CN107821294A - Closed transport-container for living fishes - Google Patents

Abstract

The present invention proposes a kind of closed transport-container for living fishes, and this kind of closed transport-container for living fishes can be transported by the way of air transport, and improve the survival rate of fish transportation.The closed transport-container for living fishes includes casing, case lid, the oxygenerator being installed on cabinet exterior, and the top of casing is provided with netted water pipe, and the bottom surface of water pipe is interval with delivery port；Water pipe is connected by water pump and suction hose with the bottom of casing, and the water inlet end of suction hose is provided with protection filter screen；The oxygen outlet of the oxygenerator connects through wall box with suction hose.Water in casing is pumped into the water pipe above casing by water pump, oxygen is pressed into the water of suction hose suction by oxygenerator simultaneously, add the oxygen content of water, water after oxygenation is fallen on the water surface of casing from delivery port, so that the increase of water oxygen content and more equilibrium in casing, fish will not be crowded in certain, this reduces the situation for falling squama because mutually being collided between fish, improves the survival rate of fish transportation.

Description

Closed transport-container for living fishes

Technical field

The invention belongs to cultivate technical field of transportation, and in particular to a kind of closed transport-container for living fishes.

Background technology

Transportation of live fish is always one of problem of aquaculture, because in transportation, live fish death often occurs Situation, cause economic loss；After long-distance transport, fish can also be not in good state, and influence the quality of fish.To solve this Problem, transportation of live fish are all that oxygen is passed through in water, increase the oxygen content of water, so as to improve the survival rate of fish transportation. But traditional oxygenation way is all that gas is pressed into water by air pump and tracheae, there are following drawbacks in such a oxygenation way： Because the oxygen content in water is unbalanced（Nearer from tracheae, oxygen content is higher, more remote from tracheae, and oxygen content is lower）, therefore fish It will be gathered near tracheae, this mutually collides between resulting in fish and fall squama, adds the death rate of fish.

In addition, with the continuous improvement of people's living standards, consuming capacity is also greatly improved, people have the ability More costs are paid for diet, such as are said for fresh food materials, people can receive the air transport mode of costliness, and this just needs It is adapted to the transport-container for living fishes of air transport.

The content of the invention

The purpose of the present invention is to propose to a kind of closed transport-container for living fishes, this kind of closed transport-container for living fishes can use sky The mode of fortune is transported, and improves the survival rate of fish transportation.

The closed transport-container for living fishes of the present invention includes casing, case lid, the oxygenerator being installed on cabinet exterior, the case The top of body is provided with netted water pipe, and the bottom surface of water pipe is interval with delivery port；The water pipe passes through water pump and suction hose and case The bottom connection of body, the water inlet end of suction hose are provided with protection filter screen；The oxygen outlet of the oxygenerator through wall box and with Suction hose connects.

In transportation, casing is built with water and fish, and after opening water pump, the water in casing can be pumped into casing by water pump In the water pipe of top, and fall on the water surface of casing from delivery port, gas be brought into the water in casing using the water to drop, Increase oxygen for water.Because the water pipe above casing is netted, and the delivery port of water pipe is spaced, therefore delivery port is The top of casing is more uniformly distributed in, this water oxygen content allowed in casing is more balanced, and fish will not be crowded a certain Place, this reduces the situation for falling squama because mutually being collided between fish, improve the survival rate of fish transportation.Oxygenerator will Oxygen is pressed into the water of suction hose suction, adds the oxygen content of water, and the water for improving oxygen content drops to the water surface of casing On, the overall oxygen content of water in casing can be significantly improved.Case lid can prevent during air transport that the water occurred in casing is spilt Situation, while can with guard box body air pressure maintain within a predetermined range.

Further, the distribution density principle of the delivery port of the water pipe is as follows：Using the water inlet end of suction hose as the center of circle, with The distance in the center of circle is more remote, and the distribution density of delivery port is bigger.The distribution density of delivery port is bigger, and the amount of oxygen newly increased is also got over It is more, so designed by the distribution of above-mentioned delivery port so that increase the distribution of amount of oxygen in casing newly and with the water inlet of suction hose Hold as the center of circle, more remote with the distance in the center of circle, it is more to increase amount of oxygen newly, and the water suction of suction hose causes the other positions by casing The current flowed to suction hose water inlet end, to suck more oxygen, fish will certainly be swum to the position away from suction hose water inlet end It is dynamic, i.e., flow against the current, maintain vigor, improve the quality of fish.

Further, the water inlet end of the suction hose is located at the middle position of bottom half, and such fish is flowed to surrounding, from And be dispersed in casing, the chance of collision is further reduced, improves survival rate.

Further, the closed transport-container for living fishes also includes the baroceptor being arranged in casing and by air pressure transmission The blow vent of sensor control, the blow vent are located at the top of wall box.During air transport, with the continuous increasing of height Adding, the air pressure of cabin can be gradually reduced, and after case lid and box sealing, can completely cut off the air pressure of cabin pressure and box house, but It is that oxygenerator can inject oxygen into casing, so that the air pressure of box house gradually rises, is raised in the air pressure of box house To after predetermined high pressure value, baroceptor can trigger blow vent, open blow vent, and then reduce the air pressure in casing； After air pressure in casing is reduced to predetermined low pressure value, then control blow vent to close, thus maintain the air pressure in casing pre- Determine in scope.

