CN216592975U - Fighting suit with infrared receiver - Google Patents

Abstract

The utility model provides a battle uniform with an infrared receiver, which comprises a battle uniform main body and a plurality of infrared receiving units arranged on the battle uniform main body; the infrared receiving unit comprises an infrared receiver and a mounting mechanism for bearing the infrared receiver; the mounting mechanism and the infrared receiver are detachably connected. In actual implementation, infrared receiver receives the infrared code signal that laser emitter jetted out, later decodes through the decoder, and the signal after the decoder is decoded can be collected to the novel treater of individual soldier, and then judges the position that the competitor was hit in the actual combat drill, for example: chest, arms, abdomen, etc. Simultaneously, when receiving the striking and leading to infrared receiver to damage, dismantled and assembled structure makes infrared receiver loading and unloading change more swift high-efficient, and it is fast to have the change with prior art comparison, can guarantee the accurate advantage to wartime data.

Description

Fighting suit with infrared receiver

Technical Field

The utility model relates to an information processing technology field, concretely relates to combat uniform with infrared receiver.

Background

War simulation, which adopts field actual soldier actual equipment, or adopts simple objects similar to charts, sand tables and the like, symbols, marks and the like to represent the configuration of a battlefield, army and weapons, and carries out strategy confrontation in a chess playing mode by commanders and officers playing both sides according to action rules of actual combat constraints, thereby achieving the purpose of research, mainly only being limited to imitating combat actions, having lower levels and narrower ranges and generally being called as 'combat simulation'.

When the fight simulation, perhaps need crawl on the ground to the war dress to the war charm and go forward or run fast, these circumstances all make infrared receiver damage easily, lead to the fighter to be hit the unable transmission signal of time infrared receiver, cause the fight result inaccurate, and be difficult for changing after infrared receiver damages, be unfavorable for the training.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a combat uniform with infrared receiver.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a battle uniform with an infrared receiver comprises a battle uniform main body and a plurality of infrared receiving units arranged on the battle uniform main body; the infrared receiving unit comprises an infrared receiver and a mounting mechanism for bearing the infrared receiver; the mounting mechanism is detachably connected with the infrared receiver; the combat uniform also comprises an individual soldier information processor communicated with the infrared receiver; the combat uniform further comprises a decoder for decoding the laser emitted by the laser emitter; the decoder is arranged on the infrared receiver or the individual information processor.

The mounting mechanism comprises a mounting seat; the mount pad includes the first face towards the outside and sets up in the mounting groove that just is used for holding infrared receiver on first face.

The mounting mechanism also comprises a limiting component arranged at the opening of the mounting groove; the limiting assembly comprises an annular sleeve sleeved outside the mounting seat and a limiting baffle sheet connected with the annular sleeve; the mounting base further comprises a limiting convex ring for limiting the annular sleeve.

The limiting blocking piece is provided with a limiting hole for the infrared receiver to pass through; the infrared receiver is provided with an annular groove and an inlet communicated with the annular groove; the limiting hole is provided with a limiting edge section matched with the inlet.

The annular sleeve is in threaded connection with the limiting blocking piece.

The mounting mechanism also comprises a fixed seat in threaded connection with the mounting seat; the mounting seat further comprises a second surface opposite to the first surface in direction and a connecting groove arranged on the second surface; the fixing seat is provided with a connecting section extending into the connecting groove.

The battle uniform main body comprises a surface layer positioned on the outer side and an inner layer positioned on the inner side; the limiting blocking piece is connected with the surface layer in a sewing mode; the fixing seat is provided with a sewing section which is connected with the inner layer in a sewing way.

The limiting blocking piece is provided with suture holes which are uniformly distributed around the limiting hole.

The mounting seat is provided with a first jack arranged on the bottom surface of the mounting groove; the infrared receiver is provided with a pin matched with the first jack.

The pair of the war clothing bodies comprises a hollow-out layer between a surface layer and a lining layer; the mounting seat is provided with a middle section positioned in the hollow layer; the middle section has a second receptacle; the first jack and the second jack are communicated.

