KR100616470B1 - Miniaturized safety and arming device with sliding shutter - Google Patents

Abstract

The present invention is used in fuses coupled to ammunition such as air explosives, and can not be loaded before firing ammunition, such as air explosives, and before a certain time has elapsed. The present invention relates to a safety loading device that can prevent a safety accident in advance. A safety loading device body installed coaxially with the fuse housing; A cover covering an upper surface of the safety loading device body; Slider is installed on one side of the safety loading device main body before closing the ammunition and the connection between the electrical detonator and the ammunition connection, the slider to move in the direction of opening between the electrical detonator and the ammunition connection by the operating pressure of the electrical primer. Wow; Locking means for locking the slider in a closed state before the set centrifugal force is generated after firing the ammunition and releasing the locked state of the slider when the set centrifugal force is generated; An inertial force sensing means for maintaining the locking means in a locked state before the inertial force is generated after firing the ammunition and releasing the locked state of the locking means when a set inertial force is generated; It is configured to include the delayed loading method using an electronic circuit, and the safety restraint method using a mechanical implementation method requires less parts compared to the conventional fully mechanical method, and can be miniaturized by simplifying the shape, low-cost manufacturing It can be applied to various medium and large caliber ammunition as well as small caliber aerial explosives. In addition, the present invention has a built-in ultra-compact battery it is possible to operate for a long time.

Description

MINIATURIZED SAFETY AND ARMING DEVICE WITH SLIDING SHUTTER}

1 is a schematic longitudinal sectional view of a fuse to which the present invention is applied;

2 is a plan view showing the cover and the main body of the small safety device according to the present invention separately;

3 is a longitudinal sectional view of the main body taken along the line A-A of FIG.

4 is a longitudinal sectional view of the main body taken along the line B-B of FIG. 2;

Figure 5a is a longitudinal cross-sectional view in the main assembly state along the line C-C of Figure 2,

Figure 5b is a state diagram for explaining the linking operation in which the rotation of the inertia pin protrusion and the latch is regulated,

6A is a longitudinal sectional view in the operating state of the main body along the line C-C in FIG. 2,

Figure 6b is a state diagram for explaining the linkage operation capable of rotating the latch in the inertial pin operation state.

** Description of symbols for the main parts of the drawing **

110: safety loading device body 120: cover

111: flame passage 113: slider guide groove

130: electric detonator 140: electric detonator

150: slider 151: communication hole

160: latch 170: inertial pin

180: tiny battery 190: battery trigger

The present invention relates to a slider block-type small safety loading device, in particular, by using the inertial force and the centrifugal force caused by the rotation after the air-bombs fired to ensure the safety of the two independent and the electric primer and the slider to block the flame path or It relates to a slider block type miniature safety device which is connected.

Safety loaders are used for fuses coupled to ammunition such as air explosives.They are not to be loaded before firing ammunitions such as air explosives and before a certain time has elapsed. It refers to a device that can prevent an accident such as an explosion in advance.

The safety loading device used in the fuse of the conventional air-explosive bomb is to maintain the battery lead time using the gear train, the explosion series also mainly uses an unaligned position method. In other words, a method of moving a rotor or slider containing an initiator tube from an unloaded / unaligned position to a loaded / aligned position is applied.

However, the mechanical safety loader as described above is easy to apply to a large-caliber ammunition fuse, but since the loading delay time is mainly secured by a combination of gear trains, the structure is complicated, miniaturization is impossible, and the loading delay time needs to be adjusted. The disadvantage is that the adjustment range is extremely limited.

The present invention was conceived and devised in view of the above disadvantages, and its object is applicable to small-caliber ammunition fuses by solving the problems caused by the miniaturization of the conventional mechanical safety loader and the complexity of the structure and operational problems. It aims to provide a slider-block compact safety loader.

The present invention provides a fuse housing having an ammunition connecting portion coupled to the distal end of the explosive bomb to achieve the above object, the electrical detonating tube installed in the central portion of the fuse housing, and to block or open between the electric detonating tube and the connecting tube A safety loading device, the safety loading device includes: a safety loading device body installed coaxially with the fuse housing; A cover covering an upper surface of the safety loading device body; Slider is installed on one side of the safety loading device main body before closing the ammunition and the connection between the electrical detonator and the ammunition connection, the slider to move in the direction of opening between the electrical detonator and the ammunition connection by the operating pressure of the electrical primer. Wow; Locking means for locking the slider in a closed state before the set centrifugal force is generated after firing the ammunition and releasing the locked state of the slider when the set centrifugal force is generated; An inertial force sensing means for maintaining the locking means in a locked state before the inertial force is generated after firing the ammunition and releasing the locked state of the locking means when a set inertial force is generated; Provided is a slider block type small safety loader, characterized in that further comprises.

