CN111436405A - Hook spring injection type anesthesia fishhook - Google Patents

Abstract

The invention relates to a bent spring injection type anesthesia fishhook, and belongs to the field of fishery. The injection tube is a metal tube, the middle part of the injection tube is coiled into a spring shape, the lower part of the injection tube is bent downwards and then bent into a fishhook shape, the upper part of the injection tube is bent upwards and then bent back, an air cylinder is arranged in the spring part of the injection tube, the lower end of the air cylinder is blocked, the upper end of the air cylinder is open, the outer diameter of the air cylinder is matched with the inner diameter of the spring part of the injection tube to form a sleeve structure, a piston is matched in the air cylinder, and the piston is. The injection mode is adopted to anaesthetize the fish, the effect is fast, the use can be carried out for many times, the anaesthesia medicament can not lose efficacy, the structure is simple, the processing is convenient, and the device is very suitable for popularization.

Description

Hook spring injection type anesthesia fishhook

Technical Field

The invention relates to a bent spring injection type anesthesia fishhook, and belongs to the field of fishery.

Background

Fishing belongs to outdoor sports, aims at fishing fishes from water by fishing gear, and innumerable fishing enthusiasts enjoy the activities, namely, the enthusiasm for nature, the enthusiasm for life, the trend towards the river side and the lakeside, the enjoyment of the fun of the living outdoor life and the pleasure of the lake mountain color. In the fishing process, if a big fish or a fish with very violent activity is fished, the strength of the fish is very large, a fishing line or a fishing rod is often broken, the success is reduced by one step to two, and a fishing tackle is lost. The method commonly used at present is to fish the fish after the physical strength of the fish is exhausted, but the method also consumes a great deal of physical strength of a fisherman, and risks falling into water if the fisherman carelessly falls into the water. The existing fishhooks with anesthetic action exist, but the fishhooks are redesigned in structure, extremely complex in structure, difficult to process, extremely high in cost, slow in anesthetic action, and the biggest problem is that the fishhooks are disposable and have too much economic burden for fishermen. The existing anesthesia fishhooks are usually coated with medicament, while the anesthesia medicament is usually easily dissolved in water, and the anesthesia can be disabled after being underwater for a long time. If a water-proof coating is coated on the surface of the medicament, although the medicament is not easy to dissolve in water, the anesthetic cannot be quickly diffused into the fish body when the fish bites the hook, and the anesthetic cannot play a role in anesthesia.

Disclosure of Invention

According to the defects in the prior art, the technical problems to be solved by the invention are as follows: the hook has the advantages that the hook is used for anaesthetizing fishes in an injection mode, the effect is fast, the hook can be used for multiple times, anesthetic cannot lose efficacy, the structure is simple, the hook is convenient to process, and the hook is very suitable for popularization.

The invention relates to a bent spring injection type anesthesia fishhook, which comprises an injection tube, wherein the injection tube is a metal tube, the middle part of the injection tube is coiled into a spring shape, the lower part of the injection tube is bent downwards and then bent into a fishhook shape, the upper part of the injection tube is bent upwards and then bent backwards, an air cylinder is arranged in the spring part of the injection tube, the lower end of the air cylinder is blocked and the upper end of the air cylinder is opened, the outer diameter of the air cylinder is matched with the inner diameter of the spring part of the injection tube to form a sleeve structure, a piston is matched in the air cylinder and is made of rubber, a guide cylinder is fixed on the piston and is matched in the air cylinder, a through hole is axially arranged in the guide cylinder, the bent end of the upper part of the injection tube is hermetically fixed in the through hole, a small hole is arranged on the piston, a first one-way valve is communicated with the through hole, the air inlet direction of the first one, the upper end of the inflator is connected with a fishing line through a tensioning line, and oil liquid and anesthetic liquid are arranged at intervals in multiple sections of the injection tube.

