CN107549132B - Fishing rod assembly with gas production and fish luring functions - Google Patents

Abstract

The invention discloses a fishing rod component with gas production and fish luring functions, which mainly comprises the following structures: reaction chamber, buffer chamber, store fragrant chamber, hollow fish tape and micropore atomizer etc. key component. By utilizing the principle that the specific substance can chemically react with water to generate oxygen, the oxygen continuously generated in the reaction cavity is diffused to the buffer cavity through the microporous filter membrane and then is conveyed to the fragrance storage cavity for storing the fragrant substances and the phagostimulant through the capillary tube. When the pressure in the system is increased to a certain degree, the attractant substances of the liquid or the aroma components volatilized by the solid essence and flavor can be pushed to be conveyed to the micropore atomizer through the hollow fish wire. The oxygen, the aroma components and the phagostimulant are atomized into small bubbles or small droplets by a plurality of small holes on the surface of the micropore atomizer, and the small bubbles or small droplets are dispersed into a fishing water area. The invention has the characteristics of convenient use and maintenance, wide universality and remarkable fish luring effect, and is suitable for leisure fishing of various fishes.

Description

Fishing rod assembly with gas production and fish luring functions

Technical Field

The invention belongs to the field of fishing articles, and particularly relates to a novel fishing rod assembly capable of generating and delivering oxygen and food calling substances to a fishing water area.

Background

Fishing is an ancient leisure and recreation activity, and along with the improvement of the living standard of Chinese people in recent years, the sport is becoming an amateur of more and more people. The existing fishing technology mainly depends on the flavor and aroma of the bait material, and the bait material is diffused in a water area for attracting fishes. Before fishing, the bait is prepared and the hook is used for fishing after the pit is dug. The technology has high requirements on the physical properties of the bait in water, and the bait is complicated to adjust by selecting a specific taste type flavor. The new hand is not easy to master, good fishing is difficult to obtain, and even the fishing returns from the empty hand, so that the fishing pleasure is reduced to a great extent. How to lure the fish to the fishing area and how to have good catch in the area with few fish becomes the key for popularizing the leisure sport.

In order to facilitate improved fish capture, improved methods and tools for fishing have been proposed. The invention patent with application publication No. CN 104335987A discloses a fishing tool for injecting anesthetic into a hooked fish mouth, but does not provide an effective fish luring method. The invention discloses an oxygen increasing fish luring device for fishing, which is an invention patent with the application publication number of CN 105638592A and adopts a method of an electric micro air pump to increase oxygen. On one hand, the method depends on a power supply and is not beneficial to long-term use in the field; on the other hand, only by means of an oxygen increasing method, the effect is limited; most importantly, the fishing rod is not installed on a fishing rod for use, and the pleasure of leisure fishing is lost. Patent application publication No. CN105766836A discloses a device for dragging a fish line by means of a motor, which attracts the fish purely by drawing the visual attention of the fish. The application publication No. CN 105660560A discloses a method for attracting fish to find food near an ejection device by using traditional bait, when an underwater sensor detects that a fish mouth reaches the inside of a positioning cover, the fish is ejected to the fish mouth and successfully fished; this device on the one hand structure is complicated, requires the degree of accuracy height, is difficult to promote, and on the other hand leans on the large-size foraging of fish to succeed completely, extremely relies on the effect of bait. The invention has patent ZL200810111619.4 and discloses a biological information fish luring device, which comprehensively utilizes the information of fresh water fish like a water area with sufficient oxygen, the fragrance of bait, water waves generated by the swinging of a fish tail simulation plate and the like to achieve the fish luring effect; unfortunately, it is difficult to combine the fishing rod with the fishing rod, and the biting rate of the fish is improved.