The safety loading device body has a flame passage formed in the central portion thereof to communicate with the electrical detonator tube and the ammunition connection portion, and a primer insertion groove formed at one side of the flame passage to insert the electrical primer, and the upper portion of the flame passage A slider guide groove which is formed at the side and connects the flame passage and the primer insertion groove to guide the slider in a transverse direction, and a locking means installation groove formed at one side of the slider guide groove and installed with the locking means; And an inertial force sensing means mounting groove installed in communication with the locking means mounting groove and installed with the inertial force sensing means, and a detonation tube installation hole having an electric detonation tube installed coaxially with the flame passage in the center of the cover. The slider is provided with a communication hole for communicating the detonation pipe installation hole and the flame passage.

The locking means is rotatably supported by a latch hinge pin in the locking means installation groove, and has a latch having a locking jaw at an end of the slide in an open direction of the slide and an elastic support in a state of locking the latch. It consists of a latch spring.

The inertial force detecting means includes an inertial pin inserted into the inertial force detecting means installation groove so as to be movable in the axial direction of the fuse and an inertial pin spring that elastically supports the inertial pin in a state of locking the latch.

A battery storage space formed in the safety loading device body; A micro battery accommodated in the battery storage space; A battery triggering means for preventing the ultra-compact battery from being activated before the ammunition is fired and being activated when the ammunition is fired to generate an inertial force so that the electric primer can be detonated; It is configured to include more.

The battery triggering means includes a battery trigger installation hole formed coaxially with the battery storage space in the cover, and a battery trigger installed in the trigger installation hole.

The battery percussion part is formed with a protruding part in contact with the micro battery.

Hereinafter, the slider blocking type safety device according to the present invention will be described in detail according to the embodiment shown in the accompanying drawings.

Figure 1 is a schematic longitudinal sectional view of the fuse to which the present invention is applied, Figure 2 is a plan view showing the cover and the main body of the small safety device according to the present invention separately, Figure 3 is a longitudinal section of the main body according to the line AA of Figure 2 Figure 4 is a longitudinal cross-sectional view of the main body along the line BB of Figure 2, Figure 5a is a longitudinal cross-sectional view in the main assembly state of the body along the line CC of Figure 2, Figure 5b is the inertia pin protrusion state and the rotation of the latch is restricted Figure 6a is a longitudinal cross-sectional view in the operating state of the main body according to the CC line of Figure 2, Figure 6b is for explaining the linkage operation capable of rotating the latch in the state inertial pin is operated. State diagram.

As shown in FIG. 1, the fuse F used in the air-explosive bomb to which the present invention is applied with a slider blocking small safety loader includes a fuse housing 10; Fuse control circuitry 20 is sequentially installed in the interior space of the fuse housing 10 from the front end; A transceiver 30; It is composed of an inertial force generator 40 and a safety loading device (100).

The fuse housing 10 is composed of a fuse body 11 formed in a streamlined form, and an ammunition connector 12 coupled to the rear of the fuse body 11 to couple the fuse F to ammunition (not shown). . On the inner circumferential surface of the ammunition connecting portion 12 is formed a female screw portion 13 for screwing into the tip of the ammunition.

Safety loading device 100 according to the present invention, the safety loading device body 110; A cover 120 covering an upper surface of the safety loading device main body 110; An electric detonator tube 130 which is detonated after a set time after firing the ammunition; An electrical primer 140 installed at one side of the safety loading device main body 110 and operated after a set time after firing the ammunition; Before launching the ammunition, the electrical detonator 130 and the ammunition connector 12 are closed, and the operating pressure of the electrical detonator 140 opens between the electrical detonator tube 130 and the ammunition connector 12. A slider 150 moving in a direction; Locking means for locking the slider 150 in a closed state after the set centrifugal force is generated after firing the ammunition and releasing the locked state of the slider 150 when the set centrifugal force is generated; An inertial force sensing means for maintaining the locking means in a locked state before the inertial force is generated after firing the ammunition and releasing the locked state of the locking means when a set inertial force is generated; It is configured to include.

