JPS5820119Y2 - Zooplankton concentration feeding device for feed - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to an apparatus for concentrating and feeding zooplankton for feed, which cultivates zooplankton for feed, continuously and automatically concentrates and separates the same, and feeds it to larvae.

Conventionally, in fisheries enrichment facilities, animal plankton for feed has been concentrated manually in batches using nets.

Therefore, the amount of labor, space, and time required for plankton concentration and collection work are large, and the density and recovery rate of the concentrated animal plankton for feed also fluctuate greatly due to the manual labor, and various equipment is required. There was an inconvenience in that the design had to be designed with an excessive safety factor in mind.

Since the work was done in batches using a shredded net, it was impossible to feed the feed continuously.

For the above reasons, there has been a demand in the fisheries field for the development of an automatic concentrated feeding device that solves the above-mentioned disadvantages.

The present invention has been developed in response to the above-mentioned demands, and is capable of continuously automating the concentration batch work that was conventionally performed manually, thereby eliminating the above-mentioned disadvantages of the conventional technology. We are here to provide you with the equipment.

The features of the present invention are that, in order to achieve the above objectives, a plankton culture tank for cultivating animal plankton for feed, and a long-hair filtration device commonly used in the wastewater treatment field are used in the concentrator. A continuous concentration and separation device that continuously concentrates and separates feed-use zooplankton after culturing according to control commands from a control device to produce plankton concentrated water at a constant concentration, and this plankton concentrated water is further enriched with chlorella and has a chemical bath, etc. A secondary culture tank that performs the next treatment and either the plankton 4 condensed water from the continuous concentration separation device or the plankton concentrated water after the secondary treatment from the secondary culture tank can be selectively controlled by control commands from the control device. To,
The system also includes a rearing aquarium for cultivating young fish, etc. in the tank by feeding them in a commanded amount.

An embodiment of the present invention will be described below with reference to FIG.

In this implementation flJ, as feed zooplankton,
The case of using Shiomizu rotifer (hereinafter referred to as rotifer) will be described.

In Figure 1, 1 is a chlorella culture tank, 2 is a plankton culture tank for culturing rotifers, 3 is seawater, 4 is a continuous concentration separation device, 5 (1) and 5 (2) are secondary culture tanks, respectively.
6 is a breeding tank, 7 is a control device, 8 (IL 8 (2L 8
(3) is a pump placed in the middle of the piping at the location shown in the Okina rental desk, 9 (1), 9 (2)...9 (14)
) are on-off valves installed in the middle of the piping at the positions shown.

Buttons 5 (4) are control command signals given from the control device 7 to the continuous concentration separation device 4, 5 (PI), 5 (P2), 5
(P3) is from the control device 7 to each pump 5 (IL 8 (2)
, 8(3), 5(9) is the control device 7, and each on-off valve 9(1) to 9. (14) is a control command signal for opening and closing the valve.

The rotifers cultured in the plankton culture tank 2 are
(5) and 9(6) and start pump 8(1), the seawater is sent to the continuous concentration separation device 4 and concentrated to the desired concentration. By opening the on-off valve 9(2), seawater 3 is sent to the continuous concentration separation device 4, and the zooplankton in the seawater is pressed to the continuous concentration separation device 4, where it is concentrated to an arbitrary set concentration.

In conventional concentration using a net, the density of rotifers in the concentrated water is determined by microscopic examination, but according to the embodiment shown in FIG. It has a built-in concentrator that can continuously concentrate using a type filtration device, and depending on the operating conditions, it can produce plankton concentrated water with a constant rotifer density, that is, a constant concentration, regardless of the rotifer density on the supply side. It is possible to obtain continuous automatically.

The above operating conditions are set by the control device 7, and are provided to the continuous concentration separation device 4 via the control command signal 5(4).

The plankton concentrated water obtained in this way is
Feeding is carried out by sending the necessary amount of feeding set according to the type, size, quantity, feeding method, etc. of the larval fish etc. to the rearing tank 6 via the pump 8 (2) and the on-off valve 9 (9). do.

Furthermore, in this embodiment, the secondary culture tank 5 (1
) and 5(2) have been established.

In this case, open the on-off valve 9 (7L 9(8)) to drain the concentrated plankton water from the continuous concentration separation device 4.
Pour into secondary culture tank 5(1) without breaking it down.

Next, add the chlorella cultured in the chlorella culture tank 1 to the required amount for the number of rotifers in the secondary culture tank 5 (1) (this is calculated from the concentration and flow rate of the plankton concentrated water) through the on-off valve 9 (10). ? ! It is supplied to the secondary culture tank 5(1) through chlorella to perform chlorella enrichment.

There are multiple secondary culture tanks, 5 in the implementation ψ11 (IL 5 (2)
Two of them are installed, and while chlorella reinforcement is being carried out in one 5 (1), the other 5 (2) is sent to the breeding tank 6 via the pump 8 (3) and the on-off valve 9 (12). feed.

In this way, the secondary culture tank 5 (IL 5(2)) alternately performs chlorella enrichment and feeding.

Each of the above operations is performed by a control command signal 5 (4) from the control device 7.
, S (PI) Sω2) j S (P3) 55
(9), this is performed continuously and automatically.

As described above, according to the present invention, natural or cultured zooplankton for feed can be concentrated to an arbitrary constant concentration, and if necessary, it can be enriched with chlorella through secondary culture treatment or treated with a medicated bath. By adopting a configuration that quantitatively controls feeding, it is possible to reduce the inconveniences of conventional techniques that require a large amount of effort, space, time, etc., eliminate waste of feed, and enable continuous automatic intermission.

The present invention can also be applied to fields such as concentration and separation of eggs and larvae in sea areas, lakes, rivers, etc., and concentration and separation of zooplankton for use as food or fertilizer.

[Brief explanation of drawings]

FIG. 1 is a layout diagram for explaining one implementation ψ11 of the present invention. Explanation of symbols, 1... Chlorella culture tank, 2... Zooplankton culture tank for feed, 3... Seawater, 4... Continuous concentration separation device, 5 (IL 5 (2)... Secondary culture tank,
6... Breeding tank, 8(+)* 8(2)) 8(3)
... Pump, 9 (1) to 9 (14) ... Opening/closing valve.

Claims (1)

[Scope of utility model registration request] It has a built-in plankton cultivation tank that cultivates zooplankton for feed, and a concentrator that can continuously concentrate, and continuously concentrates and separates natural or cultured zooplankton for feed according to control commands from the control device. A continuous concentration separation device that converts plankton concentrated water into concentrated plankton water, a secondary culture tank that performs secondary treatment such as chlorella enrichment and chemical bathing on this plankton concentrated water, and a plankton concentrated water from the continuous concentration separation device or the above two A breeding aquarium in which any of the plankton concentrated water after secondary treatment from the secondary culture tank is selectively fed in accordance with control commands from the above control device and in the commanded amount to increase and culture the fry, etc. in the tank. A zooplankton concentration feeding device for feed, characterized by comprising: