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Hand casting type simulation bomb for training

A technique of simulating bombs and using hands, which is applied in the direction of practicing ammunition, ammunition, weapon accessories, etc. It can solve the problems of limited training venues, personal injuries of trainees, and potential safety hazards, so as to improve training benefits, reduce training consumption, and ensure training. safe effect

Inactive Publication Date: 2014-10-08
亓开
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the training process, if live ammunition is directly used for training, there will be: 1. Potential safety hazards
Due to the trainee's psychological endurance, movement coordination and other reasons, once the operation is wrong, it will cause personal injury to the trainee
2. The training venue is limited
Especially in many urban areas where the Armed Police Force and public security special police are stationed, the loud noise and strong irritating chemical gas produced by live blasting and real throwing training will affect the normal life of residents around the training ground and easily cause disputes
3. The loss is large, and there is a problem of waste of resources and funds
Using it for training, the trainees are far from live ammunition throwing in terms of psychological feeling and throwing technical requirements, and do not have the sense of reality of live ammunition throwing. They often only pay attention to the distance and accuracy of throwing during training, and ignore the technical essentials of safe operation. It has buried safety hazards for live ammunition throwing and mission execution

Method used

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  • Hand casting type simulation bomb for training
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  • Hand casting type simulation bomb for training

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0019] Embodiment 1 (Use the anti-riot bomb of mechanical interlock detonation mechanism)

[0020] refer to figure 1 , figure 2 , this embodiment is a simulated housing composed of an upper housing 3, a lower housing 4, and an outer rubber sleeve 7, wherein the upper housing has an upper cover 2, a lower cover 8, and the upper cover 2 is equipped with an insurance and a starting mechanism. Seat 11 has battery compartment 3-1, motor compartment 3-2, striker guide hole 3-3 in the upper housing, and the axial guide groove on the circumference of striker guide hole 3-3. The lower housing has a magazine 13, and the blank bomb (has a shell case, fuze, gunpowder, without bullet) 15 that impacts and detonates in the magazine. The lower end of the magazine 13 has a transverse gas guide hole 14 .

[0021] refer to figure 1 , image 3 On the mounting base 11, there is an insurance grip piece 1 hooked at one end on the installation base, a safety pin 18 that passes through the safet...

Embodiment 2

[0024] Embodiment 2 (electronic program-controlled detonation simulation anti-riot bomb)

[0025] refer to Figure 7 , Figure 8, the simulated anti-riot bomb of the present embodiment is a simulated housing composed of an upper housing 3 and a lower housing 4, wherein an upper cover 2 is arranged on the upper housing, and a safety and starting mechanism mounting seat 11 is arranged on the upper cover 2, and the upper housing Battery 32, time-delay power supply circuit board 31, lower housing are housed in the body, and the magazine lower end of electric detonation blank bomb 34 has horizontal gas diversion hole 35 in the magazine magazine of lower housing. The lower end of the upper casing has a contact electrode extending to the magazine. The micro switch 17 as start-reset switch is assembled on the mount 11 , and the micro-switch button 16 equivalent to start-reset guide bar stretches out of the mount 11 . On the mounting base 11, one end is hooked on the safety holding ...

Embodiment 3

[0026] Embodiment 3 (simulated grenade)

[0027] refer to Figure 9 , the present embodiment is made up of upper casing 3, lower casing 4, the simulated casing of composition, upper casing wherein has upper cover 2, lower cover 8, handle and starting mechanism mounting seat 11 are arranged on upper cover 2, install The assembly handle 42 on the seat is threaded with a stay wire 41, and the stay wire is connected to the flip plate release bayonet 40 that makes the flip press plate in the energy storage open position, and the flip press piece 12 is hinged on the mounting seat 11 as a micro switch for starting the reset switch 17 is assembled on the mounting seat 11, and is equivalent to the microswitch button 16 that starts the reset guide rod and stretches out of the mounting seat 11. The detonation delay device and firing device in the mechanical linkage detonation mechanism of the simulated grenade are the same as those in Embodiment 1.

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Abstract

The invention relates to a hand casting type simulation bomb for training and belongs to the field of military teaching training tools. The hand casting type simulation bomb for training comprises a simulation anti-riot bomb and a simulation hand grenade, wherein the simulation anti-riot bomb comprises a shape simulation shell, a secure structure, a delayed explosion starting mechanism and a blank cartridge, and the simulation hand grenade is composed of a shape simulation shell, a handle, a pull wire, a delayed explosion starting mechanism and a blank cartridge. The hand casting type simulation bomb for training has the advantages that live ammunition explosion starting motions and explosion starting delaying can be simulated, and the sound production, smoke production and misoperation alarming functions are achieved; furthermore, the hand casting type simulation bomb does not have the live ammunition demage effect, and the performance of the simulation anti-riot bomb (hand grenade) for teaching training is safe and reliable. The hand casting type simulation bomb for training has important application value and practical significance on ensuring military police unit training safety, improving training benefits, reducing training consumption and shortening a fighting capacity generating cycle.

Description

technical field [0001] The invention belongs to the field of military teaching and training equipment, in particular to a standard anti-riot (hand grenade) bomb that simulates the current equipment of military and police forces. Background technique [0002] At present, military and police units usually adopt the steps of theoretical study-simulated bomb throwing practice-live ammunition throwing for the training of hand-throwing anti-riot bombs and grenade throwing skills. Hand-dropped mock bombs usually include anti-riot bombs and grenades. Anti-riot bombs are special weapons that use sound energy, light energy and chemical energy to force the target to temporarily lose resistance without directly causing fatal damage. The hand-dropped anti-riot bombs currently equipped by military and police forces mainly include tear gas bombs, detonation bombs, detonation bombs, flash bombs, dyeing bombs, sound and light disable bombs, smoke bombs and other bombs. A grenade is a letha...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F42B8/26
Inventor 孙洪宇亓开于景泽
Owner 亓开
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