The safety loading device main body 110 is a substantially coaxial coaxial body with the fuse housing 10, a flame passage 111 formed coaxially with the electric detonator tube 130 at the center thereof, and the flame passage 111 A primer insertion groove 112 formed at one side of the electrical insertion tube 140 and inserted into an upper side of the flame passage 111 to open the flame passage 111 and the primer insertion groove 112. A slider guide groove 113 to which the slider 150 is movably moved in the lateral direction, and a locking means installation groove 114 formed at one side of the slider guide groove 113 to install the locking means. In addition, the inertial force detection means installation groove 115 is installed in communication with the locking means installation groove 114 is installed the inertial force detection means is provided.

The cover 120 is an approximately disc body coaxial with the fuse housing 10 and has a detonation tube installation hole 121 formed coaxially with the flame passage 111 at a central portion thereof.

The slider guide groove 113 and the slider 150 are formed to have a width wider than the diameter of the flame passage 111 so as to close the flame passage 111 sufficiently.

The electric detonator tube 130 is installed in the detonator tube installation hole 121 through the detonator tube clip 131.

The electrical primer 140 is inserted into the primer insertion groove 112, the primer terminal pin 141 is connected to the transceiver 30.

In addition, a ground spring 142 is inserted below the electric primer 140.

The length of the slider 150 is shorter than the length of the slider guide groove 113 and is formed to have a width capable of sufficiently closing the flame passage 111, the electric primer 140 side A communication hole 151 which is in communication with the flame passage 111 is formed near the end in the closed direction (the left end in the drawing).

The locking means is rotatably supported by the latch hinge pin 162 in the locking means installation groove 114, and is caught by an open end (right end in the drawing) of the slide 150 at the front end thereof. A latch 160 having a jaw 161 and a latch spring 163 that is elastically supported in a state in which the latch 160 is locked.

The inertial force detecting means, the inertial pin 170 is inserted into the inertial force detecting means installation groove 115 so as to be movable in the axial direction of the fuse (F) and the inertial pin in a state of locking the latch 160 It is composed of an inertial pin spring 171 to elastically support 170 (see Figs. 5a to 6b).

In Figures 5a and 6a 172 is an inertial pin plug.

A battery storage space 116 is formed in the safety loading device body 110, and a micro battery 180 is accommodated in the battery storage space 116. The battery terminal 181 is connected to the micro battery 180.

In addition, before the ammunition is fired, the ultra-compact battery 180 is not activated, and when the ammunition is fired so that the centrifugal force is activated, the electric trigger 140 is provided so that the electric primer 140 can be detonated.

The battery triggering means includes a battery trigger installation hole 122 formed coaxially with the battery accommodation space 116 in the cover 120 and a battery trigger device 190 installed in the trigger installation hole 122. It consists of.

The trigger 190 remains in contact with the micro battery 180 before the ammunition is fired, and is installed to contact the micro battery 180 when the ammunition is fired to activate the micro battery 180. will be.

The battery percussion device 190 is provided with a protruding portion 191 in contact with the micro battery 180.

In addition, the lower end of the flame passage 111 is coupled to the connection pipe 200 is filled with a connection gun for delivering the flame to the high explosives (not shown) of the electric detonation tube 130 when the explosion.

In the figure, reference numeral 117 is a fixing pin, 123 and 124 are formed in the cover 120, respectively, and a terminal guide groove for guiding the primer terminal pin 141 and the battery terminal 181, respectively, 125 is a fixing screw to be.

Hereinafter, the operation of the slider block type small safety loading device according to the present invention configured as described above will be described.

When the fuse F assembled as shown in FIG. 1 is coupled to the ammunition by the ammunition connector 12, the state of the slider 150, the locking means, and the inertial force detecting means is as shown in FIGS. 5A and 5B. 150 is in a state in which the flame passage 111 is closed, that is, even when the electric detonation tube 130 is detonated during handling, the flame is not transmitted to the high explosive side through the flame passage 111.

On the other hand, the latch 160 constituting the locking means is locked so that the latching jaw 161 is caught in the open end of the slider 150 so that the slider 150 maintains the flame passage 111 closed. , The inertial pin 170 constituting the inertial force detecting means is lifted by the inertial pin spring 171 to restrain the latch 160 to remain locked.

Meanwhile, the tooth part 191 of the battery trigger device 190 constituting the battery triggering means is not in contact with the ultra-small battery 180.

In this state, when firing an air-explosive bomb coupled with a fuse (F) to which the slider-blocking small safety loader according to the present invention is applied, the inertial pin 170 is inertial pin spring 171 by the backward inertia force generated during the firing process. Retract the restraint on the stopper 160 while compressing the restraint, and the restraint restraint stopper 160 is pressed outwards (clockwise in the drawing) while compressing the restraint spring 163 by a centrifugal force generated at the same time as the backward inertia force. The locking of the slider 150 is released while rotating to make the slider 150 move in the lateral direction.

