DE1284682B - Method and device for measuring the degree of filling of trawls - Google Patents

Description

The invention relates to a method and a device for measuring the filling level of trawls. , ■

It is known to use the trawl tension to determine the degree of filling of a trawl net measure up. In addition to the degree of filling, this tensile stress is also dependent on other factors, in particular on the towing speed, the water flow direction and the length of the drained Curling line. This makes the measurement difficult and unreliable. To these shortcomings too avoid, one has the net and by echo sounding from a dinghy driving over the net the captured fish are mapped by an echo recorder. This procedure is very laborious, and It is difficult to find a usable image resolution for the assessment at greater depths of the network the degree of filling.

The invention is based on the object of a method and a device for measuring the To create filling levels of trawls that are equally good and reliable for all fishing depths Provides information values about the degree of filling and takes a reasonable amount of technical

The device for performing the method consists of at least one connected to the network connected flow meter measuring the speed of the water flowing through the network space with a measured value transmission device to the tugboat. Any of the flow meters is useful in a water-permeable, but the penetration of fish preventing Space arranged at the measuring point enclosing cage. With the appropriate dimensioning of the cage it is easily achieved that the flow rate of the water in the cage depends on the degree of filling Corresponds to the flow velocity of the water in the adjacent part of the network area.

The cage can be arranged in the flow direction of the water flowing through the network space Pipe with an inlet and outlet sieve exist.

A known type of flow meter can be used to measure the flow velocity. Impeller flow meters are particularly suitable for the present purpose. Through the impeller an electrical generator can be driven, its electrical voltage and / or frequency as

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Means and monitoring or operation are used. The generator is beneficial in

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In solving this problem, the invention is based on the consideration that the net when catching at a certain speed through the water with a container filled with insulating liquid Housed pressure equalization against the free water space.

The invention is shown in the drawing on a ii

is towed, so that an exemplary embodiment is illustrated in the network area. It shows hd d W ib d dß rih

speaking flow of water results, and that this flow of water through the network space with the the increasing filling of the net with fish is subject to considerable changes, which are immediate are dependent on the degree of filling.

Based on this consideration, the filling level of the trawl is measured according to the invention by that the flow rate of the flowing through the network space at certain points Water is measured and used as a measure of the degree of filling. You can either use the mation speed of the water flowing through the network space on the network wall or in the Measure the interior of the net. During the flow through both the mesh wall and the mesh interior in the case of an empty network, the flow in the open air surrounding the network is essentially unaffected Corresponds to the water space, the flow increases and with it the mean flow velocity in the area of the net space filled with fish, while in front of the part filled with fish of the network through the damming of the water a flow with increased flow velocity of the the net wall not yet covered by fish is carried out from the inside to the outside. A particularly good one Observation of the degree of filling can therefore be achieved by checking the flow velocities of the water measured at several points of the network one behind the other in the towing direction will.

In addition to the flow speed of the water in the network area or on the network wall, the flow velocity of the water in front of the net space, preferably in the net opening, be measured. The difference in the flow velocity can be shown one after the other Use the flow meter as a measure of the degree of filling.

F i g. 1 shows a trawl net with a device for measuring the degree of filling according to the invention in plan view,

F i g. 2 filling level-dependent measurement characteristics of the device according to FIG. 1,

F i g. 3 one of the in the device according to F i g. 1 provided degree of filling meter on a larger scale and

F i g. 4 shows a visual display device for the Filling level.

The in F i g. The device shown in FIG. 1 for measuring the degree of filling consists of several degree of filling meters 1 to 7 which are attached to the trawl net 8. The degree of filling meters 1, 3 and 5 are approximately in the axis of the network space 9 at certain intervals one behind the other. The degree of filling meters 2, 4 and 6 are attached to the outside of the net in such a way that their entry side rests against the net wall 10 or the mesh of the net wall. The degree of filling meters 2, 4 and 6 are attached to the net at approximately the same intervals as the degree of filling meters 1, 3 and 5, but offset towards the opening of the net opening in relation to these degree of filling meters in the network space 9, so that the degree of filling meter 2 between the degree of filling meters 1 and 3, the degree of filling meter 4 between the degree of filling meters 3 and 5 and the degree of filling meter 6 in front of the degree of filling meter 5. The degree of filling 7 is attached to the head rope 11 of the net opening.

