CN218184801U - Automatic driving device convenient for catching clamworms - Google Patents

Abstract

The utility model relates to aquaculture, in particular to an automatic driving device convenient for clam worm capture, which is used for a clam worm culture pond and comprises an electric shock component; the plurality of discharge needle assemblies are uniformly arranged in the culture pond along the width direction of the culture pond; the needle body is erected above the bottom of the culture pond through a bracket; the needle body is vertically arranged, a vertical sliding cavity is arranged on the support, and the needle body is connected with the sliding cavity in a sliding mode. The beneficial effects of the utility model reside in that: in the automatic driving device convenient for clam worm capture, the discharge needle assembly can discharge electricity into the culture pond; after the clamworm senses the current, the clamworm moves towards the two sides of the length direction of the culture pond after the discharge needle assembly discharges, and after the clamworm is concentrated at the two sides of the culture pond, workers only need to capture the clamworm at the two sides of the culture pond, so that the efficiency is improved, and the cost is reduced.

Description

Automatic driving device convenient for catching clamworms

Technical Field

The utility model relates to an aquaculture, concretely relates to device is driven in automation convenient to clam worm catches.

Background

Nereid is commonly called sea centipede, beggarweed and the like, is the most broad-spectrum bait for offshore fishes, and has the reputation of 'universal bait' for sea fishing. Nereid is also a highly nutritious food and its toxin can be used as a pharmaceutical. With the increase of demand, the breeding industry of clamworm is also developing vigorously.

The clamworm is generally cultured in the mud coating of a culture pond so as to imitate the environment of an intertidal zone, the clamworm is automatically bred in the culture process, and the clamworm can be continuously harvested in the whole culture season. In the prior art, the harvesting of the clamworms comprises the steps of draining water in mud coating, then excavating the mud coating, and then manually selecting and capturing the clamworms growing to the required size, so that the capturing of the clamworms wastes time and labor, and the capturing rate is low.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the automatic driving device is convenient for clam worm capture, clam worm capture efficiency is improved, and labor cost for capturing clam worms is reduced.

In order to solve the technical problem, the utility model discloses a technical scheme be: an automatic driving device convenient for clam worm capture is used for a clam worm culture pond and comprises an electric shock component; the electric shock assembly comprises a plurality of discharge needle assemblies, and the discharge needle assemblies are uniformly arranged in the culture pond along the width direction of the culture pond;

the discharge needle assembly comprises a bracket and a needle body, and the needle body is erected above the bottom of the culture pond through the bracket; the needle body is vertically arranged, a vertical sliding cavity is arranged on the support, and the needle body is connected with the sliding cavity in a sliding mode.

Furthermore, the electric shock assembly is provided with a plurality of, and a plurality of electric shock assembly sets up along breed pond length direction.

Further, the electric shock assembly comprises a transformer and a mobile power supply; and the discharge needles are connected with a mobile power supply through a transformer.

Further, the discharge needle assembly further comprises a sealing block, the needle body is connected with the sliding cavity in a sliding mode through the sealing block, and the needle body and the inner wall of the sliding cavity are arranged at intervals; the electric connection end of the needle body is electrically connected with the electric wire inside the sealing block.

Further, the discharge needle assembly further comprises a clamping rod, and the clamping rod horizontally penetrates through the support and the sealing block and is connected with the support.

The beneficial effects of the utility model reside in that: in the automatic driving device convenient for clam worm capture, the discharge needle assembly can discharge electricity into the culture pond; after sensing the current, the clamworm always moves in the direction away from the discharge needle assembly; because "a plurality of discharge needle subassembly evenly is established in breeding the pond along breeding pond width direction", so the clamworm removes towards breeding pond length direction's both sides after the discharge needle subassembly discharges, and the clamworm concentrates on breeding the pond both sides after, and the staff only needs catch the clamworm at breeding pond both sides, has improved efficiency, the cost is reduced.