Disclosure of Invention

In order to solve the defects of the prior art, the invention provides a method which can continuously release oxygen and aroma-producing and flavor-producing substances to a water area for applying fishing without depending on the traditional bait. Based on this approach, a new fishing rod assembly was designed that could accomplish this function. In order to achieve the purpose, the invention adopts the following technical scheme: a novel fishing rod component utilizes the oxygen-seeking property of fish, the nature of favorite bubbles and specific fragrance type to attract the fish to find food near the hook, thereby improving the hook-feeding rate. The fishing rod component comprises a fragrance storage cavity for storing food calling substances, a cache cavity for storing oxygen and a reaction cavity for generating oxygen. The right end of the reaction cavity is welded with a double-way structure with external threads, and is connected with an internal thread of a porous nut with a silica gel sealing gasket inside in an occluded mode, and the right end of the reaction cavity can be freely opened and sealed with the outside. The other end of the reaction cavity is connected with the buffer cavity in a manner that the internal thread and the external thread are meshed, a microporous filter membrane made of high polymer materials is padded between the buffer cavity and the reaction cavity, the aperture of the microporous filter membrane is between 0.10 mu m and 0.5 mu m, the microporous filter membrane can intercept solid reactants and can enable gas and liquid to freely pass through the microporous filter membrane. The buffer cavity is connected with the incense storage cavity in an engaged mode through internal and external threads, and the middle of the buffer cavity is provided with a silica gel sealing gasket with proper thickness and size for isolation.

According to the technical scheme, in the fishing rod assembly, oxygen is generated in the reaction cavity by utilizing the principle that a specific substance can chemically react with water to generate oxygen, and the oxygen is diffused to the buffer cavity through the microporous filter membrane and then is conveyed to the fragrance storage cavity for storing the fragrant substances and the phagostimulant through the capillary tube. When the pressure in the system is increased to a certain degree, the attractant substances of the liquid or the aroma components volatilized by the solid essence and flavor can be pushed to be conveyed to the micropore atomizer through the hollow fish wire. The oxygen, the aroma components and the phagostimulant are atomized into small bubbles or small droplets by a plurality of small holes on the surface of the micropore atomizer, and the small bubbles or small droplets are dispersed into a fishing water area.

In the key assembly of the technical scheme, a hard capillary tube with proper length and inner diameter is pre-penetrated through a circular baffle plate with a small hole in the middle and is sealed on the circular baffle plate in a welding mode. And the circular baffle plate welded with the hard capillary is tightly welded inside a fragrance storage cavity which is 4-10 cm away from one end of the fragrance storage cavity connected with the fishing rod.

In the key assembly in the technical scheme, the air flow between the two adjacent cavities is communicated in a manner that the buffer cavity and the fragrance storage cavity are directly inserted into and penetrate through the silica gel pad through the capillary tube. 1 or more soft capillaries are arranged between the buffer cavity and the incense storage cavity. The end of the capillary extending into the buffer cavity can be straight, and can also be in any shape such as spiral shape, hook shape and the like. The soft capillary is preferably made of metal.

In the technical scheme, the hollow fishing line can be a hollow pipe made of nylon or polytetrafluoroethylene with the inner diameter of 0.2mm-1.0mm, and the air inlet end of the hollow fishing line is connected with the hard capillary tube in a thermal condensation mode. Then, the fishing rod passes through a small hole on the fishing rod to be connected with a fishing vessel, and then the fishing rod can reach the top end of a common fishing rod in an external or internal fishing line mode. The air exhaust end of the hollow fishing line is loosely wound and knotted through the small hole of the fishhook and is hermetically connected with the tip end of the needle head of the injector in a heat shrinkage mode, and the thick end of the needle head is connected with a micropore atomizer which can atomize and disperse oxygen and aroma substances. The atomizer is dispersed with numerous micropores with the pore diameter of 1.0 μm to 100 μm.

When the fishing rod component in the technical scheme is used, liquid fragrant and flavor developing materials are filled into the fragrance storage cavity, and various flavors and flavors fixed by the fixing technology can also be filled into the fragrance storage cavity. Then, the porous screw cap provided with the small silica gel sealing gasket on the reaction cavity is unscrewed, the solid powder or granular oxygen generating agent is added into the reaction cavity, and then the porous screw cap provided with the small silica gel sealing gasket is screwed down to seal the whole system. The liquid substance is sucked in by a syringe, and the small silica gel pad is punctured by a syringe needle and is added into the reaction cavity. The liquid substance is water taken from fishing site or prepared water solution, preferably calcium peroxide or sodium percarbonate oxygen generating agent capable of reacting with water to generate oxygen.

