CN217260673U - Multi-functional airborne training equipment - Google Patents

Abstract

The utility model relates to a multi-functional airborne training equipment, equipment parachuting training module, control training module and off-line training module, parachuting training module includes aerial simulation training platform, simulation parachuting slides track and fixed steelframe, simulation parachuting slides orbital initiating terminal and establishes in aerial simulation training platform top, and it is fixed through fixed steelframe, it establishes in simulation parachuting slides track below to control training module, including bracing piece and rings, the bracing piece slides track length direction along simulation parachuting and sets up, and install on fixed steelframe, rings hoist and mount on the bracing piece, off-line training module establishes in aerial simulation training platform below, include from the board, the off-line mounting is on the fixed steelframe of aerial simulation training platform below. The utility model discloses a multi-functional airborne training equipment, rational in infrastructure, area is little, can carry out the parachuting training simultaneously, control the training and train from the plane, and the integrated level is higher, can adapt to the demand that many people carried out training simultaneously.

Description

Multifunctional airborne training equipment

Technical Field

The utility model relates to a training equipment technical field, concretely relates to multi-functional airborne training equipment.

Background

The airborne landing is not only a sports activity but also a military activity, the airborne landing has certain danger, so training needs to be carried out on the ground before the airborne jump, so that the personnel involved in training can master various actions and skills skillfully, therefore, the airborne landing training equipment is needed to carry out simulation training, the airborne landing training equipment generally comprises an aerial platform and a group of slide rails, the slide rails are provided with two inclined sections and a tail end horizontal section, the two inclined sections are respectively a low-inclination-amplitude section and a high-inclination-amplitude section, the personnel involved in the parachute training carry out umbrella bag, the umbrella bag is connected with pulleys through three ropes, wherein the first ropes on two sides are longer than the second rope in the middle, the second rope in the middle is provided with an unlocking mechanism controlled by an umbrella opener, during training, the personnel involved in the parachute jump from the aerial platform and slide downwards along the slide rails, the umbrella opener in the umbrella bag can be automatically opened to read for a second, and the set time is one, the second rope will break away from with the umbrella package, and the umbrella is trained personnel and is fallen in the twinkling of an eye, and first rope is trained personnel to be stretched by the umbrella that falls simultaneously, and the umbrella is trained personnel and is hung to continue to slide to experience simulation parachute-opening process, at the direct ground that slides of high slope range section, simulation landing process.

The airborne training is except that the training of parachuting slides, training such as parachute jumping equipment manipulation training and departure training still, and current airborne training equipment function is comparatively single, generally can only be used as the training of parachuting that slides, perhaps can only carry out parachute jumping equipment manipulation training or departure training, has lead to airborne training equipment area great, and training personnel are comparatively inconvenient when carrying out the comprehensive training.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a multi-functional airborne training equipment solves the problem of current airborne training equipment function singleness.

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

a multifunctional airborne training device comprises a parachuting training module, a manipulation training module and an off-board training module, wherein the parachuting training module comprises an aerial simulation training platform, a simulation parachuting sliding track and a fixed steel frame, and the starting end of the simulation parachuting sliding track is arranged above the aerial simulation training platform and is fixed through the fixed steel frame; the operation training module is arranged below the simulated parachute jumping sliding track and comprises a supporting rod and a hanging ring, the supporting rod is arranged along the length direction of the simulated parachute jumping sliding track and is installed on the fixed steel frame, and the hanging ring is hung on the supporting rod; the off-line training module is arranged below the aerial simulation training platform and comprises an off-line platform, and the off-line platform is arranged on the fixed steel frame below the aerial simulation training platform.

Furthermore, the parachute jumping sliding track comprises a first track and a second track, the first track and the second track are arranged side by side, wherein the starting end of the first track is linear, and the starting end of the second track is annular.

Further, the first track comprises a first acceleration section, a first transition section, a first simulated parachute opening section, a first gliding section and a first landing section, wherein the inclination of the first acceleration section is greater than that of the first transition section, and the inclination of the first landing section is greater than that of the first gliding section.

