CN220305601U - Underwater photographic device for culture pond - Google Patents

Abstract

The utility model relates to an underwater photographing device of a culture pond, which comprises a base frame, a camera, a transparent plate, a light supplementing device and a control device, wherein the base frame is provided with an outer frame part, the center of the outer frame part is provided with a hollow groove, and an opening is arranged above the hollow groove; the camera is arranged in the hollow groove, and the camera shoots towards the opening direction of the hollow groove; the transparent plate is arranged above the hollow groove and seals the hollow groove; the light supplementing device is provided with a plurality of luminous bodies which are arranged at the peripheral position of the base frame corresponding to the upper part of the transparent plate, and the luminous direction of the luminous bodies faces to the upper part of the transparent plate and the peripheral position of the transparent plate; the control device is electrically connected with the camera and the light supplementing device and controls the camera and the light supplementing device to act; therefore, the utility model has the effects of easy installation and clear shooting.

Description

Underwater photographic device for culture pond

Technical Field

The utility model relates to the technical field of cultivation, in particular to an underwater photographing device for a cultivation pool, which can clearly photograph underwater organisms and has good installation convenience.

Background

Because natural aquatic resources are increasingly reduced through overdrawing, people at present acquire aquatic foods required by people through an artificial culture mode, the artificial culture mode mainly comprises a culture pond, aquatic organisms such as fish, shrimp and crab are cultured in the culture pond, and in order to ensure the culture harvest, the culture process must monitor the activities, ingestion and growth conditions of the aquatic organisms, so that the aquatic organisms can be timely discovered and processed when part of the aquatic organisms die or the water quality is abnormal.

For example, the aquatic organism detection device according to the TWI508656 of taiwan patent is provided with a pontoon on a water body, the pontoon is connected with a camera, and the camera is partially positioned under the water body to shoot aquatic organisms below the camera, but the camera is difficult to clearly shoot benthos such as shrimps and crabs positioned in a deep cultivation position, and has the defect of poor monitoring effect.

Disclosure of Invention

The utility model aims to provide an underwater photographing device for a culture pond, which can clearly photograph underwater organisms and has better installation convenience.

The underwater photographing device of the culture pond of the utility model comprises:

a base frame having an outer frame part with a hollow groove in the center and an opening above the hollow groove;

the camera is arranged in the hollow groove, and a camera of the camera shoots towards the opening direction of the hollow groove;

a transparent plate arranged above the hollow groove and sealing the hollow groove;

the light supplementing device is provided with a plurality of luminous bodies which are arranged at the peripheral position of the base frame corresponding to the upper part of the transparent plate, and the luminous direction of the light supplementing device faces to the upper part of the transparent plate and the peripheral position of the transparent plate;

and the control device is electrically connected with the camera and the light supplementing device and controls the camera and the light supplementing device to act.

Further, the hollow groove is a cone which gradually widens from the bottom to the top.

Further, the outer frame part is provided with a horizontal direction at the circumferential position above the opening of the hollow groove and is assembled with the annular wall of the light supplementing device.

Further, an upper side wall above the transparent plate is upwards arranged around the opening of the hollow groove, and a containing groove is formed between the upper side wall and the upper side wall above the transparent plate, and the underwater photographing device of the culture pond floats on water when the containing groove does not contain water.

Further, a notch is arranged on the upper side wall corresponding to the upper position of the transparent plate.

Further, a grip is provided above the outer frame.

Further, a reticle is provided on the transparent plate.

Further, the control device is electrically connected with external internet surfing equipment.

Further, the underwater photography device further comprises a floating body and a connecting body, wherein the connecting body is arranged below the floating body and connected with the base frame, and the underwater photography device of the culture pond is arranged at the central position of the culture pond.

When the utility model is used, the control device enables the camera and the light supplementing device to act, and the light rays emitted by the light supplementing device can be projected to the upper part and the surrounding position of the transparent plate, so that the transparent plate and the upper part of the transparent plate have bright effects, therefore, the camera can clearly shoot the quantity, activity and ingestion condition of shrimps, fishes or other aquatic organisms at the position of the transparent plate, can observe whether residual baits and the turbidity of water quality in a culture pond exist on the transparent plate, and can be used for the breeding personnel to change water timely so as to ensure the water quality.

