GB2319714A - Intra-line fishing rod - Google Patents

Abstract

An intra-line fishing rod includes a tubular rod 10 enclosing support members S1,S2,S3 extending along the longitudinal axis of the rod, the support members positioning and retaining fishing line guide members G1-G4, and securing means H4 for holding the fishing line guide members and the support members. The fishing line guide members and the support members are removable from the rod pipe upon disengaging the securing means and the fishline guide members are made from a different material than that from which the support member elements are made. The fishline guide members have a wear resistant property, and the support member elements have a flexibility which does not have substantially influence the flexing properties of the rod.

Description

INTRA-LINE FISHING ROD WITH FISHING LINE GUIDE MEMBERS The invention concerns the support of fishing line guide members for an intra-line fishing rod of either the single or multiple element type.

Japanese Patent Publication No. 56-127032 to Showa discloses an intra-line fishing rod in which a plurality of fishing line guide members are secured to the inner surface of a rod pipe by pressure or other means of bonding. The guide members are included to reduce the resistance to the passage of a fishing line through the fishing rod.

A disadvantage of the above-mentioned conventional fishing rod is that any of the fishing line guide members can come off from the inner surface of the rod pipe due to flexing of the fishing rod or the like. If the fishing rod is used with one or more guide members detached, a number of problems may arise including producing unacceptable noise, increased resistance and wear on the fishing line, and an increased likelihood the fishing line will break.

To repair an intermediate fishing line guide member which has become detached, the remaining members fixed to the inner surface of the rod pipe between the end of the rod pipe and the detached member must be removed to gain access to the detached member. Each member must thereafter be relocated and secured again, which is both troublesome and inconvenient.

Also, dust or the like is apt to collect between the fishing line guide members. In order to clean out the dust or the like from the conventional fishing rod, it is similarly necessary to remove and reattach the members, which is very troublesome.

An object of the present invention is to provide an intra-line fishing rod having at least one fishing line guide member disposed therein, and which is capable of facilitating the maintenance of the fishing line guide member(s) and associated elements disposed inside the rod pipe.

Another object of the invention is to provide an improved structure for taking out fishing line guide members from the rod pipe and mounting them again after completing maintenance.

According to the present invention, an intra-line fishing rod, having a rod pipe with a longitudinal axis and an interior tubular surface surrounding the longitudinal axis, the fishing rod comprises at least one fishing line guide member retained within the interior tubular surface; at least one support member element retained within the interior tubular surface and extending along the longitudinal axis, the support member element(s) positioning and retaining the fishing line guide member(s) with respect to the rod pipe; and means for securing the fishing line guide member(s) and the support member element(s) along the longitudinal axis with respect to the rod pipe; wherein the fishing line guide member(s) and the support member element(s) are removable from the rod pipe upon disengaging the means for securing with respect to the rod pipe; and wherein the fishline guide member(s) is/are made from a different material than that from which the support member element(s) is/are made, the fishline guide member(s) has/have a wear resistant property, and the support member element(s) has/have a flexibility which does not have substantially influence the flexing properties of the rod pipe.

In the accompanying drawings: Figure 1 is a partial longitudinal section view of a first embodiment of a fishing rod according to the invention.

Figure 2 is a longitudinal section view of the main portions of a variation of a fishing rod according to the first embodiment.

Figure 3 is a longitudinal section view of the main portions of a variation of a fishing rod according to the first embodiment.

Figure 4 is a longitudinal section view of the main portions of a variation of a fishing rod according to the first embodiment.

Figure 5 is a longitudinal section view of the main portions of a variation of a fishing rod according to the first embodiment.

Figure 6 is a perspective view of the main portions of a variation of a fishing rod according to the first embodiment.

Figure 7 is a longitudinal section view of the main portions of a second embodiment of a fishing rod according to the invention.

Figure 8 is a longitudinal section view of the main portions of a variation of a fishing rod according to the second embodiment.

Figure 9 is a perspective view of the main portions of a third embodiment of a fishing rod according to the invention.

Figure 10 is a partially longitudinal section view of a variation of a fishing rod according to the third embodiment.

Figure 11 is an enlarged longitudinal section view of one aspect of the fishing rod shown in Figure 10.

Figure 12 is an enlarged longitudinal section view of one aspect of the fishing rod shown in Figure 10.

Figure 13 is a longitudinal section view of the main portions of a variation of a fishing rod according to the third embodiment.

Figure 14 is a longitudinal section view of the main portions of a variation of a fishing rod according to the third embodiment.

Figure 15 is a partially sectional, longitudinal view of a fishing rod according to a fourth embodiment of the present invention.

Figure 16 is a longitudinal section view of the main portions of the fourth embodiment.

Figure 17 is a cross-sectional view taken along line 17-17 of Figure 16.

Figure 18 is a cross-sectional view of the main portions of a variation of a fishing rod according to the fourth embodiment.