The combat uniform also comprises an information processor for individual soldiers for receiving the infrared receiver; the information processor for the individual soldier comprises a processor main body and a bearing seat for bearing the processor main body.

The bearing seat is provided with a signal collector for collecting the infrared receiver; the signal collector is provided with a transmission module which is in wireless communication with the processor main body; the processor body is provided with an amplifying module for amplifying signals and an antenna for transmitting the signals.

After adopting above-mentioned technical scheme, a battle uniform with infrared receiver has following beneficial effect at least:

in actual implementation, infrared receiver receives the infrared code signal that laser emitter jetted out, later decodes through the decoder, and the signal after the decoder is decoded can be collected to the novel treater of individual soldier, and then judges the position that the competitor was hit in the actual combat drill, for example: chest, arms, abdomen, etc. Simultaneously, when receiving the striking and leading to infrared receiver to damage, dismantled and assembled structure makes infrared receiver loading and unloading change more swift high-efficient, and it is fast to have the change with prior art comparison, can guarantee the accurate advantage to wartime data.

Drawings

FIG. 1 is a schematic view of a first view angle of the battle uniform of the present invention;

FIG. 2 is a schematic structural view of a second view angle of the battle uniform of the present invention;

FIG. 3 is a schematic structural view of the mounting mechanism of the present invention;

fig. 4 is a schematic structural view of the limiting baffle of the present invention;

fig. 5 is a schematic structural view of the infrared receiver of the present invention;

fig. 6 is a schematic structural diagram of a processor main body according to the present invention;

fig. 7 is a schematic structural view of the load-bearing seat of the present invention;

in the figure: to uniform body b 1; an infrared receiving unit b 2; an installation mechanism 1; an infrared receiver 2; a mounting base 3; a mounting groove 4; a limiting component 5; an annular sleeve 6; a limiting baffle 7; a limit convex ring 8; a limiting hole 9; an annular groove 10; a limiting edge section 11; a fixed base 12; a connecting groove 13; a connecting section 14; a face layer 15; an inner layer 16; a sewing segment 17; a suture hole 18; a first insertion hole 19; a pin 20; a hollowed-out layer 21; an intermediate section 22; a second insertion hole 23; processor body a 1; a bearing seat a 2; seat main body a 3; the bearing grooves a 4; a movable clip mechanism a 5; a clamping plate a 6; a first prestressed telescopic rod a 7; a second prestressed telescopic rod a 8; a first card segment a 9; a second card segment a 10; an adjustment mechanism a 11; the inclined surface a 12; the rail groove a 13; a positioning groove a 14; lever a 15; a clamping boss a 16; a pre-tightening spring a 17; support panel a 18; the elastic bar a 19.

Detailed Description

In order to further explain the technical solution of the present invention, the following is a detailed explanation through specific examples.

As shown in fig. 1 to 7, a duffel suit having an infrared ray receiver, includes a duffel suit body b1 and a plurality of infrared receiving units b2 provided on a duffel suit body b 1; the infrared receiving unit b2 includes an infrared receiver 2 and a mounting mechanism 1 carrying the infrared receiver 2; the mounting mechanism 1 and the infrared receiver 2 are detachably connected; the combat uniform also comprises an individual soldier information processor communicated with the infrared receiver; the combat uniform further comprises a decoder for decoding the laser emitted by the laser emitter; the decoder is arranged on the infrared receiver or the individual information processor. In actual implementation, infrared receiver receives the infrared code signal that laser emitter jetted out, later decodes through the decoder, and the signal after the decoder is decoded can be collected to the novel treater of individual soldier, and then judges the position that the competitor was hit in the actual combat drill, for example: chest, arms, abdomen, etc.

Simultaneously, when receiving the striking and leading to infrared receiver 2 to damage, dismantled and assembled structure makes infrared receiver 2 loading and unloading change more swift high-efficient, and it is fast to have a change speed with prior art comparison, can guarantee the accurate advantage to wartime data.