Furthermore, the utility model is arranged on the culture pond, when the water storage tank is installed, the lower part of the base frame is submerged in water, and when the water storage tank is not filled with water, the base frame can float by the buoyancy of the hollow tank, so that the base frame can be easily moved to a proper position of the culture pond, the base frame is inclined, and when the water of the culture pond enters the storage tank from the upper part of the base frame, the base frame can be submerged to the bottom of the culture pond for positioning, and the installation is convenient.

Furthermore, the size of the aquatic organism can be measured by matching with the marking line of the transparent plate, the photographed numerical value can be transmitted to an external control computer or various internet-surfing equipment in a wired or wireless mode by the control device, and the monitoring result can also be transmitted to a portable mobile device of the breeding personnel, so that the breeding personnel can judge whether the breeding organism is diseased or not in real time and process in time, and the aquatic product is ensured to be collected.

Drawings

FIG. 1 is a perspective view of an underwater photographing device for a culture pond according to the present utility model.

FIG. 2 is a schematic top view of the underwater photography device of the culture pond of the present utility model.

FIG. 3 is a cross-sectional view of the underwater photographing device of the culture pond of the present utility model.

FIG. 4 is a schematic view of the underwater photography device of the culture pond of the present utility model placed above the culture pond.

FIG. 5 is a schematic view of the underwater photography device of the culture pond of the present utility model placed at the bottom of the culture pond.

FIG. 6 is a schematic view of the light supplementing device of the underwater photographing device of the culture pond.

FIG. 7 is a schematic view of a aquatic creature taken by the underwater photography device of the culture pond of the present utility model.

FIG. 8 is a schematic view of the underwater photography device for the culture pond, which photographs the central position of the culture pond.

Reference numerals illustrate:

1, a base frame; an outer frame part 11; 12 hollow slots; 13 openings; a 14-ring wall; 15 upper side walls; 16 notches; 17, a handle; 2, a camera; 3, a transparent plate; 31 accommodating grooves; 32 graticules; 4, a light supplementing device; 41 a light emitter; 5 a control device; 6, a culture pond; 7, water; 71 suspended matter; 8, biological in water; 9 bait; 91 a floating body; 92 connectors.

Detailed Description

Referring to fig. 1-3, the underwater photographing device for a culture pond of the present utility model comprises a base frame 1, a camera 2, a transparent plate 3, a light supplementing device 4, and a control device 5, wherein the base frame 1 has an outer frame portion 11, a hollow groove 12 is provided in the center of the outer frame portion 11, the hollow groove 12 is a tapered body with a bottom gradually wider upwards, an opening 13 is provided above the hollow groove 12, and a horizontal annular wall 14 is provided at the circumferential position above the opening 13 on the outer frame portion 11; an upper side wall 15 is upwardly disposed around the opening 13, a notch 16 is disposed on the upper side wall 15 corresponding to the upper position of the annular wall 14, and a handle 17 is disposed on the upper side of the outer frame 11.

The camera 2 is arranged below the hollow groove 12, and the camera faces the opening 13 of the hollow groove 12.

The transparent plate 3 is arranged above the hollow groove 12 and seals the hollow groove 12, a containing groove 31 is arranged between the upper part of the transparent plate 3 and the lower part of the notch 16 of the upper side wall 15, and the underwater photographing device of the culture pond can float to the water by the buoyancy of the hollow groove 12 when the containing groove 31 does not contain water; a dimension-measurable reticle 32 is provided on the transparent plate 3.

The light supplementing device 4 has a plurality of light emitters 41 disposed at the position of the annular wall 14 of the base frame 1, and the light emitting direction thereof is directed above the transparent plate 3 and at the surrounding position thereof.

The control device 5 is electrically connected to the camera 2 and the light compensating device 4, and is electrically connected to an external computer or other internet-surfing equipment, and can control the camera 2 and the light compensating device 4 to operate and calculate and process the shooting-related numerical values.

Referring to fig. 4-6, the present utility model can be disposed on a culture pond 6, and when installed, the handle 17 can be used to make the base frame 1 sink into the water, and when the water 7 is not contained in the containing groove 31, as shown in fig. 4, the base frame 1 can float by the buoyancy of the hollow groove 12, and the narrower conical design below the hollow groove 12 can promote the floating stability, and can easily make the base frame 1 float and shift to a proper position of the culture pond 6. The base frame 1 is inclined, and when water 7 of the culture pond 6 enters the accommodating groove 31 through the upper part of the base frame 1, the base frame 1 can be sunk to the bottom of the culture pond 6 to be positioned as shown in fig. 5, so that the installation is convenient.