The working principle and the process are as follows:

when the fishing device works, a fisherman throws the fishing device into water to wait for the fish to bite the hook. After the fish bites the hook, the fish hook part at the lower part of the injection tube can be pulled forcibly, the inflator is tensioned by the tensioning line, the injection tube integrally moves downwards, the piston is pressed down by the return bend part at the upper part of the injection tube, the gas in the inflator is pressed into the injection tube, and then the anesthetic liquid medicine is injected into the fish body to anesthetize the fish. Because the amount of the liquid medicine is much larger than that of the liquid medicine applied and the liquid medicine is directly injected, the liquid medicine can quickly play a role, and the fish is quickly anesthetized and does not struggle any more, so that the fisherman can easily pull up and capture the fish. The guide cylinder plays a role in guiding and stabilizing, so that air leakage of the piston caused by clearance generated by the deviation of the injection tube is avoided, and the injection tube can be prevented from being bent. The outer diameter of the inflator is matched with the inner diameter of the spring part of the injection tube, so that the spring part of the injection tube plays a role in guiding and performs coaxial translation action, the injection tube can be guaranteed to move stably, the injection tube is prevented from deforming due to uneven stress, and meanwhile, the back bending part of the injection tube can be guaranteed to perform stable axial movement, so that deformation and air leakage are avoided. The fish is taken down after being fished, then the injection tube is lifted upwards, air enters the air cylinder from the second one-way valve, and due to the action of the first one-way valve, the liquid medicine in the injection tube cannot be sucked into the air cylinder, and meanwhile, the injection end of the injection tube is ensured to be always provided with anesthetic liquid medicine. Because the multistage interval is equipped with fluid and anesthetic liquid medicine in the syringe, even if anesthetic liquid medicine exposes in aqueous and is dissolved in the syringe front end, but meet fluid and will be blockked, the anesthetic liquid medicine of fluid rear end can not contact with water. Due to the action of surface tension, the oil liquid and the anesthetic liquid can not shift and mix in the moving process. The middle part of the injection tube is coiled into a spring shape, so that a plurality of sections of liquid medicine can be stored as far as possible, the whole volume of the injection tube can be reduced as far as possible, and the influence on fish biting caused by overlarge volume is avoided. The oil only plays a role in sealing and isolating, and the oil section can be very short and is within a few millimeters.

The upper part of the inner wall of the air cylinder is provided with threads, the upper part of the air cylinder is matched with a limit solenoid, the injection tube penetrates through the solenoid, and the solenoid limits the upward movement of the guide cylinder. The amount of anesthetic liquid required by fish of different sizes is different, so that the amount of anesthetic liquid in each section of the injection tube is different. The distance between the piston and the bottom of the air cylinder can be adjusted by adjusting the relative position of the solenoid and the air cylinder, so that the air quantity pressed into the injection tube is adjusted, and the injection quantity of the anesthetic liquid medicine is also adjusted.

The connecting part of the fishing line and the tensioning line and the return part of the upper part of the injection tube are both connected with a thin rope, the end parts of the thin rope are both fixed with magnets, the two magnets are attracted together, and when the two magnets are in the attraction state, the tensioning line is in a bending and relaxing state. The fishing rod is usually provided with a throwing hook action during fishing, the injection tube can move under the action of centrifugal force during the throwing hook, and the piston can compress air to extrude anesthetic liquid medicine, so that waste is caused. The syringe and the air cylinder are prevented from moving relatively through the attraction of the magnets, and the centrifugal force is not enough to separate the two magnets. When the fish bites the hook, the struggle of fish initial stage can pull open two magnet, and the taut line is taut this moment, normally injects work.

The two tensioning lines are symmetrically fixed at the upper end of the inflator at the lower ends, and are equal in length. Thus, the fishing line and the inflator can be ensured to be coaxial when being tensioned, and the deformation of the injection tube caused by the deflection of the fishing line is avoided.

The spring part of the injection tube is closely contacted, and the contact position is fixed by using glue. The syringe is made of metal, the spring part of the syringe is easy to stretch and is not easy to recover after stretching, and the inner ring of the spring part of the syringe is changed after stretching, so that the air cylinder cannot move normally. Thus, the spring part is fixed in an adhesion way, and the stretching deformation of the spring part is avoided.

Food-grade dye is mixed in the oil liquid, so that the oil liquid has color. The anesthetic liquid medicine at the injection end of the injection tube is dissolved by water, and no liquid medicine exists in the section, so that the injection amount is insufficient. When the injection tube is used, the injection tube can be pushed manually to push the liquid in the injection tube outwards, so that the oil liquid is just positioned at the injection end of the injection tube, and the injection end can be prevented from having a vacant space, and the oil liquid can be observed conveniently due to the color.

