CN216308773U - Intelligent combat vest used in large-space analog simulation combat training - Google Patents

Abstract

The utility model discloses an intelligent combat vest used in large-space analog simulation combat training, which solves the technical problem of how to scientifically and reasonably combine a sensible miniature vibration motor and a portable computer on the same wearable vest to adapt to analog combat training. The inner side of the vest forepart is respectively provided with a left front micro vibration motor and a right front micro vibration motor, the vest shoulder parts at two sides of the sleeve head round hole are respectively provided with a left shoulder micro vibration motor and a right shoulder micro vibration motor, the inner side of the vest rear part is respectively provided with a left rear micro vibration motor and a right rear micro vibration motor, the upper end of the vest rear part is provided with a micro vibration motor controller and an electric signal switching socket, and a personal computer is arranged in a personal computer inserting pocket. The utility model has compact structure, and is particularly suitable for simulating the wearing of soldiers on the field for simulation training.

Description

Intelligent combat vest used in large-space analog simulation combat training

Technical Field

The utility model relates to an intelligent wearable combat vest, in particular to an intelligent combat vest worn by a trained soldier and used in large-space virtual simulation combat training.

Background

In the simulated actual combat training, a virtual battlefield environment is simulated in a computer through data acquisition to support the simulated combat simulation training; the virtual battlefield environment comprises a series of general environments such as training scene design, battle planning, training resource management, training data management, training evaluation and the like; the virtual battlefield environment is arranged in a host computer of the central control room, and the whole simulated battlefield environment is displayed in a display of the host computer; both sides in the simulated battlefield resist real soldiers, intelligent combat vests are worn on both sides, a client intelligent computer terminal is placed in each intelligent combat vest, and each real soldier wears intelligent virtual reality glasses (VR Glass) and holds an intelligent pneumatic rifle; after wearing the intelligent equipment, the real soldiers carry out actual combat simulation training in a real space of a simulated battlefield; the battlefield environment simulated in the host computer of the central control room is synchronously connected with the client intelligent computer terminal worn by the anti-real-person soldier through wireless signals, and the virtual battlefield environment is synchronously displayed in the intelligent virtual reality glasses worn by the anti-real-person soldier in real time, so that the anti-real-person soldier has the real feeling of actual battle in the battlefield environment, and the training is called as large-space virtual simulation combat training and is used for verification of tactical design of troops and can also be used for individual soldier simulation training.

The intelligent combat vest is mainly used for soldiers to carry client intelligent computer terminals and can generate a bullet feeling in soldier training, the soldiers wearing the vest in the whole simulation training move and run in a large-space virtual simulation battle field, the client intelligent computer terminals need to move along with the soldiers at any time, how to enable the client intelligent computer terminals to always move along with the soldiers and not to fall off, and dynamic real-time signal receiving of all micro vibration motors is kept, so that the intelligent combat vest is a task which needs to be completed by the structure of the intelligent combat vest; in addition, how to scientifically and reasonably combine all parts of the waistcoat to make the waistcoat more suitable for training soldiers to use and have universality, and is also a problem to be considered when designing the structure of the waistcoat.

Disclosure of Invention

The utility model provides an intelligent combat vest used in large-space analog simulation combat training, which solves the technical problem of how to scientifically and reasonably combine a sensible miniature vibration motor and a portable computer on the same wearable vest to adapt to analog combat training.

The utility model solves the technical problems by the following technical scheme:

an intelligent fighting waistcoat used in large space simulation combat training comprises an I-shaped cloth block, wherein a sleeve head circular hole is arranged in the middle of the I-shaped cloth block, a waistcoat front part is formed on the upper side of the sleeve head circular hole, a waistcoat rear part is formed on the lower side of the sleeve head circular hole, front lappet fixing and sticking buckles are respectively arranged on the inner sides of the two ends of the waistcoat front part, rear lappet fixing and sticking buckles are respectively arranged on the outer sides of the two ends of the waistcoat rear part, a left leg belt and a right leg belt are respectively arranged at the lower end of the waistcoat rear part, a left leg belt fixing bandage is arranged at the lower end of the left leg belt, a right leg belt fixing bandage is arranged at the lower end of the leg belt, a left shoulder belt is arranged on the left side of the sleeve head circular hole, a left shoulder belt is arranged at the outer end of the left shoulder belt, a right shoulder belt is arranged on the right side of the sleeve head circular hole, a right shoulder belt is arranged at the outer end of the right shoulder belt, a carry-on computer inserting pocket and a battery inserting pocket are arranged on the outer side surface of the waistcoat rear opening, a left front micro vibration motor and a right front micro vibration motor are respectively arranged on the inner side surface of the waistcoat shoulder part on two sides of the pullover round hole, a left shoulder micro vibration motor and a right shoulder micro vibration motor are respectively arranged on the inner side surface of the waistcoat rear opening, a left rear micro vibration motor and a right rear micro vibration motor are respectively arranged on the inner side surface of the waistcoat rear opening, a left shoulder belt lower end micro vibration motor is arranged on the inner side surface of the lower end of the left shoulder belt, a right shoulder belt lower end micro vibration motor is arranged on the inner side surface of the lower end of the right shoulder belt, a left leg micro vibration motor is arranged on the inner side surface of the left leg belt, a right leg micro vibration motor is arranged on the inner side surface of the right leg belt, and a micro vibration motor controller and an electric signal switching socket are arranged on the upper end of the waistcoat rear opening, a customer intelligent computer terminal is arranged in the portable computer inserting pocket, and a lithium battery is arranged in the battery inserting pocket; miniature vibrating motor before the left side, miniature vibrating motor before the right side, miniature vibrating motor of left shoulder, miniature vibrating motor of right shoulder, miniature vibrating motor of lower extreme is shouldered to the left side, miniature vibrating motor of lower extreme is shouldered to the right side, miniature vibrating motor behind the left side, miniature vibrating motor behind the right side, miniature vibrating motor of left leg, miniature vibrating motor of right leg and lithium cell, all be connected together with miniature vibrating motor controller electricity, miniature vibrating motor controller passes through electric signal adapter socket and is in the same place with customer's intelligent computer terminal electricity.