Referring to fig. 5 and 6, the camera 2 and the light compensating device 4 are operated by the control device 5, the light emitted by the light compensating device 4 can be projected to the upper and surrounding positions of the transparent plate 3, and can be reflected by the floating matters 71 and the upper side wall 15 in the water surface to the position above the transparent plate 3, so that the transparent plate 3 and the upper part thereof have bright effect, and the upward shooting of the camera 2 is not affected, therefore, the camera 2 can clearly shoot the positions of the transparent plate 3 such as the number, activity and ingestion status of the shrimps and the fish aquatic organisms 8, and can observe whether the residual bait 9 on the transparent plate 3 and the water turbidity in the culture pond 6 exist, and the water can be changed timely by the cultivation personnel to ensure the water quality.

Referring to fig. 5-7, the present utility model can be matched with the marking line 32 of the transparent plate 3 to measure the body size of the aquatic organism 8, and the photographed values can be transmitted to an external control computer or various internet-enabled devices by the control device 5 in a wired or wireless manner, and can be recorded and calculated by internet of things to accurately monitor the growth condition of the aquatic organism, and the monitoring result can also be transmitted to the portable mobile device of the aquaculture personnel, so that the aquaculture personnel can determine whether the aquatic organism is diseased in real time and process in time to ensure the harvest of the aquatic product.

Referring to fig. 8, the floating body 91 may be disposed on the culture pond 6, and a connector 92 with a proper length is disposed below the floating body 91 and connected with the base frame 1, so as to adjust the shooting direction, so that the underwater photographing device for the culture pond of the present utility model may be disposed at a proper position in the center of the culture pond 6, and may clearly photograph the aquatic organisms 8 such as fish.

In view of the foregoing, the present utility model has the advantages of easy installation and clear shooting, and the foregoing embodiments are illustrative of the present utility model and are not intended to limit the present utility model, and equivalent modifications according to the spirit of the present utility model shall fall within the scope of the present utility model.

Claims (9)

1. An underwater photographing device for a culture pond, comprising:

a base frame having an outer frame part with a hollow groove in the center and an opening above the hollow groove;

the camera is arranged in the hollow groove, and a camera of the camera shoots towards the opening direction of the hollow groove;

a transparent plate arranged above the hollow groove and sealing the hollow groove;

the light supplementing device is provided with a plurality of luminous bodies which are arranged at the peripheral position of the base frame corresponding to the upper part of the transparent plate, and the luminous direction of the light supplementing device faces to the upper part of the transparent plate and the peripheral position of the transparent plate;

and the control device is electrically connected with the camera and the light supplementing device and controls the camera and the light supplementing device to act.

2. The underwater photography device for a culture pond according to claim 1, wherein the hollow slot is a cone which is gradually widened from the bottom to the top.

3. The underwater photographing device for a culture pond according to claim 1, wherein the outer frame part is provided with a horizontal direction at a circumferential position above the opening of the hollow tank and is provided with a circumferential wall of the light supplementing device.

4. The underwater photographing device for a culture pond according to claim 1, wherein an upper side wall above the transparent plate is arranged around the opening of the hollow groove upwards, and a containing groove is arranged between the upper side wall and the upper side wall above the transparent plate, and the underwater photographing device for a culture pond floats on water when the containing groove does not contain water.

5. The underwater photography device for a culture pond of claim 4, wherein the upper side wall is provided with a notch corresponding to a position above the transparent plate.

6. The underwater photographing device for a culture pond according to claim 1, wherein a grip is provided above the outer frame portion.

7. The underwater photography device for a culture pond according to claim 1, wherein the transparent plate is provided with a marking.

8. The underwater photography device of claim 1, wherein the control device is electrically connected to an external internet surfing facility.

9. The underwater photography device of claim 1, further comprising a float and a connector, wherein the connector is arranged below the float and connected with the base frame, and the underwater photography device of the culture pond is arranged at the central position of the culture pond.