BE1023539B1 - Parts for carp fishing - Google Patents

Abstract

This invention relates to the use of one or more polyhydroxy alkanoates corresponding to formula (1): H (OCHRCH 2 CO) nOH Formula (1) wherein R is hydrogen, or wherein R is an alkyl group which may be branched or unbranched, saturated are or may contain unsaturated bonds, which may or may not be substituted, or wherein R is an aryl group that may or may not be substituted, or wherein R is a mixture of two or more of the above-described compounds to prepare a underwater part for a fishing line chosen from the group of helicopter rigs, boltrig systems, tail rubber, rig tube, shrink tube, back lead clip and locking tube, lign aliner, lead insert, lures, knot protector, anti tangle sleeve, safety sleeve and run ring , rubber beads, heli / chod sleeve, mini buffer sleeve and boilie stop.

Description

Parts for carp fishing.

This invention relates to an underwater part for a fishing line to be used in static fishing, according to the preamble of the first claim.

Fishing has always enjoyed great popularity as a sport. The arsenal of objects used in fishing has increased sharply over time and includes a stick, a line, a lead, lures, bait, and the like. Natural bait, such as worms, has the disadvantage that it is difficult to store. This explains, among other things, the increasing popularity of artificial lures that are tailored to the fish species that the fisherman wants to catch, because their use substantially increases the chance of success.

For non-static fishing, where the fishing line is constantly being moved in and out of the water, bait-like means are used, such as worms, salmon eggs, mealworms or the like, made in biodegradable plastic. Because these end up in the gastrointestinal tract of the fish, they are currently mostly made in a plastic which, under the action of enzymes and microorganisms present in the gastrointestinal tract of the fish, is digested. The use of plastic that is biodegradable in water prevents the waste from building up on the bottom of the pond. Plastics suitable for producing attractants for non-static fishing include compositions containing 1-24 wt. % of branched and linear polyhydroxy polymers with a molecular weight of no more than 195,000 and a degree of polymerization of at least 2000, for example polyvinyl alcohol or Konjac with polyvinylpyrrolidone as binder, polylactic acid or polybutene succinate with methylene chloride, starch and other saccharides, proteins, for example gelatin, whey, casein, gluten, soy proteins or water-soluble gums. Various additives can be added to these plastics, including flavorings, vitamins, foodstuffs, fish oil, crushed mussels and the like. CN1015254080 discloses an artificial bait for non-static fishing, which is continuously thrown into and removed from the water, which is made from a matrix of a biodegradable plastic selected from the group of polyhydroxyalkanoates, both homopolymers and copolymers and blends thereof, which furthermore also polycaprolactone, polytbutylene succinate or propylene carbonate and a petroleum-based elastomer. In making the artificial bait, an amount of a natural bait is also added, such as, for example, fish oil, honey, wine, fish meal, shrimp flour, citric acid, etc. JP2003-009737 describes a fishing line for non-static fish made from a biodegradable resin, for example an aliphatic polyester, or a biodegradable cellulose ester, to which at least 5% of a polyhydroxy alkanoate (PHA) mixture is added.

It is an object of the present invention to provide underwater parts intended for use with a static fishing line, more particularly parts suitable for use in carp fishing. It is an object of the present invention to provide underwater parts intended for use with a fishing line, wherein these parts are made from a material that makes it possible to increase the pollution of the water in which the fish is caught by possibly remaining plastic residues.

This invention therefore relates to underwater components intended for use with a static fishing line that do not further increase the risk of contamination of the water in which the fish is caught.

The underwater part of this invention is characterized in that it is made from a polymeric material that contains one or more polyhydroxyalkanoates.

