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CN-117329936-B - Parachute system for cloud bomb

CN117329936BCN 117329936 BCN117329936 BCN 117329936BCN-117329936-B

Abstract

The invention relates to the technical field of parachute application, in particular to a parachute system for a cloud bomb, which comprises a parachute, a main parachute, the cloud bomb and a cloud explosion initiating device, wherein the bottom of the main parachute is connected with the cloud bomb, a plurality of parachute ropes at the bottom of the parachute are connected with the top of the main parachute, an installation space is formed by encircling the plurality of parachute ropes at the bottom of the parachute, an installation package is arranged in the installation space, the periphery of the installation package is fixedly connected with the plurality of parachute ropes of the parachute, the cloud explosion initiating device is arranged in a cavity of the installation package, a connecting piece is connected with the installation package, the connecting piece is provided with a first state for closing the cavity and a second state for opening the cavity to form an opening, in the first state, the cloud explosion initiating device can be fixed in the cavity of the installation package, and in the second state, the cloud explosion initiating device can enter and exit the cavity through the opening. Solves the problem that the larger umbrella opening force in the prior art can produce adverse effect on the safety of the detonating device.

Inventors

  • GUO BINGLEI
  • LIU JUNJIE

Assignees

  • 襄阳宏伟航空器有限责任公司

Dates

Publication Date
20260512
Application Date
20231030

Claims (10)

  1. 1. The utility model provides a parachute system for cloud explosive bullet, includes parachute, main parachute, cloud explosive bullet and cloud cluster detonating device, the bottom of main parachute with the cloud explosive bullet is connected, a plurality of parachute ropes of parachute bottom with the top of main parachute is connected, enclose between a plurality of parachute ropes of parachute bottom to close and be formed with the installation space, its characterized in that still includes the installation package and the connecting piece of interior cavity of establishing, the installation package is located in the installation space, just the week side of installation package with a plurality of parachute rope fixed connection of speed parachute, cloud cluster detonating device locates in the cavity of installation package, the connecting piece with the installation package is connected, the connecting piece has the closure the first state of cavity and opens the cavity forms the second state of opening, under the first state, cloud cluster detonating device can be fixed in the cavity of installation package in the second state, cloud cluster detonating device can be through the opening come in and go out the cavity.
  2. 2. The parachute system for cloud bombs of claim 1, wherein the installation pack is cylindrical in shape as a whole, a plurality of connection strips are provided at the opening end of the installation pack at intervals in the circumferential direction, and the connection member is connected with the plurality of connection strips to form a first state of closing the cavity.
  3. 3. The parachute system for cloud bombs of claim 2, wherein a plurality of the connection straps are each provided with a connection hole, the connection member includes binding strings which are penetratingly provided in the respective connection holes of the respective connection straps, and opposite ends of the binding strings are knotted and fixed.
  4. 4. The parachute system for cloud bombs of claim 1, wherein the parachute has a first configuration and a second configuration, the parachute being stacked on top of the cloud primer when the parachute is in the first configuration and the parachute being supportable to form a parachute-like configuration when the parachute is in the second configuration.
  5. 5. The parachute system for a cloud bomb of claim 1, wherein the main parachute has a third configuration and a fourth configuration, the main parachute being stacked on top of the cloud bomb when the main parachute is in the third configuration, the main parachute being supportable to form an umbrella-like structure when the main parachute is in the fourth configuration.
  6. 6. The parachute system for cloud explosive according to claim 5, wherein the main parachute comprises a canopy and a plurality of radiation bands, one ends of the plurality of radiation bands are uniformly arranged and connected along the circumferential direction of the canopy, the other ends of the plurality of radiation bands are connected with the cloud explosive, and each of the plurality of parachute ropes of the drag parachute is respectively connected with each of the plurality of radiation bands of the main parachute.
  7. 7. The parachute system for cloud bombs of claim 6, wherein a vent hole is provided at a top of the canopy of the main parachute.
  8. 8. The parachute system for cloud bombs of claim 6, wherein the length of the parachute line of the drag parachute is less than the length of the radiation band of the main parachute.
  9. 9. A parachute system for cloud bombs as claimed in claim 2, wherein the length of the connecting strip is 1/2-2/3 of the radius of the installation pack.
  10. 10. The parachute system for cloud bombs of claim 6, wherein the canopy of both the drag parachute and the main parachute is made of nylon cloth.