Figure 1 shows a rod pipe 10 which may be formed of a fiber reinforced prepreg or the like in a tapering middle section of a fishing rod. Inside the rod pipe 10, there are disposed four fishing line guide members G1,G2,G3,G4. Each of the fishing line guide members Gl,G2,G3,G4 has a wear resistant property and may be formed of a ceramic material which allows a fishing line to slide smoothly. As shown, each fishing line guide member G1,G2,G3,G4 is formed with a different outside diameter dimension value.

If the respective fishing line guide members G1,G2,G3,G4 are inserted into the rod pipe 10 from the larger diameter, rear portion thereof, then the guide members can be stopped at their respective given positions. In particular, the guide member G1 is inserted and is stopped at a given position in relation to its outside diameter. To avoid an error with respect to this position, a stopper portion lOA may be formed on the inner surface of the rod pipe 10.

Next, a cylindrical sleeve S1 having a given length is inserted as a support member. Another fishing line guide member G2 is inserted after the sleeve S1, and is abutted against the rear end of the sleeve S1. Similarly, the sleeves S2 and S3, as well as the fishing line guide member G3 are inserted.

The last fishing line guide member G4 is held in place by a guide hold member H4 which includes an external threaded portion formed on the outer periphery thereof. That is, the external threaded portion is threadably engaged with an internal thread portion formed in the rear end portion of the rod pipe 10, thereby holding the respective sleeves S1,S2,S3 and fishing line guide members Gl,G2,G3,G4 within the rod pipe 10. The respective sleeves S1,S2,S3 are formed such that their wall thickness is smaller than the radial dimension of the adjacent fishing line guide members G1,G2,G3,G4. Preferably, the sleeves S1,S2,S3 may be formed of a relatively flexible material such as a resin material which does not substantially influence the flexing property of the rod pipe 10. Alternatively, the sleeves S1,S2,S3 may be formed of a fiber reinforced prepreg or the like using a carbon fiber in which highstrength fibers are predominately oriented in the circumferential direction thereof.

Thus, a fishing line can be guided by the fishing line guide members G1,G2,G3,G4 to allow the fishing line to'slide smoothly through the rod pipe 10, thereby reducing the resistance on the fishing line. Maintaining the fishing line guide members G1,G2,G3,G4, including cleaning and making repairs thereto, is readily accomplished by removing the guide hold member H4 provided in the rear-most portion of the rod pipe 10. The sleeves S1,S2,S3 and fishing line guide members G1,G2,G3,G4 can be respectively taken out from the rear portion of the rod pipe 10, and re-inserted again after completion of the cleaning or repairing operation.

Also, it is possible to replace only a portion of the fishing line guide members Gl,G2,G3,G4 and thus the whole of the rod pipe 10 need not be replaced. In addition, different numbers and types of fishing line guide members G1,G2,G3,G4 can be used with a given rod pipe 10 depending on the weather conditions and the kind of fishing line being used.

If there is an undesirable clearance between the rod pipe 10 and the respective sleeves Sl,S2,S3 or fishing line guide members Gl,G2,G3,G4 due to dimensional errors in manufacture along the longitudinal direction thereof, a coil spring or the like may also be interposed between the sleeve S3 and hold member H4. Also, looseness in the radial direction, which tends to produce a rattling noise, may be addressed by coating the outer surfaces with an elastic material such as rubber or the like to fill up the clearance. A material which is sticky to some degree may be coated on the outer surface of the sleeves S1,S2,S3, or a resin film may be bonded to the outer surfaces.

Because the size of the fishing line guide members Gl,G2,G3 may render them difficult to insert into the rod pipe 10, the respective fishing line guide members G1,G2,G3 may be held by a hold member similar to hold member H4.

As shown in Figure 2, there can be produced a gap in the radial direction between the outer peripheral surface of a hold member H2 or the like and the inner peripheral surface of the rod pipe 10, with the result that the fishing line- guide members Gl,G2,G3 can be loose while the fishing rod is in use. In order to prevent this, an elastic member such as an 0 ring R2 or the like may be inserted onto the outer peripheral surface of the hold member H2 or the like.

As shown in Figure 3, to improve the ease of insertion and removal of a fishing line guide member G1, it may be mounted on the inner peripheral surface of a sleeve SO or the like before it is inserted into and removed from the rod pipe 10. Also, this simplifies maintenance insofar as by simply pulling out the sleeve SO, the fishing line guide member G1 is also removed. However, for cleaning of the fishing line guide member G1, it is preferably mounted on the leading end portion of the sleeve SO.

To further ease the insertion and removal operation, not only the fishing line guide member G1 may be mounted on the leading end portion of the sleeve SO, but also the fishing line guide member G2 or the like may be mounted on the inner surface of a longer sleeve.

