CN216235765U - Underwater vehicle simulated laying device - Google Patents

Abstract

The utility model provides a simulated laying device of an underwater vehicle, which comprises a hoisting device fixed on a stable platform, a slide rail module, a hanging module and a load, wherein the slide rail module comprises a main slide rail frame, a pulley and a slide rail groove; the slide rail groove of the slide rail module is connected with the slide rail of the hanging module in a hinge connection mode, and the hoisting equipment is connected with the pulley on the slide rail module and the hoisting ring on the hanging module through steel wires. The device can conveniently and quickly realize the technical effects of underwater static mounting and dynamically putting loads during navigation.

Description

Underwater vehicle simulated laying device

Technical Field

The utility model relates to the technical field of carrying devices of underwater vehicles, in particular to a simulated laying device of an underwater vehicle.

Background

The static or dynamic mounting of the underwater vehicle has wide application prospect in the field of water surface engineering operation or fishery, however, the conventional underwater vehicle generally has complex equipment structure and high cost, and is not suitable for the requirements of small and simple operations such as low precision requirement, portability, easy assembly and the like.

SUMMERY OF THE UTILITY MODEL

The utility model provides a simulated deployment device of an underwater vehicle, which aims to solve the problem of small and simple operation requirement in the background technology.

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

the underwater vehicle simulated laying device comprises hoisting equipment fixed on a stable platform, a slide rail module, a hanging module and a load, wherein the slide rail module comprises a main slide rail frame, a pulley and a slide rail groove; the slide rail groove of the slide rail module is connected with the slide rail of the hanging module in a hinge connection mode, and the hoisting equipment is connected with the pulley on the slide rail module and the hoisting ring on the hanging module through steel wires.

Preferably, the slide rail main frame is connected with the stabilizing platform in a twist lock fixing mode.

Preferably, the slide rail groove and the slide rail are at least one set.

Preferably, the slide rail groove is a dovetail groove, and the slide rail is a dovetail slide rail matched with the slide rail groove.

Preferably, the bottom of the slide rail is provided with a baffle.

Preferably, the pulley is a labor-saving pulley block consisting of a plurality of pulleys.

Preferably, the hoisting device is a manual or electric hoist.

The underwater vehicle simulated deployment device has the effective technical effect that the underwater vehicle simulated deployment device comprises hoisting equipment, a sliding rail module, a hanging module and a load, wherein the hoisting equipment is fixed on a stable platform, the hoisting equipment can be fixed on a deck plane of a ship or a water surface platform, and the hanging module is connected with the load. Hoisting equipment is connected with a pulley on the sliding rail module and a hoisting ring on the hanging module through a steel wire, and then the sliding rail on the hanging module is pulled to move through the hoisting action of the hoisting equipment, so that the operation of loading from the ship surface to water entering and recycling is realized, the purpose of dynamically putting in the load during static hanging and navigation can be realized, and meanwhile, the distribution device is easy to assemble and subsequently separate, and is simple and convenient to operate.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the embodiments and the drawings will be further described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic diagram of a simulated deployment apparatus for an underwater vehicle;

FIG. 2 is a schematic structural diagram of a slide rail module;

FIG. 3 is a schematic diagram of another underwater vehicle simulated deployment apparatus configuration.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, which are simplified schematic drawings that schematically illustrate the basic mechanism of the present invention and thus show only the constitution related to the present invention.

As shown in fig. 1 and 2, a schematic structural diagram of an underwater vehicle simulated deployment device includes a hoisting device, a skid rail module, a hitch module and a load. The hoisting equipment 1 is positioned on the stable platform 2, the sliding rail module comprises a sliding rail main frame 3-1, a pulley 3-2 and a sliding rail groove 3-3, and the hanging module comprises a hanging main frame 4-1, a sliding rail 4-2, a lifting ring 4-3 and a hanging lifting assembly 4-4. The slide rail main frame 3-1 is connected with the stable platform 2, and the hanging hoisting component 4-4 is connected with the load 5; the slide rail groove 3-3 of the slide rail module is connected with the slide rail 4-2 of the hanging module through a hinge connection mode, a concrete hinge connection mode shown in the figure is that the hinge connection mode is matched and connected through a pin shaft 7, and the hoisting equipment 1 is connected with the pulley 3-2 on the slide rail module and the hoisting ring 4-3 on the hanging module through a steel wire 8.