Specifically, the discharge needle assembly discharges through the electric connection needle body, and the staff inserts the discharge end of the needle body into mud paint in the culture pond after needing to slide the needle body, and then the electric connection needle body. After the needle body is worked, the needle body slides upwards to be taken in the sliding cavity, the needle body is prevented from being corroded by seawater, and the sliding cavity can play a role in protecting the needle body when the needle body is not used. Therefore, the discharge needle body can work efficiently for a long time.

Drawings

FIG. 1 is a top view of the overall structure of an automatic driving device for catching clamworms, according to an embodiment of the present invention;

FIG. 2 is a schematic view of the overall structure of an automatic driving device for catching clamworms, according to an embodiment of the present invention;

fig. 3 is a schematic view of a part of the structure of the discharge needle assembly of the automatic driving device for catching clamworms according to the embodiment of the present invention;

description of reference numerals:

1. a culture pond; 2. an electric shock assembly;

21. a discharge needle assembly;

211. a support; 212. a needle body; 213. a sealing block; 214. a clamping and connecting rod.

Detailed Description

An automatic driving device convenient for clam worm capture is used for a clam worm culture pond and comprises an electric shock component; the electric shock assembly comprises a plurality of discharge needle assemblies, and the discharge needle assemblies are uniformly arranged in the culture pond along the width direction of the culture pond;

the discharge needle assembly comprises a bracket and a needle body, and the needle body is erected above the bottom of the culture pond through the bracket; the needle body is vertically arranged, a vertical sliding cavity is arranged on the support, and the needle body is connected with the sliding cavity in a sliding mode.

As can be seen from the above description, the utility model has the advantages that: in the automatic driving device convenient for clam worm capture, the discharge needle assembly can discharge electricity into the culture pond; after sensing the current, the clamworm always moves in the direction away from the discharge needle assembly; because "a plurality of discharge needle subassembly evenly establishes in breeding the pond along breeding pond width direction", so clamworm removes towards breeding pond length direction's both sides after the discharge needle subassembly discharges, and clamworm concentrates on breeding pond both sides back, and the staff only needs to catch clamworm at breeding pond both sides, has improved efficiency, the cost is reduced.

Specifically, the discharge needle assembly discharges through the electric connection needle body, and the staff inserts the discharge end of the needle body into mud paint in the culture pond after needing to slide the needle body, and then the electric connection needle body. After the work of the needle body is finished, the needle body slides upwards to be taken in the sliding cavity, the seawater corrosion to the needle body is avoided, and the sliding cavity can play a role in protecting the needle body when the needle body is not used. Therefore, the discharge needle body can work efficiently for a long time.

Furthermore, the electric shock assembly is provided with a plurality of, and a plurality of electric shock assembly sets up along breed pond length direction.

As can be seen from the above description, the arrangement of the electric shock components can enable the clamworms to be more concentrated on one side of the culture pond, and the capture of workers is more convenient.

Further, the electric shock assembly comprises a transformer and a mobile power supply; and the discharge needles are connected with a mobile power supply through a transformer.

As can be seen from the above description, the transformer is provided to adapt the electric shock assembly to various specifications of mobile power supplies.

Further, the discharge needle assembly further comprises a sealing block, the needle body is connected with the sliding cavity in a sliding mode through the sealing block, and the needle body and the inner wall of the sliding cavity are arranged at intervals; the electric connection end of the needle body is electrically connected with the electric wire inside the sealing block.

As can be seen from the above description, the sealing block is arranged to slide in the sliding cavity instead of the needle body, avoiding wear of the needle body. And the electric connection end of the needle body is connected with the electric wire in the sealing block, so that the electric connection structure of the needle body is protected.

Further, the discharge needle assembly further comprises a clamping rod, and the clamping rod horizontally penetrates through the support and the sealing block and is connected with the support.

As can be seen from the above description, the latch lever can function to secure the needle body after the needle body is received in the slide cavity.