If this makes it difficult to clean the fishing line guide member G2 or the like mounted within such a long sleeve, then such fishing line guide members G1,G2 and sleeve SO may be replaced together.

Alternatively, if only the sleeve SO is to be replaced, the fishing line guide member Gl may be separated from the sleeve SO before it is cleaned. When a plurality of fishing line guide members are mounted within a long cylindrical sleeve SO, a great deal of time and labor can be saved by inserting or removing the entire combination. This also tends to eliminate the possibility that the combination can become loose in the longitudinal direction during fishing.

Figure 4 shows one method for solving the aforementioned drawback in which a plurality of fishing line guide members are to be mounted in a long sleeve. Specifically, sleeves S1,S2 are detachably connected with each other through a hold member H2' secured to a fishing line guide member G2'. The manner of connecting is not limited to the manner shown in Figure 4. For example, the end portion of the sleeve S2 may be overlapped on and connected to the end portion of the sleeve S1. When such a fishing line guide member G2' is removably mounted on the sleeves S1,S2, the sleeves S1,S2 and fishing line guide member G2' can be inserted and removed easily. Also, when a respective fishing line guide member G2' is cleaned or replaced after being taken out from the rod pipe 10, the sleeves Sl,S2 may be broken down and taken out, which eliminates the need to waste the sleeves S1,S2 and the like.

Errors in manufacturing the fishing line guide members G1,G2,G3 and support members H2,H2' may produced clearances between these members and the inner surface of the rod pipe 10 in the radial direction. As shown in Figure 2, the fishing line guide member G2 is prevented from becoming loose, but the sleeves S1,S2 can become loose. To prevent this, a cylindrical support member SO' as shown in Figure 5 may be used which has a radially directed resilient property. For example, the member SO' may be formed in a barrel shape. A fishing line guide member G1 is mounted at or near an end of the barrel member SO'. One or more such assemblies may be inserted into the rod pipe 10 such that they closely contact the inner surface of the rod pipe 10 due to the resilient deformation of the barrel-shaped members SO'. This stabilizes the mounting of the assemblies and also prevents them from becoming loose.

Figure 6 shows an embodiment of the present invention in which a plurality of separate support member elements S1,S2,... are sequentially arranged in the longitudinal direction and connected with one another to form the entire support member. An inner peripheral surface of one end portion El of a support member element S1 is engaged with an end portion E2 of a support member element S2 adjacent to the element Si. The end portions E1,E2 can freely rotate with respect to each other so that even if the support member element located in the rear end portion of the support member is rotated, the remaining support member elements do not necessarily rotate. If the support member is formed of an elastic member such as a silicone tube or the like, when the support member is taken out from the rod pipe, the support member can be separated into the respective support member elements, which facilitates the maintenance such as cleaning or the like of the fishing line guide members G1,G2,... supported within the respective support member elements.

The method of connecting the support member elements S1,S2,...

with one another is not limited to the above-mentioned method.

Alternatively, the support member elements Sl,S2,... can be connected by screws or pins which still permits the support member to be broken down into its elements.

However, when a plurality of fishing line guide members are mounted on the long sleeve, it is not easy to clean the fishing line guide members. Figure 7 shows one method for solving this problem, In particular, the intermediate portion of the cylindrical sleeve SO, i.e. between the two end portions, is formed in a semi-cylindrical open portion KB. Circular fishing line guide members GO,GO are mounted in the two ends of the sleeve SO, and semi-circular fishing line guide members GO',GO' are mounted in the open portion KB. During fishing, the semi-circular fishing line guide members GO',GO' are oriented so as to be disposed along the bottom side of the sleeve. Therefore, it is preferable to include "up" and "down" markings on the outer surface of the rod pipe 10.

This structure can save the time and labor required to insert and remove the sleeve SO as described above, and can also prevent the sleeve and the fishing line guide members from becoming loose in the longitudinal direction of the rod pipe 10. The existence of the open portion KB facilitates the cleaning of the fishing line guide members GO',GO' inserted within the rod pipe 10.

As noted previously, a support member including a plurality of fishing line guide members may be formed in a cylindrical shape or in a semi-cylindrical shape. Figure 8 shows an embodiment of the present invention similar to that shown in Figures 3 and 7, in which a support member SO is formed as a combination of cylindrical and semi-cylindrical cross-sections, and supports a plurality of fishing line guide members G1,G2,G3,G4,G5. As will be described further with respect to Figures 10 and 11, the rear-end portion of a support member SO is secured to a recessed portion formed in a hold member HS to thereby prevent the support member SO from being removed from the rod pipe 10, and the support member SO and hold member H5 freely rotate with respect to one another. Also, since the support member SO includes a split SL in the rear portion thereof, the end of the support member SO may be expanded and separated from each other after being removed from the rod pipe.

