体需求设定，也就是说，设定方式有很多种：预设范围可以不包括所述电池燃烧发生时的电流范围，也可以不包括所述电池燃烧即将发生时的电流范围，预设范围可以针对电流变化中电流瞬时值，也可以针对电流值在时间维度上的变化，如电流变化速度、加速度等的值，预设范围可以针对未经处理的原始值，也可以针对经过处理的处理值，如平均值、移动滑差值、滤波值、修正值、降噪值等，预设范围可以针对具体的所述电池燃烧情况减少设备损坏和人身危害，也可以针对统计的所述电池燃烧大量样本减少发生的设备损坏和人身危害的概率；Alternatively, the detonation device may be configured to detonate the explosive device when the current of the battery installed at the first battery installation position changes beyond a preset range. The preset range may be a preset corresponding current range for triggering detonation of the detonation device at the mechanical or mechanism level, the physical or chemical level, the hardware or software level, the analog or digital circuit level, the software configuration or program level, etc. The preset range is set according to the actual situation and specific needs. That is to say, there are many ways to set it: the preset range may not include the current range when the battery combustion occurs, or may not include the current range when the battery combustion is about to occur. The preset range may be for the instantaneous value of the current during the current change, or for the change of the current value in the time dimension, such as the value of the current change speed, acceleration, etc. The preset range may be for the unprocessed original value, or for the processed value, such as the average value, the moving slip value, the filtering value, the correction value, the noise reduction value, etc. The preset range may be for reducing equipment damage and personal injury for the specific battery combustion situation, or for reducing the probability of equipment damage and personal injury for a large number of statistical battery combustion samples;

或者所述引爆装置可被设置为所述第一电池安装位发生所述引爆装置收到电子引爆信号时引爆所述***装置，所述电池燃烧发生或即将发生时，或者有可能导致所述电池燃烧时，还可以通过向所述引爆装置发送电子引爆信号引爆所述***装置；Alternatively, the detonating device may be configured to detonate the explosive device when the first battery installation position occurs and the detonating device receives an electronic detonation signal. When the battery combustion occurs or is about to occur, or when there is a possibility of causing the battery combustion, the explosive device may also be detonated by sending an electronic detonation signal to the detonating device.

或者火花、温度变化超过预设值、气压改变超出预设范围、亮度变化超过预设值、安装的所述电池变形、安装的所述电池泄露、安装的所述电池燃烧、安装的所述电池***、安装的所述电池电压改变超出预设范围、安装的所述电池电流改变超出预设范围、所述引爆装置收到电子引爆信号其中多个共同发生于所述第一电池安装位时引爆所述***装置；此种情况下所 述的预设值、预设范围可能是独立设置，也可能是联动设置；所述联动设置，例如温度变化与变形与否联动设置：安装的所述电池未变形且温度高于Ta或安装的所述电池已变形且温度高于Tb或安装的所述电池已变形且温度升高速度每秒高于Tc则引爆所述***装置；所述联动设置，又例如压强变化、温度变化与亮度变化联动设置：安装的所述电池压强高于Pa且亮度高于La且温度高于Ta或安装的所述电池压强高于Pb且亮度高于La且温度高于Tb或安装的所述电池压强高于Pc且亮度高于Lc且温度高于Tc则引爆所述***装置。or sparks, temperature changes exceeding a preset value, air pressure changes exceeding a preset range, brightness changes exceeding a preset value, deformation of the installed battery, leakage of the installed battery, combustion of the installed battery, explosion of the installed battery, voltage changes exceeding a preset range, current changes exceeding a preset range, the detonation device receiving an electronic detonation signal, and multiple of these occurring at the first battery installation position, the detonation device is detonated; in this case, The preset values and preset ranges may be independent settings or linkage settings; the linkage settings include, for example, linkage settings of temperature change and deformation: if the installed battery is not deformed and the temperature is higher than Ta, or the installed battery is deformed and the temperature is higher than Tb, or the installed battery is deformed and the temperature rise rate is higher than Tc per second, then the explosive device is detonated; the linkage settings include, for example, linkage settings of pressure change, temperature change and brightness change: if the installed battery pressure is higher than Pa, the brightness is higher than La, and the temperature is higher than Ta, or the installed battery pressure is higher than Pb, the brightness is higher than La, and the temperature is higher than Tb, or the installed battery pressure is higher than Pc, the brightness is higher than Lc, and the temperature is higher than Tc, then the explosive device is detonated.

本申请的实施例所述***装置设置引爆装置的技术方案，在所述电池燃烧发生或即将发生时，或者有可能导致所述电池燃烧时，所述引爆装置引爆所述***装置，将所述电池炸离所述第一电池安装位，提前消除所述电池对所述电池装置的损害或避免所述电池继续对所述电池装置的损害，减少设备损坏和人身危害。The technical solution of providing a detonating device for the explosion device in the embodiment of the present application is that when the battery combustion occurs or is about to occur, or when there is a possibility of causing the battery combustion, the detonating device detonates the explosion device to blow the battery away from the first battery installation position, thereby eliminating the damage caused by the battery to the battery device in advance or preventing the battery from continuing to damage the battery device, thereby reducing equipment damage and personal injury.

本申请的实施例所述引爆装置引爆所述***装置的方式，不限于：火花起爆、电力起爆、冲击波起爆、机械力起爆、爆轰波起爆、***起爆等。The manner in which the detonating device described in the embodiment of the present application detonates the explosive device is not limited to: spark detonation, electric power detonation, shock wave detonation, mechanical force detonation, detonation wave detonation, explosive detonation, etc.

具体应用时，针对上述本申请的实施例所述引爆装置引爆所述***装置的***起爆方式，如果设置所述引爆装置的所述***装置包括的***如果仅有一种，且通过该***可将所述电池炸离，虽然所述******时间非常短，但是应该仅将所述***最先***的部分视为属于所述引爆装置，该***其余部分被最先***的部分引爆，即所述引爆装置引爆所述***装置；此种情况，不应视作超出要求保护的本申请的范围。In specific applications, with respect to the above-mentioned method of detonating the explosives by the detonating device in the embodiment of the present application, if the detonating device includes only one type of explosive and the battery can be blown away by the explosive, although the explosion time of the explosive is very short, only the first exploded part of the explosive should be regarded as belonging to the detonating device, and the rest of the explosive is detonated by the first exploded part, that is, the detonating device detonates the explosive device; this situation should not be regarded as exceeding the scope of the present application for which protection is sought.

本申请的实施例所述电池装置设置所述***装置，所述***装置设置所述***被所述电池燃烧直接引爆，较为电池设置灭火装置、设置包覆阻燃材料装置，可以将燃烧的所述电池炸离，避免所述电池继续燃烧造成设备损坏和人身危害；所述***装置设置被所述电池变形导致的挤压引爆的所述***、被所述电池异常高温引爆的所述***、被所述电池破损导致的泄漏物引爆的所述***，或者所述引爆装置，都可以提前将燃烧的所述电池炸离，提前避免所述电池燃烧造成设备损坏和人身危害；所述***装置炸离所述电池，较其他单纯使用机械运动方式释放、推开燃烧的电池，结构简单可靠、快速高效、体积小重量轻成本低。The battery device described in the embodiment of the present application is provided with the explosion device, and the explosives in the explosion device are directly detonated by the combustion of the battery. Compared with the battery provided with a fire extinguishing device and a flame retardant material coating device, the burning battery can be blown away to avoid the battery continuing to burn and causing damage to equipment and personal injury; the explosion device is provided with the explosives that are detonated by squeezing caused by the deformation of the battery, the explosives that are detonated by the abnormally high temperature of the battery, the explosives that are detonated by leakage caused by the damage of the battery, or the detonating device, all of which can blow the burning battery away in advance to avoid the battery combustion causing damage to equipment and personal injury in advance; the explosion device blows away the battery, which is simple and reliable in structure, fast and efficient, small in size, light in weight and low in cost compared with other methods that simply use mechanical movement to release and push away the burning battery.

可选的，所述电池装置，还包括：控制器模块，与所述第一电池安装位的所述***装置的所述引爆装置相连；所述装置主体包括至少一个第二电池安装位，所述第二电池安装位用于安装至少一个电池；所述第二电池安装位包括传感器模块，所述传感器模块与所述控制器模块相连，用于检测所述第二电池安装位和其安装的所述电池的状态参数，并将所述状态参数传给所述控制器模块；所述控制器模块，用于接受所述状态参数，判断是否向所述第一电池安装位的所述***装置的所述引爆装置发送所述电子引爆信号，将其引爆，将所述第一电池安装位安装的所述电池炸离所述装置主体。Optionally, the battery device also includes: a controller module, which is connected to the detonation device of the explosive device at the first battery mounting position; the device body includes at least one second battery mounting position, and the second battery mounting position is used to install at least one battery; the second battery mounting position includes a sensor module, and the sensor module is connected to the controller module, and is used to detect the state parameters of the second battery mounting position and the battery installed therein, and transmit the state parameters to the controller module; the controller module is used to receive the state parameters, determine whether to send the electronic detonation signal to the detonation device of the explosive device at the first battery mounting position, detonate it, and blow the battery installed at the first battery mounting position away from the device body.

可选的，所述传感器模块，包括以下至少一种传感器：***检测传感器，用于检测所述电池是否***的状态参数；冲击波传感器，用于检测所述电池***冲击波的状态参数；温度传感器，用于检测温度的状态参数；压力传感器，用于检测压力的状态参数；气压传感器，用于检测气压的状态参数；亮光传感器，用于检测所述电池燃烧亮光的状态参数；电池 泄露物质传感器，用于检测所述电池泄露物质的状态参数；电池燃烧产物传感器，用于检测所述电池燃烧产物的状态参数；电压传感器，用于检测所述电池电压的状态参数；电流传感器，用于检测所述电池电流的状态参数。Optionally, the sensor module includes at least one of the following sensors: an explosion detection sensor for detecting a state parameter of whether the battery explodes; a shock wave sensor for detecting a state parameter of a shock wave of the battery explosion; a temperature sensor for detecting a state parameter of a temperature; a pressure sensor for detecting a state parameter of a pressure; an air pressure sensor for detecting a state parameter of an air pressure; a light sensor for detecting a state parameter of a light emitted by the battery; a battery A leakage material sensor is used to detect the state parameters of the battery leakage material; a battery combustion product sensor is used to detect the state parameters of the battery combustion product; a voltage sensor is used to detect the state parameters of the battery voltage; and a current sensor is used to detect the state parameters of the battery current.

本申请的实施例还提供了一种设备设置所述电池装置的方法：步骤S10：判断所述电池被所述***装置从所述电池装置炸离后的运动路径；步骤S20：判断所述电池被所述***装置从所述电池装置炸离后的燃烧波及区域；步骤S30：设置所述电池装置时，所述设备避开所述路径和所述区域。An embodiment of the present application also provides a method for an equipment to set up the battery device: step S10: determine the movement path of the battery after being blown away from the battery device by the explosive device; step S20: determine the combustion affected area after the battery is blown away from the battery device by the explosive device; step S30: when setting up the battery device, the equipment avoids the path and the area.