In addition, the battery 180 is activated while the trigger 190 is retracted by the backward inertia force.

In this state, when the explosive bomb reaches the required charging distance, the control circuit unit 20 of the fuse F causes the electric primer 140 to detonate, and the slider 150 moves to the open position by the pressure generated during the detonation. The communication hole 151 is moved to coincide with the flame passage 111 so that the flame passage 111 is opened and loaded.

In this state, when the air explosives fly and reach the target point, the electric detonator tube 130 explodes by the detonation signal output from the control circuit unit 20 of the fuse F, and the explosion of the electric detonator tube 130 occurs. The flame generated by the connection through the communication hole 151 and the flame passage 111 is applied to the connection pipe 200 is loaded with the connection pipe 200 is to explode, and then the explosives will explode .

 As described above, the slider block-type small safety loading device according to the present invention requires a loading delay method using an electronic circuit, and a safety restraint method uses a mechanical implementation method, which requires less parts and shapes than a conventional fully mechanical method. In addition, it is possible to miniaturize and simplify the production of low-cost, it is possible to be applied to various medium and large-caliber ammunition as well as small-caliber aerial explosives having a diameter of 20mm or less.

In addition, the slider block-type small safety loading device according to the present invention has a built-in micro battery has the effect that it can be operated for a long time.

Claims (7)

In the fuse housing having an ammunition connecting portion coupled to the tip of the air-explosive bomb, the electric detonating tube installed in the center of the fuse housing, and the safety loading device to block or open between the electric detonating tube and the connecting tube, The safety loading device, A safety loading device body installed coaxially with the fuse housing; A cover covering an upper surface of the safety loading device body; Slider is installed on one side of the safety loading device main body before closing the ammunition and the connection between the electrical detonator and the ammunition connection, the slider to move in the direction of opening between the electrical detonator and the ammunition connection by the operating pressure of the electrical primer. Wow; Locking means for locking the slider in a closed state before the set centrifugal force is generated after firing the ammunition and releasing the locked state of the slider when the set centrifugal force is generated; An inertial force sensing means for maintaining the locking means in a locked state before the inertial force is generated after firing the ammunition and releasing the locked state of the locking means when a set inertial force occurs; Slider blocking small safety device, characterized in that further comprises. The method of claim 1, The safety loading device body has a flame passage formed in the central portion thereof to communicate with the electrical detonator tube and the ammunition connection portion, and a primer insertion groove formed at one side of the flame passage to insert the electrical primer, and the upper portion of the flame passage A slider guide groove which is formed at the side and connects the flame passage and the primer insertion groove to guide the slider in a transverse direction, and a locking means installation groove formed at one side of the slider guide groove and installed with the locking means; Is installed in communication with the locking means installation groove is provided with an inertial force sensing means installation groove is installed, the inertial force sensing means, In the center of the cover, the detonation tube installation hole in which the electric detonation tube is installed is formed coaxially with the flame passage, The slider block-type small safety loading device characterized in that the communication hole for communicating the flame pipe installation hole and the flame passage is formed in the slider. The method according to claim 1 or 2, The locking means is rotatably supported by a latch hinge pin in the locking means installation groove, and has a latch having a locking jaw at an end of the slide in an open direction of the slide and an elastic support in a state of locking the latch. Slider blocking type small safety device, characterized in that consisting of a latch spring. The method according to claim 1 or 2, The inertial force detecting means is characterized in that the inertial force detecting means is installed in the inertial pin is inserted into the groove so as to be movable in the axial direction of the fuse, and the inertial pin spring for elastically supporting the inertial pin in a state of locking the latch. Slider shut off compact safety device. The method of claim 1, A battery storage space formed in the safety loading device body; A micro battery accommodated in the battery storage space; Battery triggering means for preventing the ultra-compact battery from being activated before the ammunition is fired and being activated when the ammunition is fired to generate an inertial force so that the electric primer can be detonated; Slider blocking small safety device, characterized in that further included. The method of claim 5, The battery triggering means comprises a battery trigger installation hole formed coaxially with the battery receiving space in the cover, and a slider block-type small safety device, characterized in that consisting of a battery trigger installed in the installation hole. [7] The apparatus of claim 6, wherein the battery contactor is provided with a protruding portion contacting the micro battery.

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