Further, the second track comprises a second acceleration section, a second transition section, a second simulated parachute opening section, a second gliding section and a second landing section, wherein the second acceleration section is annular and is arranged in a downward spiral mode, the inclination of the second acceleration section is larger than that of the second transition section, and the inclination of the second landing section is larger than that of the second gliding section.

Further, the aerial simulation training platform comprises a first platform and a second platform, the first platform is arranged below the first acceleration section, and the second platform is arranged below the second acceleration section.

Furthermore, the first tracks are arranged above the first platform, the second tracks are arranged on two sides of the first tracks respectively, and the second tracks are arranged above the second platform.

Furthermore, a protective net is arranged between the aerial simulation training platform and the off-machine platform.

Furthermore, the lifting ring comprises a lifting ring body and a plurality of lifting ropes, the lifting ring body is hoisted on the supporting rod, the lifting ropes are hoisted on the lifting ring body, and the lifting ropes are arranged along the circumferential direction of the lifting ring body.

Further, be equipped with the guardrail on leaving the board, be equipped with on the guardrail and leave the machine mouth.

Furthermore, an airstair is arranged between the aerial simulation training platform and the ground.

The utility model has the advantages that:

the utility model discloses a multi-functional airborne training equipment, fixed steelframe top sets up aerial simulation training platform and simulation parachute slide track, the below sets up from the board, can supply many people to carry out parachute-jumping simulation training and from the quick-witted training simultaneously, still be equipped with support frame and rings at fixed steelframe middle part simultaneously, can carry out parachute-jumping equipment and control the training, setting through above, possible parachute-jumping simulation training, from quick-witted training and control training mutually noninterfere, simultaneously again integrated together, the area of training equipment has been reduced, the personnel of participating in training need not to carry out the individual training on the training equipment of difference during the training simultaneously, the convenience of training has been improved.

Drawings

Fig. 1 is a front view of the multifunctional airborne training equipment of the present invention;

FIG. 2 is a schematic view at A in FIG. 1;

FIG. 3 is a schematic view at B of FIG. 1;

fig. 4 is the top view of the multifunctional airborne training equipment of the present invention.

Names corresponding to the marks in the figure:

11. the aerial simulation training platform comprises a 111, a first platform, 112, a second platform, 12, a fixed steel frame, 13, a first rail, 131, a first acceleration section, 132, a first transition section, 133, a first simulation parachute opening section, 134, a first gliding section, 135, a first landing section, 14, a second rail, 141, a second acceleration section, 142, a second transition section, 143, a second simulation parachute opening section, 144, a second gliding section, 145, a second landing section, 21, a support rod, 22, a hanging ring, 221, a hanging ring body, 222, a hanging rope, 31, an departure platform, 32, a guardrail, 33, a departure port, 41, an boarding gangway, 51 and a protective net.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art all belong to the protection scope of the present invention.

Embodiment 1 of the utility model:

the embodiment of the utility model provides an in multi-functional airborne training equipment is through training parachuting, control training and off-line training integration on same training equipment, can carry out multiple airborne training simultaneously to solve present airborne training equipment function singleness's problem, can also save training equipment's area.

Specifically, as shown in fig. 1, the multifunctional airborne landing training device comprises a parachuting training module, an operation training module and an off-board training module, wherein the parachuting training module comprises an aerial simulation training platform 11, a simulation parachuting sliding track and a fixed steel frame 12, the simulation training platform and the simulation parachuting sliding receipt are arranged on the fixed steel frame 12, the fixed steel frame 12 is formed by sequentially arranging a plurality of gantry steel frames, and the simulation parachuting sliding track is arranged above the aerial simulation training platform 11 and used for simulating parachuting training. The control training module is arranged below the simulated parachuting sliding track and used for performing simulated training of the parachuting device, and the off-plane training module is arranged below the aerial simulated training platform 11 and used for performing the trip training.

In this embodiment, the parachute jumping sliding track includes a first track 13 and a second track 14, the first track 13 and the second track 14 are arranged side by side, and two first tracks 13 and two second tracks 14 are provided, so that parachute jumping training of four groups of people can be performed simultaneously, wherein the starting end of the first track 13 is linear, and the starting end of the second track 14 is annular, which is beneficial to saving the area of the aerial simulation training platform 11, and meanwhile, interference among the training people is avoided.