本申请的实施例的有益效果，还包括：The beneficial effects of the embodiments of the present application also include:

通过所述***装置将燃烧的，或可能燃烧的所述第一电池安装位安装的所述电池，从所述第一电池安装位炸离。***装置普遍***能量密度高，方案的有助于实现装置体积小、成本低的有益效果；***装置普遍***能量释放迅速，方案的有助于实现解除所述电池燃烧的危险、速度快、损失小的有益效果。The battery installed in the first battery installation position that is burning or may burn is blasted away from the first battery installation position by the explosive device. The explosive device generally has a high explosion energy density, and the scheme helps to achieve the beneficial effects of small device size and low cost; the explosive device generally releases explosive energy quickly, and the scheme helps to achieve the beneficial effects of eliminating the danger of battery combustion, fast speed and small loss.

在所述***装置设置所述***的技术方案中，所述***可以被所述电池燃烧直接引爆；一旦所述电池发生燃烧，引爆所述***装置，将所述电池从所述第一电池安装位炸离，避免了所述电池继续燃烧对所述电池装置的危害。同时，方案的有助于实现引爆机制快速、简单且直接，可靠性高的有益效果。In the technical solution of setting the explosive in the explosive device, the explosive can be directly detonated by the combustion of the battery; once the battery burns, the explosive device is detonated to blow the battery away from the first battery installation position, thereby avoiding the harm of the battery device to the battery device caused by the continued combustion of the battery. At the same time, the solution helps to achieve the beneficial effects of a quick, simple and direct detonation mechanism with high reliability.

在所述***装置设置被所述电池变形导致的挤压引爆的所述***、被所述电池异常高温引爆的所述***或被所述电池破损导致的泄漏物引爆的所述***的技术方案中，所述***被与所述电池燃烧伴随的变形、高温或泄漏所引爆；所述电池即将发生燃烧，引爆所述***装置，将所述电池从所述第一电池安装位炸离，避免了所述电池燃烧对所述电池装置的危害。同时，方案的有助于实现引爆机制快速、简单且直接，可靠性高的有益效果。In the technical solution that the explosive device is provided with the explosive detonated by the extrusion caused by the deformation of the battery, the explosive detonated by the abnormal high temperature of the battery, or the explosive detonated by the leakage caused by the damage of the battery, the explosive is detonated by the deformation, high temperature or leakage associated with the combustion of the battery; when the battery is about to burn, the explosive device is detonated to blow the battery away from the first battery installation position, thereby avoiding the harm of the battery combustion to the battery device. At the same time, the solution helps to achieve the beneficial effects of fast, simple and direct detonation mechanism and high reliability.

在所述***装置设置所述引爆装置的技术方案中，所述引爆装置在所述第一电池安装位出现：火花、温度变化超过预设值、气压变化超过预设值、亮度变化超过预设值、安装的所述电池变形、安装的所述电池泄露、安装的所述电池燃烧、安装的所述电池***、安装的所述电池电压改变超出预设范围、安装的所述电池电流改变超出预设范围，上述一个条件单独满足时或者多个条件共同满足时，引爆所述***装置将所述电池从所述第一电池安装位炸离，通过条件合理的组合和条件的具体预设值、预设范围合理的设定，方案既有助于实现避免燃烧的电池继续对所述电池装置的危害的效果，方案也有助于实现对即将燃烧的电池对所述电池装置潜在危险的解除的效果；所述引爆装置收到电子引爆信号时，引爆所述***装置，将所述电池从所述第一电池安装位炸离，方案有助于实现提高灵活度的有益效果。上述可选条件的若多个组合设定，较单一条件设定，方案不仅有助于实现可以提高触发的可靠度、降低失效率的有益效果，方案而且有助于实现可以提高触发的精准度、提高灵敏度降低误触发率的有益效果；另外可以通过灵活的条件搭配，也有助于实现具体应用该技术方案时，降低研发工作的难度和制造的物料成本的有益效果。In the technical solution of setting the detonating device in the explosion device, the detonating device appears at the first battery installation position: sparks, temperature changes exceeding a preset value, air pressure changes exceeding a preset value, brightness changes exceeding a preset value, deformation of the installed battery, leakage of the installed battery, combustion of the installed battery, explosion of the installed battery, voltage change of the installed battery exceeding a preset range, current change of the installed battery exceeding a preset range. When one of the above conditions is met alone or multiple conditions are met together, the explosion device is detonated to blast the battery away from the first battery installation position. Through reasonable combination of conditions and reasonable setting of specific preset values and preset ranges of conditions, the solution is helpful to achieve the effect of avoiding the burning battery from continuing to harm the battery device, and the solution is also helpful to achieve the effect of eliminating the potential danger of the battery that is about to burn to the battery device. When the detonating device receives an electronic detonation signal, the explosion device is detonated to blast the battery away from the first battery installation position. The solution helps to achieve the beneficial effect of improving flexibility. If multiple combinations of the above optional conditions are set, compared with a single condition setting, the scheme not only helps to achieve the beneficial effects of improving the reliability of triggering and reducing the failure rate, but also helps to achieve the beneficial effects of improving the accuracy of triggering, increasing sensitivity and reducing the false triggering rate; in addition, through flexible combination of conditions, it can also help to achieve the beneficial effect of reducing the difficulty of R&D work and the material cost of manufacturing when the technical scheme is specifically applied.

在所述电池装置设置所述控制器模块的可选方案中，通过所述传感器模块对所述第 二电池安装位和所述第二电池安装位安装的所述电池的状态参数的监控，判断所述第二电池安装位安装的所述电池是否发生燃烧，进一步判断该燃烧是否会对所述第一电池安装位安装的所述电池产生燃烧蔓延的威胁，预判是否需要将所述第一电池安装位安装的所述电池从所述第一电池安装位炸离。方案的有助于实现更高安全性的有益效果。同时若电池安装位采用第一电池安装位、第二电池安装位……的模块单元化设计，将电池分组安装，方案有助于提高整体安全性、灵活性，并降低需要炸离的燃烧的或有燃烧隐患的所述电池数量，方案也有助于实现降低具体应用该技术的复杂度的有益效果。In an optional solution of providing the controller module in the battery device, the sensor module is used to detect the first The status parameters of the battery installed in the second battery mounting position and the second battery mounting position are monitored to determine whether the battery installed in the second battery mounting position is burning, and further determine whether the burning will pose a threat of burning and spreading to the battery installed in the first battery mounting position, and predict whether it is necessary to blow up the battery installed in the first battery mounting position from the first battery mounting position. The scheme helps to achieve the beneficial effect of higher safety. At the same time, if the battery mounting position adopts a modular unit design of the first battery mounting position, the second battery mounting position, etc., and the batteries are installed in groups, the scheme helps to improve the overall safety and flexibility, and reduce the number of burning or burning batteries that need to be blown up, and the scheme also helps to achieve the beneficial effect of reducing the complexity of the specific application of this technology.

附图说明BRIEF DESCRIPTION OF THE DRAWINGS

为了更清楚地说明本申请实施例的技术方案，下面将对实施例中所需要使用的附图作简单地介绍，应当理解，以下附图仅示出了本申请的某些实施例，因此不应被看作是对范围的限定，对于本领域普通技术人员来讲，在不付出创造性劳动的前提下，还可以根据这些附图获得其他相关的附图。In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for use in the embodiments will be briefly introduced below. It should be understood that the following drawings only show certain embodiments of the present application and therefore should not be regarded as limiting the scope. For ordinary technicians in this field, other related drawings can be obtained based on these drawings without paying creative work.

图1为本申请的实施例1提供的电池装置的整体结构示意图；FIG1 is a schematic diagram of the overall structure of a battery device provided in Example 1 of the present application;

图2为本申请的实施例1提供的电池装置的第一电池安装位和第二电池安装位均未安装电池的整体结构示意图；FIG2 is a schematic diagram of the overall structure of the battery device provided in Example 1 of the present application, in which no battery is installed at the first battery installation position and the second battery installation position;

图3为本申请的实施例2提供的电池装置的整体结构示意图；FIG3 is a schematic diagram of the overall structure of a battery device provided in Example 2 of the present application;

图4为本申请的实施例3提供的电池装置的整体结构示意图；FIG4 is a schematic diagram of the overall structure of a battery device provided in Example 3 of the present application;

图5为本申请的实施例4提供的电池装置的整体结构示意图；FIG5 is a schematic diagram of the overall structure of a battery device provided in Example 4 of the present application;

图6为本申请的实施例5提供的电池装置的整体结构示意图；FIG6 is a schematic diagram of the overall structure of a battery device provided in Example 5 of the present application;

图7为本申请的实施例6提供的电池装置的整体结构示意图；FIG7 is a schematic diagram of the overall structure of a battery device provided in Example 6 of the present application;

图8为本申请的实施例7提供的电池装置的整体结构示意图；FIG8 is a schematic diagram of the overall structure of a battery device provided in Example 7 of the present application;

图9为本申请的实施例8提供的电池装置的整体结构示意图；FIG9 is a schematic diagram of the overall structure of a battery device provided in Example 8 of the present application;

图10为本申请的实施例9提供的电池装置的整体结构示意图；FIG10 is a schematic diagram of the overall structure of a battery device provided in Example 9 of the present application;

图11为本申请的实施例10提供的电池装置的整体结构示意图；FIG11 is a schematic diagram of the overall structure of a battery device provided in Example 10 of the present application;

图12为本申请的实施例11提供的电池装置的引爆装置由温度和其他条件共同发生触发的低温时的结构示意图；FIG12 is a schematic structural diagram of a detonation device of a battery device provided in Example 11 of the present application, which is triggered by temperature and other conditions at low temperature;

图13为本申请的实施例11提供的电池装置的引爆装置由温度和其他条件共同发生触发的高温时的结构示意图；FIG13 is a schematic structural diagram of a detonation device of a battery device provided in Example 11 of the present application when the detonation device is triggered by temperature and other conditions at high temperature;

图14为本申请的实施例12提供的电池装置的引爆装置由气压和其他条件共同发生触发的结构示意图；FIG14 is a schematic structural diagram of a detonation device of a battery device provided in Example 12 of the present application, which is triggered by air pressure and other conditions;

图15为本申请的实施例13提供的电池装置的引爆装置由两个条件共同发生触发的部分电路示意图；FIG15 is a partial circuit diagram of a detonation device of a battery device provided in Example 13 of the present application, which is triggered by two conditions occurring simultaneously;

图16为本申请的实施例14提供的电池装置的引爆装置的组成框图；FIG16 is a block diagram of the composition of the detonation device of the battery device provided in Example 14 of the present application;

图17为本申请的实施例15提供的电池装置的引爆装置由电子引爆信号引爆的部分电路示意图； FIG17 is a schematic diagram of a portion of the circuit of a detonation device of a battery device provided in Example 15 of the present application that is detonated by an electronic detonation signal;

图18为本申请的实施例16提供的电池装置的组成框图；FIG18 is a block diagram of a battery device according to Embodiment 16 of the present application;

图标：1—装置主体；11—第一电池安装位；111—安装位主体；112—***装置；1121—***；1122—引爆装置；1123—较低感度***；1124—高压气体；12—控制器模块；13—第二电池安装位；131—传感器模块；14—电池；1111—安装位顶部；1112—安装位盖；11221—双金属片阀门；11222—第二反应部件；11223—可滑动活塞；112241—第一传感器；112242—第二传感器；112243—第一电阻；112244—第二电阻；112245—第一比较器；112246—第二比较器；112247—与门；112248—信号输出；112249—信号输入；112240—电阻丝。Icons: 1—device body; 11—first battery mounting position; 111—mounting position body; 112—explosive device; 1121—explosive; 1122—detonating device; 1123—lower sensitivity explosive; 1124—high pressure gas; 12—controller module; 13—second battery mounting position; 131—sensor module; 14—battery; 1111—mounting position top; 1112—mounting position cover; 11221—bimetallic valve; 11222—second reaction component; 11223—slidable piston; 112241—first sensor; 112242—second sensor; 112243—first resistor; 112244—second resistor; 112245—first comparator; 112246—second comparator; 112247—AND gate; 112248—signal output; 112249—signal input; 112240—resistance wire.