In the technical scheme, the connection mode of the gas-generating and fragrance-producing component and the common fishing rod can adopt a method that a sealing ring with a proper specification is sleeved on the fishing rod, and then the component is sleeved at the tail end of the common fishing rod through the sealing ring. And the external thread and the internal thread can be meshed and screwed.

According to the technical scheme, the fishing rod assembly is characterized in that the fragrance storage cavity, the circular baffle, the annular baffle, the buffer cavity, the reaction cavity and the sintering sieve plate are preferably made of metal materials such as stainless steel and aluminum alloy, and other non-metal materials can also be adopted.

The novel fishing rod assembly has the beneficial effects that the defects of large using amount, multiple types, fussy bait adjustment and water area pollution of common baits are overcome by applying the novel fishing rod assembly in the technical scheme. The oxygen-seeking property of the fish and the natural property of the favorite special fragrant and fragrant substances are fully utilized, the hooking rate of the conventional common fishing rod can be obviously enhanced, and the fishing rod is convenient to use and maintain, has wide universality, can be applied to various water areas and is suitable for leisure fishing of various fishes.

Drawings

Fig. 1 is a schematic structural view of the fishing rod assembly with gas-generating fish-luring function.

FIG. 2 is a schematic view of the connection between the buffer chamber and the reaction chamber.

FIG. 3 is a schematic view of a method for adding a liquid substance to a reaction chamber.

Fig. 4 is a schematic illustration of the hook end connection of a hollow fish line.

Reference numerals: 1-fishing rod tail end; 2-hollow fishing line; 3, a fragrance storage cavity; 4-a gasket; 5, small holes; 6-hard capillary; 7-circular baffle; 8, a fragrance storage cavity; 9-annular baffle; 10-soft capillary; 11-large silica gel gasket; 12-a buffer cavity; 13-soft capillary inlet end; 14-a buffer chamber; 15-reaction chamber; 16-microporous filter membrane; 17-a reaction chamber; 18-sieve plate; 19-small silica gel pad; 20-a holed nut; 21-an oxygen generating agent; 22-syringe needle; 23-a syringe; 24-needle butt; 25-a microporous atomizer conduit; 26-needle tip; 27-a fishhook; 28-air exhaust end of hollow fishing line; 29-micropore atomizer.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings: as shown in fig. 1, a rigid capillary tube 6 of suitable length is passed through a circular baffle 7 with a small hole in the middle and is sealingly welded thereto. The circumference of the round baffle 7 is sealed and welded in the fragrance storage cavity 3 which is connected with the tail end 1 of the fishing rod at a distance of 4cm-10cm away from the fragrance storage cavity 8. The air inlet end of the hollow fishing line 2 penetrates through the small hole 5, is sleeved outside the hard capillary 6 and is heat-sealed thereon in a heating and condensing manner, and the fragrance storage cavity 3 is provided with a plurality of small holes 5 with the same aperture. The annular baffle 9 is also fastened at the other end of the incense storage cavity 3 in a sealing welding mode. The large silica gel gasket 11 is inserted with the soft capillary 10 and then arranged outside the annular baffle 9. Preferably, the number of the soft capillaries 10 is one, or more, made of stainless steel or aluminum alloy material. The soft capillary air inlet end 13 may be bent into any suitable shape, preferably hook-shaped and spiral, as desired. The buffer cavity 12 is connected with the fragrance storage cavity 3 in a manner of screwing internal threads and external threads. The microporous filter membrane 16 is arranged on a sieve plate 18 in the reaction cavity 17, and the sieve plate 18 is fixedly connected with the reaction cavity 15 by welding or bonding. The reaction cavity 15 and the buffer cavity 12 are connected by screwing the internal thread and the external thread. The microporous membrane 16 may be made of any suitable material such as cellulose acetate, polypropylene, polytetrafluoroethylene, etc., and has a pore size of 0.1 μm to 1.0. mu.m. The other end of the reaction cavity 15 is welded with a stainless steel two-way pipe with threads on the outside, a small silica gel gasket 19 is arranged inside the reaction cavity, and a screw cap 20 with holes and threads is tightly and hermetically connected in a screwing mode.

