NO178811B - Fishing nets with device for removing front and dead fish from the bottom of the fish net - Google Patents

Description

The present invention relates to a fish maw, comprising a lower funnel-shaped hose support part, which is arranged to communicate with the upstream end of a drain hose, while suitable transport devices, such as an ejector mechanism, are arranged to suck material, which has accumulated at the bottom part of the fish maw, into the drain hose and deliver the material at the downstream end of the drain hose to a suitable emptying point.

Until now, it has been common to attach a funnel-shaped transition part, which is attached to the upstream end of the drain hose, directly to the fish pond's funnel-shaped hose support part flush with this, so that the drain hose's transition part runs mostly with a corresponding funnel shape and correspondingly steeply, as the adjacent funnel-shaped hose support part. In other words, the transition part of the drain hose is in fixed connection with the funnel-shaped hose support part and the drain hose is thereby included as a continuous part of the fish mare.

In practice, with the known solution, the funnel-shaped transition part has been sewn into place as an extension of the funnel-shaped snake support part of the fish mare. This has ensured a simple, fixed connection between the fish pond and the drain hose and at the same time a favorable transition part for the transfer of material, which accumulates in the bottom part of the fish pond, from the hose support part to the drain hose's transition part. In practice, however, it is easy for blockages to occur in the drain hose, particularly blockage of dead fish, fish remains and fish excrement, and in particular the blockage occurs in the U-shaped, lower bend of the drain hose. With the known solution, it has been complicated to remove such a blockage, since in practice it has often been referred to plugging up the drain hose, preferably from its upstream end.

In relevant cases, where it is desired to free the drain hose from the fish pond, it has been particularly problematic and complicated to dismantle the drain hose from the fish pond, or to reassemble or replace the drain hose in the fish pond, when it is in use in a submerged state in the sea with associated large quantities of fish caught in the fish mare.

The present invention aims at a solution where the drain hose can be moved axially in relation to the fish mare in a relatively simple and easy way. Furthermore, the aim is to be able to assemble and disassemble the drain hose in an easy way using simple means in the fish tank, while this is in use with large quantities of fish caught in it.

On this occasion, the fish pond is characterized by the fact that the drain hose is easily releasably suspended in the fish pond's hose support section and arranged to, with the help of a hoist, be lifted and lowered vertically in the fish pond, in relation to the hose support section at the lower end of the fish pond, as the upstream end of the drain hose is equipped with a radially extended support head, which in the hose's position of use rests against a corresponding bearing in the hose support part, while vector jaws, which are arranged for example in or near the drain hose's support head, are arranged to pull the support head to the support system against said bearing.

According to the invention, it is possible, by moving the drain hose in an unobstructed manner up and down in relation to the bed in the fish pond's hose support part, to intermittently straighten or change the course of the U-shaped bend in the drain hose. Thereby, it is possible to set material, which has accumulated in and which has blocked parts of the drain hose, in a corresponding movement inside the drain hose, thereby being able to dissolve the blockage in the drain hose in an easy way for onward transport of said material in the drain hose.

According to the invention, it is also possible, if necessary, to be able to pull the drain hose freely upwards through the fish pond to the sea surface, for possible further cleaning of the same. In addition, the hose can possibly be pulled all the way upwards from and outwards from the fish mare for further cleaning or possible repair or replacement of the drain hose.

An advantageous solution according to the invention is characterized by the fact that the drainage hose at a suitable distance from its normal downstream end is equipped with a compressed air intake to form an ejector in the interior of the hose, and that the ejector is designed to be used for the transport of seawater using compressed air in opposite directions through the hose.

According to the invention, the above implies that, if necessary, further easy detachment of blockages in the drain hose's U-shaped bend can be achieved by directing compressed air in opposite directions through the hose, respectively by driving the transport medium in the form of seawater in correspondingly opposite directions.

In order to further facilitate the detachment of blockages in the U-shaped bend of the drain hose, the device according to the invention is further characterized in that the normal downstream end of the drain hose is easily releasably connected via a quick coupling to a coupling device or container for the reception and further conveyance of transported seawater and entrained material, and that the drain hose's normal downstream ends are arranged to intermittently, i.e. under certain conditions, be able to be released from the coupling device or container and be submerged at a suitable level below the sea surface, as well as forming the upstream end of the hose.