Compared with the prior art, the invention has the beneficial effects that:

according to the hook, the amount of the liquid medicine is much larger than that of the liquid medicine applied, and the liquid medicine is directly injected, so that the liquid medicine can quickly play a role, and the fish is quickly anesthetized and does not struggle, so that a fisher can easily pull up and capture the fish. The guide cylinder plays a role in guiding and stabilizing, so that air leakage of the piston caused by clearance generated by the deviation of the injection tube is avoided, and the injection tube can be prevented from being bent. The outer diameter of the inflator is matched with the inner diameter of the spring part of the injection tube, so that the spring part of the injection tube plays a role in guiding and performs coaxial translation action, the injection tube can be guaranteed to move stably, the injection tube is prevented from deforming due to uneven stress, and meanwhile, the back bending part of the injection tube can be guaranteed to perform stable axial movement, so that deformation and air leakage are avoided. The fish is taken down after being fished, then the injection tube is lifted upwards, air enters the air cylinder from the second one-way valve, and due to the action of the first one-way valve, the liquid medicine in the injection tube cannot be sucked into the air cylinder, and meanwhile, the injection end of the injection tube is ensured to be always provided with anesthetic liquid medicine. Because the multistage interval is equipped with fluid and anesthetic liquid medicine in the syringe, even if anesthetic liquid medicine exposes in aqueous and is dissolved in the syringe front end, but meet fluid and will be blockked, the anesthetic liquid medicine of fluid rear end can not contact with water. Due to the action of surface tension, the oil liquid and the anesthetic liquid can not shift and mix in the moving process. The middle part of the injection tube is coiled into a spring shape, so that a plurality of sections of liquid medicine can be stored as far as possible, the whole volume of the injection tube can be reduced as far as possible, and the influence on fish biting caused by overlarge volume is avoided. The oil only plays a role in sealing and isolating, and the oil section can be very short and is within a few millimeters. The injection mode is adopted to anaesthetize the fish, the effect is fast, the use can be carried out for many times, the anaesthesia medicament can not lose efficacy, the structure is simple, the processing is convenient, and the device is very suitable for popularization.

Drawings

Fig. 1 is a schematic view of an embodiment of the present invention.

In the figure: 1. fishing line; 2. a string; 3. tensioning the wire; 4. a magnet; 5. an injection tube; 6. an air cylinder; 7. a guide cylinder; 8. a through hole; 9. a first check valve; 10. a piston; 11. a small hole; 12. a second one-way valve; 13. a solenoid; 14. oil liquid; 15. anesthetic liquid medicine.

Detailed Description

Embodiments of the invention are further described below with reference to the accompanying drawings:

as shown in figure 1, the hook comprises an injection tube 5, the injection tube 5 is a metal tube, the middle part of the injection tube 5 is coiled into a spring shape, the lower part of the injection tube 5 is bent downwards and then bent into a fishhook shape, the upper part of the injection tube is bent upwards and then bent back, an air cylinder 6 is arranged in the spring part of the injection tube 5, the lower end of the air cylinder 6 is sealed, the upper end of the air cylinder 6 is open, the outer diameter of the air cylinder 6 is matched with the inner diameter of the spring part of the injection tube 5 to form a sleeve structure, a piston 10 is matched in the air cylinder 6, the piston 10 is made of rubber, a guide cylinder 7 is fixed on the piston 10, the guide cylinder 7 is matched in the air cylinder 6, a through hole 8 is axially arranged in the guide cylinder 7, the bent back end of the upper part of the injection tube 5 is sealed and fixed in the through hole 8, a small hole 11 is arranged in the small hole 11, a first one-way valve 9, the bottom of the air cylinder 6 is provided with a second one-way valve 12, the air inlet direction of the second one-way valve 12 is from outside to inside, the upper end of the air cylinder 6 is connected with the fishing line 1 through a tensioning line 3, and a plurality of sections of oil liquid 14 and anesthetic liquid 15 are arranged in the injection tube 5 at intervals.