In the context of this patent application, underwater parts means the parts of a fishing line that remain under water during fishing. Parts that remain under water during fishing include the lead clip, this is a clip that makes it easier to release the lead from the fishing line, so that the carp does not drag a piece of lead behind him unnecessarily long when he is on the fishing hook of a fishing line. Other parts that remain under water are the helicopter rigs, bolt-pull systems, tail rubber, rig tube, shrink tube, back lead clip and locking tube, lign aliner, lead insert, lures, knot protector, anti-tangle sleeve, safety sleeve and run ring, rubber beads, heli / chod sleeve, mini buffer sleeve and boilie stop and other parts known to those skilled in the art.

In the context of this invention, polyhydroxyalkanoates are understood to mean polyhydroxy fatty acids or linear polyesters which correspond to the chemical formula:

formula 1

In formula (1) above, R is H or an alkyl group, which may be saturated or may contain one or more unsaturated bonds, which may be a cyclic alkyl group, wherein R may be unsubstituted or substituted, or an aryl group which may or may not be can be substituted.

Polyhydroxyalkanoates (also known as PHAs) are known to those skilled in the art, and are mainly produced by microorganisms, both gram positive and gram negative microorganisms, through fermentation of sugars or lipids. By controlling the nature of the feed, the nature of the polyhydroxyalkanoate can be controlled. An important advantage of PHAs is that these compounds are both produced by microorganisms and broken down in most environments.

The nutrients for the microorganisms that produce the PHAs can be drawn from waste streams, such as waste water (sludge) from sewage treatment plants and / or industrial waste water from the paper industry, heterogeneous biomass streams such as compost, exudate from beet leaves, manure.

In formula 1 above, R can be hydrogen or an alkyl group, with a branched or unbranched carbon chain, which can be saturated or contain unsaturated bonds. For example, R is a branched or unbranched alkyl group of 1-27 carbon atoms, preferably 5-21 carbon atoms, more preferably 13-21 carbon atoms or 5-11 carbon atoms. The hydrocarbon chain of the alkyl group can be saturated or contain 1 or more unsaturated compounds. Examples of R groups suitable for use in this invention are CH 3, C 2 H 5.

Polyhydroxyalkanoates from microorganisms will usually be a mixture of compounds with different R groups in consecutive (-O-CHR-CH2-CO-) units. In particular, fatty acids from natural mixtures are usually a mixture of two or more fatty acids, the concentration of the individual fatty acids varying, inter alia, with the extent to which the fatty acid has been subjected to fractionation. However, this invention is not limited to fatty acids from natural fats, and also includes polyhydroxyalkanoates containing other carboxylic acids.

In formula 1 above, R may contain an alkyl group R 1 which is provided with one or more substituents. Examples of suitable substituents are a C6 or a C5 ring, which is aromatic or contains only saturated compounds or one or more unsaturated compounds as shown in formula 2, 3 and 4 below. The C5 or C6 ring may or may not be provided with a substituent R2, R3 or R4. In the formula 2, 3, 4 below, R2, R3 or R4 can be H or an alkyl group with 1-10 carbon atoms.

Formula 2 Formula 3

Formula 4

In formula 1, n can vary within wide limits. The polyhydroxyalkanoates preferably used in this invention have a number average molecular weight of at least 2500, preferably at least 5000, more preferably at least 10000, and of at most 2,500,000, preferably at most 1,000. 000, more preferably at most 500,000, most preferably at most 250,000.

Static fishing differs from non-static or dynamic fishing in that in static fishing the fishing line with the underwater parts stays underwater for a long time and is propelled underwater, usually through the bottom of the fish pond, river or lake or the like. It can therefore take some time before the fish bites, meaning that it can take a few hours to a few days or weeks before a fish is caught. This has the consequence that the fishing line and the underwater parts connected to the fishing line remain submerged during this time. If it is intended to use biodegradable polymers to manufacture the part of the fishing line that remains under water during fishing, it is important to have a material that has a sufficiently slow biodegradability so that, if necessary, one month or more can remain under water longer without the quality of the material being adversely affected or at least being substantially adversely affected. This sufficiently slow biodegradability is also necessary in the muddy bottom of a water, where there are a large amount of microorganisms that can promote and accelerate biodegradation. On the other hand, it is necessary for the material to have a sufficiently rapid biodegradability, so that it does not remain in the fish if, by chance, a piece of the material has come loose from the fishing line and has caught on the fish or has been absorbed by the fish. able to choose the most suitable from the PHAs described above for the intended application and with the desired biodegradability and biodegradability rate. Adequate choice of the PHA allows the biodegradability, in particular the speed with which biodegradability occurs, to be controlled.