As shown in fig. 1 and 2, the first track 13 includes a first acceleration section 131, a first transition section 132, a first simulated parachute opening section 133, a first glide section 134, and a first landing section 135, which are arranged in series, the first acceleration section 131 has a greater inclination than the first transition section 132, and the first landing section 135 has a greater inclination than the first glide section 134.

As shown in fig. 1, the second track 14 includes a second acceleration section 141, a second transition section 142, a second simulated parachute opening section 143, a second glide section 144, and a second landing section 145, the second acceleration section 141 is annular and is arranged spirally downward, the inclination of the second acceleration section 141 is greater than that of the second transition section 142, and the inclination of the second landing section 145 is greater than that of the second glide section 144.

Meanwhile, the aerial simulation training platform 11 comprises a first platform 111 and a second platform 112, as shown in fig. 1 and 4, the first platform 111 is arranged below the first acceleration section 131, the second platform 112 is arranged below the second acceleration section 141, the two first rails 13 are arranged side by side, the first platform 111 is positioned below the first acceleration section 131, two groups of people can slide on the first platform 111 for parachute jumping training, the two second rails 14 are respectively arranged on two sides of the two first rails 13, and the second platform 112 is arranged below the second acceleration section 141 of the two second rails 14.

Through the arrangement, the training device in the embodiment can simultaneously accommodate 30 people for the sliding and parachuting training.

As shown in fig. 1 and 3, the operation training module is arranged below the simulated parachute-jumping sliding track, and includes a support rod 21 and two lifting rings 22, the support rod 21 is arranged along the length direction of the simulated parachute-jumping sliding track and is mounted on the fixed steel frame 12, in this embodiment, two support rods 21 are provided for two groups of people to perform operation simulation training, the lifting rings 22 are mounted on the support rod 21 side by side, each lifting ring 22 includes a lifting ring body 221 and a lifting rope 222, the lifting ring body 221 is mounted on the support rod 21, the lifting rope 222 is mounted on the lifting ring body 221, each lifting ring body 221 is provided with a plurality of lifting ropes 222, and each lifting rope 222 is arranged along the circumferential direction of the lifting ring body 221.

During the in-service use, the personnel of taking part in training wear the parachute-landing device, and the parachute-landing device is connected with lifting rope 222, and the personnel of taking part in training can carry out the control training of parachute-landing device.

As shown in fig. 1, the off-line training module is arranged below the aerial simulation training platform 11, and includes an off-line platform 31, the off-line platform 31 is also arranged on the fixed steel frame 12, a guardrail 32 is arranged on the off-line platform 31, and an off-line opening 33 is arranged on the guardrail 32, so that off-line training can be performed.

In order to facilitate getting on and off the aerial simulation training platform 11, an boarding ladder 41 is arranged between the aerial simulation training platform 11 and the ground, and meanwhile, a protective net 51 is arranged between the aerial simulation training platform 11 and the departure table 31 to prevent personnel from falling.

The working principle is as follows:

in actual use, a paramedic goes from the boarding gangway 41 to the aerial simulation training platform 11, the aerial simulation training platform 11 simulates an airplane cabin, the paramedic can carry out parachute jumping training on the first track 13 or the second track 14, when carrying out parachute jumping training on the first track 13, parachute jumping is simulated from the tail of an airplane, the paramedic carries out a parachute pack, the parachute pack is connected with pulleys through three ropes, wherein the first ropes on two sides are longer than the second rope in the middle, the second rope in the middle is provided with an unlocking mechanism controlled by a parachute opener, the paramedic jumps out of the first platform 111 and slides downwards along the first track 13, the speed is accelerated by the first accelerating section 131 to increase the speed, when the paramedic reaches the first simulation parachute opening section 133, the first ropes are separated from the parachute pack, the paramedic instantly falls, the first ropes are simultaneously pulled and expanded by the falling paramedic, and the paramedic is lifted and continuously slid, the experience simulates the parachute opening process and then slides at high speed to the ground through the first landing segment 135. When parachuting training is carried out on the second track 14, parachuting is carried out from the side face of the airplane in a simulated mode, a person participating in training carries out an umbrella bag, the umbrella bag is connected with pulleys through three ropes, the first ropes on two sides are longer than the second rope in the middle, the second rope in the middle is provided with an unlocking mechanism controlled by an umbrella opener, the person participating in training jumps out of the second platform 112 and slides downwards along the first track 13, the first rope descends spirally through the first acceleration section 131 to accelerate and increase the speed, when the first simulated umbrella unfolding section 133 is reached, the first rope is separated from the umbrella bag, the person participating in training falls instantly, the first rope is stretched by the falling person participating in training at the same time, the person participating in training is lifted to continue to slide, the simulated umbrella unfolding process is experienced, and then the person performs high-speed sliding to the ground through the second landing section 145. When the umbrella is used for operating training, the personnel can wear the umbrella descending device and hang the umbrella descending device on the hanging ring to train various operating actions. When the departure training is performed, the participant jumps down from the departure table 31 to simulate the jump.