The utility model provides an automatic device of driving who is convenient for clam worm catches's application background does: the process of catching clamworm needs to improve efficiency and reduce cost.

Example one

Referring to fig. 1-3, an automatic driving device convenient for clam worm catching is used for a clam worm breeding pond 1 and comprises an electric shock component;

preferably, the electric shock components are uniformly arranged in only one half of the culture pond, so that the clamworms can be driven to the other half of the culture pond and the side far away from the electric shock components.

The electric shock assembly comprises a plurality of discharge needle assemblies 21, and the plurality of discharge needle assemblies 21 are uniformly arranged in the culture pond 1 along the width direction of the culture pond 1;

the discharge needle assembly 21 comprises a bracket 211 and a needle body 212, and the needle body 212 is erected above the bottom of the culture pond 1 through the bracket 211; the needle body 212 is vertically arranged, a vertical sliding cavity is arranged on the support 211, and the needle body 212 is connected with the sliding cavity in a sliding mode.

The electric shock assembly is provided with a plurality of electric shock assemblies 2 arranged along the length direction of the culture pond 1.

The electric shock assembly comprises a transformer and a mobile power supply; and the discharge needles are connected with a mobile power supply through a transformer.

The discharge needle assembly 21 further comprises a sealing block 213, the needle body 212 is slidably connected to the sliding cavity through the sealing block 213, and the needle body 212 and the inner wall of the sliding cavity are arranged at intervals; the electrical connection end of the needle body 212 is electrically connected to the electrical wire inside the sealing block 213.

The discharge needle assembly 21 further includes a clamping rod 214, and the clamping rod 214 horizontally penetrates through the bracket 211 and the sealing block 213 and is connected with the bracket 211.

The utility model provides an automatic device of driveing convenient to clam worm catches's use and principle:

the worker takes out the clamping rod 214 of the discharge needle assembly 21, so that the sealing block 213 can slide in the sliding cavity; after the staff seals the block 213, the discharge end of the needle body 212 is inserted into the mud coating of the culture pond 1; the worker then electrically connects each stun assembly to the mobile power source.

The staff starts the electric shock subassembly of lateral part in breeding pond 1 earlier, follows 1 length direction in breeding the pond and starts each electric shock subassembly in proper order afterwards, drives clam worm, makes the clam worm concentrate on the border of breeding pond 1, has made things convenient for the staff to catch clam worm.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (5)

1. An automatic driving device convenient for capturing clamworms is used for a clamworm breeding pool and is characterized by comprising an electric shock assembly; the electric shock assembly comprises a plurality of discharge needle assemblies, and the discharge needle assemblies are uniformly arranged in the culture pond along the width direction of the culture pond;

the discharge needle assembly comprises a bracket and a needle body, and the needle body is erected above the bottom of the culture pond through the bracket; the needle body is vertically arranged, a vertical sliding cavity is arranged on the support, and the needle body is connected with the sliding cavity in a sliding mode.

2. The automatic driving device for clamworm catching conveniently as claimed in claim 1, wherein the electric shock component is provided in plurality, and a plurality of the electric shock components are arranged along the length direction of the culture pond.

3. The automatic driving apparatus for facilitating clam worm catching of claim 1 wherein the electric shock assembly comprises a transformer and a mobile power source; and the discharge needles are connected with a mobile power supply through a transformer.

4. The automatic driving device convenient for clam worm catching as claimed in claim 1, wherein the discharging needle assembly further comprises a sealing block, the needle body is slidably connected with the sliding cavity through the sealing block, and the needle body is arranged at a distance from the inner wall of the sliding cavity; the electric connection end of the needle body is electrically connected with the electric wire inside the sealing block.

5. The automatic driving device for clamworm catching as claimed in claim 4, wherein the discharging needle assembly further comprises a snap rod horizontally penetrating the bracket and the sealing block and connected with the bracket.

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