The connecting mode of the sliding rail module and the stabilizing platform can be selected from a twist lock connecting mode, specifically, a twist lock 6 is welded on the stabilizing platform, a twist lock base 3-4 is welded on one side of a sliding rail main frame 3-1 of the sliding rail module, and the twist lock base 3-4 can be detachably connected with the twist lock 6 on the stabilizing platform 2. The slide rail module can be connected with the stable platform through the twist lock 6 and the twist lock bases 3-4. Specifically, the stable platform can be a plane of a deck of a ship and can also be other horizontally stable platforms.

Specifically, as shown in the schematic structural diagram of a slide rail module shown in fig. 2, there are two slide rail grooves 3-3, the specification of the slide rail groove is a dovetail groove, and a dovetail-shaped slide rail 4-2 is matched with the slide rail groove. The dovetail groove and the dovetail slide rail which is connected with the main frame can move in a matching way, so that the hanging module can be dragged to move up and down. And a baffle plate 3-5 is arranged at the lowest part of the slide rail and is used for preventing the slide rail frame from slipping.

Specifically, the pulley is a labor-saving pulley block consisting of a plurality of pulleys.

Specifically, the hoisting device is a manual or electric winch.

Fig. 3 shows a specific structure schematic diagram of a simulation laying device of an underwater vehicle. The hoisting equipment winch 1 is fixedly welded on a deck of a ship, a fixed pulley 3-2 is welded on a slide rail main frame 3-1 of the slide rail module, and a hoisting ring 4-3 is welded on a hanging main frame 4-1. A steel wire rope 8 on the winch bypasses the fixed pulley 3-2 on the slide rail frame and is hung on a hoisting ring 4-3 hung on the main frame. The slide rail moves along the slide rail dovetail groove through the lifting action of the winch, so that the hanging module and the corresponding load 5 are pulled, and the action of loading into water and recovering from the ship surface is realized.

The utility model has the effective technical effect that the utility model provides the underwater vehicle simulated deployment device which comprises hoisting equipment fixed on a stable platform, a sliding rail module, a hanging module and a load, wherein the hoisting equipment can be fixed on a ship deck plane or a water surface platform, and the hanging module is connected with the load. The hoisting equipment is connected with the pulley on the sliding rail module and the hoisting hanging ring on the hanging module through the steel wire, and further the sliding rail on the hanging module is pulled to move through the hoisting action of the hoisting equipment, so that the operation of entering water and recovering the load from the ship surface is realized, the purpose of dynamically putting in the load during static hanging and navigation can be realized, meanwhile, the distribution device is easy to assemble and subsequently separate, and the operation is simple and convenient.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations can be made in the related art without departing from the spirit and scope of the utility model. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (7)

1. The underwater vehicle simulated laying device is characterized by comprising hoisting equipment fixed on a stable platform, a slide rail module, a hanging module and a load, wherein the slide rail module comprises a main slide rail frame, a pulley and a slide rail groove; the slide rail groove of the slide rail module is connected with the slide rail of the hanging module in a hinge connection mode, and the hoisting equipment is connected with the pulley on the slide rail module and the hoisting ring on the hanging module through steel wires.

2. The deployment device of claim 1 wherein the sled main frame is connected to the stabilizing platform by twist lock fastening.

3. The deployment device of claim 1 wherein the slide track slot and slide track are at least one set.

4. The deployment device of claim 1 wherein the rail slot is a dovetail slot and the rail is a mating dovetail rail.

5. The dispensing device of claim 1, wherein a baffle is disposed at the bottom of the slide rail.

6. The deployment device of claim 1 wherein the pulley is a labor saving pulley assembly of a plurality of pulleys.

7. The deployment device according to claim 1, characterized in that the hoisting apparatus is a manual or electric hoist.

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