BE1018804A3 - MAASWIDE METER FOR FISHING NETS. - Google Patents

Abstract

This invention relates to a mesh size gauge (7) for measuring the mesh size (8) of a fishing net (9) in a repeatable manner, comprising the following components: * a fixed jaw (1) * a loose jaw (2) which is slidable is designed with respect to the fixed jaw (1) * drive means (5) for driving the displacement of the loose jaw (2) with respect to the fixed jaw (1), * a force meter (6) for determining the force is applied to the fixed jaw (1) and / or to the movable jaw (2); * means for electronically measuring the displacement of the loose jaw (2) with respect to the fixed jaw (1).

Description

MAASWIDE METER FOR FISHING NETS

This invention relates to a mesh width meter for measuring the size of the meshes of a fishing net.

The mesh size determines the selectivity of the fishing net. If the mesh size is too small, then too many small fish are caught, which can be harmful to fish stocks in the short and longer term. The legislator has always limited this mesh size in certain cases. Precise determination of the mesh size is therefore of the utmost importance in this context.

The classic mesh width gauge used up to now consists of a trapezoidal metal plate that is pressed into the mesh by hand. The maximum depth at which the plate can be pressed is a measure of the mesh size. On the side of the plate is a measuring scale and the size is read according to agreement. However, the result here depends on the pressure that the user exerts. This pressure force is not objective and gives rise to different results with different users. In the past (and still) this gave rise to legal disputes and the possibility of arbitrariness in measurements and measurement checks on board fishing vessels and on land.

A recent European project investigated the possibility of electronically measuring the mesh size. With such an electronic mesh width meter, it would become possible to objectively determine the mesh size. The aforementioned project led to a standard measurement for electronic mesh width meters to be developed, which will come into effect within the European Community on 1 September 2009. With this fixed standard measurement, the mesh is pressed open with a constant compressive force and the mesh opening corresponding to this compressive force is measured electronically. The direction in which the mesh is pushed open is shown in Figure 1. The arrow in this figure indicates the direction in which the mesh should be pushed open according to this standard measurement under a certain pressure force to determine the mesh size.

The companies Marelec NV from Belgium and Observator bv from the Netherlands participated in this project. Thanks to the cooperation of both companies, a new electronic mesh width meter has now been developed

The object of this invention was therefore to provide a mesh width meter with which the new standard measurement can be carried out.

This object is achieved by providing a mesh width meter for measuring the mesh size of a fishing net, which comprises the following components: - a fixed jaw; - a loose jaw that is slidable relative to the fixed jaw, - drive means for driving the displacement of the loose jaw relative to the fixed jaw, - a force gauge for determining the force exerted on the fixed jaw and / or on the loose mouth is exercised; - means for electronically measuring the displacement of the loose jaw relative to the fixed jaw.

Preferably, in such a mesh-width meter according to the invention, the loose jaw is at least partially slidable in the fixed jaw.

The force meter is herein preferably a tensile force sensor.

The drive means preferably comprise a motor, the force meter then determining the force on the basis of the motor current.

Preferably, the means for electronically measuring the shift comprises an electronic computer unit.

When the drive means comprise a motor, the means for electronically measuring the shift preferably comprise a speed meter for determining the speed of the motor.

In a specific embodiment of such a mesh measuring meter according to the present invention, this mesh width meter comprises a spindle which is driven with the drive means, the loose jaw being rotatably arranged with respect to the spindle, in such a way that when the spindle is rotated the loose jaw is shifted relative to the fixed jaw.

Even more specifically, the spindle is at least partially provided with an external screw thread, and the mesh gauge comprises a hollow shaft, which is provided with an internal screw thread which is designed corresponding to the external screw thread of the spindle, the hollow shaft being rotatable on this spindle. and the loose jaw is mounted on the end of this hollow shaft.

The means for electronically measuring the displacement in such a mesh gauge with a spindle preferably comprises an electronic computer unit with which the displacement of the loose jaw relative to the fixed jaw is calculated as a product of the pitch and the number of revolutions of the spindle.

This invention will now be further elucidated with reference to the detailed description below of a preferred embodiment of a mesh meter according to the present invention. The purpose of this description is to give only illustrative examples and to indicate further advantages and details of this mesh gauge, and can therefore in no way be interpreted as a limitation of the scope of the invention or of the patent rights claimed in the claims.

In this detailed description reference is made to the accompanying drawings by reference numerals, in which - figure 1 shows a detail of a fishing net with three meshes visible; Figure 2 is a cross-sectional view of the preferred embodiment of a mesh meter according to the present invention.