具体实施方式Detailed ways

为使本申请实施例的目的、技术方案和优点更加清楚，下面将结合本申请实施例中的附图，对本申请实施例中的技术方案进行清楚、完整地描述，显然，所描述的实施例是本申请一部分实施例，而不是全部的实施例。通常在此处附图中描述和示出的本申请实施例的组件可以以各种不同的配置来布置和设计。In order to make the purpose, technical solution and advantages of the embodiments of the present application clearer, the technical solution in the embodiments of the present application will be clearly and completely described below in conjunction with the drawings in the embodiments of the present application. Obviously, the described embodiments are part of the embodiments of the present application, rather than all the embodiments. The components of the embodiments of the present application described and shown in the drawings here can be arranged and designed in various different configurations.

因此，以下对在附图中提供的本申请的实施例的详细描述并非旨在限制要求保护的本申请的范围，而是仅仅表示本申请的选定实施例。Therefore, the following detailed description of the embodiments of the present application provided in the accompanying drawings is not intended to limit the scope of the present application as claimed, but is merely representative of selected embodiments of the present application.

基于本申请中的实施例，本领域普通技术人员在没有作出创造性劳动前提下所获得的所有其他实施例，都属于本申请保护的范围。Based on the embodiments in this application, all other embodiments obtained by ordinary technicians in this field without making any creative work shall fall within the scope of protection of this application.

应注意到：相似的标号和字母在下面的附图中表示类似项，因此，一旦某一项在一个附图中被定义，则在随后的附图中不需要对其进行进一步定义和解释。It should be noted that similar reference numerals and letters denote similar items in the following drawings, and therefore, once an item is defined in one drawing, it does not require further definition and explanation in the subsequent drawings.

在本申请的描述中，需要说明的是，若出现术语“上”、“下”、“内”、“外”、“顶部”、“底部”等指示的方位或位置关系为基于附图所示的方位或位置关系，或者是该申请产品使用时惯常摆放的方位或位置关系，仅是为了便于描述本申请和简化描述，而不是指示或暗示所指的装置或元件必须具有特定的方位、以特定的方位构造和操作，因此不能理解为对本申请的限制。In the description of the present application, it should be noted that if the terms "upper", "lower", "inside", "outside", "top", "bottom", etc. appear, the orientation or position relationship indicated is based on the orientation or position relationship shown in the drawings, or is the orientation or position relationship in which the product of the application is usually placed when used. It is only for the convenience of describing the present application and simplifying the description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore cannot be understood as a limitation on the present application.

此外，若出现术语“第一”、“第二”等仅用于区分描述，而不能理解为指示或暗示相对重要性。In addition, the terms “first”, “second”, etc., if used, are merely used to distinguish between the descriptions and should not be understood as indicating or implying relative importance.

需要说明的是，在不冲突的情况下，本申请的实施例中的特征可以相互结合。It should be noted that, in the absence of conflict, the features in the embodiments of the present application may be combined with each other.

电池燃烧危险，可能造成设备的损坏，甚至人身危害。尤其是，当使用多个电池时，由于一个电池的燃烧，蔓延至其他电池燃烧，会造成更严重的设备损坏、人身危害。Battery combustion is dangerous and may cause damage to the equipment or even personal injury. In particular, when using multiple batteries, the combustion of one battery may spread to other batteries, causing more serious damage to the equipment and personal injury.

发明人研究发现，电池即将发生燃烧危险，常有：电池变型、电池泄露、异常高温、电池电压异常改变、电池电流异常改变等异常现象；电池发生燃烧危险时，过程可能是：燃烧、***、先燃烧再***、先***再燃烧、先燃烧再***后继续燃烧等；电池即将发生燃烧危险，或发生燃烧危险时，电池输出的电压、电流亦会异常变化，比如：被导体穿刺的电池燃烧之前，可能电压、电流急剧减小至近零；电池通过与其他电池串、并联作为电池组的一部分时，即将发生燃烧时电压、电流急剧增大甚至超出额定值、也可能出现负值。The inventors have found that when a battery is about to catch fire, there are often abnormal phenomena such as battery deformation, battery leakage, abnormally high temperature, abnormal change in battery voltage, and abnormal change in battery current. When a battery is in danger of catching fire, the process may be: combustion, explosion, burning first and then explosion, explosion first and then burning, burning first and then explosion and continued burning, etc. When a battery is about to catch fire or is in danger of catching fire, the voltage and current output by the battery may also change abnormally. For example, before a battery pierced by a conductor catches fire, the voltage and current may drop sharply to near zero. When a battery is connected in series or parallel with other batteries as part of a battery pack, the voltage and current may increase sharply and even exceed the rated value when it is about to catch fire, and negative values may also occur.

本实施例提供的技术方案中，通过将***装置设置在电池安装位，所述电池发生燃 烧，或所述电池发生上述异常现象时，将所述电池从所述电池安装位炸离，以解决减少所述电池燃烧导致的设备损坏、人身危害的问题。In the technical solution provided in this embodiment, by placing the explosive device at the battery installation position, the battery will burn. When the battery burns, or the above-mentioned abnormal phenomenon occurs in the battery, the battery is separated from the battery installation position to solve the problem of reducing equipment damage and personal injury caused by the battery burning.

图1为本实施例1提供的电池装置整体结构示意图，图2为本实施例1提供的电池装置的第一电池安装位和第二电池安装位均未安装电池的整体结构示意图。请结合参照图1和图2，本实施例提供了一种电池装置：包括装置主体和电池。Figure 1 is a schematic diagram of the overall structure of the battery device provided in this embodiment 1, and Figure 2 is a schematic diagram of the overall structure of the battery device provided in this embodiment 1 without batteries installed in the first battery installation position and the second battery installation position. Referring to Figures 1 and 2, this embodiment provides a battery device including a device body and a battery.

所述装置主体设置有至少一个电池安装位，包括第一电池安装位、可选的第二电池安装位。The device body is provided with at least one battery installation position, including a first battery installation position and an optional second battery installation position.

在所述第一电池安装位的安装位主体上，设置有***装置，所述***装置上安装有所述电池。An explosion device is arranged on the installation position body of the first battery installation position, and the battery is installed on the explosion device.

所述***装置，设置有对所述电池燃烧敏感的***，所述***被引爆后可将所述电池炸离。The explosive device is provided with explosives that are sensitive to the combustion of the battery, and the battery can be blown away after the explosives are detonated.

如果所述电池燃烧将引爆所述***，将所述电池炸离所述装置主体。If the battery burns, the explosive will detonate, blowing the battery away from the body of the device.

本实施例技术方案至少具有以下优点：The technical solution of this embodiment has at least the following advantages:

所述电池一旦发生燃烧，即刻被炸离；所述电池直接安装于所述***装置上，结构简单；除了极少数低感度***，绝大多数***都可被燃烧引爆，该方案非常助于实现整体的低成本。Once the battery starts to burn, it will be blown away immediately; the battery is directly installed on the explosive device, and the structure is simple; except for a very small number of low-sensitivity explosives, most of the explosives can be burned and detonated, and this solution is very helpful in achieving overall low cost.

可选的，提高所述***机械感度，使其受到所述电池变形导致的挤压时***，将所述电池炸离所述装置主体。Optionally, the mechanical sensitivity of the explosive is increased so that it explodes when squeezed by the deformation of the battery, thereby blowing the battery away from the device body.

本实施例该可选技术方案至少具有以下优点：This optional technical solution of this embodiment has at least the following advantages:

所述电池一旦变形，变形尚未引发燃烧时，所述***只要受到该变形导致的挤压时便被挤爆，因为所述电池变形可能是燃烧前兆，也可能导致燃烧，所以提前炸离所述电池避免其在所述安装位主体上燃烧。Once the battery is deformed but has not yet caused combustion, the explosive will be squeezed and exploded by the deformation. Because the battery deformation may be a precursor to combustion or may also cause combustion, the battery is blown away in advance to prevent it from burning on the installation location body.

可选的，提高所述***热感度，所述电池异常高温时便被引爆，将所述电池炸离所述装置主体；虽然通过调整所述***成分、成分比例等方式，将热感度调整刚达到电池异常高温即可实现本实施例可选技术方案功能，但是由于这些方式很难精确控制触发温度，可能会带来误触发，且考虑到所述电池温升刚达到电池异常高温的初期一般不会对所述第一电池安装位有损害；因此，通常所述***热感度温度设置较电池异常高温初期温度更高，只要不高于所述电池可能损害所述第一电池安装位的温度所述***被引爆即可。Optionally, the thermal sensitivity of the explosive is increased, and the battery is detonated when the battery is abnormally hot, thereby blowing the battery away from the device body. Although the optional technical solution function of this embodiment can be achieved by adjusting the thermal sensitivity to just reach the abnormally high temperature of the battery by adjusting the composition and proportion of the explosive, it is difficult to accurately control the trigger temperature by these methods, which may cause false triggering, and considering that the temperature rise of the battery just reaches the initial stage of the abnormally high temperature of the battery, generally no damage is caused to the first battery mounting position. Therefore, the thermal sensitivity temperature of the explosive is usually set higher than the initial temperature of the abnormally high temperature of the battery, and the explosive can be detonated as long as it is not higher than the temperature at which the battery may damage the first battery mounting position.

本实施例该可选技术方案至少具有以下优点：This optional technical solution of this embodiment has at least the following advantages:

所述电池一旦产生异常高温，甚至尚未燃烧时，所述***只要受到该异常高温便被***，因为异常高温可能是燃烧前兆，也可能导致燃烧，所以提前炸离所述电池避免其在所述安装位主体上燃烧。Once the battery generates abnormally high temperature, even before burning, the explosive will explode as soon as it is exposed to the abnormally high temperature. Because abnormally high temperature may be a precursor to combustion or may also cause combustion, the battery is blown away in advance to avoid burning on the installation location body.

可选的，所述***有雷酸汞成分，所述电池包装夹层中预置了少量锌铝镁粉，如果所述电池包装破损铝镁粉泄露，所述******，将所述电池炸离所述装置主体。Optionally, the explosive contains mercuric fulminate, and a small amount of zinc, aluminum and magnesium powder is pre-placed in the interlayer of the battery packaging. If the battery packaging is damaged and the aluminum and magnesium powder leaks, the explosive explodes and blows the battery away from the device body.

本实施例该可选技术方案至少具有以下优点：This optional technical solution of this embodiment has at least the following advantages:

所述电池一旦产生包装破损泄露，甚至尚未燃烧时，所述***只要接触预置的锌铝镁粉便被 引爆，因为所述电池包装破损可能是燃烧前兆，也可能导致燃烧，所以提前炸离所述电池避免其在所述安装位主体上燃烧。Once the battery is damaged and leaks, or even before burning, the explosive will be ignited as soon as it comes into contact with the pre-set zinc, aluminum and magnesium powder. Detonation, because the damage of the battery packaging may be a precursor to combustion and may also cause combustion, so the battery is exploded in advance to avoid it from burning on the installation position body.

