CN204466628U - A kind of bubble transportation of live fish bag - Google Patents

Abstract

A kind of bubble transportation of live fish bag; belong to transportation of live fish field; described shipping bags is double-decker, and described double-decker is divided into skin and internal layer, and skin is protective layer; internal layer is buckle layer; described buckle layer has soft projection, described projection is towards in bag, and described buckle layer accounts for the long 3/5-2/3 of shipping bags; projection is not had near sack end, so that tighten sack at internal layer.This shipping bags is designed to upper and lower two-part structure, upper part is designed to single layer structure, so that tighten sack, lower part is designed to double-decker, the internal layer with concaveconvex structure prevents transport of living fish body surface to be close on shipping bags, the skin being beneficial to fish is breathed, and simultaneously soft projection can not damage fish body, and the utility model shipping bags can improve the survival rate of transportation of live fish.

Description

A kind of bubble transportation of live fish bag

Technical field

The utility model belongs to transportation of live fish field, relates to a kind of bubble transportation of live fish bag particularly.

Background technology

Along with the development of fish culture industry and market are to the increase of live fish demand, the demand of fish live transport technology is also more and more higher.Basic still some the traditional Transportation methods of the keepalive method that current live fish adopts in transportation; fill the packing case conveying method etc. of pure oxygen as added water and live fish in live fish carrier method, sealed bag, but above method all exists that effective carrying capacity is low, the problem such as deteriorating water quality in transportation.Ecological ice-temperature technology is applied to the long distance waterless keep-alive transport of part aquatic/marine animals by the fishery developed countries such as Japan in succession.China also starts to have carried out some researchs in this respect, in succession reports tests such as adopting low-temperature anhydrous On Transportaion of Live lefteye flounder, turbot, japonicus.

The principle of fish ice temperature waterless keep-alive transport is down to the temperature of live fish close to its ecological ice-temperature, makes fish be in dormancy or semidormancy state, significantly reduce the metabolism of fish, thus realize the anhydrous transport of living fish of ice temperature.Left-eyed flounder is breathed by the gill in water body, then by the gill and dermal respiration during waterless keep-alive transport.Bottom anhydrous transport macrura reevesii body, be close to plastic sack in order to avoid left-eyed flounder and affect its dermal respiration, left-eyed flounder is first placed on surface by usual employing at present the method then protruding cystosepiment being put into the oxygenation bag of sealing, often there is the problems such as inversion, inclination when air transport due to packing case in this method, easily causes live fish disengaging with the cystosepiment of projection.Therefore a kind of new device is needed to avoid occurring being close to the problem that plastic sack affects dermal respiration bottom left-eyed flounder fish body.

Summary of the invention

The technical problems to be solved in the utility model is to provide a kind of bubble transportation of live fish bag, is close to solve bottom anhydrous transport macrura reevesii body the problem that plastic sack affects its dermal respiration, improves transportation of live fish survival rate.

The utility model is achieved by the following technical solution:

A kind of bubble transportation of live fish bag; described shipping bags is double-decker; described double-decker is divided into skin and internal layer; skin is protective layer, and internal layer is buckle layer, described buckle layer has soft projection; described projection is towards in bag; described buckle layer accounts for the long 3/5-2/3 of shipping bags, does not have projection, so that tighten sack at internal layer near sack end.

Further, described projection is plastic bubble.

The utility model beneficial effect compared with prior art:

This shipping bags is designed to interior outer double-layer structure, and internal layer is designed to smooth structure near the upper part of sack, so that tighten sack, internal layer is designed to buckle layer structure near the lower part of sack, the internal layer with concaveconvex structure prevents transport of living fish body surface to be close on shipping bags, the skin being beneficial to fish is breathed, and simultaneously soft projection can not damage fish body, and the utility model shipping bags can improve the survival rate of transportation of live fish.

Accompanying drawing explanation

Fig. 1 sectional view of the present utility model: 1, outer, 2, internal layer, 3, plastic bubble;

The vertical view of the inner one side of Fig. 2 shipping bags: 3, plastic bubble.

