RU110927U1 - PLANT FOR GROWING YOUNG FISH - Google Patents

Abstract

 1. Installation for growing juvenile fish, including a fish tank, made in the form of a rectangular pool divided by vertical partitions into compartments, a closed water circulation system with filters for rough and biological water purification, a pump, an aeration device, characterized in that in the pool there are vertical partitions compartments are formed - the main working compartment for juvenile fish, a filter compartment and a pump compartment, while in the partition connecting the working compartment with the filter compartment, there is a cutout in the upper edge of the partition, black water is being poured, and in the partition between the filter compartments and the pump compartment, a slit-like slot for water flow is located at the bottom, a drain hole is mounted at the bottom of the pool at the partition, which is fenced off from the main volume of the working compartment with a frame with a small mesh net, which prevents the exit of young fish from the pool, a hole equipped with a corrugated hose and a tee with an open upper nozzle, to which a lanyard is connected with a lower hook, which allows adjusting the amount of incoming and outgoing installation at the same time, one of the tee nozzles is connected to a pipe diverted into the sewer, the pump compartment is equipped with an electric pump, and an overflow hole is made in the side wall of the compartment at a certain distance from the upper edge of the pool to prevent uncontrolled rise of water, and a nozzle with a tap is introduced into the side wall for supplying fresh water, the pump is connected in series with pipes to a sterilizer, a thermoregulation unit and a circulating water supply tap in the pool, over which is fixed at the end wall of the working compartment

Description

The utility model relates to fish farming, namely, devices for growing fish planting material in plants with a closed water circulation system. In the technological fish breeding cycle, the installation performs the function of a fry pool or tray (for example, the female type), i.e. used for growing larvae and fry of fish.

A known installation for growing planting material of fish with a closed water supply system, including fiberglass silos, a sump, a submersible biofilter, an oxygen generator, instrumentation, emergency equipment. Installation capacity is 600 kg of reared juveniles and 750 kg of yearlings. Every hour, the installation system receives 15 m ³ / h of warm and 30 m ³ / h of river water (Ser. Fisheries use of inland water bodies. Express information. / TSNIITEIRKh. 1988. - Issue 6 - p. 2-9).

This installation provides favorable conditions for the rearing of juvenile fish, however, the constructive implementation allows it to be operated in specially equipped hatcheries with large production areas, and the installation also consumes a large amount of feed water.

The closest in technical essence and the achieved result is a plant for growing juvenile fish, including fish tanks, mounted on a belt divided by vertical and horizontal partitions into compartments, a closed water circulation system with a pump, filters for cleaning and a device for water aeration. The unit is mounted on a support frame. (Av. St. USSR No. 793532, class A01K 61/00, 1981).

This installation has the same disadvantages as previously indicated. In addition, at high densities of planting juvenile fish and maintaining a high oxygen content in water in the injectors, oxygen is used instead of air, for which the installation is connected to compressed oxygen cylinders.

The technical result from the use of the proposed utility model is to simplify and cheapen the technology of growing planting material due to energy efficiency and compactness of the installation with a closed water supply cycle.

This is achieved by the fact that in the installation, including the fish tank, made in the form of a rectangular pool divided by vertical partitions into compartments, a closed water circulation system with filters for rough and biological water purification, a pump, an aeration device, compartments are formed in the pool with vertical partitions - the main a worker for young fish, a filter compartment and a pump compartment, while in the partition connecting the working compartment with the filter compartment, there is a cutout in the upper edge of the partition through which it overflows an ode, and in the partition between the filter compartments and the pump room, a slit-shaped slot for water flow is located at the bottom, a drain hole is mounted at the bottom of the pool at the partition, which is fenced off from the main volume of the working compartment with a removable frame with a fine mesh net to prevent juvenile fish from leaving the pool, the hole is equipped with a corrugated a hose and a tee with an open upper pipe, to which a lanyard is connected with a lower hook, which ensures the adjustment of the amount of water entering and leaving the installation. One of the tee nozzles is connected to a pipe diverted into the sewer, the pump compartment is equipped with an electric pump, and an overflow hole is made in the side wall of the compartment at a certain distance from the upper edge of the pool to prevent uncontrolled rise of water, and a nozzle with a tap for supplying fresh water is introduced into the side wall , the pump is connected in series with pipes to a sterilizer, a thermoregulation unit and a circulating water supply tap in the pool, a cooling tower is fixed above the latter at the end wall of the working compartment, performing the function of aeration of water.

Figure 1 schematically shows the installation, General view; figure 2 is a block diagram of the installation and circulation of water.

The installation includes a metal or fiberglass pool (1) placed in a rigid support frame (not shown in the diagram) and divided by partitions into three compartments: working (2), filters (3) and pump (4). The partition (5) separating the working compartment from the filter compartment has a cutout for overflowing water (6) in the upper part. The partition that separates the filter compartment from the pump compartment, at the bottom has a slit-like slot for the flow of water (7). In the pool bottom at the partition separating the working compartment from the remaining compartments, there is a drain hole (8) with a corrugated hose connected to it (9). The drain hose terminates on the opposite side of the drain hole with a tee (10). One of the nozzles of the tee (11) is connected to a pipe (12) allocated to the sewer. The upper branch pipe of the tee (13) remains open to interrupt the flow of water discharging into the sewer. A lanyard (14) is attached to the tee with a lower hook, the upper hook of which is attached to the upper edge of the pool. The drain hole of the pool is fenced off from the main volume of the working compartment with a removable frame with a fine mesh net (15) to prevent juvenile fish from leaving the pool. At a certain distance from the upper edge of the pool, an overflow hole (16) is made in the side wall of the pump compartment with a removable nozzle to prevent an uncontrolled rise in the water level. A nozzle with a tap for supplying fresh water (17) is introduced into the pump compartment. The unit is equipped with an electric pump (18), with which an ultraviolet sterilizer (19), a thermoregulation unit (20) and a tap for circulating water to the pool (21) are connected in series with pipes. A cooling tower (22) is fixed above the pool at the end wall of the working compartment, which provides aeration of water.