The support member SO includes open portions KB in the upper surface thereof on either side of the respective fishing line guide members G2,G3. After the support member SO is taken out from the rod pipe, the open portions KB facilitate maintenance such as cleaning and the like of the respective fishing line guide members Gl,G2,G3,G4. The support member SO may be formed of an elastic member and includes annular grooves at given positions along the inner periphery thereof for holding the fishing line guide members G1,G2,G3,G4. The fishing line guide members G1,G2,G3,G4 can therefore be easily replaced if they become worn. The fishing line guide members Gl,G2,G3,G4 may include external threaded portions on the outer peripheral surface thereof and the support member SO may include internal threaded portions corresponding to the external threaded portions of the respective fishing line guide members G1,G2,G3,G4 at the desired longitudinal positions. This also facilitates replacing and securely holding the fishing line guide members G1,G2,G3,G4. Further, mutually engaging portions may be formed on both the respective fishing line guide members and support member, which also facilitates easy replacement of the fishing line guide members.

The support member SO may also include a plurality of longitudinally adjacent engaging portions, such as grooves or the like, which selectively receive a particular fishing line guide member. Therefore a particularly desirable longitudinal position may be selected for each fishing line guide so as to minimize resistance on the fishing line in view of the fishing conditions.

Further, undesirable flexing of the fishing rod can be prevented, and the overall strength of the fishing rod may be increased, based on the axial positioning of the fishing line guide member(s) and the angular orientation of the support member SO with respect to the rod pipe 10.

The above-mentioned cylindrical support member SO may also include a flexible film layer coated on the outer peripheral surface thereof such that clearance in the radial direction of the support member SO can be filled when the support member SO is inserted into the rod pipe, thereby preventing the support member from becoming loose. Also, the outside diameter dimension of the rear end portion of the support member SO may be arbitrarily enlarged such that upon inserting the support member SO into the rod pipe 10, the split SL enables the support member SO to be contracted. After insertion, the support member SO expands to press against the inner surface of the rod pipe 10, thereby preventing the support member from becoming loose in the radial direction. Further, if fluorine resin is coated onto the inner surface of the rod pipe, friction resistance is reduced even when the fishing line contacts the inner surface, and since the fluorine resin repels water to a high degree, water within the rod pipe 10 can be easily discharged.

Figure 9 shows another embodiment of the present invention in which an elongated rod members S1",S2" formed of metal or the like are used instead of the cylindrical sleeve SO,S1,S2. The rods S1",S2" serve as a holder for fishing line guide members G2",G3" and are supported by, and fixed to the rods S1",S2" through fixing portions K2,K3. The thus obtained assembly is inserted into a rod pipe 10 in such a manner that the respective fishing line guide members G2",G3" can be pressure inserted against the inner surface of the rod pipe 10. In this manner, the respective fishing line guide members G2",G3" are positioned within the rod pipe 10. In terms of maintenance, if the rods S1",S2" are taken out from the rod pipe 10, then the associated fishing line guide members G2"G3" are concurrently removed from the rod pipe 10.

In each of the above embodiments, a film allowing the fishing line to slide smoothly may be coated on the inner surface of the fishing line guide members, and two or more such fishing line guide members may be inserted in series into a rod pipe to thereby reduce the resistance on the fishing line. During maintenance, such as cleaning and the like, the fishing line guide members may be taken out from the rod pipe and the coated film (e.g a fluorine film, a silicone film or the like which have a high water repellent property) replenished so that it allows the fishing line to slide smoothly and concomitantly facilitates the removal'of water drops which are drawn into the rod pipe.

Also, the inner surfaces of the fishing line guide members may be formed with an irregular cross-section such that wax may be stored in a recessed portion on the inner surface of the fishing line guide members. In this case as well, the fishing line guide members may be removed from the rod pipe to replenish the wax, and thereafter re-inserted into the rod pipe.

Now, referring to Figures 10-12, there is shown a particular embodiment of the present invention in which an upper support member SU and a lower support member SD are used to support fishing line guide members G1,G2,G3,G4 formed out of a ceramic material.

The position of the front end of the upper and lower support members SU,SD may be restricted by a stopper portion 10A formed or mounted at a given position in the rod pipe 10, similar to the embodiment shown in Figure 1. The stopper portion 10A projects into the rod pipe 10 and may be formed of an elastic material.

As shown in Figure 11, the rear end of the support member includes a fishing line guide member G5 which may be made of a ceramic material. The fishing line guide member.G5 is secured and held by a hold member H5 which is threadably connected to the rear end portion of the rod pipe 10. The hold member H5 includes a recessed portion HK circumscribing the outer periphery at the forward position of the hold member H5. The recessed portion HK receives a projection UK off the rear portion of the upper support member SU and a projection DK off the rear end portion of the lower support member SD in such a manner that the projections UK,DK can rotate with respect to the hold member H5. Also fitted into the recessed portion HK is an adjustment member RT forming a resilient element. The adjustment member RT pushes against the support member elastically so as to adjust the position of the support members SU,SD in the longitudinal direction thereof, and also pushes the respective fishing line guide members G1,G2,G3,G4 to thereby eliminate clearance and play. The projections UK,DK of the respective support members SU,SD can be expanded with respect to the recessed portion HK when the hold member H5 is not threadably connected with the rod pipe 10, whereas the projections UK,DK cannot be removed when the hold member H5 is threadably connected with the rod pipe 10.