Embodiment

Below by embodiment, the technical solution of the utility model is further explained, but protection domain of the present utility model is not by any pro forma restriction of embodiment.

Embodiment 1

A kind of bubble transportation of live fish bag; as shown in Figure 1, 2; described shipping bags is double-decker, and described double-decker is divided into outer 1 and internal layer 2, and skin is protective layer; internal layer is buckle layer; described buckle layer has soft projection, described projection is towards in bag, and described buckle layer accounts for 2/3 of shipping bags length; projection is not had near sack end, so that tighten sack at internal layer.

Described projection is plastic bubble 3, and described skin is vinyon layer.

The specification of described shipping bags is long 50cm, wide 28cm.

Embodiment 2

In November, 2014 has carried out the test of turbot waterless keep-alive at Inst of Huanghai Sea Marine Products, Chinese Academy of Aquatic Product Science's Experimental Base, by the turbot that 60 tail specifications are 600 grams-700 grams, in culturing pool, ice cube slow cooling to 2 DEG C is put into after stopping eating 2 days, then get wherein 30 tails and load traditional oxygenation plastic sack, every bag of 1 tail, after being filled with pure oxygen, tying seals; Get the shipping bags of 30 tails loadings described in embodiment 1 in addition, every bag of 1 tail, after being filled with pure oxygen, tying seals; Be placed in the freezer of 2 DEG C.Respectively at 18h, 24h, 28h often group get 10 tails observe survival rates.The observational technique of survival rate is fish is taken out from bag the seawater putting into 6 DEG C, observes after 5 minutes; Can travelling, breathe or waddy stimulate after respond for surviving, lose after stimulation reaction by necrology.Each composition motility rate the results are shown in Table 1.Result shows, uses shipping bags of the present invention can significantly improve the survival rate of turbot waterless keep-alive.

Table 1 turbot waterless keep-alive experimental result

	The inventive method	Traditional oxygenation plastic sack
			18 hours survival rates	100％	100％
24 hours survival rates	100％	90％
			28 hours survival rates	90％	20％

Embodiment 3

Carry out in December, 2014, from Qingdao to Urumchi turbot waterless keep-alive transport test, being the turbot of 650 grams-700 grams by 20 tail specifications, after stopping eating 3 days, in culturing pool, putting into ice cube slow cooling to 3 DEG C.Get wherein 10 tails and load traditional oxygenation plastic sack, every bag of 1 tail, after being filled with pure oxygen, tying seals, and then puts into foam insulation box, adds 600mL ice chest 2 in incubator; Get the shipping bags of 10 tails loadings described in embodiment 1 in addition, every bag of 1 tail, after being filled with pure oxygen, tying seals, and then puts into foam insulation box, adds 600mL ice chest 2 in incubator.After having packed from plant through box thermal insulated vehicle be transported to airport, again through aircraft air transport to Urumchi, be finally transported to live fish through box thermal insulated vehicle again and increase soil fertility temporarily, share time 23 hours.Each composition motility rate is checked after arriving.The observational technique of survival rate is fish is taken out from bag the artificial seawater putting into 6 DEG C, observes after 5 minutes; Can travelling, breathe or waddy stimulate after respond for surviving, lose after stimulation reaction by necrology.Each composition motility rate the results are shown in Table 2.Result shows, uses shipping bags of the present invention can significantly improve transportation of live fish survival rate.

Table 2 turbot waterless keep-alive trafficking experiments result

	The inventive method	Traditional oxygenation plastic sack
			23 hours transportation survival rates	100％	80％

Claims (2)

1. a bubble transportation of live fish bag; it is characterized in that described shipping bags is double-decker; described double-decker is divided into skin (1) and internal layer (2); skin is protective layer, and internal layer is buckle layer, described buckle layer has soft projection; described projection is towards in bag; described buckle layer accounts for the long 3/5-2/3 of shipping bags, does not have projection, so that tighten sack at internal layer near sack end.

2. a kind of bubble transportation of live fish bag according to claim 1, is characterized in that described projection is plastic bubble (3).