In an alternative embodiment of the present application, the mounting mechanism 1 comprises a mounting base 3; the mounting seat 3 includes a first surface facing outward and a mounting groove 4 provided on the first surface and used for accommodating the infrared receiver 2. In the practical implementation process, when the infrared receiver 2 is damaged, the installation groove 4 arranged towards the outer side can be directly inserted, so that the installation and replacement of the infrared receiver 2 for a fighter are facilitated; when the battle begins or ends, the infrared receiver 2 is detected and rapidly replaced.

In an optional embodiment of the present application, the mounting mechanism 1 further includes a limiting component 5 disposed at an opening of the mounting groove 4; the limiting assembly 5 comprises an annular sleeve 6 sleeved outside the mounting seat 3 and a limiting baffle 7 connected with the annular sleeve 6; the mounting base 3 further comprises a limiting convex ring 8 for limiting the annular sleeve 6. In the practical implementation process, the limiting convex ring 8 can limit the annular sleeve 6 to prevent the annular sleeve 6 from falling off the mounting base 3; the annular sleeve 6 can rotate outside the mounting seat 3, and the limiting blocking piece 7 and the annular sleeve 6 are connected into a whole through threads and can rotate around the mounting seat 3; the infrared receiver 2 in the mounting groove 4 is movably limited by rotating the limiting blocking piece 7; the replacement efficiency of the infrared receiver 2 can be effectively improved.

In an alternative embodiment of the present application, the limiting baffle 7 has a limiting hole 9 for the infrared receiver 2 to pass through; the infrared receiver 2 is provided with an annular groove 10 and an inlet communicated with the annular groove 10; the limiting hole 9 has a limiting edge section 11 which cooperates with the inlet opening. In the actual implementation process, in spacing marginal section 11 got into annular groove 10 from the import department, rotatory infrared receiver 2 blocked spacing separation blade 7 in annular groove 10, and spacing marginal section 11 can carry on spacingly to infrared receiver 2, prevents that infrared receiver 2 from droing, guarantees the simulation to the wartime, infrared receiver 2's stability.

In an alternative embodiment of the present application, the annular sleeve 6 is screwed with the stop flap 7. In the actual implementation process, threaded connection's annular cover 6 and spacing separation blade 7 are easily installed, and the screw thread can let annular cover 6 and spacing separation blade 7 restrict each other simultaneously, be difficult for the aversion that drops.

In an alternative embodiment of the present application, the mounting mechanism 1 further comprises a fixed seat 12 in threaded connection with the mounting seat 3; the mounting base 3 further comprises a second surface opposite to the first surface and a connecting groove 13 arranged on the second surface; the holder 12 has a connecting section 14 which projects into the connecting slot 13. In the actual implementation process, the fixed seat 12 is in threaded connection with the mounting seat 3, so that the installation is easy; and the connecting section 14 can go deep into the fixed seat 12, ensuring the stability of the installation mechanism 1.

In an alternative embodiment of the present application, the turnout gear body b1 comprises a face layer 15 on the outside and a back layer 16 on the inside; the limiting baffle 7 is sewn with the surface layer 15; the holder 12 has a sewing segment 17 that is sewn to the inner layer 16. In the actual implementation process, the limiting blocking piece 7 is connected with the surface layer 15 in a sewing mode, the fixing seat 12 is connected with the inner layer 16 in a sewing mode, in the actual process of replacing the infrared receiver 2, the limiting blocking piece 7 is twisted, so that the fabric is twisted along with the limiting blocking piece 7, the limiting edge section 11 is located at an inlet, the damaged infrared receiver 2 is pulled out at the moment, a new infrared receiver 2 is replaced, then the limiting blocking piece 7 is released, and the limiting edge section 11 is separated from the inlet under the action of restoring force of the surface layer 15 by the limiting blocking piece 7, so that the new infrared receiver 2 is limited; can effectual improvement infrared receiver 2's change efficiency, improve infrared receiver 2's stability through the surface fabric restriction to spacing separation blade 7 simultaneously.