进一步的，所述***装置，设置有引爆装置。Furthermore, the explosive device is provided with a detonating device.

可选的，本实施例所述引爆装置对火花敏感：所述电池正常工作时，没有火花，所述电池燃烧时，火花触发所述引爆装置，所述引爆装置引爆所述***装置，将所述电池炸离。Optionally, the detonator of this embodiment is sensitive to sparks: when the battery is working normally, there is no spark, and when the battery is burning, the spark triggers the detonator, and the detonator detonates the explosive device to blow the battery away.

可选的，本实施例所述引爆装置与温度有关：所述电池正常工作最高温度为t1，所述电池燃烧时，最高温度为t2；安全裕量Δt，Δt<t2-t1，Δt越小越高灵敏度，Δt越大越低误触发率；所述引爆装置设定温度预设值T，T>t1+Δt，当所述引爆装置温度达到或超过所述温度预设值T时，所述引爆装置引爆所述***装置，将所述电池炸离。Optionally, the detonating device described in this embodiment is related to temperature: the maximum temperature of the battery when working normally is t1, and the maximum temperature when the battery burns is t2; the safety margin Δt, Δt<t2-t1, the smaller Δt is, the higher the sensitivity is, and the larger Δt is, the lower the false trigger rate is; the detonating device sets a preset temperature value T, T>t1+Δt, and when the temperature of the detonating device reaches or exceeds the preset temperature value T, the detonating device detonates the explosive device to blow the battery away.

可选的，本实施例所述引爆装置与气压有关：所述第一电池安装位安装的电池未燃烧时，经测定正常气压范围Rp1，所述第一电池安装位安装的电池燃烧时，由于燃烧产生高温和气体，经测定气压范围Rp2，所述引爆装置设定为气压预设值范围，当所述引爆装置气压为时，即超出所述气压预设值范围，所述引爆装置引爆所述***装置，将所述电池炸离。本实施例该可选所述引爆装置的方案优选相对封闭环境应用；为提高所述Rp1、Rp2准确度，可采用多次测定后取平均值、中位值等的方法。Optionally, the detonation device of this embodiment is related to air pressure: when the battery installed at the first battery installation position is not burned, the normal air pressure range is Rp1 after measurement; when the battery installed at the first battery installation position is burned, the high temperature and gas generated by the combustion are within the air pressure range Rp2 after measurement, and the detonation device is set is the preset value range of air pressure. When the air pressure of the detonator is When the pressure exceeds the preset value range, the detonator detonates the explosive device to blow the battery away. In this embodiment, the optional detonator is preferably used in a relatively closed environment; to improve the accuracy of Rp1 and Rp2, a method of taking an average value or a median value after multiple measurements can be used.

可选的，本实施例所述引爆装置与气压有关：所述第一电池安装位安装的电池未燃烧时，经测定正常气压每秒改变绝对值最大为p1，所述第一电池安装位安装的电池燃烧时，由于燃烧产生气流，经测定气压每秒改变绝对值最大为p2，安全裕量Δp，Δp<p2-p1，Δp越小越高灵敏度，Δp越大越低误触发率；所述引爆装置设定气压每秒改变绝对值预设值P，P>p1+Δt，当所述引爆装置气压每秒改变绝对值达到或超过所述气压每秒改变绝对值预设值P时，所述引爆装置引爆所述***装置，将所述电池炸离。本实施例该可选所述引爆装置的方案优选相对开放环境应用；为提高所述p1、p2准确度，可采用多次测定后取平均值、中位值等的方法。Optionally, the detonation device described in this embodiment is related to air pressure: when the battery installed in the first battery installation position is not burned, it is measured that the maximum absolute value of the normal air pressure change per second is p1; when the battery installed in the first battery installation position is burned, due to the airflow generated by the combustion, it is measured that the maximum absolute value of the air pressure change per second is p2, and the safety margin Δp, Δp<p2-p1, the smaller the Δp, the higher the sensitivity, and the larger the Δp, the lower the false trigger rate; the detonation device sets the air pressure to change the absolute value of the preset value P per second, P>p1+Δt, when the absolute value of the air pressure change per second of the detonation device reaches or exceeds the preset value P of the absolute value of the air pressure change per second, the detonation device detonates the explosive device to blow the battery away. The optional detonation device of this embodiment is preferably used in a relatively open environment; in order to improve the accuracy of p1 and p2, a method such as taking the average value or median value after multiple measurements can be used.

可选的，本实施例所述引爆装置与亮度有关：所述第一电池安装位安装的电池未燃烧时，经测定最高亮度为l1，所述第一电池安装位安装的电池燃烧时，经测定最低亮度为l2，且l1<l2；安全裕量Δl，Δl<l2-l1，Δl越小越高灵敏度，Δl越大越低误触发率；所述引爆装置设定亮度预设值L，L>l1+Δl，当所述引爆装置亮度达到或超过所述亮度预设值L时，所述引爆装置引爆所述***装置，将所述电池炸离。本实施例该可选所述引爆装置的方案，为提高所述l1、l2准确度，可采用多次测定后取平均值、中位值等的方法。Optionally, the detonation device described in this embodiment is related to brightness: when the battery installed in the first battery installation position is not burning, the highest brightness is measured to be l1, and when the battery installed in the first battery installation position is burning, the lowest brightness is measured to be l2, and l1<l2; safety margin Δl, Δl<l2-l1, the smaller Δl is, the higher the sensitivity is, and the larger Δl is, the lower the false trigger rate is; the detonation device sets a preset brightness value L, L>l1+Δl, when the brightness of the detonation device reaches or exceeds the preset brightness value L, the detonation device detonates the explosive device to blow the battery away. In this embodiment, the optional scheme of the detonation device can improve the accuracy of l1 and l2 by taking the average value, median value, etc. after multiple measurements.

可选的，本实施例所述引爆装置对压力敏感，所述电池发生变形时挤压所述引爆装置，触发所述引爆装置，所述引爆装置引爆所述***装置，将所述电池炸离。所述引爆装置对压力敏感不限于：压力通过触发机械扳机释放弹性势能、压力通过压电效应产生电弧、压敏起爆***等实现方式触发所述引爆装置。Optionally, the detonator of this embodiment is sensitive to pressure, and when the battery is deformed, the detonator is squeezed to trigger the detonator, and the detonator detonates the explosive device to blow the battery away. The detonator is sensitive to pressure but is not limited to: the detonator is triggered by pressure releasing elastic potential energy by triggering a mechanical trigger, pressure generating an arc by piezoelectric effect, pressure-sensitive detonation of explosives, and the like.

可选的，本实施例所述引爆装置对电池泄露物质敏感，所述电池发生泄露时，电池 泄露物质触发所述引爆装置，所述引爆装置引爆所述***装置，将所述电池炸离。所述电池泄露物质可能为：电解质液体、有机气体等，针对性的可通过离子触发、气体触发等，或使用离子传感器、气体传感器等的电路触发的实现方式触发所述引爆装置。Optionally, the detonation device of this embodiment is sensitive to battery leakage. When the battery leaks, the battery The leaked substance triggers the detonator, and the detonator detonates the detonator to blow the battery away. The leaked substance of the battery may be electrolyte liquid, organic gas, etc., and the detonator can be triggered by ion triggering, gas triggering, etc., or by circuit triggering using ion sensors, gas sensors, etc.

可选的，本实施例所述引爆装置对电池燃烧产物敏感，所述电池发生燃烧时，电池燃烧产物触发所述引爆装置，所述引爆装置引爆所述***装置，将所述电池炸离。所述电池燃烧产物可能为：气体、粉尘，针对性的可通过气体触发、粉尘触发等，或使用气体传感器、粉尘传感器等的电路触发的实现方式触发所述引爆装置。Optionally, the detonation device of this embodiment is sensitive to battery combustion products. When the battery burns, the battery combustion products trigger the detonation device, and the detonation device detonates the explosion device to blow the battery away. The battery combustion products may be: gas, dust, and the detonation device can be specifically triggered by gas triggering, dust triggering, etc., or by using circuit triggering of gas sensors, dust sensors, etc.

可选的，本实施例所述引爆装置对***冲击波敏感，所述电池发生***时，***冲击波触发所述引爆装置，所述引爆装置引爆所述***装置，将所述电池炸离。所述引爆装置对***冲击波敏感不限于：机械式、电子式、或者材料冲击波下化学反应的实现方式触发所述引爆装置。Optionally, the detonator of this embodiment is sensitive to explosion shock waves. When the battery explodes, the explosion shock wave triggers the detonator, and the detonator detonates the detonator to blow the battery away. The detonator is sensitive to explosion shock waves but is not limited to: triggering the detonator mechanically, electronically, or by chemical reactions under material shock waves.

可选的，本实施例所述引爆装置与电流有关，根据电池供应商提供所述电池的型号在某工况下对应有安全电流值范围Ri1，对应有危险电流值范围Ri2，且取设定为电流预设值范围，当该工况下，电流值处于该工况对用的Ri2时，即超出所述电流预设值范围，所述引爆装置引爆所述***装置，将所述电池炸离。Optionally, the detonation device in this embodiment is related to the current. According to the battery model provided by the battery supplier, under certain working conditions, there is a safe current value range Ri1 and a dangerous current value range Ri2. set up is a current preset value range. When, under this working condition, the current value is in Ri2 for this working condition, that is, it exceeds the current preset value range, the detonating device detonates the explosive device to blow the battery away.

可选的，本实施例所述引爆装置与电压有关，根据电池供应商提供所述电池的型号在某工况下对应有安全电压值范围Ru1，对应有危险电压值范围Ru2，且取设定为电压预设值范围，当该工况下，电压值处于该工况对用的Ru2时，即超出所述电压预设值范围，所述引爆装置引爆所述***装置，将所述电池炸离。Optionally, the detonation device in this embodiment is related to voltage. According to the battery model provided by the battery supplier, under certain working conditions, there is a safe voltage value range Ru1 and a dangerous voltage value range Ru2. set up is a voltage preset value range. When, under this working condition, the voltage value is at Ru2 for this working condition, that is, it exceeds the voltage preset value range, the detonating device detonates the explosive device to blow the battery away.

可选的，火花、温度变化超过预设值、气压变化超出预设范围、亮度变化超过预设值、安装的所述电池变形、安装的所述电池泄露、安装的所述电池燃烧、安装的所述电池***、安装的所述电池电压改变超出预设范围、安装的所述电池电流改变超出预设范围，本实施例所述引爆装置对上述其中至少两项共同发生时敏感，所述引爆装置引爆所述***装置，将所述电池炸离。Optionally, the detonation device described in this embodiment is sensitive to at least two of the following conditions occurring simultaneously: sparks, temperature changes exceeding a preset value, air pressure changes exceeding a preset range, brightness changes exceeding a preset value, deformation of the installed battery, leakage of the installed battery, combustion of the installed battery, explosion of the installed battery, voltage changes of the installed battery exceeding a preset range, current changes of the installed battery exceeding a preset range. The detonation device detonates the explosion device to blow the battery away.

本实施例技术方案至少还具有以下优点：The technical solution of this embodiment also has at least the following advantages:

所述电池一旦发生燃烧，即刻被炸离；进一步的，通过合理设置所述引爆装置，还可以在所述电池即将发生燃烧时将其炸离。Once the battery starts to burn, it will be blown away immediately; further, by properly setting the detonation device, the battery can also be blown away when it is about to burn.