Measured values of the degree of filling meters 1, 3, 5 and 7 are transmitted by a cable 12, those of the degree of filling meters 2, 4 and 6 by a cable 13 to a switching device 14 and from there via a cable 15 on board the tugboat. There is an optical display device 25 for the degree of filling, as shown, for example, in FIG. 4 is shown.

The degree of filling meter can, as FIG. 3 shows, consist of impeller gauges placed in a cage

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16, consisting of a tube 17 with inlet screen 18 and outlet screen 19, are arranged. In the measuring space 20 enclosed by the cage 16 there is an impeller 21, by means of which a generator, preferably an alternating current generator 22, is driven. This generator is housed in a container 23 filled with insulating liquid with pressure equalization against the free water space. For pressure equalization and at the same time for filling the container with the insulating liquid, a filling hose 24 is provided, which is designed to be correspondingly flexible for the purpose of pressure equalization.

In the display device 25, signal lamps L 1 to Ll assigned to the degree of filling meters 1 to 7 are attached in the image of a network 26.

When the net is pulled through the water and gradually fills with fish, the flow of the water through the net space is changed depending on the degree of filling of the net. As long as the net is empty, the flow at all points of the net space is essentially the same as the flow in free water, since this flow is not significantly disturbed by the empty net. If the net gradually fills with fish, the flow through the positions of the filling level meters 1 to 6, one behind the other, is changed one after the other. The flow values for the degree of filling meters installed in the network space 9 and on the network wall 10 run according to various characteristics, as shown in FIG. 2 are shown schematically. When the filling of the network reaches the measuring point of the degree of filling meter 1, the voltage M ₁ and / or the frequency f _{t of} the generator initially gradually decreases and then drops quickly to a small residual value as soon as the fish collect in front of the degree of filling meter 1. The same dependence on the degree of filling is also shown by the voltages M ₃ and M ₅ and / or the frequencies / ₃ and / _{5 of} the generators of the degree of filling meters 3 and 5 in the interior 9 of the network.

The voltages U ₂ , M ₄ and M ₆ and / or the frequencies f ₂ , f _i and / ₆ generated by the degree of filling meters 2, 4 and 6 show a significantly different characteristic. When the network is empty, these degree of filling meters only have a relatively low flow rate with a correspondingly low voltage and / or frequency value. If the filling of the mesh area approaches one of the filling level meters 2, 4 or 6, the flow through the filling level meter in question suddenly increases because the water flow is more or less suddenly deflected outwards by the damming effect of the mesh filling. The voltages U ₂ , M ₄ and U ₆ and / or the frequencies j ₂ , / ₄ and / "rise to a maximum value, and then, similar to the voltages M ₁ , M ₃ and M ₅ and / or the Frequencies / ,, f ₃ and / ₇ of the degree of filling meter installed inside the network, drop to zero.

_{The voltage value M 7} and / or the frequency / ₇ supplied by the flow meter 7 on the head rope 11 of the network constantly maintains the size, since this flow meter is not influenced by the degree of filling, but only measures the flow rate at which the network is pulled through the water .

If the lighting of the signal lamps Ll to L 7 on the display device 25 is made _{dependent on the exceeding or falling below a limit value H 0} (see Fig. 2), the signal lamps Ll, L3, LS and Ll light up when the network is empty, while the signal lamps L 2, L 4 and L 6 are extinguished. As the filling increases, the signal lamps Ll, L 3 and L5 go out one after the other, while Ll lights up continuously. The signal lamps L 2, L 4 and L 6, on the other hand, only light up temporarily. For a filling ratio along the line F of the F i g. 1 and 2 results from FIG. 4 visible display in which the signal lamps Ll, L2, L 3 and L 6 have gone out, while the signal lamps L4, LS and Ll are on .