Since pHAs are biodegradable materials, those skilled in the art will generally not be inclined to use these materials for use in components intended to remain submerged for a long time in an environment rich in microorganisms. This is in contrast to non-static fishing where the fishing line is constantly being moved in and out of the water.

The polymeric material from which the underwater component is made will usually be at least 2.5 wt. % or at least 5 wt. % or at least 7.5 wt. % of one or more polyhydroxyalkanoates, preferably at least 10 wt. %, more preferably at least 15 wt. %, most preferably at least 20 wt. %, preferably at least 25 wt. %. The amount of polyhydroxyalkanoate will usually not exceed 90 wt. %, preferably not higher than 80 wt. %, more preferably not higher than 75 wt. %. By controlling the amount of polyhydroxyalkanoate, the biodegradability of the underwater component can be controlled, in particular the rate at which biodegradability continues as well as the extent to which the underwater component is degraded.

Depending on the chemical composition, polyhydroxyalkanoates can have a higher or lower brittleness. Depending on the intended application, it may therefore be advisable to manufacture the underwater part from a polymeric material containing a polyhydroxyalkanoate in a mixture with a smaller or larger amount of a thermoplastic plastic. Suitable thermoplastics are preferably biodegradable, and include, inter alia, thermoplastic from the group of polylactic acid, thermoplastic starch, thermoplastic lignin, polyvinyl alcohol, polycaprolaton or a mixture of two or more of the aforementioned materials.

The polymeric material from which the underwater component is made may further contain the usual additives, such as a UV stabilizer, an anti-blocking agent, a photolysis activator, a biodegradation promoter to control the biodegradability of the underwater component, fillers, colorants, plasticizers and the like. Suitable plasticizers are one or more substances selected from the group of plasticizers generally known to those skilled in the art, for example oxypropyl glycerin (or laprol), glycerol, glycerol triacetate, 4-nonylphenol, 4,40-dihydroxydiphenylmethane, acetyl tributyl citrate, salicylic ester, acetylsalicylic acid ester , soybean oil, epoxidized soybean oil, dibutyl phthalate, triethyl citrate, dioctyl phthalate, dioctyl sebacate, acetyl tributyl citrate, di-2-ethylhexyl phthalate, tri (ethylene glycol) bis (2-ethylhexanoate), triacetin, and vetalcohole or without glycerol fatty acids, polyethylene glycol (PEG), low molecular weight polyhydroxybutyrate.

The invention further relates to the use of an underwater part according to any one of the preceding claims in static fishing, in particular carp fishing.

Static fishing focuses on catching fish that are mainly in the bottom or near the bottom, while dynamic fishing mainly focuses on catching fish moving in the water and / or near the water surface. Typical examples of fish caught by static fishing are carp, bream, whitefish. Static fishing includes multiple disciplines. Every discipline uses underwater components typical of that discipline. With feeder fishing, for example, a feeder basket is placed at the end of the line, this is a basket with food for the fish, which is moved or dragged over the bottom during fishing. In the case of fixed pole fishing, a fishing rod is placed which remains in the same place for a longer period of time to catch the fish. In carp fishing, a fishing line with a bait is placed in the water, the line is lowered to the bottom and the line is moved over the bottom and with some patience it is waited for the carp to bite.

