CN220618250U - Lifting device for underwater camera - Google Patents

Abstract

The application discloses photographic head elevating gear under water includes: an underwater camera; the underwater camera is fixedly connected with a flexible connecting rope, and the connecting rope can penetrate through the floating plate in a sliding way; and the rotating motor is fixed on the top surface of the floating plate, and the rotating output end of the rotating motor is connected with the connecting rope in a winding way. The underwater camera is pulled by the rotating motor through the flexible connecting rope, the underwater camera provides telescopic guiding for providing telescopic guiding through the telescopic rod body, continuous and slow lifting of the underwater camera without excessive mechanical vibration is realized, the problem that the lifting telescopic rod is connected with the rotating motor, and the excessive mechanical vibration can be transmitted to a water body through the lifting telescopic rod during the working of the rotating motor to disturb fish is solved.

Description

Lifting device for underwater camera

Technical Field

The utility model relates to an underwater camera lifting device, and belongs to the technical field of fishery.

Background

Fishing is a derivative of recreational agricultural development, and when a fish is fished, observation is required by installing a camera under water in order to increase the fishing interest and to know the feeding condition of the fish.

The water levels in the same water area at different times have height difference, and when the camera is installed under water, the camera needs to be capable of lifting and stretching to adapt to the water levels of different depths; the prior art is a cage culture underwater monitoring device with the publication number of CN218734495U, and the disclosed technology is as follows: one end of the lifting telescopic rod is connected with the rotating shaft end of the rotating motor, and the lifting telescopic rod is adopted to drive the lifting of the underwater camera; although the lifting telescopic rod can lift with the underwater camera, as the lifting telescopic rod is connected with the rotating motor, excessive mechanical vibration can be transmitted to the water body through the lifting telescopic rod when the rotating motor works to surprise the fish.

Disclosure of Invention

In order to solve the technical problems, the utility model provides an underwater camera lifting device.

The utility model is realized by the following technical scheme.

The utility model provides an underwater camera lifting device, which comprises:

an underwater camera;

the underwater camera is fixedly connected with a flexible connecting rope, and the connecting rope can penetrate through the floating plate in a sliding way;

and the rotating motor is fixed on the top surface of the floating plate, and the rotating output end of the rotating motor is connected with the connecting rope in a winding way.

The underwater camera is connected with a wire harness for providing power and data transmission for the underwater camera.

The wire harness can penetrate through the floating plate in a sliding mode.

The device also comprises a cover body which is arranged on the floating plate and covers the rotating motor.

The floating plate comprises: the floating plate comprises a main body floating plate part and a plurality of additional floating plate parts, wherein the plurality of additional floating plate parts can be hinged on the main body floating plate part, and meanwhile, the plurality of main body floating plate parts can be hinged.

The main body floating plate part is provided with a through hole for the connection rope and the wire harness to pass through in a sliding way.

The main part frame bottom is fixed with the mounting panel, and the telescopic body of rod top is fixed on the mounting panel.

The utility model has the beneficial effects that: the underwater camera is pulled by the rotating motor through the flexible connecting rope, the underwater camera provides telescopic guiding for providing telescopic guiding through the telescopic rod body, continuous and slow lifting of the underwater camera without excessive mechanical vibration is realized, the problem that the lifting telescopic rod is connected with the rotating motor, and the excessive mechanical vibration can be transmitted to a water body through the lifting telescopic rod during the working of the rotating motor to disturb fish is solved.

Drawings

FIG. 1 is a schematic top view of the utility model without a cover;

FIG. 2 is a schematic view of the bottom structure of FIG. 1;

FIG. 3 is a schematic top view of the mounting cover of the present utility model;

in the figure: 1-floating plate; 2-an underwater camera; 21-wire harness; 3-a rod body; 4-connecting ropes; 5-a rotating electrical machine; 6-mounting plates; 11-a main body floating plate portion; 12-an additional floating plate portion; 13-a main body outer frame; 14-an additional outer frame; 15-a hinged concave head A; 16-hinging a raised head; 17-a hinged concave head B; 18-a rotation axis A; 19-a rotation axis B; 51-control panel; 52-cover.

Detailed Description

The technical solution of the present utility model is further described below, but the scope of the claimed utility model is not limited to the above.

As shown in fig. 1 to 3.

The utility model provides a photographic head elevating gear under water, includes:

a floating plate 1 which generates buoyancy after contacting with the water surface;

the underwater camera 2 is arranged below the floating plate 1, and the model of a special camera for the underwater robot with the Kirschner diameter of 46MM can be purchased by the underwater camera 2 and is UW-46A2-3DCTX10-LED;

the underwater camera 2 is connected below the floating plate 1 through a telescopic rod body 3, the rod body 3 is composed of two rods which can be sleeved in a sliding mode, the underwater camera 2 is bound and fixedly connected with a flexible connecting rope 4, and the connecting rope 4 can penetrate through the floating plate 1 in a sliding mode.

A rotating electric machine 5 mounted on the floating plate 1, wherein the rotating electric machine 5 can adopt a solar power generation plate to supply solar power (the solar power generation plate is not shown in the figure), and a control board 51 is electrically connected with the rotating electric machine 5 to control the operation of the rotating electric machine 5; the fixed shell of the rotating motor 5 is fixedly adhered to the floating plate 1, and the rotating output end of the rotating motor 5 is in wire-wound connection with the connecting rope 4.

The underwater camera 2 is pulled by the rotating motor 5 through the flexible connecting rope 4, the underwater camera 2 provides telescopic guiding for the telescopic rod body 3, continuous and slow lifting without excessive mechanical vibration of the underwater camera 2 is realized, the problem that the lifting telescopic rod is connected with the rotating motor, and the excessive mechanical vibration can be transmitted to a water body through the lifting telescopic rod during the working of the rotating motor to disturb the fish is solved.

