SU1692457A1 - Arrangement for controlling fish behavior - Google Patents

Abstract

The invention relates to industrial fisheries and can be used for purse fishing and for holding fishfish. The purpose of the invention is to increase the efficiency of use by expanding the spectrum of the emitted signals. The pneumatic radiators 1 are controlled by a spring-loaded valve associated with the float 6. The different heights of the floats 6 of the radiators 1 provide a total signal that does not repeat in time, 2 times.

Description

The invention relates to industrial fishing and can be used to reduce fish loss during wallet fishing or to keep schools of fish within the limits defined by fishing 5 zones.

The purpose of the invention is to increase the efficiency of use by expanding the spectrum of emitted signals.

In FIG. 1 shows a device for controlling fish behavior, general view; FIG. 2 - node I in FIG. 1.

The device consists of emitters 1 connected by a sleeve 2 with a control element 3 of the pneumatic highway 4, suspensions 5, floats 6.

The radiator control body (Fig. 2) contains a housing 7 in the form of a three-way fitting, inside of which a valve 8 is connected. It is spring-loaded with a spring 9 and sealed by a ring 10, a locking seat 11 connected by a channel 12 to a sleeve 2 and a channel 13 with a compressed source air (not shown). An eye 14 is attached to the housing 7. 25

The emitter (figure 2) consists of a housing 15, forming with a movable cylinder 16 a working chamber 17 and a control chamber 18, which are sealed by rings 19, 23. The cylinder 16 is equipped with an inner ring belt 24. The control chamber 18 through the channel 25, the filter 26, the sleeve 2, the seat 11, as well as the working chamber 17 through the channel 27 and the filter 26 communicate with a source of compressed air (not shown). 35

The device operates as follows.

Previously, it is located in the water area as required by the methodology. For example, if it is necessary to close the path of 40 fish to the dirty part of the water, then the source is placed across the path of the fish. If it is necessary to direct the fish ei net, the source is moved behind the stern of the vessel, on which there is a source of compressed air (compressor).

In a stationary position with the shore from the compressor, compressed air is supplied to the pneumatic main 4, which enters the control unit 3 of each emitter 1. The length of the suspensions 5 is vibrated based on the immersion depth of the emitters 1. The initial state of the valve 8 (in the absence of excitement) due to the weight of the emitter 1. the lifting force of the float 6 (force P) and the elasticity of the spring 9 is such that the seat 11 is fully open. The spring 9 is fully compressed and acts as a limiter to the valve 8. The stroke limiter can also be a special part, for example, a sleeve located on the valve 8 (not shown). Compressed air through the seat 11, channel 12, filter 26, channel 25 enters the control chamber 18, and through the channel 27 to the working chamber 17. Due to the difference in the inner diameter of the cylinder 16 in the control 18 and the working 17 chambers (in the control chamber the diameter is larger ) compressed air cylinder 16 is lowered to the lower initial position.

When the initial working pressure is reached in the working chamber 17 and due to the bore of the cylinder 16 in its lower part (the bore diameter is larger than the internal diameter of the cylinder 16 in the control chamber 15 18), the cylinder 16 rises. The depressurization of the ring 19 occurs and the compressed air acts on the entire area of the lower end of the cylinder 16, drastically moving it up. From the working chamber 17, the compressed air is ejected into the water, generating a pressure impulse (infrasonic vibration), which is perceived by the fish. The cylinder is braked in the upper part of the control chamber 18 with the help of a belt 24, where it compresses the air and is thrown down, closing the working chamber 17. The emitter operation cycle is over.

Due to the fact that the float 6 oscillates 30 during sea waves, the valve 8, under the influence of the spring 9, changes the flow area of the seat 11 until it is completely closed, which determines the response time of the emitter 1 of the pneumatic source. In case of failure of any emitter, the float 6 is attached to the eye 14, and the valve 8, under the action of the spring 9, closes the seat 11, cutting off the air supply to the emitter. Working according to a random law, emitters create a total signal that is practically not repeated in time. The sensitivity of the fish to such a signal is expressed more strongly in the form of a clear reaction of fright and moving away from the source of oscillations. Adaptation of fish 45 to such signals occurs much more slowly and is less pronounced. Thus. The invention allows to more effectively influence the behavior of fish.

Claims (1)

Claim 50 Device for controlling the behavior of fish. containing sound sources equipped with controls driven by floats, which is explained by the fact that, in order to increase the efficiency of use by expanding the spectrum of emitted signals, the sound sources are made pneumatic, and each control means contains a body with a saddle and a spring-loaded valve connected to the float. np Figure 2