The invention also focuses on the use of one or more polyhydroxy alkanoates corresponding to formula (1):

Formula (1) wherein R is hydrogen, or wherein R is an alkyl group that may be branched or unbranched, may be saturated, may be a cyclic alkyl group, or may contain one or more unsaturated bonds, which may be unsubstituted or substituted, or wherein R is an aryl group which may be substituted or unsubstituted, or wherein R is a mixture of two or more of the compounds described above, for producing an underwater part for a fishing line selected from the group of helicopter rigs, boltrig systems, tail rubber , rig tube, shrink tube, back lead clip and locking tube, lign aliner, lead insert, lures, knot protector, anti tangle sleeve, safety sleeve and run ring, rubber beads, heli / chod sleeve, mini buffer sleeve and boilie stop.

The invention is further explained in the accompanying figures and the description thereof.

Figure 1 shows a fishing line provided with a lead clip 1, a tail rubber 2, a tig tube 3 and an anti-tangle sleeve 4.

Figure 2 shows a fishing line with a heli / chod sleeve, rubber beads and a shrink tube.

Figure 3 shows a running system.

The lower part of a fishing line shown in Figure 1, that is to say the part of the fishing line that is closest to the hook and is provided to remain underwater, contains a lead clip 1, this is a spherical system usually provided with swivel lobe 11. The cable gland 11 contains a protruding arm 12 over which a tail rubber 2, usually a tapered piece of rubber, is applied. At the bottom of the lead clip 1 a recess is provided for the swivel 11.

When analyzing the problems that occur with the lead clip 1 and tail rubber 2, the inventors have determined that the choice of materials for these components is extremely important for the following reasons. The material from which the lead of the lead clip 1 is made must make it possible for the lead to come loose from the lead clip with too little effort. For the tail rubber 2 it is necessary that it can be slid over the lead clip without too much resistance, and does not slip again immediately to prevent the lead from sliding out of the lead clip 1. The tail rubber 2 can be used to control how quickly the lead must be released from the lead clip 1 by sliding the rubber more or less over the lead clip 1. The notch for the swivel 5 must be able to offer a low resistance so that the lead system can optimally contribute to the proper hooking of the carp. It is important that lead clips 1 have a fixing capacity in which the notch for the swivel 5 offers the most resistance. This allows the lead to come loose in those situations that require it. Conventional lead clips 1 offer resistance because they close very tightly around a swivel 5. This builds up enough resistance to let the lead release before pulling the swivel out of the notch. The inventors have now determined that polyhydroxy alkanoates as described above meet these requirements.

A back lead clip 11 makes it possible to convert each lead into a back lead. A back lead usually contains a locking tube that is slid over the back lead clip to ensure that the lead is anchored in the back lead clip. A lead insert is used to slide into an inline lead so that the fishing line is not damaged by the sharp edges of the lead.

Letting go of the lead is necessary to prevent the fish from sticking to the fishing line and in particular in the event of a break in the fishing line with tens of meters of line swimming behind them, and to prevent situations where the line or leader might fix it. get stuck when a carp reaches an obstacle, the fish can no longer come loose without breaking the lips. The use of a lead clip makes it possible for the fish to remain at most with a line in its mouth after a line break. This is also the case when using a hit & run system. The function of the hit & run system is to prevent the fish from shaking their head, which mainly occurs when a fish has bitten into a fish hook and wants to get rid of it. This head shaking is undesirable since it can lead to injury to the fish, which is not intended since the fish is usually thrown back into the water.

A rig tube 3 as shown in figure 1 is slid over the last centimeters of the main fishing line 6 to protect the fishing line 6 against sharp objects on the bottom of the water, and to protect the fish during the drilling: the tube 3 prevents the fish from sanding against the fishing line, so that damage to the scales can be avoided. With a fishing line remaining in the water, it is important that the rig tube exhibits a sufficiently rapid biodegradability.

The anti-tangle sleeve 4 is slid over the last part of the bottom line, i.e. the part of the line on which the fishing hook hangs, to ensure that this part of the bottom line will not wind around the main line during the insertion. With a fishing line remaining in the water it is important that it shows a sufficiently rapid biodegradability.