Figure 2 shows the structure of the mesh gauge (7). This mesh gauge (7) comprises a fixed jaw (1) and a loose jaw (2). The loose jaw (2) is slidable in the fixed jaw (1). The loose jaw (2) is electrically driven on this mesh size gauge (7) with the help of a motor (5). The spinning motion of the motor drives a spindle (4). A hollow shaft (5) is rotatably mounted on this spindle (5). To this end, the spindle (4) is at least partially provided with an external screw thread, and the hollow shaft (5) is provided with an internal screw thread corresponding to this external screw thread. The loose jaw (2) is mounted on one end of the hollow shaft (5), such that when the spindle (4) is driven with the motor (5) the movement of the loose jaw (2) relative to the fixed jaw (1) is powered.

This mesh width meter (7) is further provided with a tensile force sensor (6) for measuring the force in the fixed jaw (1). This tensile force sensor (6) can be equipped with strain gauges, piezo-electric, capacitive, etc. When the motor (5) is driven, the force is simultaneously measured with this tensile force sensor (6). Upon reaching the force at which the mesh size (8) can be determined according to the new standard measurement, this motor (5) stops.

The displacement of the loose jaw (2) relative to the fixed jaw (1) is calculated from measurements of the number of revolutions of the motor (5) multiplied by the pitch of the thread of the spindle (4). The revolutions of the motor (5) can be measured, for example, via electromagnetic sensors, via light sensors or via hall sensors.

To determine the mesh size with this mesh width meter (7), the fixed jaw (1) and the loose jaw (2) are steered to their zero position. This zero position is the position at which the fixed jaw (1) and the loose jaw (2) are clamped against each other. This mesh size corresponds to a shift of 0 mm.

The jaws (1,2) are placed together in the mesh, in a direction as indicated by the arrow on figure 1. The motor (5) is started, so that the loose jaw (2) away from the fixed jaw (1) ) is moved. At the same time, the force on the fixed jaw (1) is measured. The speed of the motor (5) is also recorded. When this measured force reaches a certain preset force, the motor (5) stops. An electronic calculation unit calculates the displacement of the loose jaw (2) relative to the fixed jaw (1) as a product of the pitch and the number of revolutions of the spindle (4).

Claims (9)

A mesh meter (7) for measuring the mesh size (8) of a fishing net (9), characterized in that it comprises the following components: - a fixed jaw (1); a loose jaw (2), which is slidable relative to the fixed jaw (1), drive means (5) for driving the shift of the loose jaw (2) relative to the fixed jaw (1), a force gauge ( 6) for determining the force exerted on the fixed jaw (1) and / or on the loose jaw (2); - means for electronically measuring the displacement of the loose jaw (2) relative to the fixed jaw (1). Mesh meter (7) according to claim 1, characterized in that the loose jaw (2) is at least partially slidable in the fixed jaw (1). Mesh size meter (7) according to claim 1 or 2, characterized in that the force meter (6) is a tensile force sensor. Mesh meter (7) according to one of the preceding claims, characterized in that the drive means (5) comprise a motor and that the force meter (6) determines the force on the basis of the motor current. Mesh meter (7) according to one of the preceding claims, characterized in that the means for electronically measuring the shift comprises an electronic computer unit. Mesh width meter (7) according to one of the preceding claims, characterized in that the drive means (5) comprise a motor and that the means for electronically measuring the displacement comprises a speed meter for determining the speed of the motor. Mesh width meter (7) according to one of the preceding claims, characterized in that it comprises a spindle (4) which is driven with the aid of the drive means (5), the loose jaw (2) being rotatable relative to the spindle (4) is arranged in such a way that when the spindle (4) is rotated the loose jaw (2) is shifted relative to the fixed jaw (1). Mesh width meter (7) according to claim 7, characterized in that the spindle (4) is at least partially provided with an external screw thread, that the mesh width meter (7) comprises a hollow shaft (3) which is provided with an internal screw thread which corresponding to the external thread of the spindle (4), the hollow shaft (3) being rotatably mounted on this spindle (4) and the loose jaw (2) being mounted on the end of this hollow shaft (3) . Mesh width meter (7) according to claims 5 and 6 and 7 or 8, characterized in that the means for electronically measuring the shift comprise an electronic computer unit with which the shift of the loose jaw (2) relative to the fixed jaw ( 1) is calculated as the product of the pitch and the number of revolutions of the spindle (4).