DE838233C - Device for adjusting the depth of fishing nets - Google Patents

Description

The depth setting of fishing nets is more or less strong and unpredictable depending on the type of net Subject to fluctuations. When catching fish that are at a certain depth, one was therefore forced to constantly check and readjust the network depth in order to find the most favorable one Ensure the position of the net to the fish. According to the invention, this deficiency is remedied by that the device for depth adjustment

ίο of the fishing net by a measuring device for the Network depth is controlled according to predetermined values. As a result, the network will automatically respond to the The desired depth is set and can also be kept at this depth automatically in the same way how great the tendency to migrate from the given depth like to be.

In the drawing, the invention is illustrated by way of example, namely shows

Fig. Ι a network according to the invention in operation, in side view,

Fig. A modification to Fig. 1,

FIG. 2 shows the network according to FIG. 1, against the direction of travel seen,

FIG. 3 is a partial view of FIG. 2,

4 shows the measuring arrangement belonging to FIGS. 1 and 2 in a schematic representation.

The net 2 towed by the ship 1 is opened (see. Fig. 2) by two otter boards 3 and 4, a loading weight 5 on the underside and air bubbles 6 on the top and held in the correct floating position in which the two otter boards and the points of attack the hoisting lines 7, 8 dragging the net are at the same depth. The network is designed in such a way that it sinks to the ground when the ship is at rest, ie when there are no dynamic forces, and that the vertical that occurs when driving through the train ρ of the hoisting lines

Force component V lifts the net off the ground until the dynamic vertical force V , which decreases with decreasing depth and inclination of the hoist lines, and the pull of the net downwards are in equilibrium.

The depth setting of the network can be changed by changing the dynamic or static buoyancy forces. For this purpose, as shown in Fig. Ι and 2, on each lifting line

ίο an air bubble in the form of a hose 9 and 10 fixed at the same distance from the network, the volume of which can be changed by blowing in or releasing air. For this purpose, the bladders 9, 10 are connected by pressure hoses 11, 12 to a compressed air source 13 and air outlets 14, 14 "on board. The connection to the compressed air source or the outlet can be established ^{by valves 15, 16 and 15 a, 16"} or be interrupted.

Fig. Ι a shows an embodiment in which a depth elevator 9 ', 10' is attached to each of the trailing lines 7, 8 for variable depth adjustment. The rudders can be adjusted separately from the ship by lines 11 ', 12'. Depending on their tendency towards the attacking flow force R , a more or less large upward or downward force component r occurs, by which the depth setting of the network is influenced.

The depth setting is carried out with the aid of a special measuring device. This measuring device uses the hydrostatic pressure on the network as a measure of the network depth. By means of a pressure hose 21, air is constantly pressed down from the compressed air tank 13 via a throttle resistor 22 to the lower open end of the pressure hose. The throttle resistor 22 is set so that air flows uninterruptedly into the pressure hose 21 and escapes at the outlet point 17. One can observe the flow of air at the throttle resistor 22 or the line 21; however, it is generally sufficient if the pressure in the container 13 and the throttle resistor 22 are set so that a low flow is ensured for all depths. For this purpose, the pressure in the container 13 can either be kept so high that there is always a sufficient excess pressure available by a compressor system not shown in the drawing, or the pressure in the container 13 can be manually or automatically depending on the respective network depth be regulated so that it is always a certain amount above the water pressure corresponding to the depth of the network. If the pressure in the container 13 is kept constant, the throttle resistor 22 must absorb the pressure difference between the pressure in the container and the pressure in the line 21, ie the respective water pressure at the network or at the outlet point 17, at all possible network depths. With a constant throttle resistance, this pressure difference can only be set by means of a correspondingly different flow rate. But you can also regulate the throttle resistance manually or automatically as a function of the respective network depth so that the flow velocity remains essentially the same for all network depths. The pressure behind the throttle resistor 22 required for this is equal to the pressure of the water column α at the outlet point 17, ie equal to the net depth n, reduced by the height («- a) between the outlet point 17 and the center of the net. The changes in this height (n - a) with the net depth and driving speed are so small that one only has to increase the measured depth a by a constant value k to determine the net depth η in order to get from the value β to the desired net depth value η . The value k can be determined once and for all through experiments, in that the differences (n - a) occurring during operation are measured in a series of experiments by arranging an additional measuring hose to the center of the network.

The pressure of the water column is measured by a manometer 18 which is calibrated in such a way that its pointer 19 directly indicates the respective network depth η on a straight depth scale 20.