If the difference values are formed from the constant voltage and / or frequency M ₇ or / ₂ and the voltages M ₁ , M ₃ and M ₅ and / or the frequencies Z ₁ , / ₃ and / ₅ , the measurement can easily be made from Free undesired influences, such as those that would result from fluctuating speed of the tugboat, changes in the network speed when changing course and superimposition with local water currents, if the absolute values of the generated voltages are used for display.

The use of a flow meter at the front of the net in the flow-free water also offers the advantage that you can constantly generate electrical energy, for example for the Operation of a wireless network probe can be used.

Various modifications and other designs are still possible within the scope of the invention. Instead of the alternating current generator, a direct current generator could also be used in the flow meter provide, the voltage of which is proportional to the amount of water passed through per unit of time. the The speed of the impeller of the degree of filling meter can also be done mechanically with the help of a flexible shaft be transmitted.

Differential pressure flow meters can also be used in place of speed-indicating flow meters are used, which when falling below a specified flow velocity a Press contact.

The invention can advantageously be used in connection with a so-called network probe, an echo sounder, with the aid of a programmed switch alternately signaling the signals from the level meter (s) and the echo sounder via one and the same cable to the ship. In the exemplary embodiment shown, the switching device 14 can contain such a program switch by means of which the various degree of filling meters or their voltages M ₁ to M ₇ or frequencies Z ₁ to / _{7 are} switched on or off one after the other.

Claims (16)

Patent claims: 1. A method for measuring the filling level of trawls, characterized in that that the flow velocity of the network space (9) flowing through at certain points Water is measured and used as a measure of the degree of filling. 2. The method according to claim 1, characterized in that the flow rate of the water flowing through the network space is measured on the network wall. 3. The method according to claim 1, characterized in that the flow rate of the water flowing through the network space is measured inside the network. 4. The method according to any one of the preceding claims 1 to 3, characterized in that the flow velocities of the water at several, one behind the other in the towing direction Points of the network are measured. 5. The method according to claim 1 to 4, characterized in that in addition to the flow rate of the water in the network space the flow velocity of the water in front of the network space, preferably in the network opening, is measured. 6. The method according to claim 1 to 5, characterized in that the difference in the flow velocities consecutive flow meters formed and as a measure of the degree of filling is used. 7. Apparatus for performing the method according to claim 1 to 6, characterized in that ao that they consist of at least one connected to the network, the speed of the through the Net room (9) of flowing water measuring flow meter with a measured value transmission device to the tugboat. 8. Apparatus according to claim 7, characterized in that the flow meter in one water-permeable, but the penetration of fish preventing cage (16) is arranged. 9. Apparatus according to claim 8, characterized in that indicates that the cage consists of a flowing through the network space in the direction of flow Water arranged pipe (17) with an inlet and outlet sieve (18, 19) consists. 10. Device according to claim? to 9, characterized in that the flow meter is an impeller flow meter 11. The device according to claim 10, characterized in that the impeller is an electrical one Generator (22) drives whose electrical voltage and / or frequency as a filling degree signal serves. 12. Device according to claim? to 9, thereby characterized in that the flow meter is a differential pressure flow meter. 13. Apparatus according to claim 7 to 12, characterized in that at least one part the flow meter is installed one behind the other in the interior of the net. 14. Apparatus according to claim 7 to 12, characterized in that at least one part the inlet side of the flow meter is connected to the mesh wall. 15. Apparatus according to claim 7 to 14, characterized in that a plurality of flow meters are arranged one behind the other on the network. 16. The device according to claim 15, characterized in that one of the flow meters attached to the net in undisturbed water. 1 sheet of drawings