Description

Parachute system for cloud bomb Technical Field The invention relates to the technical field of parachute application, in particular to a parachute system for cloud bomb. Background The cloud bomb is used as one of attack means in modern wars, and compared with the traditional aviation bomb, the cloud bomb has the advantages of larger killing effect on enemy personnel in a shelter and a cave, and has the advantages of large battlefield killing effect, strong deterrence and the like. With the rapid development of aviation technology, a cloud explosive parachute system faces a new challenge of high parachute opening speed, as in the patent document with the prior patent application number 202211499756.6, a deceleration parachute system for a cloud explosive is disclosed, and particularly a deceleration parachute system for the cloud explosive is disclosed, wherein the bottom of the first parachute is connected with the cloud explosive, the top of the first parachute is connected with a plate secondary detonating device, the bottom of the second parachute is connected with the secondary detonating device, and under the high-speed condition, the parachute system generates large parachute opening force and large parachute opening force, so that not only can the structural design of the secondary detonating device be provided with higher requirements, but also the safety of the secondary detonating device can be adversely affected. In view of the situation, the invention provides a parachute system design scheme for cloud explosive bombs, which is used for cloud explosive bombs with higher parachute opening speed and avoids the adverse effect of large parachute opening force generated by a parachute on a secondary detonating device. Disclosure of Invention The invention aims to overcome the technical defects, and provides a parachute system for a cloud bomb, which solves the problem that the safety of an initiating device is adversely affected due to larger parachute opening force in the prior art. In order to achieve the technical purpose, the invention adopts the following technical scheme: The invention provides a parachute system for a cloud bomb, which comprises a parachute, a main parachute, a cloud bomb and a cloud explosion initiating device, wherein the bottom of the main parachute is connected with the cloud bomb, a plurality of parachute ropes at the bottom of the parachute are connected with the top of the main parachute, a mounting space is formed by encircling the plurality of parachute ropes at the bottom of the parachute, the system also comprises a mounting bag and a connecting piece, a cavity is arranged in the mounting space, the periphery of the mounting bag is fixedly connected with the plurality of parachute ropes of the parachute, the cloud explosion initiating device is arranged in the cavity of the mounting bag, the connecting piece is connected with the mounting bag, the connecting piece is provided with a first state for closing the cavity and a second state for opening the cavity to form an opening, in the first state, the cloud explosion initiating device can be fixed in the cavity of the mounting bag, and in the second state, the cloud explosion initiating device can possibly enter and exit the cavity through the opening. In some embodiments, the installation package is cylindrical as a whole, a plurality of connecting bands are arranged at intervals along the circumferential direction at the opening end of the installation package, and the connecting piece is connected with the plurality of connecting bands to form a first state for closing the cavity. In some embodiments, a plurality of the connecting bands are provided with connecting holes, the connecting piece comprises binding ropes, the binding ropes can be arranged in the connecting holes of the connecting bands in a penetrating mode, and two opposite ends of the binding ropes can be fixed in a knotting mode. In some embodiments, the drogue has a first configuration and a second configuration, the drogue being stacked on top of the cloud initiating device when the drogue is in the first configuration, the drogue being supportable to form a umbrella-like structure when the drogue is in the second configuration. In some embodiments, the main umbrella has a third configuration and a fourth configuration, when the main umbrella is in the third configuration, the main umbrella is stacked on top of the cloud explosion bomb, and when the main umbrella is in the fourth configuration, the main umbrella can be unfolded to form an umbrella-like structure. In some embodiments, the main umbrella comprises an umbrella surface and a plurality of radiation belts, one ends of the radiation belts are uniformly arranged and connected along the circumferential direction of the umbrella surface, the other ends of the radiation belts are connected with the cloud explosion bomb, and each umbrella rope of the speed reducing umbrella is corresponding