The air bubble 10 on the rope 8 could be brought to the same pressure as the air bubble 9. The device can also, as shown in the example, train so that the air bubble ι ο separately via separate valves 15 °, 16 ^a is connected to the pressure vessel 13 and outlet 14 ⁰ . Then, by pumping up the second air bubble 10 more or less, it is possible to compensate for incorrect swimming positions of the net, which are noticeable in a different height setting of the two otter boards or rope ends. The prerequisite for such a correction is that one can observe the swimming position of the net. For this purpose, a measuring device is provided by which the difference in the hydrostatic pressures is measured at two points of the hoisting lines equidistant from the network, namely at point 17 of hoisting line 7, where the air hose 21 ends, and at a point 23 of the Winding line 8, to which a second measuring hose 24 is led down from the air chamber 13 via a throttle resistor 25. The throttles 22 and 25 can be adjusted so that the pressure is sufficient to displace the water column up to the outlet points 17 and 23 of the pressure hoses even for the lowest network position. The difference in these pressures is measured by a manometer 26. Its pointer 27 actuates the valves 15 "and 16" via contacts 28, 29 and relays 30, 31 as soon as it deviates from its zero position due to different depths (a - b) of the hose openings 17 and 23. The volume of the displacement body 10 is then increased or decreased by opening the valve ι 5 "or i6" until the correct floating position of the network is restored and the measured depths a and b are equal to each other.

The pointer 19 of the pressure gauge 18 is used as a control contact designed for the device for adjusting the depth of the network. This depth setting is

by a control pointer that can be adjusted by hand along the scale 20, e.g. a pair of contacts 32, 33, definitely. As long as the depth pointer 19 is in the middle between the two contacts 32 and 33 stands, the valves 15 and 16 remain closed; if, on the other hand, the pointer deviates from the depth value determined by the contacts 32, 33 towards a smaller one If the depth decreases, the circuit of a power source 34 is closed via a relay 35 and as a result, the line 11 is connected to the outside air via the valve 16. It's slowly escaping Air from the hose 9 via the line 11 and the valve 16 until the network as a result Shrinkage of the bladder 9 sinks again to a greater depth, the circuit of the relay 35 by going back the pointer 19 is opened again and the valve 16 is closed. Wander the other way around the network extends from the given depth to greater depths, so is indicated by the pointer 19 through contact 33 of the circuit of a relay 36 closed and thus the bladder 9 through the Line 11 and the valve 1 5 connected to the pressure vessel 13. By blowing in air then the volume of the displacer 9 and thus its buoyancy increases, and the network returns to the Sollage back.

Under the pressure gauge pointer 19 and the control contacts 32, 33 moves across the writing strip 37 of an echograph, which is attached to a acoustic echo sounder apparatus 38 with transmitter 39 and receiver 40 is connected. On this one Writing strips are through a stylus not shown in the drawing the echo sounder device received echoes from the sea floor and from the school of fish S recorded. The sea depth / and depth s are simultaneously displayed across the width of the writing strip the schools of fish displayed in such a way that the depth scale of the manometer and the echograph cover.

For the correct setting of the network, it is only necessary to set the control contacts 32, 33 to the set the depth s of the school of fish indicated by the echograph. The network then becomes complete automatically to the depth specified by the control contacts 32, 33, namely the depth s of the school of fish brought and held in this depth. Through the contacts 32, 33 in connection with the Net depth indicator 19 is the valve 15 or 16 so open for a long time until the network has reached the predetermined depth and the pointer 19 is out of contact with contacts 32 and 33 is. The correct net position is determined by the differential pressure meter 26, the pointer 27 of which, via the relays 30, 31, controls the valves 15 °, 16 ″ for the second pressure bladder 10 controls, in such a way that occurring pressure differences as a result of different depth settings of the two pressure bubbles 9 and 10 are automatically compensated.

The invention is not restricted to the examples shown; Changes and other designs possible.

When setting the depth by means of a variable displacement body, it should be noted that the impulse to change the depth requires a pressure change in the opposite sense. the An increase in volume caused by an increase in air pressure causes a shift in the network to shallower depths, d. H. in the sense of a reduced water pressure, and vice versa. As soon as the network is relocated, the air pressure must be readjusted accordingly so that the change in water pressure does not change the volume if possible of the displacer. So you have to lower the air pressure to move it down To achieve lows, increase first and, after this movement takes place, decrease again. It would also be possible to provide displacement bodies whose volume is independent of the water pressure and can only be changed from board.

In order to determine and control the swimming position of the network, other or more than can also be used two points of the lifting lines or the net are measured. The depth measurement can of course also in other ways, e.g. B. done by pressure cans with electrical transmission of the measured values. To establish the correct swimming position, it is not necessary to report the measured values on board, if you attach the device to compensate for wrong swimming positions completely on the network and there with the controlling measuring device connects.

Claims (3)

Patent claims: 1. Device for adjusting the depth of fishing nets, characterized in that it by a measuring device for the network depth according to the deviations from predetermined ones Values is controlled. 2. Device according to claim 1, characterized in that that for setting the predetermined depth value on the scale of the network depth indicator a manually adjustable control pointer is arranged. 3. Apparatus according to claim 1 or 2, characterized in that on the same Scale the net depth and the depth of the school of fish are displayed, so that when setting the control pointer to fish school depth automatically brings the net to the same depth and is held in this depth. 1 sheet of drawings 9593 2.