In an alternative embodiment of the present application, the limiting blocking sheet 7 has suture holes 18 uniformly distributed around the limiting hole 9. In the actual implementation process, the limiting blocking piece 7 is sewn on the surface layer 15 through the sewing thread hole 18 by a thread, so that the fabric is twisted along with the limiting blocking piece 7, the replacement efficiency of the infrared receiver 2 can be effectively improved, and meanwhile, the stability of the infrared receiver 2 is improved by limiting the limiting blocking piece 7 through the fabric.

In an alternative embodiment of the present application, the mounting seat 3 has a first insertion hole 19 provided on the bottom surface of the mounting groove 4; the infrared receiver 2 has a pin 20 which mates with the first receptacle 19. In the actual implementation process, the mounting base 3 is provided with three first jacks 19 which are arranged in a triangular manner and can be matched with pins 20 of the infrared receiver 2, so that the infrared receiver 2 is connected with the individual soldier information processor, and the timely transmission of signals is ensured.

In an alternative embodiment of the present application, the turnout gear body b1 includes a hollowed-out layer 21 between the face layer 15 and the inner layer 16; the mounting seat 3 has a middle section 22 in the hollowed-out layer 21; the intermediate section 22 has a second receptacle 23; the first and second insertion holes 19 and 23 communicate. In the actual implementation process, the interlude 22 of fretwork layer 21 has three second jack 23 that is the triangle-shaped range, can be connected with first jack 19, lets infrared receiver 2 and individual soldier information processor be connected, guarantees signal timely transmission.

In an alternative embodiment of the present application, the combat uniform further comprises an information processor for the individual soldier receiving the infrared receiver 2; the information processor for individual soldier includes a processor main body a1 and a carrying seat a2 carrying the processor main body a 1. In the practical implementation process, the bearing seat a2 is fixed on the pair of war clothes, the processor body a1 is placed in the bearing groove a4, and the processor body a1 is clamped through the movable clamping mechanism a5, so that the processor body a1 can be rapidly assembled and disassembled; be convenient for the fighter to use information processor, improve the experience effect of simulation fight.

In an alternative embodiment of the present application, the carrying seat a2 has a signal collector that collects the infrared receiver 2; the signal collector has a transmission module which wirelessly communicates with the processor body a 1; the processor body a1 has an amplification module that amplifies a signal and an antenna that transmits the signal. In the practical implementation process, the transmission module can collect the information of the infrared receiver 2 and transmit the information to the processor body a1, the signal is further amplified through the antenna of the processor body a1 for retransmission, and the transmission module communicates with the processor body a1 through bluetooth, so that the signal collection and transmission are facilitated.

In an alternative embodiment of the present application, the carrier seat a2 is detachably connected with the processor body a 1; the bearing seat a2 further comprises a seat main body a3, a bearing groove a4 on the seat main body a3, and a movable clamping mechanism a5 arranged in the bearing groove a 4. The bearing groove a4 includes a mounting region where the processor body a1 is mounted; the movable clamping mechanism a5 comprises two clamping components which are respectively arranged at two sides of the mounting area; the clip assembly includes a clamping plate a6 and a first pre-stressed telescoping rod a7 that abuts between the clamping plate a6 and the inner side wall of the load-bearing channel a 4. In the practical implementation process, the processor body a1 is disposed in the mounting region, and the first pre-stressed telescopic rod a7 provides pre-stress, so that the clamping plate a6 clamps the processor body a1 from both sides, and the processor body a1 is prevented from being unintentionally separated from the bearing groove a4, thereby improving the stability of mounting the processor body a1, and enabling the processor body a1 to be connected with the bearing seat a2 more firmly and reliably.

