CN213549135U - Long-distance freshwater shrimp transporting device - Google Patents

Abstract

The utility model discloses a freshwater shrimp long-distance transport device, including transportation box, oxygenation overflow box, fixed mounting is equipped with oxygenation overflow box on the interior diapire of transportation box, oxygenation overflow box's inner chamber sets up to hollow structure's oxygenation and fills the chamber, a plurality of underflow micropore has been seted up to the equipartition on oxygenation overflow box's the roof, just oxygenation overflow box's roof intermediate position department fastening insert establish the tail end of connecting the oxygenation and advancing the pipe, the inner chamber bottom of transportation box and the top fixed mounting that is located oxygenation overflow box are equipped with the low temperature plank, the equipartition has been seted up on a plurality of overflow micropore on the low temperature plank, just the upper surface of low temperature plank on the equipartition installation be equipped with a plurality of ice-cube sleeves. By adopting the technical scheme, the structure is simple, the assembly and the installation are convenient, the oxygen increasing supplement and the cooling treatment in the transport box are efficient, the transport success rate of the freshwater shrimps is ensured, the operation is convenient, and the investment and the application are convenient.

Description

Long-distance freshwater shrimp transporting device

Technical Field

The utility model relates to a technical field of freshwater shrimp transportation especially relates to a freshwater shrimp long-distance transport device.

Background

Freshwater shrimps, also called macrobrachium and river shrimps, are famous freshwater aquaculture shrimps in China, are distributed almost all over the country, and have very wide aquaculture areas. To many freshwater shrimp raisers, the most difficult is not the process of breeding, but the freshwater shrimp is at shrimp nursery and plant, or the transportation process between plant and the market, improper transportation can lead to a large amount of deaths of freshwater shrimp many times, harm cultivation benefit, living body transportation such as nylon bag, live fish car, foam tank is adopted mostly in current freshwater shrimp transportation, for reducing freshwater shrimp mortality, can add the ice-cube in the transportation utensil usually and reach the purpose of cooling. The traditional tools generally have the defects of low transportation density, high mortality rate, high transportation cost and the like, and are not beneficial to the long-distance transportation of the freshwater shrimps. Therefore, the freshwater shrimp long-distance transport device is designed.

SUMMERY OF THE UTILITY MODEL

For solving the defect of prior art scheme, the utility model discloses a freshwater shrimp long-distance transport device.

The utility model discloses a freshwater shrimp long-distance transport device, including transportation box, oxygenation overflow box, fixed mounting is equipped with oxygenation overflow box on the interior diapire of transportation box, oxygenation overflow box's inner chamber sets up to hollow structure's oxygenation and fills the chamber, a plurality of underflow micropore has been seted up to the equipartition on oxygenation overflow box's the roof, just oxygenation overflow box's roof intermediate position department fastening insert establish the tail end of connecting the oxygenation and advancing the pipe, the inner chamber bottom of transportation box and the top fixed mounting that is located oxygenation overflow box are equipped with the low temperature plank, the equipartition has been seted up on a plurality of overflow micropore on the low temperature plank, just the upper surface of low temperature plank on the equipartition installation be equipped with a plurality of ice-cube sleeves.

Preferably, the oxygen increasing inlet pipe extends out of the transportation box body through the nesting cylinder.

Preferably, the nesting cylinders are integrally fastened, inserted and arranged on the side wall of the transportation box body, and the nesting cylinders are filled with anti-cement and oxygen increasing inlet pipes which are connected in a sealing and inserting mode.

Preferably, the low-temperature wood board is pre-treated by cold storage for 48-50 hours at the temperature of-12 ℃ to-15 ℃, and then taken out and fixedly arranged in a transport box body.

Preferably, a plurality of permeation micropores are uniformly distributed on the wall of the ice block sleeve.