Because the projections UK,DK are engaged with the recessed portion HK, and the hold member H5 is threadably engaged with the rod pipe 10, when the hold member H5 is rotated, the projections UK,DK of the support members SU,SD are pushed forward by the adjustment member RT. Thus the front end portions of the support members SU,SD are abutted against the stopper portion lOA of the rod pipe 10, and the fishing line guide members Gl,G2,G3,G4 are supported at given positions.

The mounting of the hold member H5 onto the rod pipe 10 is achieved by means of the threaded engagement. Alternatively, the hold member H5 may be pressure inserted into the rod pipe 10 such that at least one knurled portion causes engagement therebetween, or it may be simply pressure inserted and fitted into the rod pipe.

The hold member H5 may be formed of a ceramic material so that it can also serve as the fishing line guide member G5, or just the threaded portion of the hold member may be formed of metal.

The hold member H5 may be connected to the support members SU,SD on the outer periphery of the hold member H5 as illustrated in Figures 10-12, or the support members SU,SD may be secured to the inner periphery of the hold member H5. The adjustment member RT may be an elastic member such as a coil spring or the like interposed between the hold member H5 and support members SU,SD to thereby adjust clearances between them in the longitudinal direction of the fishing rod.

As shown in Figure 12 in an enlarged manner, the fishing line guide member G4 or the like includes two holes GH,GH formed in the peripheral portion thereof. The upper and lower support members SU,SD are respectively inserted through the holes GH,GH and are bent before and after the holes GH,GH in a manner to extend along the rod pipe 10, thereby maintaining the position of the fishing line guide member G4. The support members SU,SD may be in contact with the inner surface of the rod pipe 10 or a clearance may exist between them. If the clearance exists, a film may be coated on the support members SU,SD to prevent the generation of undesirable noise due to contact between the support members SU,SD and the inner surface of rod pipe 10. Also, in order to reduce the resistance on the fishing line when it is inserted, a film allowing the line to slide well may be coated on the support members SU,SD.

Annular rings FJ,RJ each formed of a rubber plate or the like may be also disposed on either side of the fishing line guide member G4. The upper and lower support members SU,SD are also inserted the annular rings FJ,RJ. The annular rings FJ,RJ hold the fishing line guide member G4 elastically from in front and behind by virtue of the bends in the upper and lower support members SU,SD.

Also, the fishing line guide member G4 or the like may include on the outer surface thereof a film coating GR which may be formed of synthetic resin, rubber or the like such that it demonstrates an elastic characteristic. Therefore, when a plurality of fishing line guide members are supported by the support members SU,SD and are inserted into and supported in the rod pipe 10, the film GR can absorb clearances and play caused by differences in dimension between the respective fishing line guide members and the inside diameters of the rod pipe at the respective positions of the fishing line guide members. Also, the elasticity of the annular rings FJ,RJ makes it possible to slightly adjust the longitudinal positions of the fishing line guide members G4 and the like within the rod pipe 10, so as to absorb clearances and play.

In the above description, the support members SU,SD consist of two support members, namely, upper SU and lower SD support members, alternatively, the support members may comprise three or more elongated members.

Also, the support members are not required to be disposed substantially parallel to one another, but instead may form a spiral element(s). Further, the fishing line guide member(s) and support members may be formed integrally with eách other in a spiral configuration.

Figure 13 shows a structure which makes it possible to fold a support member removed from the rod pipe 10 while the support member elements SUl,5U2 remain connected with one another. In particular, an upper support member SU such as that shown in Figure 10 is divided into elements SUl,5U2. These elements are pivotally connected with one another by a pin member P1 or the like, and the lower support member SD is similarly constructed so that the entire support member can be folded. Alternatively, a flexible member may connect the elements of the support member holding the fishing line guide members, so that the support member can be folded. Here, the term "flexible member" includes not only an elastic member such as elastomer resin represented by rubber, but also a chain-like connecting member. In this case, hold means may be provided on the leading end portion of the rod pipe and the support member may be fixed to and extended from the hold means.

Referring now to Figure 14, a plug member HF serves as hold means for holding the rod pipe 10 and is mounted onto the leading end portion of the rod pipe 10. The plug member HF is connected to the leading end portion SK of the support member which is divided into upper SU' and lower SD' support portions. Therefore, the support portions SU',SD' hold the fishing line guide member Gl and concurrently are secured to the plug member HF such that the support member is fixed to and extends from the plug member HF.