可选的，本实施例所述第一电池安装位的所述引爆装置对电子引爆信号敏感，所述装置主体，包括第二电池安装位，并在所述第二电池安装位上设置有传感器装置。Optionally, in this embodiment, the detonation device at the first battery installation position is sensitive to an electronic detonation signal, and the device body includes a second battery installation position, and a sensor device is arranged at the second battery installation position.

进一步的，所述电池装置还包括控制器模块。Furthermore, the battery device also includes a controller module.

所述传感器装置实时收集所述第二电池安装位和其安装的所述电池的状态参数，并将所述状态参数传给所述控制器模块。The sensor device collects status parameters of the second battery installation position and the battery installed therein in real time, and transmits the status parameters to the controller module.

所述控制器模块，接受到所述状态参数后，判断所述第二电池安装位安装的所述电池是否处于燃烧的状态或者即将燃烧的状态；如果是则向所述第一电池安装位的所述***装置的所述引爆装置发送所述电子引爆信号，将其引爆。 After receiving the state parameter, the controller module determines whether the battery installed at the second battery installation position is in a burning state or is about to burn; if so, it sends the electronic detonation signal to the detonation device of the explosive device at the first battery installation position to detonate it.

所述引爆装置对所述电子引爆信号敏感，不限于：高电压或大电流的强电直接引爆信号、模拟或数字的弱电间接引爆信号等类型的电子引爆信号，引爆所述引爆装置的实现方式。The detonation device is sensitive to the electronic detonation signal, which is not limited to: a high voltage or high current strong electric direct detonation signal, an analog or digital weak electric indirect detonation signal and other types of electronic detonation signals, and the method of detonating the detonation device is implemented.

本可选实施例至少还具有以下优点：This optional embodiment also has at least the following advantages:

所述电池一旦有周边的所述第二电池安装位发生燃烧的危险，所述电池即刻被炸离，进一步防止危险的蔓延。Once the battery is in danger of catching fire at the surrounding second battery installation positions, the battery will be immediately blown away, further preventing the spread of danger.

图3为本申请的实施例2提供的电池装置的整体结构示意图，实施例2提供了一种所述电池装置的电池安装位：所述***装置固定在所述电池安装位的所述安装位主体上，所述电池又同时固定于所述电池安装位的所述安装位主体和所述***装置上。Figure 3 is a schematic diagram of the overall structure of the battery device provided in Example 2 of the present application. Example 2 provides a battery mounting position of the battery device: the explosion device is fixed on the mounting position body of the battery mounting position, and the battery is simultaneously fixed on the mounting position body of the battery mounting position and the explosion device.

图4为本申请的实施例3提供的电池装置的整体结构示意图，实施例3提供了一种所述电池装置的电池安装位：所述***装置固定在所述电池安装位的所述安装位主体上，所述电池又固定于所述安装位主体上。Figure 4 is a schematic diagram of the overall structure of the battery device provided in Example 3 of the present application. Example 3 provides a battery mounting position of the battery device: the explosion device is fixed on the mounting position body of the battery mounting position, and the battery is fixed on the mounting position body.

图5为本申请的实施例4提供的电池装置的整体结构示意图，实施例4提供了一种所述电池装置的电池安装位：所述电池固定于所述电池安装位的所述安装位主体上，所述***装置又固定在所述电池上。Figure 5 is a schematic diagram of the overall structure of the battery device provided in Example 4 of the present application. Example 4 provides a battery mounting position of the battery device: the battery is fixed on the mounting position body of the battery mounting position, and the explosive device is fixed on the battery.

实施例2～4：所述电池安装位，尤其指所述第一电池安装位；所述电池包括多个电池单元；所述装置主体，不限于托式或架式载体；所述电池与所述安装位主体之间固定的方式，不限于栓接、铆接、焊接、粘接，或者使用过盈固定件等方式固定；所述固定强度选择需满足所述电池装置使用的正常需求，且可以被所述***装置***而破坏所述固定连接、并将所述电池炸离；所述电池安装位强度和固定方式强度的配合方式，优选所述***装置***不损坏或少损坏所述安装位主体。Embodiments 2 to 4: The battery mounting position refers in particular to the first battery mounting position; the battery comprises a plurality of battery cells; the device body is not limited to a support or rack-type carrier; the method of fixing the battery to the mounting position body is not limited to bolting, riveting, welding, bonding, or fixing by interference fit fasteners; the fixing strength selection must meet the normal requirements of the battery device, and the fixed connection can be destroyed and the battery can be blown away by the explosion of the explosive device; the strength of the battery mounting position and the strength of the fixing method are coordinated in such a way that the explosion of the explosive device does not damage or causes less damage to the mounting position body.

本实施例2～4至少具有以下优点：Embodiments 2 to 4 have at least the following advantages:

所述电池一旦发生燃烧，即刻被炸离。Once the battery starts to burn, it will be blown away immediately.

图6为本申请的实施例5提供的电池装置的整体结构示意图，实施例5提供了一种所述电池装置的电池安装位：所述电池安装位的所述安装位主体为封闭的容器，所述电池和所述***装置都置于所述安装位主体内；所述容器设置有相对薄弱的顶部，即安装位顶部可以在所述***装置***时破损，为所述电池提供炸离通道；所述薄弱的顶部采用，不限于较薄的、较弱的材料，或者在***中易损的设计等，如刻痕。Figure 6 is a schematic diagram of the overall structure of the battery device provided in Example 5 of the present application, which provides a battery mounting position for the battery device: the mounting position body of the battery mounting position is a closed container, and the battery and the explosive device are both placed in the mounting position body; the container is provided with a relatively weak top, that is, the mounting position top can be damaged when the explosive device explodes, providing a blasting channel for the battery; the weak top is made of, but not limited to, thinner, weaker materials, or designs that are easily damaged in an explosion, such as notches.

图7为本申请的实施例6提供的电池装置的整体结构示意图，实施例6提供了一种所述电池装置的电池安装位：所述电池安装位的所述安装位主体为开放的容器，所述容器开放处设置有盖板，即安装位盖；所述电池和所述***装置都置于所述安装位主体内；所述盖板在所述容器开放处，所述卡的方式不限于弹性卡或钢性卡，且可以因所述***装置***将所述盖板与所述电池一同炸离。Figure 7 is a schematic diagram of the overall structure of the battery device provided in Example 6 of the present application, which provides a battery mounting position for the battery device: the mounting position body of the battery mounting position is an open container, and a cover plate, i.e., a mounting position cover, is provided at the opening of the container; the battery and the explosive device are both placed in the mounting position body; the cover plate is at the opening of the container, and the card method is not limited to an elastic card or a rigid card, and the cover plate can be blown away together with the battery due to the explosion of the explosive device.

图8为本申请的实施例7提供的电池装置的整体结构示意图，实施例7提供了一种所述电池装置的电池安装位：所述电池安装位的所述安装位主体为开放的容器，所述电池部 分置于所述安装位主体内，所述***装置也置于所述安装位主体内，所述电池卡在所述安装位主体上，所述卡的方式不限于弹性卡或钢性卡，且可以因所述***装置***将所述电池炸离。FIG8 is a schematic diagram of the overall structure of a battery device provided in Example 7 of the present application. Example 7 provides a battery installation position of the battery device: the installation position body of the battery installation position is an open container, and the battery portion The battery is placed in the installation position body, the explosive device is also placed in the installation position body, the battery is stuck on the installation position body, the way of the sticking is not limited to elastic stick or rigid stick, and the battery can be blown away by the explosion of the explosive device.

实施例5～7：所述电池安装位，尤其指所述第一电池安装位；所述电池包括多个电池单元；所述装置主体，不限于托式或架式载体；所述***装置***将所述电池从所述容器炸离的***能量优选不损坏或少损坏所述安装位主体；所述***装置***产生气体或所述电池获得的动能，将所述电池炸离所述容器，所述***装置不限于包括推进性能优异的***，如硝化棉、硝酸铵、叠氮化盐、火药等，或包括化学性质稳定的高压气体，如氮气、惰性气体等。Embodiments 5 to 7: The battery installation position refers in particular to the first battery installation position; the battery includes a plurality of battery cells; the device body is not limited to a support or rack carrier; the explosion energy of the explosive device to blow the battery away from the container preferably does not damage or causes less damage to the installation position body; the explosion of the explosive device generates gas or the kinetic energy obtained by the battery to blow the battery away from the container, and the explosive device is not limited to explosives with excellent propulsion performance, such as nitrocellulose, ammonium nitrate, azide salts, gunpowder, etc., or includes high-pressure gases with stable chemical properties, such as nitrogen, inert gas, etc.

本实施例5～7至少具有以下优点：Embodiments 5 to 7 have at least the following advantages:

所述电池一旦发生燃烧，即刻被炸离；所述安装位主体为容器，可以对所述***装置和所述电池保护；如果所述***装置设置有所述引爆装置，可以为所述引爆装置提供相对隔离的环境，减少外界干扰。Once the battery starts to burn, it will be blown away immediately; the installation position body is a container, which can protect the explosive device and the battery; if the explosive device is provided with the detonating device, a relatively isolated environment can be provided for the detonating device to reduce external interference.

图9为本申请的实施例8提供的电池装置的整体结构示意图，实施例8提供了一种所述电池装置的电池安装位：所述***装置接触或接近所述电池设置有对所述电池燃烧敏感的***；所述***装置还设置有较低感度***，对所述电池燃烧敏感的所述***可以引爆所述较低感度***；上述两种******将所述电池炸离。Figure 9 is a schematic diagram of the overall structure of the battery device provided in Example 8 of the present application. Example 8 provides a battery installation position of the battery device: the explosion device is in contact with or close to the battery and is provided with explosives that are sensitive to the combustion of the battery; the explosion device is also provided with lower-sensitivity explosives, and the explosives that are sensitive to the combustion of the battery can detonate the lower-sensitivity explosives; the above two types of explosives explode to blow the battery away.

图10为本申请的实施例9提供的电池装置的整体结构示意图，实施例9提供了一种所述电池装置的电池安装位：所述***装置靠近所述电池设置有对所述电池燃烧敏感的***；所述******将所述电池炸离。FIG10 is a schematic diagram of the overall structure of the battery device provided in Example 9 of the present application. Example 9 provides a battery installation position of the battery device: the explosion device is provided with explosives sensitive to the combustion of the battery near the battery; the explosion of the explosives blows the battery away.

图11为本申请的实施例10提供的电池装置的整体结构示意图，实施例10提供了一种所述电池装置的电池安装位：所述***装置靠近所述电池设置有对所述电池燃烧敏感的***；所述***装置还设置有高压气体的容器，所述高压气体化学性质稳定；所述******可以破坏所述容器的密封性，快速释放所述高压气体，即通过物理***将所述电池炸离。Figure 11 is a schematic diagram of the overall structure of the battery device provided in Example 10 of the present application, which provides a battery installation position for the battery device: the explosion device is provided with explosives sensitive to the combustion of the battery near the battery; the explosion device is also provided with a container for high-pressure gas, and the high-pressure gas has stable chemical properties; the explosion of the explosives can destroy the sealing of the container and quickly release the high-pressure gas, that is, the battery is blown away by a physical explosion.