In an alternative embodiment of the present application, the first pre-stressed telescopic rod a7 includes a sleeve fixedly connected to an inner sidewall of the bearing groove a4, a rod fixedly connected to the clamping plate a6, and a compression spring disposed in the sleeve and abutting against the rod between the sleeve and the rod. In the practical implementation process, pretightening force is provided through the pressure spring, so that the clamping plate a6 clamps the processor main body a1 from two sides, the processor main body a1 is prevented from being separated from the bearing groove a4 unintentionally, the stability of installing the processor main body a1 is improved, and the processor main body a1 is connected with the bearing seat a2 more firmly and reliably.

In an alternative embodiment of the present application, the clip assembly further comprises a second pre-stressed telescopic rod a8 disposed on the clamping plate a 6; the second prestressed telescopic rod a8 has a first clip section a9 protruding into the mounting region and a second clip section a10 protruding out of the socket main body a 3; the carrying seat a2 further includes an adjusting mechanism a11 disposed outside the seat main body a3 for adjusting the second card section a 10. In the practical implementation process, the processor main body a1 is further limited by the first clamping section a9 extending into the mounting area, so that the processor main body a1 is prevented from shaking up and down along the bearing groove a4 to separate from the bearing seat a2 in the moving process of personnel; when personnel need command the dialogue, it is the outside one section distance that moves of second card section a10 through adjustment mechanism a11, drives first card section a9 shrink, and first card section a9 is short time to leave the installation region this moment, and the user can extract bearing groove a4 with treater main part a1, and convenient to use person dismantles treater main part a1, is convenient for use information processor to the fighter, improves the experience effect of simulation fight.

In an alternative embodiment of the present application, the first card segment a9 has a slope a12 in the mounting area; the inclined surface a12 gradually inclines from top to bottom toward the inside of the mounting region. In practical implementation, when the processor body a1 is installed, the processor body a1 extends into the installation area from top to bottom, and during the extending process, the processor body a1 moves along the inclined surface a12 to press the first clamping section a9, so that the first clamping section a9 contracts; the installation of the processor body a1 is smoother and more efficient by the inclined surface a 12.

In an alternative embodiment of the present application, the handler body a1 includes a side corresponding to the clamping plate a6, a rail groove a13 on the side, and a positioning groove a14 connected to the rail groove a 13; the first clip segment a9 slides along the track groove a 13. In practical implementation, in the process of installing the processor main body a1, the first clamping section a9 is attached to the rail groove a13 by prestress to slide until the first clamping section a9 extends out of the positioning groove a14, and the first clamping section a9 is clamped in the positioning groove a14, so that the processor main body a1 is limited; the installation of the processor body a1 is facilitated, so that the connection between the processor body a1 and the bearing seat a2 is firmer and more reliable.

In an alternative embodiment of the present application, the second clip segment a10 includes a connection end connected with an adjustment mechanism a 11; the connecting end portion has a gap with the seat main body a 3; the adjustment mechanism a11 includes a lever a15 rotatably connected to the seat main body a 3; lever a15 includes a first end projecting into the gap, a second end at the other end, and a rotating end between the first and second ends; the rotating end portion is rotatably connected to the seat main body a 3. In the practical implementation process, the second end of the pressing lever a15 tilts the first end to connect the ends, so that the second clip section a10 moves outwards to drive the first clip section a9 to contract, at this time, the first clip section a9 disengages from the positioning groove a14, the processor body a1 is no longer limited, and the processor body a1 is convenient to disengage from the bearing seat a 2.

In an alternative embodiment of the present application, the second pre-stressed telescopic rod a8 further comprises a connection section between the first clip section a9 and the second clip section a 10; the connecting section comprises a clamping boss a 16; the clamping plate a6 is provided with a limiting groove matched with the clamping boss a 16. In practical implementation, the processor bodies a1 with different sizes can be installed in the installation area by pressing the clamping plate a 6; in the process of pressing the clamping plate a6, the clamping plate a6 presses the second pre-stressed telescopic rod a8, and the length of the first clamping section a9 extending into the mounting area is ensured through the matching of the clamping boss a16 in the limiting groove.