Hereby, one has the option of intermittently straightening or alternately pushing and pulling said blockage, i.e. the contents of the drain hose, back and forth in the drain hose's U-shaped bend to release and remove the blockage.

Further features of the invention will be apparent from the following description with reference to the accompanying drawings, in which: Fig. 1 schematically shows in side view a common version of a fish maw with an associated drain hose. Fig. 2 shows, in perspective, a common design of the transition part between the hose support part of the fish tank and the inlet of the drain hose. Fig. 3 shows in a drawing corresponding to fig. 1 a fish maw according to the invention, in which the drain hose is shown in two different positions with dashed and solid lines respectively. Fig. 4 shows a section of fig. 3 at the transition between the hose support part of the fish tank and the drain hose's support head, according to a first exemplary embodiment. Fig. 5 shows in a vertical section an alternative design of the drain hose's support head.

In fig. 1 shows a known embodiment of a fish maw 10' with an upper, cylindrical main part 10a' and a lower, conically pointed bottom part 10b' in the downward direction

with a lower hose support part 10c' which delimits an associated drain opening. A rigid, funnel-shaped transition part 1a' is attached to the hose support part 10c', which forms the upstream end 11b' of a drain hose 11'. The hose support part 10c' and the transition part 1a' have a corresponding funnel shape with a funnel angle of approx. 50°, i.e. with sides

which forms an angle of approx. 70° with the center axis of the funnel shape. This angular relationship is mainly determined by the desire to prevent blocking of the inlet with, for example, crosswise dead fish.

The drainage hose's 11' transition part 11' aligns with the hose support part 10c', so that material collected in the bottom part 10b' of the fish pond and adjacent hose support part 10c can be led via the funnel-shaped transition part 11a' directly into place in the drain hose 11' for further transport in this.

In fig. 2, the transitional part lia' shown is sewn at lic' to the groove itself in the bottom part 10b'.

The fishing rod 10', according to fig. 1, is equipped with an upper rigid, walkway-forming framework 12' with associated buoyancy means and with ordinary railings 13'. A compressor 14' is mounted on the framework 12', which via an external compressed air hose 15' supplies compressed air to the interior of the drain hose 11' via a central part lic'. The compressed air is discharged outwards in the middle part lic' of the drainage hose 11', in a manner not further shown, in an upward direction to mix with and to lift the contents of the upper part of the drainage hose 11' upwards to the sea surface and on to an emptying point at the downstream end of the drain hose 11', which is indicated by an arrow lid'. At the same time, an ejector effect is exerted against the contents upstream of the drain hose's middle part lic', so that this content can be entrained in the air/water/material flow in the drain hose 11. In other words, the upstream area of the drain hose 11 forms a suction area, while the downstream area of the drain hose 11 forms one with air pressure driven thrust area.

In the shown, known design example, a remote, not shown, emptying point is used, for example on land. The emptying site can of course be chosen as needed.

A fish mare 10 according to the invention is generally, as shown in fig. 3, structured similarly to the known fish maw 10' according to fig. 1. A mixture of material, water and air can be transported by means of suitable means, for example with corresponding means as shown in the known embodiment, by means of the ejector action from a compressed air line 15 which is supplied with compressed air from a compressor 14, on corresponding manner as in the known solution.

In what follows, essentially new features according to the invention will be described.

A first significant difference from the known solution, according to the embodiment shown, consists in that the downstream lid of the drain hose 11 opens out close to the framework 12 of the fish pond 10 in a container or a coupling device 18, which in turn is connected to a further hose, i.e. a transport hose 19, from the container 18 to a suitable emptying point, as indicated by an arrow 20.

The coupling device or the container 18 can, in a manner not shown in detail, have an intake to an upper emptying chamber for separate removal of dead fish and any spawning remains, while a drain chamber can be arranged under a grate in the upper emptying chamber for receiving transport water and entrained particles and fine matter which must be transported to a suitable, remote disposal site. In the case of continuous or intermittent transport of waste water, together with entrained sediment from the lower end of the fish pond, the above-mentioned upper emptying chamber can be used to monitor the fish pond in a favorable way, since at suitable times a visual monitoring of the amount of dead fish or excess spawning remains can then be achieved which is removed from the bottom of the fish pond.