实施例8～10：所述电池安装位，尤其指第一电池安装位；所述电池包括多个电池单元；所述电池安装位，不限于封闭的容器的、开放的容器式的安装位或固定式的安装位等；所述***装置接触或接近所述电池设置所述***，所述***感度选择对所述电池燃烧敏感；限制所述***的所述敏感的方向性、范围性，即仅对所述电池燃烧敏感的***，不限于：降低所述***感度使其仅对所述电池燃烧敏感、在所述***外侧设置防护、通过空间布局使所述***隔离或远离其他燃烧物等方式实现。Embodiments 8 to 10: The battery mounting position refers in particular to the first battery mounting position; the battery comprises a plurality of battery cells; the battery mounting position is not limited to a closed container, an open container-type mounting position or a fixed mounting position, etc.; the explosive is arranged in such a way that the explosive device contacts or approaches the battery, and the sensitivity of the explosive is selected to be sensitive to the combustion of the battery; limiting the directionality and range of the sensitivity of the explosive, that is, limiting the explosive to be sensitive only to the combustion of the battery, is not limited to: reducing the sensitivity of the explosive to make it sensitive only to the combustion of the battery, setting protection on the outside of the explosive, isolating the explosive or keeping it away from other combustion materials through spatial layout, etc.

本实施例8至少具有以下优点：This embodiment 8 has at least the following advantages:

所述电池一旦发生燃烧，即刻被炸离；搭配使用了对所述电池燃烧敏感的***和较低感度***，可以提高所述***装置的安全可靠性，多种***的配合应用，还可以进一步降低成本、减小体积。Once the battery starts to burn, it will be blown away immediately; the use of explosives that are sensitive to the battery combustion and explosives with lower sensitivity can improve the safety and reliability of the explosive device, and the coordinated use of multiple explosives can further reduce costs and reduce volume.

本实施例9至少具有以下优点： This embodiment 9 has at least the following advantages:

所述电池一旦发生燃烧，即刻被炸离。Once the battery starts to burn, it will be blown away immediately.

本实施例10至少具有以下优点：This embodiment 10 has at least the following advantages:

所述电池一旦发生燃烧，即刻被炸离；搭配使用了对所述电池燃烧敏感的***和化学性质稳定高压气体，化学性质稳定高压气体释放还有利于在短时间形成阻燃屏蔽效果；化学***和物理***的配合应用，还便于在世界上一些对化学***当量有严格法规限制的地区应用。作为本申请的实施例10的另一个类似的实施例，还可以将所述***替换为所述引爆装置，由所述引爆装置引爆所述高压气体容器。Once the battery starts to burn, it will be blown away immediately; the explosives that are sensitive to the battery combustion and the chemically stable high-pressure gas are used together, and the release of the chemically stable high-pressure gas is also conducive to forming a flame retardant shielding effect in a short time; the coordinated application of chemical explosion and physical explosion is also convenient for application in some areas of the world that have strict legal restrictions on chemical explosion equivalent. As another similar embodiment of embodiment 10 of the present application, the explosive can also be replaced by the detonating device, and the high-pressure gas container is detonated by the detonating device.

实施例1～10：所述安装也可能包括所述电池对外有电路层面的联接；如果包括电路层面的联接，所述电池被撞炸离时，根据具体应用需求，可能所述联接被***切断或保留。Embodiments 1 to 10: The installation may also include a circuit-level connection between the battery and the outside world; if a circuit-level connection is included, when the battery is blown apart, the connection may be severed or retained by the explosion, depending on specific application requirements.

图12为本申请的实施例11提供的电池装置的引爆装置由温度和其他条件共同发生触发的低温时的结构示意图，图13为本申请的实施例11提供的电池装置的引爆装置由温度和其他条件共同发生引爆的高温时的结构示意图，结合图12和图13，实施例11提供了一种所述电池装置的所述引爆装置：所述引爆装置包括第一反应部件和第二反应部件；所述第一反应部件对温度物理反应，所述第一反应部件设置有双金属片阀门，所述双金属片阀门，随温度变化旋转角度，在低温时封闭，在高温时开放；调整闭合开放转换临界温度预设值T，可通过不限于改变所述双金属片的不同膨胀率的金属、调整所述双金属片两层的厚度比例、布置所述双金属片的形状和角度等方式实现；所述双金属片阀门封闭时隔离所述第二反应部件，开放时取消对所述第二反应部件的隔离；所述第二反应部件，可以对电池泄露物质反应，反应后可引爆所述***装置；所述引爆装置通过这种设置，实现了高温、电池泄露物质两个共同发生于所述第一电池安装位时引爆所述***装置将所述电池炸离；所述第二反应部件，还可以替换为对火花、气压、亮度、电池燃烧产物等之一反应的部件。FIG12 is a schematic diagram of the structure of the detonation device of the battery device provided in Example 11 of the present application, which is triggered by temperature and other conditions at low temperature. FIG13 is a schematic diagram of the structure of the detonation device of the battery device provided in Example 11 of the present application, which is triggered by temperature and other conditions at high temperature. In combination with FIG12 and FIG13, Example 11 provides a detonation device of the battery device: the detonation device includes a first reaction component and a second reaction component; the first reaction component physically reacts to temperature, and the first reaction component is provided with a bimetallic valve, and the bimetallic valve rotates at an angle according to the temperature, and is closed at low temperature and opened at high temperature; the critical temperature of the closed-open conversion is adjusted to preset the critical temperature of the closed-open conversion. The value T can be achieved by means of, but not limited to, changing the metals with different expansion rates of the bimetallic strip, adjusting the thickness ratio of the two layers of the bimetallic strip, arranging the shape and angle of the bimetallic strip, etc.; the second reaction component is isolated when the bimetallic strip valve is closed, and the isolation of the second reaction component is cancelled when it is open; the second reaction component can react to the battery leakage material, and can detonate the explosion device after the reaction; through this arrangement, the detonation device can detonate the explosion device to blow up the battery when high temperature and battery leakage material occur at the first battery installation position; the second reaction component can also be replaced by a component that reacts to one of sparks, air pressure, brightness, battery combustion products, etc.

图14为本申请的实施例12提供的电池装置的引爆装置由气压和其他条件共同发生触发的结构示意图，实施例12提供了一种所述电池装置的所述引爆装置：所述引爆装置包括第一反应部件和第二反应部件；所述第一反应部件对气压物理反应，即所述第一反应部件设置有后端装有弹簧的可滑动活塞，所述可滑动活塞，随气压变化伸缩，在低压时封闭，在高压时开放；调整闭合开放转换临界气压预设值P，可通过不限于改变所述弹簧的弹性系数、调整所述活塞的厚度、布置所述活塞的深浅达成；所述可滑动活塞封闭时隔离所述第二反应部件，开放式取消对所述第二反应部件的隔离；所述第二反应部件，可以对电池燃烧产物反应，反应后可引爆所述***装置；所述引爆装置通过这种设置，实现了高气压、电池燃烧产物两个共同发生于所述第一电池安装位时引爆所述***装置将所述电池炸离；所述第二反应部件，还可以替换为对火花、温度、亮度、电池泄露物质等之一反应的部件。FIG14 is a schematic diagram of the structure of the detonation device of the battery device provided in Example 12 of the present application, which is triggered by air pressure and other conditions. Example 12 provides a detonation device of the battery device: the detonation device includes a first reaction component and a second reaction component; the first reaction component physically reacts to air pressure, that is, the first reaction component is provided with a slidable piston with a spring installed at the rear end, the slidable piston expands and contracts with the air pressure, is closed at low pressure, and is open at high pressure; the closed-open conversion critical air pressure preset value P can be adjusted by, but not limited to, changing the elastic coefficient of the spring, adjusting the thickness of the piston, and arranging the depth of the piston; the slidable piston isolates the second reaction component when closed, and cancels the isolation of the second reaction component when open; the second reaction component can react to the battery combustion product, and can detonate the explosion device after the reaction; through this arrangement, the detonation device realizes that when high air pressure and battery combustion products occur together at the first battery installation position, the explosion device is detonated to blow the battery away; the second reaction component can also be replaced by a component that reacts to one of sparks, temperature, brightness, battery leakage, etc.

本实施例11～12，多个反应部件结构级联的原理为所述第一反应部件反应达到预期后，第二反应部件开始反应；以此类推，直至最后一个反应部件反应达到预期后触发引爆。In the present embodiments 11-12, the principle of the cascade structure of multiple reaction components is that after the reaction of the first reaction component reaches the expected level, the second reaction component starts to react; and so on, until the last reaction component reaches the expected level and triggers detonation.

本实施例11～12，仅是多个反应部件结构级联的原理的部分示例，所述第一反应部件不仅限于温度物理反应部件、气压物理反应部件，还可以换成其他的反应部件。 The present embodiments 11 to 12 are only partial examples of the principle of cascading multiple reaction component structures. The first reaction component is not limited to the temperature physical reaction component and the air pressure physical reaction component, and can also be replaced by other reaction components.

本实施例11～12所述引爆装置通过设置第一反应部件和第二反应部件结构级联，实现引爆装置由两个条件共同发生触发引爆；以此类推，将大于两个的多个反应部件结构级联，实现引爆装置由多个条件共同发生时触发，引爆所述***装置。The detonating devices described in Examples 11 to 12 of the present invention are configured with a first reaction component and a second reaction component in cascade structure, so that the detonating device is triggered and detonated by two conditions occurring simultaneously; similarly, a plurality of reaction component structures greater than two are cascaded, so that the detonating device is triggered and detonated by the occurrence of multiple conditions simultaneously.

实施例11～12至少具有以下优点：Embodiments 11 to 12 have at least the following advantages:

所述引爆装置通过设置多个级联的反应部件，实现引爆装置由多个条件共同发生时触发，引爆所述***装置，提高了触发的精准度、提高灵敏度降低误触发率。The detonating device is provided with a plurality of cascaded reaction components, so that the detonating device is triggered when a plurality of conditions occur together, and the detonating device is detonated, thereby improving the triggering accuracy, improving the sensitivity and reducing the false triggering rate.

图15为本申请的实施例13提供的电池装置的引爆装置由两个条件共同发生触发的部分电路示意图，实施例13提供了一种所述电池装置的所述引爆装置：所述引爆装置包括第一传感器和第二传感器；上述两个传感器可各检测火花、温度、气压、亮度、电池变形、电池泄露物质、电池燃烧产物、电池***冲击波、电池电压、电池电流其中某两个状态的其中之一，并分别转换为模拟电压信号；第一传感器将所述信号输入第一比较器正信号输入端，第二传感器将所述信号输入第二比较器正信号输入端；第一电阻和第二电阻串联分压，并将分压信号输入所述第二比较器负信号输入端；同时也有另一分压信号输入所述第一比较器负信号输入端；所述第一比较器输出信号输入与门，同时所述第二比较器输出信号也输入所述与门；调节所述第一电阻和所述第二电阻的比例，即可调整所述分压信号的大小；所述分压信号对应所述状态的预设值，如气压预设值P、温度预设值T、亮度预设值L等；当两个所述传感器的模拟电压信号都高于所述分压信号，即都超过所述预设值，所述与门输入都为高电平，都与门运算后输出高电平，可实现所述引爆装置由两个条件共同发生触发，引爆所述***装置。FIG15 is a schematic diagram of a partial circuit of an explosion device of a battery device provided in Example 13 of the present application, which is triggered by two conditions occurring simultaneously. Example 13 provides an explosion device of the battery device: the explosion device comprises a first sensor and a second sensor; the two sensors can respectively detect one of two states of sparks, temperature, air pressure, brightness, battery deformation, battery leakage, battery combustion products, battery explosion shock waves, battery voltage, and battery current, and convert them into analog voltage signals respectively; the first sensor inputs the signal into the positive signal input terminal of the first comparator, and the second sensor inputs the signal into the positive signal input terminal of the second comparator; the first resistor and the second resistor are connected in series for voltage division, and the voltage division signal is converted into an analog voltage signal; A signal is input into the negative signal input terminal of the second comparator; at the same time, another voltage-divided signal is input into the negative signal input terminal of the first comparator; the output signal of the first comparator is input into the AND gate, and the output signal of the second comparator is also input into the AND gate; the size of the voltage-divided signal can be adjusted by adjusting the ratio of the first resistor to the second resistor; the voltage-divided signal corresponds to a preset value of the state, such as the preset value P of the air pressure, the preset value T of the temperature, the preset value L of the brightness, etc.; when the analog voltage signals of the two sensors are higher than the voltage-divided signal, that is, they both exceed the preset value, the inputs of the AND gate are both high level, and the AND gate outputs a high level after operation, so that the detonating device can be triggered by two conditions together to detonate the explosive device.