The underwater camera 2 is connected with a wire harness 21 for providing power and data transmission for the underwater camera 2, and the wire harness 21 can penetrate through the floating plate 1 in a sliding mode.

And a cover 52 mounted on the floating plate 1 to cover the rotary motor 5 and the control plate 51.

When installing the camera under water on the surface of water through the body, the different regional underwater obscures can lead to the camera required different buoyancy that obtain to keep stable, and an automatic change is bred with intelligent video monitoring device under water of state of the art chinese patent publication No. CN218772216U, and the disclosure is: the floating plate is embedded in the floating ring; although the floating plate is embedded in the floating ring to form a whole body, the floating plate can provide buoyancy, but the floating plate can not provide different buoyancy to adapt to the use environment.

To cope with the different buoyancy environments required, the floating plate 1 comprises: the floating plate comprises a main body floating plate part 11 and a plurality of additional floating plate parts 12, wherein the plurality of additional floating plate parts 12 can be hinged on the main body floating plate part 11, and meanwhile, the plurality of main body floating plate parts 11 can be hinged; only one additional floating plate portion 12 mounting structure is shown in the drawings;

the main body outer frame 13 is fixedly clamped outside the main body floating plate part 11, and the tail ends of the periphery of the outer frame 13 are provided with hinged concave heads A15;

an additional outer frame 14 is fixedly clamped outside the additional floating plate part 12, and one side end part of the additional outer frame 14 is provided with a hinged protruding head 16;

the other side end of the additional outer frame 14 is provided with a hinging concave head B17, and the hinging concave head B17 is provided with two through holes for installing a rotating shaft A18 and a rotating shaft 19 so as to realize hinging butt joint between the additional outer frames 14 outside the additional floating plate part 12;

the main body outer frame 13 and the hinge convex head 16 are respectively provided with two through holes which correspond to each other and are provided with a rotating shaft A18 and a rotating shaft B19, the rotating shaft A18 is a rigid body, and the rotating shaft B19 is a rigid body or an elastic damping body.

When the main body outer frame 13 and the hinging convex head 16 are provided with a rigid rotating shaft A18 through holes, the main body floating plate part 11 and the additional floating plate part 12 can be rotatably hinged; when the rotary shaft B19 is arranged at the other through hole of the main body outer frame 13 and the hinge convex head 16 and the rotary shaft B19 is elastic rubber, a limited damping rotary interval can be generated, and the device is relatively stably adapted to the fluctuating water surface; when the rotation shaft B19 is installed to the other through hole of the main body housing 13 and the hinge boss 16 and the rotation shaft B19 is a rigid body, the main body housing 13 and the hinge boss 16 form a row of connection.

The main body floating plate part 11 and the additional floating plate part 12 are made of materials such as plastics or foams, and the main body outer frame 13 and the additional outer frame 14 are made of materials such as woods.

The hinge convex head 16 of the additional outer frame 14 can be hinged with the hinge concave head A15 of the main body outer frame 13 by installing the rotating shaft A18 or the rotating shaft B19, so that the additional outer frame 14 outside the additional floating plate part 12 can be hinged with the main body outer frame 13 outside the main body floating plate part 11, and the additional outer frames 14 combined with the additional floating plate parts 12 can be hinged through the rotating shaft A18 or the rotating shaft B19, so that different buoyancy can be provided to adapt to the use environment, and the problem that the floating plate is embedded in the floating ring to form a whole body to provide buoyancy and can not provide different buoyancy to adapt to the use environment is solved.

The main body floating plate part 11 is provided with a through hole for the connecting rope 4 and the wire harness 21 to pass through in a sliding way; the fixed housing of the rotating electric machine 5 is adhesively fixed to the main body floating plate portion 11 of the floating plate 1.

The bottom of the main body outer frame 13 is fixed with a mounting plate 6, and the top of the telescopic rod body 3 is fixed on the mounting plate 6.

Claims (6)

1. An underwater camera lifting device, comprising:

an underwater camera (2);

the underwater camera (2) is connected below the floating plate (1) through a telescopic rod body (3), the rod body (3) is composed of two rods which can be sleeved in a sliding manner, the underwater camera (2) is fixedly connected with a flexible connecting rope (4), and the connecting rope (4) can penetrate through the floating plate (1) in a sliding manner;

the rotating motor (5), the fixed shell of the rotating motor (5) is fixed on the top surface of the floating plate (1), and the rotating output end of the rotating motor (5) is in wire wrapping connection with the connecting rope (4).

2. The underwater camera lifting device of claim 1, wherein: the underwater camera (2) is connected with a wire harness (21) for providing power and data transmission for the underwater camera (2).

3. The underwater camera lifting device of claim 2, wherein: the wire harness (21) is slidably penetrated on the floating plate (1).

4. The underwater camera lifting device of claim 1, wherein: also comprises a cover body (52) which is arranged on the floating plate (1) and covers the rotating motor (5).

5. The underwater camera lifting device as claimed in claim 1, characterized in that the floating plate (1) comprises: the floating structure comprises a main body floating plate part (11) and a plurality of additional floating plate parts (12), wherein the plurality of additional floating plate parts (12) can be hinged on the main body floating plate part (11), and meanwhile, the plurality of main body floating plate parts (11) can be hinged.

6. The underwater camera lifting device of claim 5, wherein: the main body floating plate part (11) is provided with a through hole for the connection rope (4) and the wire harness (21) to pass through in a sliding way.