The vest front is provided with a storage pocket, and the pocket for inserting the personal computer is respectively provided with a longitudinal tightening belt and a transverse tightening belt.

The utility model has compact structure, reasonably arranges vibrators of each part for simulating the missile of the soldier in actual combat on the same vest, is particularly suitable for simulating wearing of the soldier on the field for simulation training, and is convenient to carry various devices.

Drawings

FIG. 1 is a schematic view of the configuration of the outer surface of the vest of the utility model when deployed;

FIG. 2 is a schematic view of the inside surface of the vest of the utility model when deployed;

FIG. 3 is a schematic front view of the vest of the utility model when worn;

fig. 4 is a schematic view of the structure of the rear side of the vest of the present invention when worn.

Detailed Description

The utility model is described in detail below with reference to the accompanying drawings:

an intelligent fighting waistcoat used in large space simulation combat training comprises an I-shaped cloth block, a sleeve head circular hole 101 is arranged in the middle of the I-shaped cloth block, a waistcoat front part 102 is formed on the upper side of the sleeve head circular hole 101, a waistcoat rear part 103 is formed on the lower side of the sleeve head circular hole 101, front lappet fixing and pasting buttons 104 are respectively arranged on the inner sides of the two ends of the waistcoat front part 102, rear lappet fixing and pasting buttons 105 are respectively arranged on the outer sides of the two ends of the waistcoat rear part 103, a left leg belt 110 and a right leg belt 112 are respectively arranged at the lower end of the waistcoat rear part 103, a left leg belt fixing band 111 is arranged at the lower end of the left leg belt 110, a right leg belt fixing band 113 is arranged at the lower end of the right leg belt 112, a left shoulder belt 106 is arranged at the left side of the sleeve head circular hole 101, a left fixing band 107 is arranged at the outer end of the left shoulder belt 106, and a right shoulder belt is arranged at the right side of the sleeve head circular hole 101, a right shoulder belt 108 is arranged, a right shoulder belt fixing strap 109 is arranged at the outer end of the right shoulder belt 108, a carry-on computer inserting pocket 114 and a battery inserting pocket 118 are arranged on the outer side surface of the waistcoat front opening 103, a left front micro vibrating motor 121 and a right front micro vibrating motor 122 are respectively arranged on the inner side surface of the waistcoat shoulder part on both sides of the pullover round hole 101, a left shoulder micro vibrating motor 123 and a right shoulder micro vibrating motor 124 are respectively arranged on the inner side surface of the waistcoat front opening 102, a left rear micro vibrating motor 125 and a right rear micro vibrating motor 126 are respectively arranged on the inner side surface of the waistcoat shoulder part on both sides of the pullover round hole 101, a left shoulder belt lower end micro vibrating motor 127 is arranged on the inner side surface of the lower end of the left shoulder belt 106, a right shoulder belt lower end micro vibrating motor 128 is arranged on the inner side surface of the lower end of the right shoulder belt 108, a left leg micro vibrating motor 129 is arranged on the inner side surface of the left leg belt 110, a right leg micro vibration motor 130 is arranged on the inner side surface of the right leg belt 112, a micro vibration motor controller 120 and an electric signal adapter socket 119 are arranged at the upper end of the vest rear part 103, a client intelligent computer terminal 131 is arranged in the personal computer insertion pocket 114, and a lithium battery is arranged in the battery insertion pocket 118; the left front micro vibration motor 121, the right front micro vibration motor 122, the left shoulder micro vibration motor 123, the right shoulder micro vibration motor 124, the left shoulder strap lower end micro vibration motor 127, the right shoulder strap lower end micro vibration motor 128, the left rear micro vibration motor 125, the right rear micro vibration motor 126, the left leg micro vibration motor 129, the right leg micro vibration motor 130 and the lithium battery are all electrically connected with the micro vibration motor controller 120, and the micro vibration motor controller 120 is electrically connected with the customer intelligent computer terminal 131 through the electric signal adapter socket 119.