The rear end portion of the rod pipe 10 is secured by use of a hold member H5 such as that shown in Figure 11 or the like.

To support the fishing line guide member G1, the upper and lower support portions SU',SD' are squeezed and inserted tightly into holes formed through the fishing line guide member Cl to thereby position and hold the fishing line guide member Gl. The plug member HF includes slits SL' which are elongated in the longitudinal direction thereof, and thus the plug member HF is divided into a plurality of (e.g. four) sub-sections. Also, the plug member HF includes a securing portion HE at the leading end portion thereof. This structure allows the plug member HF to be expanded and contracted in the radial direction thereof within the rod pipe 10. To secure the plug member HF to the leading end portion of the support member, the plug member HF is inserted into the rod pipe 10 from the rear end thereof. To remove the plug member HF, a suitable rod member pulls the plug member HF from the front end portion of the rod pipe 10 while it remains contracted.

During replacement, after the securing portion HE of plug member HF is secured to the leading end face of the rod pipe 10, the support member can be fixed to and extended from the plug member HF.

Reference character lOB in Figure 14 designates a reinforcing layer or a reinforcing ring provided on the leading end portion of the rod pipe 10. The layer or ring lOB reinforces the leading end portion of the rod pipe lO with respect to the expanding action of the plug member HF. Also, reference character 12 indicates an adjoining rod pipe which may be connected to the pipe rod 10 via the inner surface of the plug member HF. In particular, this illustrates that interference in the connecting operation of adjoining rod pipes 10,12 can be avoided even when the plug member HF is provided.

Figures 15 to 17 show an intra-line fishing rod of two element type according to yet another embodiment of the present invention.

The intra-line fishing rod is particularly suitable for use in a lure fishing, and constructed as a telescopic type fishing rod that a tip rod pipe 10 is retained in place on the butt rod pipe 15 by tight fitting a connecting portion 10T of the tip rod pipe 10 to a connecting portion 1ST of the butt rod pipe 15 in use, and the tip rod pipe 10 can be retracted into the butt rod pipe 15 for the carrying or portable purpose. An end cap 20 is removably fitted onto a butt end of the butt rod pipe 15, so that the tip rod pipe 10 can be taken out from the inside of the butt rod pipe 15 when the end cap 20 is removed from the butt rod pipe 15. In Figure 15, reference numeral 32 designates a fishing line introducing guide having a ceramic guide ring 32G for guiding and introducing a fishing line into the butt and tip rod pipes 15 and 10 through an introducing hole 32H formed in the butt rod pipe 15.

Figure 16 is a longitudinally sectional view showing a portion of the tip rod pipe 10 of the intra-line fishing rod shown in Figure 15, in which a plurality of support members Sla, 52a and S3a and hold members H2a and H3a are retained within the interior tubular surface of the tip rod pipe 10. The support members Sla, S2a and S3a and the hold members H2a and H3a, before being assembled into the tip rod pipe 10, can be coupled together to form an interior tubular body T. When a hold member HGa-for supporting a rear end of the interior tubular body T is threadingly engaged with a female thread on the interior surface of the connecting portion 10T after the interior tubular body T has been inserted into the tip rod pipe 10, the interior tubular body T is secured along the longitudinal axis with respect to the tip rod pipe 10 such that the hold members H2a and H3a are brought into contact with the interior surface of the tip rod pipe 10 to prevent rattling of the tubular body T while the support members Sla, S2a and S3a are kept away from the interior surface to form annular spaces WS. The hold member HGa is made of resin and is provided with a ceramic guide ring Gla fixed thereto.

Each of the support members Sla, S2a ad S3a is formed with a large number of water drain holes H, through which water removed from a fishing line passing through the inside of the tubular body T can be discharged from the inside of the tubular body T to the annular space WS. Each of the hold members H2a and H3a holds a ceramic guide ring G2a, G3a on its internal surface so as to locate the guide ring between adjacent two support members. The guide ring G2a, G3a is designed to have an internal diameter smaller than internal diameters of opposite portions of the adjacent support members. Therefore, when the fishing line is passed through the inside of the tubular body T during fishing, the fishing line is smoothly guided by the ceramic guide rings C2a and G3a with no water or water drop remaining in the inside of the tubular body T, whereby the resistance on the fishing line is greatly reduced. The hold members HGa, H2a and H3a are respectively formed with water path holes W1, W2 and W3 which communicate the annular spaces wS together so that the water entering the annular spaces WS is allowed to flow rearwardly in the tip rod pipe 10 and discharged out of the tip rod pipe 10 through a water discharge hole WH,' and further communicate the annular spaces WS with the inside of the butt rod pipe 15 so that the water is discharged rearwardly behind the hold member HG through the water path holes W3 and out of the fishing rod through a water discharge hole WH formed in a forward end portion of the butt rod pipe 15. The water may be discharged out of the fishing rod through a top guide 14 provided on a tip of the rod pipe 10.

