Intelligent monitoring three-dimensional composite underwater vehicle shell body and preparation method thereof

A technology of underwater vehicles and composite materials, applied in chemical instruments and methods, synthetic resin layered products, layered products, etc., can solve the problems of short battery life of underwater vehicles, increased weight of underwater vehicles, and course control Slowness and other problems, to achieve good mechanical stability, reduce self-weight, improve the effect of stability

Active Publication Date: 2017-07-07
山东宽原新材料科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0003] In order to ensure the huge pressure difference inside and outside the cabin in the deep sea environment, traditional underwater vehicles must adopt a closed sealing structure, which requires that the shell material must be made of metal and have a certain thickness, and the thicker metal shell is extremely The self-weight of the underwater vehicle is greatly increased. At the same time, the endurance time and navigation

Method used

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  • Intelligent monitoring three-dimensional composite underwater vehicle shell body and preparation method thereof

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Effect test

Embodiment 1

[0060] The cylindrical metal sealing layer is prepared by high-strength stainless steel with a thickness of 3mm, and the length of the entire cylinder is 1m. The surface of the metal sealing cylinder is prepared with threads at a depth of 1mm.

[0061] Then prepare a rigid layer on the surface of the metal sealing sleeve, using high-strength carbon fiber as the main fiber, auxiliary glass fiber, the ratio of carbon fiber to auxiliary fiber in the hybrid fiber is controlled within the range of 5:1, and a three-dimensional four-way braided structure is selected. Six sets of strain-sensing sheets are embedded in the middle of the prefabricated body with a thickness of 3 mm. The strain-sensing sheets are uniformly arranged along the length of the cylinder and evenly distributed on the cross-sectional circle according to the angle. Three-dimensional five-directional weaving technology is used on the inner and outer surfaces of the rigid layer prefabricated body structure. The prep...

Embodiment 2

[0065] Aluminum alloy with a thickness of 3 mm is used to prepare a cylindrical metal sealing layer, and the length of the entire cylinder is 1.6 m. The surface of the metal sealing cylinder is prepared with threads at a depth of 1mm.

[0066] Then prepare a rigid layer on the surface of the metal sealing sleeve, using high-modulus carbon fiber as the main fiber, auxiliary glass fiber, the ratio of carbon fiber to auxiliary fiber in the hybrid fiber is controlled within the range of 5:1, and a three-dimensional five-way weaving structure is selected. Eight sets of strain-sensing sheets are embedded in the middle of the 4mm thickness of the rigid layer prefabricated body. The strain-sensing sheets are uniformly arranged along the length of the cylinder and evenly distributed on the cross-sectional circle according to the angle. Three-dimensional seven-way weaving technology is used on the inner and outer surfaces of the rigid layer prefabricated structure. The prepared rigid l...

Embodiment 3

[0070] A cylindrical metal sealing layer is prepared by using a titanium alloy with a thickness of 2mm, and the length of the entire cylinder is 2m. The surface of the metal sealing cylinder is prepared with threads at a depth of 1mm.

[0071] Then prepare a rigid layer on the surface of the metal sealing sleeve, using high-modulus carbon fiber as the main fiber, auxiliary basalt fiber, the ratio of carbon fiber to auxiliary fiber in the hybrid fiber is controlled within the range of 6:1, and a three-dimensional five-way weaving structure is selected. 10 sets of strain-sensing sheets are embedded in the middle of the 2mm thickness of the rigid layer prefabricated body. The strain-sensing sheets are uniformly arranged along the length of the cylinder and evenly distributed on the cross-sectional circle according to the angle. Three-dimensional seven-way weaving technology is used on the inner and outer surfaces of the rigid layer prefabricated structure. The prepared rigid lay...

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Abstract

The invention discloses an intelligent monitoring three-dimensional composite underwater vehicle shell body and a preparation method of the intelligent monitoring three-dimensional composite underwater vehicle shell body. The underwater vehicle shell body comprises a plurality of layers of structures from exterior to interior and comprises four parts of a corrosion resistance layer, an impact resistance layer, a rigidity layer and a metal sealing layer, one or more strain sensors is/are adopted in the impact resistance layer and the rigidity layer of a three-dimensional composite structure at the same time and introduced into the three-dimensional composite structure, and the stress state of the structure of the shell body is monitored through sensing of the micro-strain of the shell body in the working process. The three-dimensional prefabricated part structure guarantees the mechanical stability of the whole shell body, meanwhile, due to the arrangement of the impact resistance layer and the rigidity layer, the composite underwater vehicle shell body can adapt to different complex underwater environments.

Description

technical field [0001] The invention belongs to the technical field of underwater equipment, and relates to an intelligently monitored three-dimensional composite material underwater vehicle shell and a preparation method thereof, in particular to an intelligently monitored three-dimensional composite material underwater vehicle shell structure. Background technique [0002] The underwater vehicle is a cable-free underwater robot, which can carry a variety of electronic devices and energy sources, and can realize intelligent control and autonomous navigation. It is an advanced underwater survey equipment, especially suitable for complex geological environments Submarine engineering survey operations in deep water areas. [0003] In order to ensure the huge pressure difference inside and outside the cabin in the deep sea environment, the traditional underwater vehicles have to adopt a closed sealing structure, which requires that the shell material must be made of metal and h...

Claims

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Application Information

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IPC IPC(8): B32B27/06B32B27/08B32B15/00B32B15/18B32B15/20B32B15/092B32B15/098B32B15/09B32B15/095B32B15/085B32B15/08B32B27/38B32B27/40B32B27/42B32B27/36B32B27/32B32B27/28B63B3/13
CPCB32B15/00B32B15/08B32B15/085B32B15/09B32B15/092B32B15/095B32B15/098B32B15/18B32B15/20B32B27/08B32B27/285B32B27/32B32B27/36B32B27/365B32B27/38B32B27/40B32B27/42B63B3/13
Inventor 蔡珣曹伟伟于宽朱波
Owner 山东宽原新材料科技有限公司
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