To further illustrate the detailed features of the present invention, as shown in fig. 2, the right end of the buffer cavity 12 may be processed into a form of a non-variable diameter internal thread, and the left end of the reaction cavity 15 may be processed into a variable diameter external thread form; or as shown in fig. 1, the right end of the buffer cavity 12 may be processed into a variable diameter external thread form, and the left end of the reaction cavity 15 may be processed into a non-variable diameter internal thread form. Accordingly, the former is to weld or adhere the screen plate 18 to the buffer chamber 12, and the latter is to weld or adhere the screen plate 18 to the left end of the reaction chamber 15, so as to connect the buffer chamber 12 and the reaction chamber 15. Similarly, the right end of the incense storage cavity 3 is connected to the left end of the buffer cavity 12 in two ways as described above. The fishing rod assembly shown in this embodiment is tightly fitted to the tail end 1 of a general fishing rod by means of a gasket 4, and may have a plurality of gaskets 4. The hollow fishing line 2 goes in and out from the small hole 5 and is wound on the fishing vessel to reach the front end of the fishing rod.

To further illustrate the connection mode of the present invention, as shown in fig. 4, after the air discharging end 28 of the hollow fishing line is passed through the ring of the hook 27 and loosely wound and knotted, the needle tip 26 is inserted into the air discharging end 28 of the hollow fishing line at a position of about 3-4cm in length and tightly connected by heat condensation. The needle butt 24 is connected to a micro-porous atomizer conduit 25. The micropore atomizer 29 is a hollow spherical structure, numerous small holes with the aperture of 1.0-100 mu m are uniformly distributed on the spherical surface, the inside and the outside are communicated, and oxygen or food calling substances can be input into the inside through the micropore atomizer conduit 25. This configuration facilitates the dispersion of the liquid or gaseous matter discharged from the syringe needle 26 into a myriad of minute droplets or bubbles, improving the atomization effect of the fish attracting substance.

The use method of the key component of the fishing rod comprises the following steps: the components of the invention are connected according to the technical scheme, and liquid or solid flavor and fragrance attractant substances are filled into the flavor storage cavity 8; opening a screw cap 20 with a hole at the right end of the reaction cavity 15, filling a calcium peroxide or sodium percarbonate oxygen generating agent 21, screwing the screw cap 20 with the hole provided with a small silica gel gasket 19, and screwing each component in the system; as shown in fig. 3, a proper amount of water is sucked by a syringe 23, a small silica gel gasket 19 is punctured by a syringe needle 22, water is injected into the reaction cavity, the oxygen generating agent 21 starts to react with the water, and oxygen is released; oxygen is diffused into the fragrance storage cavity 8 through the sieve plate 18, the microporous filter membrane 16, the buffer cavity 14 and the soft capillary tube 10 in sequence, and when the pressure in the fragrance storage cavity 8 is increased to a certain stage, the food calling substances in the fragrance storage cavity are pushed to reach the microporous atomizer 29 through the hollow fishing line; when bubbles or liquid fragrant substances are observed on the surface of the micropore atomizer 29 and discharged, the bait can be hung on the fishhook 27 and put into water for fishing. By selectively adding different types of phagostimulants into the fragrance storage cavity 8, fish luring substances with different oxygen concentrations, different fragrance types and different states can be generated. Therefore, the fish luring skills can be rapidly and conveniently mastered aiming at different water areas and different fish species, and the fish harvest is improved.

Those skilled in the art can derive from the present invention and make numerous modifications and benefits. Such modifications are to be considered as included within the scope of the invention as set forth in the following claims.