Installation works as follows.

Filler is loaded into the filter compartment 3, which is closed by a layer of filter material from above. A frame of mesh material 15 is installed, blocking the drain hole from the main volume of the working compartment to prevent fish from escaping. The pool is filled with water, and larvae or juvenile fish are deposited in working compartment 2 for rearing. The electric pump 18 is turned on, pumping water from the pump compartment and supplying it to the cooling tower 22 through an ultraviolet sterilizer 19 and a thermoregulation unit 20. These elements provide the suppression of microflora in the circulating water, its heating or cooling to a predetermined temperature, and oxygen saturation. Through the cooling tower, water enters the working compartment 2 of the pool, and through the cutout of the partition 6 it is poured into the filter compartment 3 onto the filter material located 5-10 cm below the edge of the cutout, filtered through it under the influence of gravity, which ensures mechanical cleaning of suspensions. Then water irrigates the biofilter filler and undergoes partial biological purification of dissolved substances from fish metabolism. From the filter compartment through the slit-shaped slot 7 in the baffle, water enters the pump compartment 4. Fresh water is also supplied through the tap 17. Water from the pump compartment is pumped out by the pump 18 and returned to the working compartment, as previously described. Overfilling of the pump compartment is prevented by a safety overflow hole 16, from which water is discharged through a pipe into the sewer.

The speed of water circulation in the installation is determined by the power of the pump and is regulated by a water supply tap 21 to the cooling tower. The amount of recharge with fresh water is 2-10% of the volume of circulating water. Waste water enters through the drain hole 8 into the sewer in an amount corresponding to the supply of fresh water. The water level in the working capacity of the pool is determined by the height of the cutout in the partition of the filter compartment and the height of the tee 10 on the drain hose 9. The amount of water entering and leaving the device is ensured by fine adjustment of the position of the tee by rotating the lanyard screw 14. Due to this that the filter material and the filter filler resist water flowing through them, its level in the pump compartment is maintained 30–40 cm lower than in the working compartment of the pool. This level difference provides the filtration of water from suspensions and rinsing of the biofilter filler under the influence of gravity.

During the operation of the installation, the temperature and gas modes are controlled, periodically cleaning is carried out in the working compartment of the pool and the filter material of the filter compartment is washed. At the end of the rearing, the fish is caught, and the water from the device is discharged into the sewer by lowering the tee on the drain pipe.

Compared to conventional direct-flow pools, the main advantage of the installation is the possibility of autonomous active control of the temperature regime of rearing young fish with low energy consumption for thermoregulation due to the use of a closed water supply cycle, which is ensured by the use of a single low-pressure and, accordingly, economical pump. The height of water rise in the water exchange cycle in the tested samples is only one meter, which allows the use of productive drainage pumps. Filtration of circulating water from suspensions and washing of the biofilter filler occurs under the influence of gravity. This installation is compact, economically uses the area of the fish farm.

In total, eight small-sized installations of the proposed design were manufactured. All plants were used in April-May 2010 to grow larvae and fry of whitefish in the Suzgun workshop of the Abalak experimental fish breeding factory (Tobolsk) and in the aquarium FSUE of the State Fishery Center. 121.2 thousand fry of peled, muksun and nelma were grown in them. During the growing period in plants, the survival rate was 81.8% of the number of larvae planted. In addition, in two plants, short-term (up to 10 days) cultivation of 1.5 million peled larvae was carried out for stocking uterine reservoirs with a waste of less than 1%. The whitefish fry grown in the plants are successfully kept in cages at the experimental farm of the Volkovskoye State Fisheries Center to replenish the uterine herd.

Claims (2)

1. Installation for growing juvenile fish, including a fish tank, made in the form of a rectangular pool divided by vertical partitions into compartments, a closed water circulation system with filters for rough and biological water purification, a pump, an aeration device, characterized in that in the pool there are vertical partitions compartments are formed - the main working compartment for juvenile fish, a filter compartment and a pump compartment, while in the partition connecting the working compartment with the filter compartment, there is a cutout in the upper edge of the partition, black water is being poured, and in the partition between the filter compartments and the pump compartment, a slit-like slot for water flow is located at the bottom, a drain hole is mounted at the bottom of the pool at the partition, which is fenced off from the main volume of the working compartment with a frame with a small mesh net, which prevents the exit of young fish from the pool, a hole equipped with a corrugated hose and a tee with an open upper nozzle, to which a lanyard is connected with a lower hook, which allows adjusting the amount of incoming and outgoing installation at the same time, one of the tee nozzles is connected to a pipe diverted into the sewer, the pump compartment is equipped with an electric pump, and an overflow hole is made in the side wall of the compartment at a certain distance from the upper edge of the pool to prevent uncontrolled rise of water, and a nozzle with a tap is introduced into the side wall for supplying fresh water, the pump is connected in series with pipes to a sterilizer, a thermoregulation unit and a circulating water supply tap in the pool, over which is fixed at the end wall of the working compartment cooling tower, performing the function of aeration of water. 2. The device according to claim 1, characterized in that the frame with a small-mesh protective net, preventing the exit of juvenile fish from the pool, is removable.