The present invention relates to a reserve battery allowing a voltage to quickly rise while being activated by an impact in a normal state in which electricity is not generated and, more specifically, to a reserve battery having a stacked electrode structure, the reserve battery improving the speed of an activation operation and generating a high voltage while being easily manufactured through a structure in which a main body case, instead of an ampoule of metal and glass materials, acts as an ampoule, a cover is attached through welding in a state of directly accommodating an electrolyte, and then a substrate having an anode and a cathode formed thereon is provided as a single layer or a plurality of layers, and a through film, which is broken by pressure and pushes the electrolyte toward the electrodes, is formed at the center of the cover.
H01M 6/38 - Éléments à action différée contenant un électrolyte et rendus opérationnels par des moyens physiques, p. ex. éléments thermiques par des moyens mécaniques
H01M 50/169 - Couvercles caractérisés par le procédé d’assemblage des boîtiers avec des couvercles par soudage, brasage ou brasage tendre
H01M 50/463 - Séparateurs, membranes ou diaphragmes caractérisés par leur forme
The present invention relates to an electronic self-destructing fuse structure which releases a safety device by means of a predetermined level of setback and centrifugal force after a 40 mm grenade is launched, thereby ensuring safety, and which can explode according to the application of an impact of a predetermined level or higher, and also self-destruct after a predetermined time elapses if the impact does not reach the predetermined level and an explosion does not occur, thereby preventing the occurrence of an unexploded grenade.
The present invention relates to an electronic self-destructing fuse structure which releases a safety device by means of a predetermined level of setback and centrifugal force after a 40 mm grenade is launched, thereby ensuring safety, and which can explode according to the application of an impact of a predetermined level or higher, and also self-destruct after a predetermined time elapses if the impact does not reach the predetermined level and an explosion does not occur, thereby preventing the occurrence of an unexploded grenade.
The present invention relates to a reserve battery allowing a voltage to quickly rise while being activated by an impact in a normal state in which electricity is not generated and, more specifically, to a reserve battery having a stacked electrode structure, the reserve battery improving the speed of an activation operation and generating a high voltage while being easily manufactured through a structure in which a main body case, instead of an ampoule of metal and glass materials, acts as an ampoule, a cover is attached through welding in a state of directly accommodating an electrolyte, and then a substrate having an anode and a cathode formed thereon is provided as a single layer or a plurality of layers, and a through film, which is broken by pressure and pushes the electrolyte toward the electrodes, is formed at the center of the cover.
The present invention relates to a gas detector and, in particular, to a gas detector having a gas sensor corresponding to gas to be measured, wherein the gas detector of the present invention may correct a log value of gas measured next on the basis of a re-calibration reference value and a calibration value according to the concentration of the gas (the minimum output value of the gas sensor and an output value of the gas sensor which changes at every moment upon recovery after gas injection).
The present invention relates to an advertisement method using a semiconductor type gas sensor module and a mobile device (smart phone, tablet PC and the like), and particularly, to a system for providing an advertisement to the mobile device during an initial operation stand-by period for the semiconductor type gas sensor module. According to the present invention, a semiconductor type gas sensor requires a user to wait for a predetermined time due to the initial operation characteristics, which are inherent characteristics thereof, but the present invention provides an advertisement during a waiting time, and thus has various advantages in that the user does not become bored during the waiting time and can obtain necessary information, and a company and the like that produces products can provide advertisements, and particularly, a company and the like that produces products related to alcoholic beverages or bad breath can provide advertisements to an exact target class to have excellent advertisement efficiency, and a system operator can create profits from the advertisements.
G06Q 30/02 - MarketingEstimation ou détermination des prixCollecte de fonds
G01N 33/98 - Analyse chimique de matériau biologique, p. ex. de sang ou d'urineTest par des méthodes faisant intervenir la formation de liaisons biospécifiques par ligandsTest immunologique faisant intervenir de l'alcool, p. ex. de l'éthanol dans l'haleine
G01N 33/497 - Analyse physique de matériau biologique de matériau biologique gazeux, p. ex. de l'haleine
7.