The working principle and the process are as follows:

when the fishing device works, a fisherman throws the fishing device into water to wait for the fish to bite the hook. After the fish bites the hook, the fish hook part at the lower part of the injection tube 5 is dragged with force, the air cylinder 6 is tensioned by the tensioning wire 3, the injection tube 5 moves downwards integrally, the piston 10 is pressed down by the return bend part at the upper part of the injection tube 5, the air in the air cylinder 6 is pressed into the injection tube 5, and then the anesthetic liquid medicine 15 is injected into the fish body to anesthetize the fish. Because the amount of the liquid medicine is much larger than that of the liquid medicine applied and the liquid medicine is directly injected, the liquid medicine can quickly play a role, and the fish is quickly anesthetized and does not struggle any more, so that the fisherman can easily pull up and capture the fish. The guide cylinder 7 plays a role in guiding and stabilizing, so that air leakage of the piston 10 caused by clearance generated by the deviation of the injection tube 5 is avoided, and the injection tube 5 can be prevented from being bent. The outer diameter of the inflator 6 is matched with the inner diameter of the spring part of the injection tube 5, so that the spring part of the injection tube 5 plays a role in guiding and performs coaxial translation action, the injection tube 5 can be ensured to stably move, the injection tube 5 is prevented from deforming due to uneven stress, and meanwhile, the return bending part of the injection tube 5 can be ensured to stably move axially, so that deformation and air leakage are avoided. The fish is taken down after the fish is fished, then the injection tube 5 is lifted upwards, air enters the air cylinder 6 from the second one-way valve 12, the liquid medicine in the injection tube 5 cannot be sucked into the air cylinder 6 due to the action of the first one-way valve 9, and meanwhile, the anesthetic liquid medicine 15 is always kept at the injection end of the injection tube 5. Since the oil liquid 14 and the anesthetic liquid 15 are provided at intervals in the injection tube 5, even if the anesthetic liquid 15 is exposed to water and dissolved in the front end of the injection tube 5, the oil liquid 14 is blocked, and the anesthetic liquid 15 at the rear end of the oil liquid 14 does not contact with water. Due to the surface tension, the oil 14 and the anesthetic liquid 15 are not displaced and mixed during the movement. The middle part of the injection tube 5 is coiled into a spring shape, so that a plurality of sections of liquid medicine can be stored as much as possible, the whole volume of the injection tube can be reduced as much as possible, and the phenomenon that the fish bite is influenced due to overlarge volume is avoided. The oil 14 only acts as a seal and insulation, and the oil 14 segment can be very short, between a few millimeters.

The upper part of the inner wall of the air cylinder 6 is provided with threads, the upper part of the air cylinder 6 is matched with a limit screw pipe 13, the injection pipe 5 penetrates through the screw pipe 13, and the screw pipe 13 limits the upward movement of the guide cylinder 7. The amount of anesthetic liquid 15 required for fish of different sizes is different, and thus the amount of anesthetic liquid 15 in each section of the injection tube 5 is different. The distance between the piston 10 and the bottom of the cylinder 6 can be adjusted by adjusting the relative position of the solenoid 13 and the cylinder 6, and the amount of air pressed into the syringe 5, and thus the injection amount of the anesthetic liquid 15, can be adjusted.

The connecting part of the fishing line 1 and the tensioning line 3 and the return part of the upper part of the injection tube 5 are both connected with the thin rope 2, the end part of the thin rope 2 is fixed with the magnet 4, the two magnets 4 are attracted together, and when the two magnets 4 are in the attraction state, the tensioning line 3 is in the bending relaxation state. During fishing, the injection tube 5 is moved due to centrifugal force, and the piston 10 compresses air to extrude the anesthetic liquid 15, thereby causing waste. The syringe 5 is prevented from moving relative to the cylinder 6 by the attraction of the magnets 4, the centrifugal force being insufficient to separate the two magnets 4. When the fish bites the hook, the two magnets 4 can be pulled open by struggle in the initial stage of the fish, and the tightening wire 3 is tightened at the moment, so that the injection work is normally carried out.

The two tensioning lines 3 are symmetrically fixed at the upper end of the air cylinder 6 at the lower ends, and the two tensioning lines 3 are equal in length. This ensures that the fish line 1 is coaxial with the barrel 6 when tensioned, avoiding distortion of the syringe 5 by skewing.