The beneficial effects are that:

1. its simple structure, assembly simple to operate fills the intracavity through oxygenation admission pipe and supplyes oxygen, and oxygen upwards overflows through the lower overflow micropore that the equipartition was seted up on the oxygenation overflow box to overflow upwards by the last overflow micropore that the equipartition was seted up on the low temperature plank, thereby the replenishment increases the interior water liquid dissolved oxygen concentration of transport case, helps preventing the oxygen deficiency mortality of transporting the freshwater shrimp.

2. And the oxygen supply upwards overflows the scattered in-process, is convenient for take away low temperature plank and ice-cube melting low temperature homodisperse upwards in the ice-cube sleeve to make the water liquid temperature cooling of transport box high-efficient, guarantee freshwater shrimp transportation success rate, its convenient operation is convenient for put into use.

Drawings

Fig. 1 is a schematic structural view of a freshwater shrimp long-distance transport device of the utility model;

FIG. 2 is an assembly plan view of an oxygen-increasing overflow box of the freshwater shrimp long-distance transportation device of the utility model;

fig. 3 is the low temperature plank assembly plan view of the freshwater shrimp long-distance transport device of the utility model.

Wherein: 1-transporting the box body; 2-an oxygenation overflow box, 20-an oxygenation filling cavity and 21-an underflow micropore; 3-oxygenation pipe feeding; 4-embedding a sleeve; 5-preventing cement; 6-low temperature wood board, and 60-overflow micropores are formed; 7-ice cube sleeve, 70-permeable pores.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1-3, the utility model discloses a freshwater shrimp long-distance transport device, including transportation box 1, oxygenation overflow box 2, fixed mounting is equipped with oxygenation overflow box 2 on the interior diapire of transportation box 1, oxygenation overflow box 2's inner chamber sets up to hollow structure's oxygenation and fills chamber 20, a plurality of underflow micropore 21 has been seted up to the equipartition on oxygenation overflow box 2's the roof, just oxygenation overflow box 2's roof intermediate position department fastening insert establish the tail end of connecting oxygenation inlet tube 3, the top fixed mounting that just is located oxygenation overflow box 2 of transportation box 1's inner chamber bottom is equipped with low temperature plank 6, overflow micropore 60 on a plurality of has been seted up to the equipartition on low temperature plank 6, just low temperature plank 6's upper surface on the equipartition installation be equipped with a plurality of ice-cubes sleeve 7.

Oxygenation advances pipe 3 and outwards stretches out transportation box 1 through inlaying sleeve 4, is convenient for advance the external oxygenation pump of pipe 3 through oxygenation, carries the oxygenating in to transportation box 1.

The embedded sleeve 4 is integrally fastened, inserted, installed and arranged on the side wall of the transportation box body 1, and the embedded sleeve 4 is internally provided with a filling device for preventing cement 5 and the oxygen increasing inlet pipe 3 from being hermetically inserted and connected, so that the oxygen increasing inlet pipe 3 is conveniently penetrated, sealed, assembled and installed.

The low-temperature wood board 6 is placed at the temperature of between 12 ℃ below zero and 15 ℃ below zero for refrigeration pretreatment for 48 to 50 hours, and then is taken out and fixedly arranged in the transportation box body 1, so that the low-temperature wood board 6 can be used for cooling dissolved oxygen water liquid in long-distance transportation, and the success rate of freshwater shrimp transportation is ensured.

The wall of the ice block sleeve 7 is uniformly provided with a plurality of permeation micropores 70, so that ice blocks can be conveniently arranged in the ice block sleeve 7, and the permeation micropores 7 arranged on the ice block sleeve 7 are used for increasing the contact between water liquid and the ice blocks and accelerating the cooling effect.