The utility model discloses a multi-functional airborne training equipment, rational in infrastructure, area is little, can carry out the parachuting training simultaneously, control the training and train from the aircraft, and the integrated level is higher, can adapt to the demand that many people carried out the training simultaneously.

Claims (10)

1. The utility model provides a multi-functional airborne training equipment which characterized in that: the system comprises a parachuting training module, an operation training module and an off-plane training module, wherein the parachuting training module comprises an aerial simulation training platform, a simulation parachuting sliding track and a fixed steel frame, and the starting end of the simulation parachuting sliding track is arranged above the aerial simulation training platform and is fixed through the fixed steel frame; the operation training module is arranged below the simulated parachute jumping sliding track and comprises a supporting rod and a hanging ring, the supporting rod is arranged along the length direction of the simulated parachute jumping sliding track and is installed on the fixed steel frame, and the hanging ring is hung on the supporting rod; the off-line training module is arranged below the aerial simulation training platform and comprises an off-line platform, and the off-line platform is arranged on the fixed steel frame below the aerial simulation training platform.

2. The multifunctional airborne training apparatus of claim 1, characterized in that: the parachute jumping sliding track comprises a first track and a second track, the first track and the second track are arranged side by side, the starting end of the first track is linear, and the starting end of the second track is annular.

3. The multifunctional airborne training apparatus of claim 2, characterized in that: the first track comprises a first acceleration section, a first transition section, a first simulated parachute opening section, a first gliding section and a first landing section, wherein the inclination of the first acceleration section is greater than that of the first transition section, and the inclination of the first landing section is greater than that of the first gliding section.

4. A multifunctional airborne training apparatus according to claim 3, characterized in that: the second track comprises a second acceleration section, a second transition section, a second simulated parachute opening section, a second gliding section and a second landing section, wherein the second acceleration section is annular and is arranged in a spiral downward mode, the inclination of the second acceleration section is larger than that of the second transition section, and the inclination of the second landing section is larger than that of the second gliding section.

5. The multifunctional airborne training apparatus of claim 4, characterized in that: the aerial simulation training platform comprises a first platform and a second platform, wherein the first platform is arranged below the first acceleration section, and the second platform is arranged below the second acceleration section.

6. The multifunctional airborne training apparatus of claim 5, characterized in that: the first tracks are arranged above the first platform, the second tracks are arranged on two sides of the first tracks respectively, and the second tracks are arranged above the second platform.

7. The multifunctional airborne training apparatus of claim 1, characterized in that: and a protective net is arranged between the aerial simulation training platform and the off-machine platform.

8. A multifunctional airborne training apparatus according to claim 1, characterized in that: the lifting ring comprises a lifting ring body and a lifting rope, wherein the lifting ring body is lifted on the supporting rod, the lifting rope is lifted on the lifting ring body, and the lifting rope is arranged in the circumferential direction of the lifting ring body.

9. The multifunctional airborne training apparatus of claim 1, characterized in that: the off-machine platform is provided with a guardrail, and the guardrail is provided with an off-machine opening.

10. A multifunctional airborne training apparatus according to claim 1, characterized in that: an airstairs is arranged between the aerial simulation training platform and the ground.

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