Reserve battery having good low temperature property
There is provided a reserve battery activated by shock application of hitting means and having good operational feature at low temperature, comprising: a frame forming exterior case; an ampoule disposed inside the frame, containing an electrolyte solution and formed of membrane at the portion where the hitting means applies hitting; two electrodes disposed above the ampoule and formed with two laminated ‘−’ and ‘+’ layers, a cathode layer and an anode layer, each of the layers having a hole at its center portion; a separator disposed between the two electrodes and including a center separator in the middle of the separator formed such that except for one side of the center separator, the other side of the center separator is cut, wherein the other side of the center separator comes into the ampoule by the hitting of a hitting means, and contacts with the electrolyte solution contained inside the ampoule so that the electrolyte solution is absorbed into the center separator being in contact with the electrolyte solution, and transferred to the two electrodes so as to activate the reserve battery.
H01M 6/38 - Éléments à action différée contenant un électrolyte et rendus opérationnels par des moyens physiques, p. ex. éléments thermiques par des moyens mécaniques
H01M 6/32 - Éléments à action différée activés par une addition externe d'électrolyte ou de composants d'un électrolyte
H01M 6/36 - Éléments à action différée contenant un électrolyte et rendus opérationnels par des moyens physiques, p. ex. éléments thermiques
H01M 2/36 - Dispositions pour le remplissage, la mise à niveau ou la vidange des récipients en liquide, p.ex. pour le remplissage avec des électrolytes, pour le rinçage
The present invention relates to a shock-resistant self-destruct fuse, and more particularly, to a shock-resistant self-destruct fuse which is installed in a submunition and located next to a mechanical fuse to activate after a predetermined time period so as to detonate an unexploded submunition when the submunition is dropped down on inclined ground or dropped through an obstacle and does not explode by means of the mechanical fuse, resulting in a non-explosion. The shock-resistant self-destruct fuse comprises a fuse slide having breaking grooves formed at the top and bottom of one side of the fuse slide so as to absorb the shock generated during bounding and be easily broken, the fuse slide including a battery arranged inside the break part to be broken by the breaking grooves, and a hit needle placed coaxially with the battery so as to hit the battery; and a detonator part which receives power from the battery so as to explode, or which senses a short circuit of the battery so as to detonate the shock-resistant self-destruct fuse.
The present invention relates to a reserve battery having excellent low-temperature properties and, more specifically, to a reserve battery having excellent low-temperature properties which are activated when hit by an explosion device, comprising: a frame which forms the exterior thereof; an ampoule unit which is positioned inside the frame and stores an electrolyte; two "+" and "-" electrodes which are positioned on the upper side of the ampoule unit and in which a cathode layer and an anode layer are formed in a stacked shape so as to form a hole in the center thereof; and a separator which is positioned between the two electrodes, includes a center having a cut part and of which one side is not cut, and is connected to the outside. In addition, the reserve battery can be enabled by breaking a breaking groove using the force generated from a balance weight through a setback so as to transfer the electrolyte stored inside the ampoule unit to the two electrodes when the explosion device and the like cannot operate due to a malfunction.
H01M 6/38 - Éléments à action différée contenant un électrolyte et rendus opérationnels par des moyens physiques, p. ex. éléments thermiques par des moyens mécaniques
H01M 2/36 - Dispositions pour le remplissage, la mise à niveau ou la vidange des récipients en liquide, p.ex. pour le remplissage avec des électrolytes, pour le rinçage
10.
FUSE WITH ELECTRONIC SELF-DESTRUCT FUNCTION FROM HAVING HITTING APPARATUS TO ACTIVATE PRIMARY, SECONDARY AND RESERVE BATTERIES
Disclosed is a fuse provided with a self-destruct function by having a hitting apparatus that activates primary, secondary and reserve batteries, the fuse comprising: a fuse slide having an inner space; a fuse holding hole formed on the fuse slide; a detonator disposed on the fuse slide; a hitting guide hole which penetrates both sides of the fuse slide, and a part of which is incorporated with the interior space; a battery disposed on one side of the hitting guide hole; a hitting apparatus disposed on the other side of the hitting guide hole so as to hit the battery; stoppers which open and close both sides of the hitting guide hole, and which support one side of the battery and one side of the hitting apparatus; a stopper apparatus for putting a brake on the hitting apparatus; and a safety pin for supporting or releasing the brake force of the stopper apparatus, wherein the brake force is applied to the hitting apparatus by the stopper apparatus and the safety pin, and when the safety pin releases the brake force of the stopper apparatus, the battery is hit.
F42C 9/16 - Fusées doublesFusées multiples pour autodestruction des munitions
F42C 9/02 - Fusées à tempsFusées combinées à temps et à percussion ou pressionFusées pour l'autodestruction à temps des munitions le moment étant déterminé par des moyens mécaniques
brevets