The interior tubular body T may be formed from fiber reinforced resin as similarly to the tip and butt rod pipes 10 and 15, or synthetic resin, or other materials. Since the flexural rigidity of the tip rod pipe 10 is increased if the interior tubular body T is inserted into the tip rod pipe 10, the following arrangement can be made: In case where the interior tubular body T is not extended over the entire length of the tip rod pipe 10 but is disposed only in a portion of the tip rod pipe 10 (for instance, in a portion indicated by L1 in Figure 15), the flexibility of the other forward end portion (indicated by L2 in Figure 15) is maintained soft as it is, so that the resultant fishing rod becomes a forward bent type fishing rod wherein the bending point of the fishing rod is located at a relatively forward portion of the fishing rod. As a modification of the tip rod pipe 10, there is a case that a portion of the tip rod pipe from a buttend to a middle is formed as a tapered configuration whereas the rest of the tip rod pipe from the middle to a tip end is made straight. In this case, the resultant fishing rod becomes a forward bent type fishing rod where the flexural rigidity of the fishing rod up to the middle is relatively high and the rest of the rod from the middle to the tip end is relatively low. Therefore, it is preferable for such a fishing rod that the interior tubular body T is inserted into and disposed in the tip rod pipe up to the junction between the straight portion and the tapered portion so as not to greatly change the characteristic of the forward bent type fishing rod.

In case where the interior tubular body T is provided in the area of L1, the interior tubular surface of the area L2 may be formed into a smooth corrugated configuration at the time the tip rod pipe .10 is molded. The corrugation on the interior tubular surface of the area L2 can provides the following effect: That is, the water adhered to the fishing rod is wiped out therefrom by protruded portion of the corrugation, and the water thus wiped is temporarily stored in the recessed portion of the corrugation without the contact between the water and the fishing line. In order to prevent the re-adhesion of the water onto the fishing rod, it is sufficient to discharge the temporarily stored water out of the fishing rod through the tip guide 14 sometimes. If fluorineresin is coated on the surface of the corrugation, the slippage of the fishing line can be enhanced and the water discharge can be made smoothly.

Although a cross-section of the hold member Hja is only shown in Figure 17, the other hold member H2a is similar in configuration to the hold member H3a. Other than the configuration shown in Figure 17, the outer periphery of the hold member H2a may present an oval shape to define water path holes W3' between the hold member H2a and the interior surface of the tip rod pipe 10 as shown in Figure 18. It is preferable that the interior surface of the tip rod pipe 10 is formed to have a certain degree of wettability so that the water dropped through the water drain holes H of the interior tubular body is spread over and adhered to the interior surface of the tip rod pipe 10 and is prevented from entering again into the inside of the interior tubular body T. As to the preferable material which can exhibit the wettability, there exist gold, silver, lead and so on, which can be vapor-deposited on the surface. Forming the surface as a minute rough surface can enhance the effect of the wettability while suppressing the weight increase. A rough fluorine-resin surface is also wettable.

The water drain holes H may be formed simultaneously with or after the molding of the resin pipe as in the above embodiment.

Alternatively, in order to form the water drain holes in the tubular body T, a process that a wire-like member is spirally wound to provide the interior tubular body with the spiral clearance be used as water drain holes, a process that a net-like member is formed into a cylindrical form to provide the interior tubular body with nets or meshes of the net-like member be used as the water drain holes, or the like is employable. If the water drain hole is too large in size, a disadvantage may arise in that a fishing line passing tool is hardly passed through the inside of the interior tubular body, or a fishing line dangles through the hole, so that water in the space WS is likely to be adhered to the fishing line again. Thus, the dimension of the water drain hole is properly selected to remove such a disadvantage. Note however that if the dimension is too small, the water is likely to remain in the inside of the interior tubular body due to its surface tension, which leads another disadvantage. Therefore, a thin slit hole extending in the longitudinal direction of the interior tubular body T or extending spirally with respect to the longitudinal direction of the interior tubular body T, the shape of which is similar to what is made by cutting the tubular body with a knife, and the width of which is less than lmm (preferably within a range from 0.1 to 0.5mm) is preferable since such thin slit hole can effectively discharge the water out of the interior tubular body into the space WS with the aid of the capillary tube effect.