A shrink tube 7 is used to slide over a portion of the hook so that the hook exhibits a sufficiently large rigidity and will more easily puncture the bottom lip of the fish as it sucks the bait. A line aligner has the same function as the shrink tube, but it already has a fixed shape when applied.

For example, a knot protector or rubber beads 8 are used to protect knots, or to ensure that a helicopter rig or chod rig remains positioned at the desired position on the main line. A safety sleeve 13 and run ring 10 are used to make a running system as shown in Figure 3.

A heli / Chod sleeve and mini buffer sleeve 9 are used in a helicopter assembly where it is pushed over the lead. As a result, this sleeve will act as a buffer and also prevent the bottom line from becoming entangled during insertion.

Boilie stoppers ensure that the bait does not slide off the hook.

Claims (12)

CONCLUSIONS. An underwater part for a fishing line to be used in static fishing, wherein the underwater part is made of a polymeric material, characterized in that this underwater part is made of a polymeric material containing one or more polyhydroxy alkanoates (PHA). An underwater component according to claim 1, wherein the one or more polyhydroxy alkanoates correspond to formula (1): a. Formula (1) wherein R is hydrogen, or wherein R is an alkyl group that may be branched or non-branched, may be saturated or may contain unsaturated bonds, which may be unsubstituted or substituted, or wherein R is an aryl group may be unsubstituted, or wherein R is a mixture of two or more of the compounds described above. An underwater component according to claim 2, wherein R is an alkyl group of 1-27 carbon atoms, preferably 5-21 carbon atoms, more preferably 13-21 carbon atoms, most preferably 5-11 carbon atoms. An underwater component according to claim 3, wherein R is a methyl or an ethyl group. An underwater component according to claim 2, wherein R is an alkyl group having a substituent selected from a C6 or C5 ring, which is aromatic or contains only saturated compounds or one or more unsaturated compounds, wherein the C5 or C6- ring may contain one or more substituents. An underwater component according to claim 5, wherein the C6 or C5 ring substituted with a functional group selected from the group of H or an alkyl group of 1-10 carbon atoms. An underwater part according to any one of the preceding claims, wherein the polyhydroxyalkanoate has a number average molecular weight of at least 2500, preferably at least 5000, more preferably at least 10000, and of at most 2,500,000, preferably at most 1,000,000, more preferably up to 500,000, most preferably up to 250,000. An underwater part according to claim one of the preceding claims, wherein the polymeric material is at least 5 wt. % polyhydroxyalkanoate, preferably at least 10 wt. %, more preferably at least 25 wt. %, most preferably at least 50 wt. %. An underwater part according to any one of the preceding claims, wherein the polymeric material further comprises an amount of a thermoplastic, preferably a biodegradable thermoplastic, in particular a thermoplastic selected from the group of polylactic acid, thermoplastic starch, thermoplastic lignin, polyvinyl alcohol, polycaprolactone or a mixture of two or more of the aforementioned materials. 10. An underwater part according to any one of the preceding claims selected from the group of helicopter rigs, boltrig systems, tail rubber, rig tube, shrink tube, back lead clip and locking tube, lign aliner, lead insert, lures, knot protector, anti tangle sleeve, safety sleeve and run ring, rubber beads, heli / chod sleeve, mini buffer sleeve and boilie stop. Use of an underwater part according to any one of the preceding claims in static fishing, in particular carp fishing. 12. Use of one or more polyhydroxy alkanoates corresponding to formula (1): a. Formula (1) wherein R is hydrogen, or wherein R is an alkyl group that may be branched or non-branched, may be saturated or may contain unsaturated bonds, which may be unsubstituted or substituted, or wherein R is an aryl group may be unsubstituted, or wherein R is a mixture of two or more of the compounds described above, for producing an underwater part for a fishing line selected from the group of helicopter rigs, boltrig systems, tail rubber, rig tube, shrink tube, back lead clip and locking tube, lign aliner, lead insert, lures, knot protector, anti tangle sleeve, safety sleeve and run ring, rubber beads, heli / chod sleeve, mini buffer sleeve and boilie stop.