Optionally, the ejector pump can also be used for pumping live fish from the fish mare to the container 18 and possibly further to a suitable emptying point, by suitable adaptation of the container 18 for the purpose.

Alternatively, the drain hose, as described according to the known solution, can run directly to the emptying point.

The waste material can therefore be transported to the emptying site either directly using one and the same compressed air operation in one and the same hose or from hose to hose or transported by a two-stage transport through the two respective hoses each with its own compressed air operation. By using two hoses that can be connected separately, it is possible to easily assemble and disassemble the end of the drain hose 11 close to the railing 12 relatively independently of the transport hose 19. The downstream end of the drain hose 11 can for example be connected to the container or the coupling device 18 via a not shown in detail, known in and of itself quick coupling. By releasing said downstream lid, it is possible to inspect and easily clean or adjust the ejector mechanism in different positions inside the hose 11.

A second significant difference from the known solution is that the upstream end 11b of the drain hose 11 is not attached to, but easily releasably connected to, the lower bottom part 10b of the fish tank 10 at its drain opening 10d. The first-mentioned deviation is particularly advantageous in connection with the second deviation in order to be able to carry out easy assembly and disassembly of the drain hose 11 in relation to the fish tank 10.

In the embodiment shown in fig. 3-5, the bottom part 10b of the fishing rod 10, at least at its lower hose support part 10c, is equipped with a fine mesh groove, which preferably has a mesh size of 0.2-2.0 mm. In this way, fish excrement, fishing residues, dead fish, etc. is led along the bottom part 10b towards the drain opening 10d in the hose support part 10c, while ensuring efficient water flow through the hose support part 10c to prevent clogging of the mesh openings.

At the lower edge of the hose support part 10c, a combined vector gan and hose support member is attached, in the form of a tensile and dimensionally stable stiffening ring 21 of ropework with associated lead line incorporated in the same or in the form of a rigid metal ring of sea-resistant, i.e., acid-resistant material or in the form of a plastic ring, which encloses a suitable vector gan. The stiffening ring 21 is designed to widen the drain opening 10d in the hose support part 10c and at the same time ensure a suitable downward weight load against the bottom part 10b of the fish tank 10 to secure the hose support part 10c centrally in place at the bottom end of the fish tank 10.

In a first exemplary embodiment, as shown in particular in fig. 4, a lower stiffening ring 21 and an upper stiffening ring 21a are used. Furthermore, the drain hose 11 is equipped with a transition part known per se, i.e. a bearing head 11a, which corresponds to the shape of the transition part 11a' according to fig. 2. More specifically, the support head 1a is equipped with a funnel-shaped inner surface 22, which is designed to be largely flush with the funnel shape of the hose support part 10c and a corresponding funnel-shaped outer surface 23, which is designed to be surrounded by parts of the funnel shape of the hose support part 10c, including the stiffening rings 21, 21a. It is ensured that the lower part 23a of the outer surface 23 projects a little below the stiffening ring 21 which marks the lower opening of the fish mare 10, while an upper part 23b is enclosed by the hose support part 10c including an upper stiffening ring 21a. With the help of the stiffening rings 21, 21a (upper) inner part, a bearing is formed to support the drainage hose's bearing head 1a. With the help of the funnel-shaped outer surface 23 of the hose support part 10c and the corresponding funnel-shaped outer surface 23 of the drain hose 11, the bearing head 1a is arranged so that, during installation of the drain hose 11 in the fish mare 10, it is centered directly in place in the annular bearings of the hose support part 10c in the rings 21,21a. Correspondingly, the lower funnel-shaped part of the bearing head can be centered in relation to the bearing in the stiffening ring 21. To prevent wedging of the bearing head 1a in the bearing 21a, the bearing head 1a has a funnel shape with a funnel angle of approx. 50°, so that the bearing head 11a can be supported in a bearing at the inner, upper part of the stiffening rings 21,21a.

In a second embodiment, as shown in fig. 5, a carrier head 25 is shown with an inner guide surface 26 designed with a similar steep course as the guide surface 22 according to fig. 4. The bearing head 25 has an outer, upper guide surface part 27a and an outer, lower guide surface part 27b designed with a similar steep course as the guide surface 23 according to fig. 4, in order to be able to easily guide the support head 25 into place in a centered position in relation to the stiffening ring 21 or the hose support part 10c. The bearing head 25 is further equipped with an outer, central guiding surface part 27c with a somewhat steeper course than the guiding surface parts 27a and 27b, in order to be able to press the groove in the hose bearing part 10c radially outwards while simultaneously centering the bearing head 25 in place on the stiffening ring 21. Between the central guiding surface part 27c and the lower guide surface part 27b, a horizontal or largely horizontal support surface part 27d is designed, which is arranged to form support against an upwardly facing support surface or bed 28 on top of the stiffening ring 21.