Further, in order to enable the adjustment of the flexural rigidity of the tip rod pipe 10, the cross-section of the interior tubular body T may be formed as an incomplete circular shape such as a oval shape, or the water drain holes H may be arranged nonuniformly in the circumferential direction thereof. That is, in the latter case, if the large number of the water drain holes are arranged at lateral portions of the interior tubular body T rather than vertical portions thereof in the cross-section when the tip rod pipe 10 supporting the interior tubular body T is retained on the butt rod pipe 15, the flexural rigidity of the tip rod pipe 10 in the vertical direction is lowered in comparison with that in the lateral direction, so that the fishing rod becomes a relatively soft type fishing rod. In contrast thereto, such interior tubular body T is oriented at 900 and retained in that state in the tip rod pipe 10, the fishing rod can be used as a relatively hard type fishing rod. In addition, the provision of markers on the interior tubular body T and the tip rod pipe 10 usable for the mutual circumferential alignment in assembling them, and a marker on the butt rod pipe 15 usable for the mutual circumferential alignment between the assembly and the butt rod pipe 15 eases the adjustment of the circumferential orientation of the interior tubular body with respect to the fishing rod, and thus the fishing rod having a desired softness or hardness can be easily obtained.

Claims (20)

1. An intra-line fishing rod including a rod pipe with a longitudinal axis and an interior tubular surface surrounding the longitudinal axis, the fishing rod comprising at least one fishing line guide member retained within the interior tubular surface; at least one support member element retained within the interior tubular surface and extending along the longitudinal axis, the support member element(s) positioning and retaining the fishing line guide member(s) with respect to the rod pipe; and means for securing the fishing line guide member(s) and the support member element(s) along the longitudinal axis with respect to the rod pipe; wherein the fishing line guide member(s) and the support member element(s) are removable from the rod pipe upon disengaging the means for securing with respect to the rod pipe; and wherein the fishline guide member(s) is/are made from a different material than that from which the support member element(s) is/are made, the fishline guide member(s) has/have a wear resistant property, and the support member element(s) has/have a flexibility which does not have substantially influence the flexing properties of the rod pipe.

2. A fishing rod according to claim 1, wherein the fishing line guide member(s) is/are secured to an internal peripheral surface of the support member element(s), the internal peripheral surface extending substantially parallel to the interior tubular surface.

3. A fishing rod according to either claim 1 or claim 2, further comprising at least one holding member respectively secured to the fishing line guide member(s), the holding member(s) being contiguously positioned at an axially end of the support member element(s).

4. A fishing rod according to any one of the preceding claims, wherein the holding member(s) is/are axially interposed between two of the support member elements.

5. A fishing rod according to any one of the preceding claims, further comprising radial clearance and means for absorbing looseness between the holding member(s) and the rod pipe in a radial direction with respect to the longitudinal axis.

6. A fishing rod according to any one of the preceding claims, further comprising longitudinal clearance means for absorbing looseness between the holding member(s) and the support member element(s) along the longitudinal axis.

7. A fishing rod according to any one of the preceding claims, wherein the at least one support member element is radially expanded so as to be retained within the interior tubular surface, the support member element being radially contracted by contact with the interior tubular surface.

8. A fishing rod according to any one of the preceding claims, further comprising means for maintaining two of the support member elements axially contiguous with one another.

9. A fishing rod according to claim 8, wherein the means for maintaining permits the two of the support member elements to relatively rotate with respect to one another about the longitudinal axis.

10. A fishing rod according to any one of the preceding claims, wherein the support member(s) include(s) an internal peripheral surface which extends substantially parallel to the interior tubular surface, and at least one longitudinally extending opening revealing the internal peripheral surface.

11. A fishing rod according to claim 10, further comprising at least one partial annular fishing line guide member secured to the internal peripheral surface opposite to the longitudinally extending opening(s); and wherein the partial annular fishing line guide member is oriented with respect to the rod pipe so as to be located along a minimal radius of curvature when the rod pipe is bent during fishing.

12. A fishing rod according to claim 10, further comprising a plurality of the longitudinally extending openings axially spaced with respect to one another; and an annular one of the fishing line guide members being secured to the internal peripheral surface between a pair of the plurality longitudinally extending openings.

13. A fishing rod according to any one of the preceding claims, wherein the means for securing includes a holding member secured to an axial end of the rod pipe.

14. A fishing rod according to claim 13, wherein the holding member is screw threadably secured to the interior tubular surface.

15. A fishing rod according to claim 13, wherein the holding member includes an annular groove receiving at least one radially directed projection from one of the support member elements; and wherein the holding member and the one support member element are relatively rotatable with respect to another about the longitudinal axis.

16. A fishing rod according to claim 15, wherein the one support member element includes at least one longitudinally oriented slit interposed between pairs of the radially directed projections, and the longitudinally oriented slit(s) extending from an axial end of the one support member element proximate to the axial end of the rod pipe.

17. A fishing rod according to any one of the preceding claims, wherein there are a plurality of the support member elements in the form of axially extending rods.

18. A fishing rod according to claim 17, wherein the fishing line guide member(s) is/are retained by a plurality of bends in each of the plurality of longitudinally extending rods.

19. A fishing rod according to claim 17, further comprising a pair of annular plates one one each side of the respective fishing line guide member(s).

20. A fishing rod according to claim 17, further comprising pivot means for folding each of the plurality of longitudinally extending rods.