比较器正负信号输入互换，也可实现所述传感器的所述模拟电压信号低于所述分压信号，给所述与门输入高电平；可用于比如低于电流预设值范围最低值、低于电压预设值范围最低值等触发情况；所述传感器输出模拟电压信号，如果经过微分电路再输入所述比较器，还可以用于比如温度升高速度超过预设值、气压变化速度超出预设范围等触发情况。The positive and negative signal inputs of the comparator are interchanged, and the analog voltage signal of the sensor can be lower than the voltage division signal, and a high level can be input to the AND gate; it can be used for triggering situations such as being lower than the lowest value of the preset current value range, lower than the lowest value of the preset voltage value range, etc.; the sensor outputs an analog voltage signal, and if it is input into the comparator through a differential circuit, it can also be used for triggering situations such as the temperature rise rate exceeds the preset value, the air pressure change rate exceeds the preset range, etc.

如果所述传感器输出开关信号，则输入与门前信号不需经过比较器；所述开关信号可根据需要先经过非门再进入与门。If the sensor outputs a switch signal, the signal does not need to pass through the comparator before entering the AND gate; the switch signal can first pass through the NOT gate and then enter the AND gate as needed.

如果所述传感器输出电压过高，可能需要事先将该输出分压；如果所述传感器输出电压过低，可能需要事先将该输出放大。If the output voltage of the sensor is too high, it may be necessary to divide the output voltage in advance; if the output voltage of the sensor is too low, it may be necessary to amplify the output in advance.

选用大于两路输入的多路与门，或者通过多个双路输入所述与门的级联，采集大于两个的多个所述传感器信号，可实现所述引爆装置由多个条件共同发生时触发；如果将与门换成或门，或者将多路与门的输出接入或门输入，将或门的输出信号，作为本示意图的信号输出；则可以实现更复杂、更灵活的判断是否引爆的逻辑。By selecting a multi-channel AND gate with more than two inputs, or by cascading multiple dual-channel input AND gates, and collecting more than two sensor signals, the detonation device can be triggered when multiple conditions occur together. If the AND gate is replaced with an OR gate, or the outputs of the multi-channel AND gates are connected to the OR gate input, and the output signal of the OR gate is used as the signal output of this schematic diagram, a more complex and flexible logic for determining whether to detonate can be implemented.

与门的输出信号，即本示意图的信号输出，可以经过不限于电流放大后作用于电阻丝产生高温红热或者经过升压电路后产生高压电弧放电等方式引爆所述***装置，将所述电池炸离。The output signal of the AND gate, i.e., the signal output of the present schematic diagram, can be used to detonate the explosive device and blow away the battery by means of, but not limited to, current amplification and then acting on the resistor to generate high temperature red heat or by passing through a boost circuit to generate high voltage arc discharge.

本实施例13至少具有以下优点： This embodiment 13 has at least the following advantages:

所述引爆装置通过设置所述与门，实现多个传感器在多个条件共同发生时触发引爆。The detonation device is provided with the AND gate so as to enable multiple sensors to trigger detonation when multiple conditions occur simultaneously.

图16为本申请的实施例14提供的电池装置的引爆装置的组成框图，实施例14提供了一种所述电池装置的所述引爆装置：所述引爆装置包括传感器模块、控制器模块、引爆模块构成；传感器模块包括至少一个传感器，所述传感器可以是***检测传感器、冲击波传感器、温度传感器、压力传感器、气压传感器、亮光传感器、电池泄漏物质传感器、电池燃烧产物传感器、电池电压传感器、电池电流传感器；所述传感器与所述控制器模块相连，向所述控制器模块传输模拟量信号、数字量信号或开关信号；所述控制器模块根据所述传感器信号，分析判断所述电池是否燃烧或即将燃烧；模拟量信号、数字量信号转换为传感器对应的数值；开关信号转换为传感器对应是与否；所述控制器模块包含MCU，所述MCU运行程序实时比对上述传感器信号是否符合引爆规则；所述引爆规则可以包括并行的多个一级规则，只要一个所述一级规则符合时便向所述引爆模块发送引爆信号；对于其中某个所述一级规则可以包括串行的多个二级规则，只有该所述一级规则的全部所述二级规则都符合时该所述一级规则才符合；所述规则用于判断上述各种传感器对应的各种变化的是与否，以及上述各种传感器对应的数值与被检测的各种变化是否超出预设范围、是否超过预设值；所述MCU包含计时器，用于统计被上述各种传感器检测的各种变化的速度、加速度；所述MCU包含传感器数据滤波程序；所述控制器模块连接所述引爆模块，所述引爆模块引爆所述***装置，将所述电池炸离。FIG16 is a block diagram of the composition of the detonation device of the battery device provided in Example 14 of the present application, and Example 14 provides a detonation device of the battery device: the detonation device includes a sensor module, a controller module, and a detonation module; the sensor module includes at least one sensor, and the sensor can be an explosion detection sensor, a shock wave sensor, a temperature sensor, a pressure sensor, an air pressure sensor, a light sensor, a battery leakage material sensor, a battery combustion product sensor, a battery voltage sensor, and a battery current sensor; the sensor is connected to the controller module and transmits an analog signal, a digital signal, or a switch signal to the controller module; the controller module analyzes and determines whether the battery is burning or about to burn according to the sensor signal; the analog signal and the digital signal are converted into a numerical value corresponding to the sensor; the switch signal is converted into a yes or no corresponding to the sensor; the controller module The block includes an MCU, and the MCU runs a program to compare the sensor signal in real time to see if it meets the detonation rules; the detonation rules may include multiple parallel primary rules, and a detonation signal is sent to the detonation module as long as one of the primary rules meets the requirements; a certain primary rule may include multiple serial secondary rules, and the primary rule is met only when all the secondary rules of the primary rule meet the requirements; the rules are used to judge whether the various changes corresponding to the various sensors are true or false, and whether the values corresponding to the various sensors and the various changes detected exceed the preset range and the preset value; the MCU includes a timer for counting the speed and acceleration of the various changes detected by the various sensors; the MCU includes a sensor data filtering program; the controller module is connected to the detonation module, and the detonation module detonates the explosive device to blow the battery away.

所述控制器模块有配置所述模拟量信号、数字量信号的预设值或预设范围，所述控制器模块比较所述传感器信号是否超出预设值或预设范围；所述控制器模块根据所述开关信号的开、关，所述模拟量信号、数字量信号是否超出预设值或预设范围，综合分析判断所述电池是否燃烧或即将燃烧。The controller module is configured with preset values or preset ranges of the analog signal and the digital signal, and the controller module compares whether the sensor signal exceeds the preset value or the preset range; the controller module comprehensively analyzes and determines whether the battery is burning or about to burn based on the on/off of the switch signal and whether the analog signal and the digital signal exceed the preset value or the preset range.

本实施例14至少具有以下优点：This embodiment 14 has at least the following advantages:

所述引爆装置通过设置所述控制器模块，采集多个传感器实现多个条件共同发生时触发引爆；所述控制器模块可以通过软件配置或程序，决定触发具体条件，更加灵活。The detonation device triggers detonation when multiple conditions occur together by setting the controller module, collecting data from multiple sensors; the controller module can determine the specific triggering conditions through software configuration or program, which is more flexible.

图17为本申请的实施例15提供的电池装置的引爆装置由电子引爆信号触发的部分电路示意图，实施例15提供了一种所述电池装置的所述引爆装置的引爆模块：输入信号为模拟小信号，输入信号控制NMOS管的G极，所述NMOS管的D极连接一端接正极电阻丝的另一端，所述NMOS管的S极接地；当输入信号为高时，所述NMOS管导通，大电流流经所述电阻丝，所述电阻丝产生高温红热，引爆***装置，将电池炸离。Figure 17 is a partial circuit diagram of the detonation device of the battery device provided in Example 15 of the present application, which is triggered by an electronic detonation signal. Example 15 provides a detonation module of the detonation device of the battery device: the input signal is an analog small signal, the input signal controls the G pole of the NMOS tube, the D pole of the NMOS tube is connected to the other end of one end of the positive resistor wire, and the S pole of the NMOS tube is grounded; when the input signal is high, the NMOS tube is turned on, a large current flows through the resistor wire, the resistor wire generates a high temperature red heat, detonates the explosion device, and blows the battery away.

所述输入信号，即本示意图的信号输入，不限于是开关量传感器的输出信号、实施例13的所述与门的输出信号、类似实施例13的所述与门第一路输入部分电路的所述比较器的输出信号、或实施例14的所述控制器模块的输出信号。The input signal, that is, the signal input of this schematic diagram, is not limited to the output signal of the switch sensor, the output signal of the AND gate of Example 13, the output signal of the comparator of the first input part circuit of the AND gate similar to Example 13, or the output signal of the controller module of Example 14.

本实施例15至少具有以下优点：This embodiment 15 has at least the following advantages:

可以实现极小电子引爆信号触发，引爆所述***装置。The explosive device can be triggered by a very small electronic detonation signal to detonate.

图18为本申请的实施例16提供的电池装置的组成框图，实施例16提供了一种所述 电池装置：所诉电池装置包括第一电池安装位、第二电池安装位、控制器模块；所述第一电池安装位包括***装置，所述***装置包括引爆装置；所述第二电池安装位包括传感器模块；所述传感器模块，包括以下至少一种传感器：***检测传感器，用于检测所述电池是否***的状态参数；冲击波传感器，用于检测所述电池***冲击波的状态参数；温度传感器，用于检测温度的状态参数；压力传感器，用于检测压力的状态参数；气压传感器，用于检测气压的状态参数；亮光传感器，用于检测所述电池燃烧亮光的状态参数；电池泄露物质传感器，用于检测所述电池泄露物质的状态参数；电池燃烧产物传感器，用于检测所述电池燃烧产物的状态参数；电压传感器，用于检测所述电池电压的状态参数；电流传感器，用于检测所述电池电流的状态参数。FIG. 18 is a block diagram of a battery device provided in Example 16 of the present application. Example 16 provides a Battery device: The battery device comprises a first battery mounting position, a second battery mounting position, and a controller module; the first battery mounting position comprises an explosion device, and the explosion device comprises a detonation device; the second battery mounting position comprises a sensor module; the sensor module comprises at least one of the following sensors: an explosion detection sensor for detecting the state parameters of whether the battery explodes; a shock wave sensor for detecting the state parameters of the battery explosion shock wave; a temperature sensor for detecting the state parameters of the temperature; a pressure sensor for detecting the state parameters of the pressure; an air pressure sensor for detecting the state parameters of the air pressure; a light sensor for detecting the state parameters of the battery burning light; a battery leakage substance sensor for detecting the state parameters of the battery leakage substance; a battery combustion product sensor for detecting the state parameters of the battery combustion product; a voltage sensor for detecting the state parameters of the battery voltage; a current sensor for detecting the state parameters of the battery current.