The drain hose 11 is designed to be threaded from top to bottom in the fishpond 10 through its upper main part 10a, the bottom part 10b and associated hose support part 10c with stiffening ring 21 which delimits the opening 10d, as well as further upwards to the sea surface of the fishpond outer side, by means of a pull line not shown attached to the downstream lid of the drain hose 11. Hereby, the drain hose's 11 carrying head 1a and 25 respectively are arranged to be pulled correspondingly downwards in the fish pond 10 and to land on a bearing on the stiffening rings 21,21a and respectively on the stiffening ring in the fish pond's 10 hose support part 10c. This centering of the hose 11 carrying head lia can be controlled with the help of a hoist line 31. Consequently, immediately before the landing, the carrying head lia,25 can slide axially downwards in and thereby be centered in place in a support system on the stiffening rings 21,21a, at the same time that the carrying head lia,25 is centered in place in a specific support position on the associated rent. The support head 11 is then further secured in place on the stiffening ring 21 by transferring the weight load from the drain hose 11 and the support head 11 to the stiffening ring 21. Additional weight load is provided in the upstream end of the drain hose 11 by attaching lead plumb bobs or other suitable vectors in the hose 11 itself, as shown at 32 in fig. 4 (and 5) and/or in the carrier head (not shown).

The drain hose 11 is further arranged so that during use of the fish mare 10, i.e. possibly with larger or smaller quantities of dead fish trapped in the drain hose, to be able to be raised and lowered vertically in the fish mare, as indicated by solid and dashed lines in fig. 3, by means of the hoist line 31, one end 31a of which is attached to the drain hose 11's carrying head 11a,25 and whose opposite end 31b can be handled from the framework 12 on the opposite side of the fishing net 10 in relation to the drain hose's upstream lid. This gives you the opportunity to loosen clogged "plugs" of dead fish, fish remains, etc. and ensure further transport of the same to the emptying site. By lifting the transport hose vertically upwards and downwards in the fish pond in this way, you also have the option of simultaneously releasing grit, mussels and other more or less stuck-on coating to the outside via the space between the hose 11 and the enclosing lower opening in the bottom part of the fish pond.

In general, it is cheaper and easier to use drainage hoses with a moderate diameter, for example of a size of 152mm (6"), than drainage hoses with a larger diameter, for example of a size of 203mm (8"), and for most purposes the former can be used dimension. According to the invention, however, the aim is to be able to change the dimension of the drain hose as required according to the invention, even when the fish mare is in use at sea.

This is made possible by using a stiffening ring 21 with a diameter of about 253mm (10").

In order to be able to remove dead fish weighing 3-4 kg, it is common to use drainage hoses with a diameter of, for example, 152mm (6"), but in cases where

if it is relevant to remove larger fish with a weight size of, for example, 6-8 kg, it may be desirable to use a drain hose with a larger diameter, for example 203mm (8"). By alternately raising and lowering the carrying head lia,25 using the hoist line 31 and the vector channels in the drain hose 11,

in relation to the stiffening ring 21, as indicated in fig. 3 with dashed lines and solid lines respectively

lines, you can correspondingly change the U-shaped course of the drain hose 11 and thereby loosen any blockage

inside the drain hose.

Alternatively or in addition, after releasing the downstream end of the drain hose 11 from the coupling member 18, by slackening the pull line not shown, the U-shaped course of the drain hose 11 can be further changed by alternately pulling and slacking said pull line. According to the invention, it is relatively easy to replace the drain hose 11 with the help of the mentioned hoisting line 31 and the said pulling line, by alternately pulling and slacking in the hoisting line 31 or the pulling line via the intermediate drain hose 11.