In an optional embodiment of the present application, the second pre-stressed telescopic rod a8 further comprises a pre-stressed spring a17 sleeved outside the connecting section; the pre-tightening spring a17 is abutted against the clamping boss a16 and the inner side wall of the bearing groove a 4. In practical implementation, the preload spring a17 provides a preload force, so that the first clip section a9 always protrudes toward the mounting region, and the processor body a1 is prevented from being unintentionally separated from the bearing seat a 2.

In an alternative embodiment of the present application, the carrier seat a2 further includes a support plate a18 under the mounting area and elastic rods a19 between the support plate a18 and the bottom wall of the carrier seat a 2. In practical implementation, after the processor body a1 is installed, the processor body a1 presses the bearing plate, so that the elastic rod a19 compresses the stored force; when first card section a9 breaks away from constant head tank a14 back, elasticity pole a19 recovers to pop out treater main part a1 and bears seat a2 for dismantle the speed of treater, be convenient for the competitor uses information processor, improves the experience effect of simulation fight.

The product form of the present invention is not limited to the drawings and embodiments of the present application, and any person can properly change or modify the product form of the present invention without departing from the scope of the present invention.

Claims (10)

1. A battle uniform with infrared receiver, its characterized in that: the infrared receiving unit is arranged on the battle uniform main body; the infrared receiving unit comprises an infrared receiver and a mounting mechanism for bearing the infrared receiver; the mounting mechanism is detachably connected with the infrared receiver; the combat uniform also comprises an individual soldier information processor communicated with the infrared receiver; the combat uniform further comprises a decoder for decoding the laser emitted by the laser emitter; the decoder is arranged on the infrared receiver or the individual information processor.

2. The combat suit with infrared receiver of claim 1, wherein: the mounting mechanism comprises a mounting seat; the mount pad includes the first face towards the outside and sets up in the mounting groove that just is used for holding infrared receiver on first face.

3. The combat suit with infrared receiver of claim 2, wherein: the mounting mechanism also comprises a limiting component arranged at the opening of the mounting groove; the limiting assembly comprises an annular sleeve sleeved outside the mounting seat and a limiting baffle sheet connected with the annular sleeve; the mounting base further comprises a limiting convex ring for limiting the annular sleeve.

4. The combat suit with infrared receiver of claim 3, wherein: the limiting blocking piece is provided with a limiting hole for the infrared receiver to pass through; the infrared receiver is provided with an annular groove and an inlet communicated with the annular groove; the limiting hole is provided with a limiting edge section matched with the inlet.

5. The combat suit with infrared receiver of claim 4, wherein: the annular sleeve is in threaded connection with the limiting blocking piece.

6. The combat suit with infrared receiver of claim 5, wherein: the mounting mechanism also comprises a fixed seat in threaded connection with the mounting seat; the mounting seat further comprises a second surface opposite to the first surface in direction and a connecting groove arranged on the second surface; the fixing seat is provided with a connecting section extending into the connecting groove.

7. The combat suit with infrared receiver of claim 6, wherein: the battle uniform main body comprises a surface layer positioned on the outer side and an inner layer positioned on the inner side; the limiting blocking piece is connected with the surface layer in a sewing mode; the fixing seat is provided with a sewing section which is connected with the inner layer in a sewing way.

8. The combat suit with infrared receiver of claim 7, wherein: the limiting blocking piece is provided with suture holes which are uniformly distributed around the limiting hole.

9. The combat suit with infrared receiver of claim 8, wherein: the mounting seat is provided with a first jack arranged on the bottom surface of the mounting groove; the infrared receiver is provided with a pin matched with the first jack.

10. The combat suit with infrared receiver of claim 9, wherein: the pair of the war clothing bodies comprises a hollow-out layer between a surface layer and a lining layer; the mounting seat is provided with a middle section positioned in the hollow layer; the middle section has a second receptacle; the first jack and the second jack are communicated.

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