所述控制器模块通过所述传感器模块对所述第二电池安装位和所述第二电池安装位安装的所述电池的状态参数的监控，判断所述第二电池安装位安装的所述电池是否发生燃烧，进一步判断该燃烧是否会对所述第一电池安装位安装的所述电池产生燃烧蔓延的威胁，预判是否需要将所述第一电池安装位安装的所述电池从所述第一电池安装位炸离。The controller module monitors the status parameters of the second battery mounting position and the battery installed at the second battery mounting position through the sensor module to determine whether the battery installed at the second battery mounting position is burning, further determine whether the combustion poses a threat of burning and spreading to the battery installed at the first battery mounting position, and predict whether the battery installed at the first battery mounting position needs to be blown away from the first battery mounting position.

实施例17提供了一种设备设置有第一电池安装位的所述电池装置的方法：首先判断所述第一电池安装位安装的所述电池被所述***装置从所述电池装置炸离后的运动路径，判断所述电池被所述***装置从所述电池装置炸离后的燃烧含***波及区域；然后所述设备设置所述电池装置时，包括其实体部分和人员操作空间等，避开所述路径和所述区域。Embodiment 17 provides a method for setting a battery device having a first battery installation position in an equipment: first, determine the movement path of the battery installed in the first battery installation position after being blown away from the battery device by the explosive device, and determine the combustion and explosion affected area after the battery is blown away from the battery device by the explosive device; then, when setting the battery device in the equipment, including its physical parts and personnel operating space, avoid the path and the area.

实施例18提供了一种设备设置有多个电池安装位的所述电池装置的方法：首先判断每个所述电池安装位安装的所述电池被所述***装置从所述电池装置炸离后的运动路径，判断每个所述电池被所述***装置从所述电池装置炸离后的燃烧含***波及区域；然后设置所述电池装置时，所述设备包括其实体部分和人员操作空间，避开每个所述路径和每个所述区域。Embodiment 18 provides a method for setting a battery device having multiple battery installation positions: first, determine the movement path of the battery installed in each battery installation position after being blown away from the battery device by the explosive device, and determine the combustion and explosion affected area of each battery after being blown away from the battery device by the explosive device; then, when setting the battery device, the device, including its physical part and personnel operating space, avoids each path and each area.

本实施例17～18至少具有以下优点：The present embodiments 17 to 18 have at least the following advantages:

所述电池发生燃烧危险时，不仅减少了给所述电池装置带来的损害，而且进一步减少了给设置所述电池装置的所述设备带来的损害。When the battery is in danger of burning, not only the damage to the battery device is reduced, but also the damage to the equipment where the battery device is installed is further reduced.

实施例19提供了一种所述电池装置设置所述引爆装置与电流有关，配置电流变化的瞬时值预设范围，参照某工况下电池安全电流值范围时，可以通过实验法得出该电池安全电流值范围的一种测定方法：准备一组m+a个待测试电池，这些电池正向电流从零依次递增，直至第m+1个电池燃烧，且第m个电池未燃烧，测得第m个电池对应的电流Im；所谓正向电流可通过对电池放电的方式获得；准备一组n+b个待测试电池，这些电池逆向电流从零依次递减，第n+1个电池燃烧，且第n个电池未燃烧，测得第n个电池对应的电流In；所谓逆向电流可通过对电池输入高于电池电压的方式获得；则电池安全电流值范围为[In,Im]；为了提高准确度，可以准备多组电池测定，Im、In取平均值、中位值，或多组测定逐次逼近等方式。电池安全电流值范围除了上述实验测定的方法、还可以用理论模型法等方式得出；当然这些方法也可用于得出安全电压值范围、正常工作最高温度等。虽然本实施例描 述了电池安全电流值范围、安全电压值范围、正常工作最高温度的某些得出方法，但并不是说应用所述电池装置时必需这些方法，通常上述具体参数可从电池供应商获取。 Embodiment 19 provides a method for determining the safe current value range of the battery by experimental method, in which the detonation device of the battery device is arranged to be related to the current, and the instantaneous value preset range of the current change is configured. When referring to the safe current value range of the battery under a certain working condition, a method for determining the safe current value range of the battery can be obtained by experimental method: prepare a group of m+a batteries to be tested, and the forward current of these batteries increases from zero in sequence until the m+1th battery burns and the mth battery does not burn, and the current Im corresponding to the mth battery is measured; the so-called forward current can be obtained by discharging the battery; prepare a group of n+b batteries to be tested, and the reverse current of these batteries decreases from zero in sequence, the n+1th battery burns and the nth battery does not burn, and the current In corresponding to the nth battery is measured; the so-called reverse current can be obtained by inputting a voltage higher than the battery voltage to the battery; then the safe current value range of the battery is [In, Im]; in order to improve the accuracy, multiple groups of battery measurements can be prepared, and Im and In are taken as average values, medians, or multiple groups of measurements are approximated one by one. In addition to the above experimental determination method, the battery safety current value range can also be obtained by theoretical model method and other methods; of course, these methods can also be used to obtain the safe voltage value range, the normal working maximum temperature, etc. Some methods for obtaining the safe current value range, safe voltage value range, and normal operating maximum temperature of the battery are described, but it does not mean that these methods are required when using the battery device. Usually, the above specific parameters can be obtained from the battery supplier.

Claims (4)

1. 一种电池装置，其特征在于，包括：A battery device, comprising:

   装置主体，所述装置主体包括第一电池安装位，所述第一电池安装位用于安装至少一个电池；A device body, the device body comprising a first battery mounting position, the first battery mounting position being used to mount at least one battery;

   所述电池；the battery;

   所述第一电池安装位包括安装位主体、***装置；The first battery installation position includes an installation position body and an explosion device;

   所述***装置设置于所述安装位主体与所述电池之间，并与所述电池接触或接近，用于将所述电池从所述第一电池安装位炸离；The explosion device is disposed between the installation position body and the battery, and is in contact with or close to the battery, and is used to explode the battery away from the first battery installation position;

   所述***装置包括***和/或引爆装置：The explosive device comprises explosives and/or detonating devices:

   所述***可被以下其中至少一个引爆，并使所述***装置***：The explosive can be detonated by at least one of the following and cause the explosive device to explode:

   所述电池燃烧、所述电池变形导致的挤压、所述电池异常高温、所述电池破损导致的泄漏物；Combustion of the battery, extrusion caused by deformation of the battery, abnormally high temperature of the battery, leakage caused by damage to the battery;

   所述引爆装置用于在以下其中一个单独发生和/或以下其中多个共同发生于所述第一电池安装位时引爆所述***装置：The detonating device is used to detonate the explosive device when one of the following occurs alone and/or multiple of the following occur together at the first battery installation position:

   火花、温度变化超过预设值、气压改变超出预设范围、亮度变化超过预设值、安装的所述电池变形、安装的所述电池泄露、安装的所述电池燃烧、安装的所述电池***、安装的所述电池电压改变超出预设范围、安装的所述电池电流改变超出预设范围、设置的所述引爆装置收到电子引爆信号。Sparks, temperature changes exceeding preset values, air pressure changes exceeding preset ranges, brightness changes exceeding preset values, deformation of the installed battery, leakage of the installed battery, combustion of the installed battery, explosion of the installed battery, voltage changes of the installed battery exceeding preset ranges, current changes of the installed battery exceeding preset ranges, the set detonation device receives an electronic detonation signal.
2. 根据权利要求1所述电池装置，其特征在于，还包括：The battery device according to claim 1, further comprising:

   控制器模块，与所述第一电池安装位的所述***装置的所述引爆装置相连；a controller module connected to the detonation device of the explosive device at the first battery mounting position;

   所述装置主体包括至少一个第二电池安装位，所述第二电池安装位用于安装至少一个电池；The device body includes at least one second battery installation position, and the second battery installation position is used to install at least one battery;

   所述第二电池安装位包括传感器模块，所述传感器模块与所述控制器模块相连，用于检测所述第二电池安装位和其安装的所述电池的状态参数，并将所述状态参数传给所述控制器模块；The second battery installation position includes a sensor module, the sensor module is connected to the controller module, and is used to detect the state parameters of the second battery installation position and the battery installed therein, and transmit the state parameters to the controller module;

   所述控制器模块，用于接受所述状态参数，判断是否向所述第一电池安装位的所述***装置的所述引爆装置发送所述电子引爆信号，将其引爆，将所述第一电池安装位安装的所述电池炸离所述装置主体。The controller module is used to receive the state parameters and determine whether to send the electronic detonation signal to the detonation device of the explosion device at the first battery installation position to detonate it, thereby exploding the battery installed at the first battery installation position away from the device body.
3. 根据权利要求2所述电池装置，其特征在于，还包括：The battery device according to claim 2, further comprising:

   所述传感器模块，包括以下其中至少一种传感器：The sensor module includes at least one of the following sensors:

   ***检测传感器，用于检测所述电池是否***的状态参数； An explosion detection sensor, used to detect state parameters of whether the battery explodes;

   冲击波传感器，用于检测所述电池***冲击波的状态参数；A shock wave sensor, used to detect state parameters of the battery explosion shock wave;

   温度传感器，用于检测温度的状态参数；A temperature sensor is used to detect the state parameters of temperature;

   压力传感器，用于检测压力的状态参数；A pressure sensor, used to detect the state parameters of pressure;

   气压传感器，用于检测气压的状态参数；Air pressure sensor, used to detect state parameters of air pressure;

   亮光传感器，用于检测所述电池燃烧和/或***亮光的状态参数；A bright light sensor, used to detect state parameters of the battery burning and/or exploding bright light;

   电池泄露物质传感器，用于检测所述电池泄露物质的状态参数；A battery leakage substance sensor, used to detect state parameters of the battery leakage substance;

   电池燃烧产物传感器，用于检测所述电池燃烧产物的状态参数；A battery combustion product sensor, used to detect state parameters of the battery combustion product;

   电压传感器，用于检测所述电池电压的状态参数；A voltage sensor, used to detect a state parameter of the battery voltage;

   电流传感器，用于检测所述电池电流的状态参数。The current sensor is used to detect the state parameter of the battery current.
4. 一种设备设置根据权利要求1至3所述电池装置的方法，其特征在于，包括：A method for arranging a battery device according to any one of claims 1 to 3, characterized by comprising:

   步骤S10：判断所述电池被所述***装置从所述电池装置炸离后的运动路径；Step S10: determining a movement path of the battery after being blown away from the battery device by the explosive device;

   步骤S20：判断所述电池被所述***装置从所述电池装置炸离后的燃烧波及区域；Step S20: determining the combustion affected area after the battery is blown away from the battery device by the explosive device;

   步骤S30：设置所述电池装置时，所述设备避开所述路径和所述区域。 Step S30: When setting the battery device, the device avoids the path and the area.