With the above-mentioned arrangement, one has an opportunity in a crisis situation to be able to use the suction hose for the supply of relatively fresh seawater from greater sea depths directly to the interior of the fishpond at its bottom. On this occasion, the aim is to free the end of the hose 11 from the coupling member 18 and four downwards into the sea the freed end at the same time as four corresponding downwards into the sea the compressed air hose 15. With the help of the compressed air supply from the hose 15 to the hose 11, one can firstly, supply oxygen-rich air to the bottom of the fish mare at the same time as fresh seawater can be sucked upwards through the hose 11 to the inside of the fish mare with an ejector effect. Optionally, an ejector-forming nozzle can be adjusted inside the hose 11 by means of a suitable turning device, not shown in more detail. By using a hose 11 which can be pulled upwards into the fish pond, as indicated above, the supplied compressed air and accompanying fresh seawater can be emptied at an optional, suitable level above the bottom part of the fish pond.

Claims (7)

1. Fishing net (10) comprising a hose support part (10c) with a downwardly directed drain opening (10d), which is arranged to communicate with a drain hose (11) upstream (at the lia), while suitable transport devices, such as an ejector mechanism (14, 15), is designed to suck material that has accumulated at the hose support part (10c) of the fish maw (10) into the drain hose (11) and deliver the material at the downstream end (lid) of the drain hose (11) to a suitable emptying place, characterized by that the drain hose (11) is designed to, with the help of a hoist line (31), be lifted and lowered vertically in the fish pond (10), in relation to the hose support part (10c), since the upstream end (lia) of the drain hose (11) is equipped with a radially extended support head (lia,25), which in the drain hose (11)'s position of use rests against a corresponding bearing (at 21,21a; 28) in the hose support part (10c), while vector jaws (32), which are arranged in or at the head part (lia,25) of the drain hose (11), are designed to pull the support head (lia,25) to the support system against said bearing (at 21,21a; 28). 2. Fishing mare in accordance with claim 1, characterized by that the bearing (at 21,21a; 28) at the discharge opening (10d) in the hose support part (10c) is included in one or a pair of stiffening ring(s) (21,21a; 21), which have a tensile stable ring shape for limited expansion of the discharge opening in a corresponding ring shape, and that the bearing head (lia,25), which in a manner known per se has a funnel-shaped, inner guiding surface (22,26) to communicate with and flush with the lower funnel-shaped snake bearing part (10c) of the fish mare (10), at least below the bearing ( at 21,21a; 28) has a corresponding funnel-shaped outer guide surface (23;27a-27d) to guide the bearing head (lia,25) in place in relation to the annular bearing (at 21, 21a, 28) . 3. Fishing mare in accordance with claim 2, characterized by that the bearing head (lia), which in a manner known per se has a funnel-shaped, outer guiding surface (23) in the entire height of the bearing head (lia), in the use position of the drain hose (11) has a lower part (23a) of the outer guiding surface (23 ) projecting below the drain opening (10d) and an upper part (23b) of the guide surface (23) projecting above the drain opening (10d). 4. Fishing mare in accordance with claim 2, characterized by that the bearing head (25) between a lower, outer funnel-shaped guide surface part (27b) and a middle, outer funnel-shaped guide surface part (27c) has a bearing surface-forming, horizontal or substantially horizontal surface part (27d), which is arranged to rest against an upwardly facing bed (28) on an adjacent stiffening ring (21). 5. Fishing mare in accordance with one of the requirements 1-4, characterized by that the drain hose (11) at a suitable distance from its normal downstream end (lid) is equipped with a compressed air intake to form an ejector in the interior of the hose (11), and that the ejector is designed to be used for transporting seawater using compressed air in opposite directions through the hose (11). 6. Fishing mare in accordance with claim 5, characterized by that the normal downstream end (lid) of the drain hose (11) is easily releasably connected via a quick coupling to a coupling device or container (18) for the reception and further conveyance of transported seawater and entrained material, and that' the normal downstream end (lid) of the drain hose (11) is designed to intermittently, i.e. under certain conditions, be able to be released from the coupling device or the container (18) and submerged to a suitable level below the sea surface, as well as forming the upstream end of the hose (11). 7. Fishing mare in accordance with claim 6, characterized by that the coupling device or container (18) between an intake from the drain hose (11) and an outlet, for example to a further drain hose (19), is equipped with a grate to delimit an upper collection chamber for the accumulation and visual exposure of dead fish etc. and a lower emptying chamber for transport water and entrained particles and fines.