The spring portion of the syringe 5 is in close contact, and the contact position is fixed by adhesion using glue. The syringe 5 is made of metal, and the spring portion thereof is easily stretched and is not easily restored after stretching, and the inner circumference of the spring portion thereof is changed after stretching, so that the cylinder 6 cannot be normally moved. Thus, the spring part is fixed in an adhesion way, and the stretching deformation of the spring part is avoided.

Food grade dyes are incorporated into the oil 14 to impart color to the oil 14. The anesthetic liquid medicine 15 at the injection end of the injection tube 5 is dissolved by water, and the liquid medicine is not available at the section, so that the injection amount is insufficient. When the injection tube is used, the injection tube 5 can be pushed manually to push the liquid in the injection tube 5 outwards, so that the oil liquid 14 is just positioned at the injection end of the injection tube 5, the empty space at the injection end can be avoided, and the oil liquid 14 with colors can be observed conveniently.

These and other changes can be made to the present apparatus with reference to the above detailed description. While the above detailed description describes certain embodiments of the invention and describes the best mode contemplated, no matter how detailed the above appears in text, the system can be practiced in many ways. The details of the local-based support device, although considerable variation in its implementation details is possible, are nevertheless contained within the device disclosed herein. As noted above, particular technical terms used in describing particular features or aspects of the present apparatus do not imply that the terms are redefined herein to be restricted to specific characteristics, features, or aspects of the system with which the terms are associated. In general, the terms used in the following claims should not be construed to limit the system to the specific embodiments disclosed in the specification, unless the above detailed description section explicitly defines such terms. Accordingly, the actual scope of the system encompasses not only the disclosed embodiments, but also all equivalent ways of practicing or implementing the apparatus covered by the claims.

Claims (6)

1. The utility model provides a hook is anaesthetized to curved spring injection formula which characterized in that: comprises an injection tube (5), the injection tube (5) is a metal tube, the middle part of the injection tube (5) is coiled into a spring shape, the lower part of the injection tube is bent downwards and then bent into a fishhook shape, the upper part of the injection tube is bent upwards and then bent backwards, an air cylinder (6) is arranged in the spring part of the injection tube (5), the lower end of the air cylinder (6) is blocked, the upper end of the air cylinder (6) is open, the outer diameter of the air cylinder (6) is matched with the inner diameter of the spring part of the injection tube (5) to form a sleeve structure, a piston (10) is matched in the air cylinder (6), the piston (10) is made of rubber material, a guide cylinder (7) is fixed on the piston (10), the guide cylinder (7) is matched in the air cylinder (6), a through hole (8) is axially arranged in the guide cylinder (7), the upper part of the injection tube (5) is sealed and fixed in the through hole, the first check valve (9) is communicated with the through hole (8), the air inlet direction of the first check valve (9) is from bottom to top, the bottom of the air cylinder (6) is provided with the second check valve (12), the air inlet direction of the second check valve (12) is from outside to inside, the upper end of the air cylinder (6) is connected with the fishing line (1) through the tensioning line (3), and a plurality of sections of oil (14) and anesthetic liquid medicine (15) are arranged in the injection tube (5) at intervals.

2. The hook according to claim 1, wherein: the upper part of the inner wall of the air cylinder (6) is provided with threads, the upper part of the air cylinder (6) is matched with a limit screw tube (13), the injection tube (5) penetrates through the screw tube (13), and the screw tube (13) limits the upward movement of the guide cylinder (7).

3. The hook according to claim 1, wherein: the connecting part of the fishing line (1) and the tensioning line (3) and the return bend part of the upper part of the injection tube (5) are both connected with the thin rope (2), the end part of the thin rope (2) is fixed with the magnet (4), the two magnets (4) are attracted together, and when the two magnets (4) are in the attraction state, the tensioning line (3) is in the bending and relaxing state.

4. The hook according to claim 1, wherein: the two tension lines (3) are symmetrically fixed at the upper end of the air cylinder (6) at the lower ends, and the two tension lines (3) are equal in length. This ensures that the fish line (1) is coaxial with the gas cylinder (6) when tensioned, avoiding distortion of the injection tube (5) caused by deflection thereof.

5. The hook according to claim 1, wherein: the spring part of the injection tube (5) is closely contacted, and the contact position is fixed by using glue.

6. The hook according to claim 1, wherein: food-grade dye is mixed in the oil liquid (14) so that the oil liquid (14) has color.

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