Claims (10)

1. The utility model provides a fishing rod subassembly with generate gas fish luring function which characterized in that: the device is provided with a reaction cavity (17), a buffer cavity (14) and an aroma storage cavity (8), wherein a small silica gel gasket (19) and a screw cap (20) with a hole are fastened at the opening end of the reaction cavity (17), and the other end of the reaction cavity is isolated from the buffer cavity (14) through a sieve plate (18) and a detachable microporous filter membrane (16); a large silica gel gasket (11) and an annular baffle plate (9) are adopted to seal between the buffer cavity (14) and the fragrance storage cavity (8), and a soft capillary tube (10) is used for communicating; the other end inside the aroma storage cavity (8) is hermetically provided with a circular baffle (7) welded with a hard capillary tube (6), and one end of the hard capillary tube (6) extending out of the aroma storage cavity (8) is hermetically connected with the air inlet end of the hollow fishing line (2); the air exhaust end (28) of the hollow fishing line (2) is connected with the blunt end of the fishing hook (27) in series and then is sequentially connected with the sharp end (26) of the needle head, the thick end (24) of the needle head and the micropore atomizer (29) in a sealing way.

2. A fishing rod assembly with gas-producing fish luring function according to claim 1, wherein: one end with external threads is inserted into the other end with internal threads between the reaction cavity (17) and the buffer cavity (14) and between the buffer cavity (14) and the fragrance storage cavity (8), and the reaction cavity and the fragrance storage cavity are in sealing connection in a meshing and screwing mode.

3. A fishing rod assembly with gas-producing fish luring function according to claim 1, wherein: the incense storage device is provided with an incense storage cavity (3), a buffer cavity (12) and a reaction cavity (15), wherein the incense storage cavity (3), a circular baffle (7), an annular baffle (9), the buffer cavity (12), the reaction cavity (15) and a sieve plate (18) are made of metal materials such as stainless steel and aluminum alloy.

4. A fishing rod assembly with gas-producing fish luring function according to claim 1, wherein: the incense storage device is provided with an incense storage cavity (3), a buffer cavity (12) and a reaction cavity (15), wherein the incense storage cavity (3), a circular baffle (7), an annular baffle (9), the buffer cavity (12), the reaction cavity (15) and a sieve plate (18) are made of non-metal materials.

5. A fishing rod assembly with gas-producing fish luring function according to claim 1, wherein: the connection mode of the fishing rod component and the tail end (1) of the fishing rod adopts a method that a plurality of gaskets (4) with proper specifications are sleeved on the tail end (1) of the fishing rod and then inserted into one end of a fragrance storage cavity (3) connected with the air inlet end of a hollow fishing line (2).

6. A fishing rod assembly with gas-producing fish luring function according to claim 1, wherein: the connection mode of the fishing rod component and the tail end (1) of the fishing rod adopts the mode that the external thread and the internal thread are meshed and screwed.

7. A fishing rod assembly with gas-producing fish luring function according to claim 1, wherein: one or more small holes (5) are formed in the incense storage cavity (3) outside the incense storage cavity (8), one or more soft capillary tubes (10) penetrate through the large silica gel gasket (11), and the air inlet ends (13) of the soft capillary tubes can be bent into any suitable shape.

8. A fishing rod assembly with gas-producing fish luring function according to claim 1, wherein: the pore diameter of the microporous filter membrane (16) is between 0.10 and 1.0 mu m, the pore diameter of the microporous atomizer (29) is between 1.0 and 100 mu m, and the microporous atomizer (29) can be processed into any shape.

9. The use method of a fishing rod assembly with gas-producing fish-luring function according to any one of claims 1 to 8, wherein the method comprises the following steps: when in use, various flavor-developing and food-calling substances with proper shapes are filled in the incense storage cavity (8) in advance, then the screw cap (20) with the hole and the small silica gel gasket (19) are disassembled, the solid oxygen generating agent (21) is filled in the reaction cavity (17), the connection system is sealed, the injector (23) is used for absorbing the liquid oxygen generating agent, and the oxygen generating agent is added in a mode of puncturing the small silica gel gasket (19) through the injector needle (22).

10. The use method of the fishing rod component with gas-producing fish-luring function according to claim 9, characterized in that: the liquid oxygen generating agent is water.

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