The closed transport-container for living fishes of the present invention is simple in construction, changes the mode of traditional oxygenation, improves surviving for fish Rate, there is good practicality.

Brief description of the drawings

Fig. 1 is the structural representation of the closed transport-container for living fishes of the present invention.

Accompanying drawing indicates：1st, casing；2nd, case lid；3rd, oxygenerator；4th, water pipe；5th, delivery port；6th, water pump；7th, suction hose；8th, filter Net；9th, blow vent.

Embodiment

Below against accompanying drawing, by the description to embodiment, for example involved to the embodiment of the present invention is each Mutual alignment and annexation, the effect of each several part and operation principle between the shape of component, construction, each several part etc. are made into one The detailed description of step.

Embodiment 1：

As illustrated, the closed transport-container for living fishes of the present embodiment includes casing 1, case lid 2, the system being installed on the outer wall of casing 1 Oxygen machine 3, the top of the casing 1 are provided with netted water pipe 4, and the bottom surface of water pipe 4 is interval with delivery port 5；The water pipe 4 passes through Water pump 6 and suction hose 7 connect with the bottom of casing 1, and the water inlet end of suction hose 7 is located at the middle position of the bottom of casing 1, and absorbs water The water inlet end of pipe 7 is provided with protection filter screen 8；The oxygen outlet of the oxygenerator 3 tilts down and suction hose through the side wall of casing 1 7 connections.

In the present embodiment, it is provided with baroceptor in casing 1（Baroceptor is not drawn into figure）, the side wall of casing 1 Top is provided with the blow vent 9 that can be opened and closed, and baroceptor is connected with blow vent 9, and controls the opening and closing of blow vent 9.

In transportation, casing 1 is built with water and fish, and after opening water pump 6, water pump 6 can enter the water pump 6 in casing 1 Into the water pipe 4 of the top of casing 1, and fallen on from delivery port 5 on the water surface of casing 1, gas is brought into case using the water to drop In water in body 1, increase oxygen for water.Because the water pipe 4 of the top of casing 1 is netted, and the delivery port 5 of water pipe 4 sets for interval Put, therefore delivery port 5 is the top for being more uniformly distributed in casing 1, this water oxygen content allowed in casing 1 is more equal Weighing apparatus, fish will not be crowded in certain, and this reduces the situation for falling squama because mutually being collided between fish, improves fish and transported The survival rate of journey.Oxygen is pressed into the water that suction hose 7 sucks by oxygenerator 3, is added the oxygen content of water, is improved oxygen content Water drop on the water surface of casing 1, the overall oxygen content of water in casing 1 can be significantly improved.

The distribution density principle of the delivery port 5 of water pipe 4 is as follows：Using the water inlet end of suction hose 7 as the center of circle, the distance with the center of circle More remote, the distribution density of delivery port 5 is bigger.The distribution density of delivery port 5 is bigger, and the amount of oxygen newly increased is also more, so Designed by the distribution of above-mentioned delivery port 5 so that increased newly in casing 1 amount of oxygen distribution and using the water inlet end of suction hose 7 as The center of circle, it is more remote with the distance in the center of circle, increase that amount of oxygen is more newly, and the water suction of suction hose 7 cause other positions from casing 1 to The current of the water inlet end of suction hose 7 flowing, to suck more oxygen, fish will certainly be swum to the position away from the water inlet end of suction hose 7 It is dynamic, i.e., flow against the current, maintain vigor, improve the quality of fish, while fish is dispersed in the surrounding of casing 1, further reduce The chance of collision, improves survival rate.

During air transport, with being continuously increased for height, the air pressure of cabin can be gradually reduced, and case lid 2 seals with casing 1 Afterwards, cabin pressure and the air pressure inside casing 1 can be completely cut off, but oxygenerator 3 can inject oxygen into casing 1, so that case Air pressure inside body 1 gradually rises, and after the air pressure inside casing 1 is increased to predetermined high pressure value, baroceptor can trigger logical Gas port 9, blow vent 9 is opened, and then reduce the air pressure in casing 1；Air pressure in casing 1 is reduced to predetermined low pressure value Afterwards, then control blow vent 9 to close, thus maintain the air pressure in casing 1 within a predetermined range.

Claims (4)

1. A kind of 1. closed transport-container for living fishes, it is characterised in that including casing, case lid, the oxygenerator being installed on cabinet exterior, The top of the casing is provided with netted water pipe, and the bottom surface of water pipe is interval with delivery port；The water pipe passes through water pump and water suction Pipe connects with the bottom of casing, and the water inlet end of suction hose is provided with protection filter screen；The oxygen outlet of the oxygenerator passes through case-side Wall and connected with suction hose.
2. 2. closed transport-container for living fishes according to claim 1, it is characterised in that the distribution of the delivery port of the water pipe is close It is as follows to spend principle：More remote with the distance in the center of circle using the water inlet end of suction hose as the center of circle, the distribution density of delivery port is bigger.
3. 3. closed transport-container for living fishes according to claim 2, it is characterised in that the water inlet end of the suction hose is located at case The middle position of body bottom.
4. 4. closed transport-container for living fishes according to claim 1, it is characterised in that the closed transport-container for living fishes also wraps Include the baroceptor being arranged in casing and the blow vent controlled by baroceptor, the blow vent are located at wall box Top.