The utility model is implemented as follows: in the long-distance transportation process, oxygen is supplemented into the oxygen-enriched cavity 20 through the oxygen-enriched inlet pipe 3, the supplemented oxygen sequentially overflows upwards through the lower overflow micropores 21 and the upper overflow micropores 60, thereby supplementing and increasing the concentration of dissolved oxygen in the water liquid in the transport box body 1, being beneficial to preventing the anoxic death rate of the transported freshwater shrimps, the temperature of the water liquid is increased by the freshwater shrimp groups accumulated in the transport case body 1 in long-distance transport, the low-temperature wood board 6 arranged at the bottom of the transport case body 1 can reduce the temperature of the dissolved oxygen water liquid in long-distance transport, ice blocks are arranged in the ice block sleeves 7 uniformly distributed on the low-temperature wood board 6 to further enhance the cooling effect, in the process of oxygen-enriched gas rising, the low temperature of the melting of the ice blocks in the low-temperature wood plates 6 and the ice block sleeves 7 is conveniently dispersed upwards uniformly, thereby make the water liquid temperature cooling of transport box 1 high-efficient, guarantee the freshwater shrimp transportation success rate, its convenient operation is convenient for put into application. By adopting the technical scheme, the oxygen aeration device is simple in structure and convenient to assemble and install, oxygen is supplemented into the oxygen aeration filling cavity through the oxygen aeration inlet pipe, the oxygen overflows upwards through lower overflow micropores uniformly distributed on the oxygen aeration overflow box and overflows upwards through upper overflow micropores uniformly distributed on the low-temperature wood plate, so that the dissolved oxygen concentration of water in the transport box is supplemented and increased, and the oxygen deficiency death rate of the transported freshwater shrimps is favorably prevented; and the oxygen supply upwards overflows the scattered in-process, is convenient for take away low temperature plank and ice-cube melting low temperature homodisperse upwards in the ice-cube sleeve to make the water liquid temperature cooling of transport box high-efficient, guarantee freshwater shrimp transportation success rate, its convenient operation is convenient for put into use.

Finally, it should be noted that: the above embodiments are only used for illustrating the present invention and do not limit the technical solution described in the present invention; thus, while the present invention has been described in detail with reference to the various embodiments thereof, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted; all such modifications and variations are intended to be included herein within the scope of this disclosure and the present invention and within the scope and spirit of the following claims.

Claims (5)

1. A macrobrachium nipponensis long-distance transportation device, which comprises a transportation box body (1) and an oxygenation overflow box (2), it is characterized in that an oxygen increasing overflow box (2) is fixedly arranged on the inner bottom wall of the transportation box body (1), the inner cavity of the oxygen increasing overflow box (2) is provided with an oxygen increasing filling cavity (20) with a hollow structure, a plurality of underflow micropores (21) are uniformly distributed on the top wall of the oxygen increasing overflow box (2), and the middle position of the top wall of the oxygenation overflow box (2) is fixedly inserted and connected with the tail end of the oxygenation inlet pipe (3), a low-temperature wood board (6) is fixedly arranged at the bottom of the inner cavity of the transportation box body (1) and above the oxygen increasing overflow box (2), a plurality of upper overflow micropores (60) are uniformly distributed on the low-temperature wood board (6), and a plurality of ice block sleeves (7) are uniformly distributed and installed on the upper surface of the low-temperature wood board (6).

2. The freshwater shrimp long distance transport device of claim 1, wherein: the oxygenation inlet pipe (3) extends out of the transportation box body (1) through the embedded sleeve (4).

3. The freshwater shrimp long distance transport device of claim 2, wherein: the embedded sleeve (4) is integrally fastened, inserted and installed on the side wall of the transportation box body (1), and the embedded sleeve (4) is internally provided with a waterproof cement (5) and the oxygen increasing inlet pipe (3) in a sealing and inserting mode.

4. The freshwater shrimp long distance transport device of claim 1, wherein: the low-temperature wood board (6) is placed at the temperature of-12 ℃ to-15 ℃ for refrigeration pretreatment for 48-50h, and then is taken out and fixedly arranged in the transportation box body (1).

5. The freshwater shrimp long distance transport device of claim 1, wherein: the wall of the ice block sleeve (7) is uniformly provided with a plurality of permeation micropores (70).

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