A storage pocket 116 is arranged on the vest front 102, and an inlet longitudinal tightening belt 115 and an inlet transverse tightening belt 117 are respectively arranged on the pocket 114 for personal computer insertion.

In the large-space virtual simulation combat training, a soldier is trained to wear the vest, the intelligent combat vest is connected with two leg straps and two shoulder straps, miniature vibration motors are arranged on different parts of the vest, the miniature vibration motors are arranged in the two leg straps and the two shoulder straps, each miniature vibration motor is electrically connected with a single chip microcomputer on the vest, a client intelligent computer terminal 131 in a personal computer inserting pocket 114 receives a signal sent by a main computer in a central control room, the power supply of the miniature vibration motors on corresponding parts is switched on through a miniature vibration motor controller 120, and the miniature vibration motors start to vibrate, so that the soldier feels that the part is shot, and the effect of actual combat simulation is achieved.

Claims (2)

1. An intelligent fighting waistcoat used in large-space simulation combat training comprises an I-shaped cloth block, a pullover round hole (101) is formed in the middle of the I-shaped cloth block, a waistcoat front fly (102) is formed on the upper side of the pullover round hole (101), waistcoat rear flies (103) are formed on the lower side of the pullover round hole (101), front lappet fixing and pasting buttons (104) are arranged on the inner sides of the two ends of the waistcoat front fly (102), rear lappet fixing and pasting buttons (105) are arranged on the outer sides of the two ends of the waistcoat rear fly (103), a left leg belt (110) and a right leg belt (112) are respectively arranged at the lower end of the waistcoat rear fly (103), a left leg belt fixing bandage (111) is arranged at the lower end of the left leg belt (110), a right leg belt fixing round hole (113) is arranged at the lower end of the right leg belt (112), and the left side of the pullover bandage (101), is provided with a left shoulder belt (106), the outer end of the left shoulder belt (106) is provided with a left shoulder belt fixing strap (107), the right side of the pullover round hole (101) is provided with a right shoulder belt (108), the outer end of the right shoulder belt (108) is provided with a right shoulder belt fixing strap (109), a portable computer inserting pocket (114) and a battery inserting pocket (118) are arranged on the outer side surface of the vest back fly (103), the waistcoat is characterized in that a left front micro vibration motor (121) and a right front micro vibration motor (122) are respectively arranged on the inner side surface of the vest front fly (102), a left back micro vibration motor (123) and a right back micro vibration motor (124) are respectively arranged on the inner side surface of the vest shoulder at the two sides of the pullover round hole (101), a left back micro vibration motor (125) and a right back micro vibration motor (126) are respectively arranged on the inner side surface of the vest back fly (103), a left shoulder strap lower end micro vibration motor (127) is arranged on the inner side surface of the lower end of the left shoulder strap (106), a right shoulder strap lower end micro vibration motor (128) is arranged on the inner side surface of the lower end of the right shoulder strap (108), a left leg micro vibration motor (129) is arranged on the inner side surface of the left leg strap (110), a right leg micro vibration motor (130) is arranged on the inner side surface of the right leg strap (112), a micro vibration motor controller (120) and an electric signal switching socket (119) are arranged at the upper end of a vest rear part (103), a client intelligent computer terminal (131) is arranged in a portable computer inserting pocket (114), and a lithium battery is arranged in a battery inserting pocket (118); the miniature vibration motor controller comprises a left front miniature vibration motor (121), a right front miniature vibration motor (122), a left shoulder miniature vibration motor (123), a right shoulder miniature vibration motor (124), a left shoulder strap lower end miniature vibration motor (127), a right shoulder strap lower end miniature vibration motor (128), a left rear miniature vibration motor (125), a right rear miniature vibration motor (126), a left leg miniature vibration motor (129), a right leg miniature vibration motor (130) and a lithium battery, which are electrically connected with a miniature vibration motor controller (120), wherein the miniature vibration motor controller (120) is electrically connected with a client intelligent computer terminal (131) through an electric signal transfer socket (119).

2. The intelligent fighting vest for use in large space simulation combat training as claimed in claim 1, wherein a storage pocket (116) is provided on the vest front (102), and an inlet longitudinal tightening strap (115) and an inlet transverse tightening strap (117) are provided on the carry-on computer insertion pocket (114), respectively.

Images