CN1493189A - Fishing rod and mfg. method thereof - Google Patents

Abstract

A fishing rod and method for production thereof are provided to make the accurate and straight extraction of a moving guide against a top guide possible, to improve the endurance of the rod, and to mount a fishline guide on the guide support seat in a certainly rotation prevented manner. The fishing rod out of fabric reinforced synthetic resin includes; a guide support seat(ZB) formed as one piece on the outside in its determined position; many convex-concave members extended in its longitudinal direction on the outer circumference of the guide support seat(ZB) and formed in a circumferential direction thereof(ZB) wherein the groove depth from the top to the bottom of the convex-concave members is constant in the circumferential direction and in determined longitudinal length of the guide support seat(ZB); and a mounting cylinder(T) for fishline guide whose inner circumference has corresponding convex-concave members with same pitch as that of the support seat side.

Description

Fishing rod and manufacture method thereof

Technical field

The present invention relates to have fishing rod and the manufacture method thereof that the guider mount pad of fishline guider is equipped with in the outside, and have the fishing rod that the guider mount pad of mobile guide device is equipped with in the joint pole outside, particularly plug-in type fishing rod.

Background technology

Given position at fishing rod part is provided with reinforcement, be processed into the cross section of this reinforcement non-circular, be provided with a plurality of concavo-convex that extends along its length, and with the assembling tube portion of mobile guide device in the section that encloses be that non-circular joint portion combines, concavo-convex the combination of enclosing in making, prevent that thus the mobile guide device from rotating, and simultaneously, remains fixed in this position with the mobile guide device.In following patent documentation 1～4, disclosed the embodiment of operation like this.And in following patent documentation 5, then disclosed and be provided with the fishing rod that is used for mark that the mobile guide device is positioned at circumferencial direction.In addition, in following patent documentation 1, disclose the processing method that on reinforcement, forms planar section, also disclosed the method for using grinding tool grinding reinforcement with supporting member maintenance fishing rod part position, simultaneously.In following patent documentation 2, disclosed method with grinding tool grinding a plurality of concavo-convex (grooves).

Patent documentation 1: the spy opens clear 64-39923 communique,

Patent documentation 2: special fair 8-29564 communique,

Patent documentation 3: No. 2147400 communique of utility model registration,

Patent documentation 4: real fair 4-41830 communique,

Patent documentation 5: open clear 64-34966 communique in fact.

Yet in most of the cases, fishing rod part itself be because hot briquetting can produce some bendings, makes with this fishing rod part position to be the processing of the reinforcement that carries out of benchmark, its machining accuracy reduction.In addition, usually, reinforcement is by the pre-preg moulding, and the pre-preg part generally can cause uneven thickness when reeling.So, be circular parts even adopt centerless grinding that this Surface Finishing is become section, its axle center is in most cases also inconsistent with the axle center of fishing rod part.Therefore, by grinding reinforcement is formed under a plurality of concavo-convex situations, be that benchmark is when carrying out grinding to reinforcement with the fishing rod part, as when each groove is carried out grinding, do not measure one by one this groove is carried out the reinforcement before the grinding surface location to confirm that benchmark carries out grinding simultaneously, just can not keep certain groove depth.But in the reality, groove of every grinding all carries out like this, and it is very low to cause making efficient.But if only initial the measurement once, keeping fishing rod part make its with the rib of each groove apart from rotating when once rotating fishing rod part, will because reinforcement is not necessarily concentric with fishing rod part, cause the deep mixed of groove as mentioned above.In addition, light as far as possible for making fishing rod part, and do not hinder flexibility, the most basic requirement should make reinforcement thin as much as possible exactly.So the corresponding thin reinforcement of wall thickness that makes, if groove depth is inhomogeneous,, not to carry out grinding to groove then according to the place difference, be exactly grinding gets too deeply and injure fishing rod part itself.Like this, the intensity of fishing rod part will be impaired.In order to prevent the generation of these situations, just must make the thickness of reinforcement that surplus is arranged.

In patent documentation 1, owing to only form one or two planar section, so be used to form the grinding depth etc. of planar section, a situation that only needs to measure grinding gets final product.Yet patent documentation 2 is described when forming a plurality of concavo-convex (groove) by grinding, need carry out detailed measurements as benchmark with each groove, processes very trouble, and fishing rod cost height simultaneously.

Therefore, the purpose of this invention is to provide a kind of on the reinforcement of fishing rod part processing a plurality of concavo-convex when forming the guider mount pad, can efficiently and at low cost make groove depth keep certain manufacture method.

Another object of the present invention provides and a kind ofly the fishline guider can be tightened in reliably fishing rod on the guider mount pad and in light weight, that flexibility is good.

In addition, in the integrated structure that patent documentation 3 is disclosed, the mobile guide device is installed on the fishing rod part, itself and pole point guide are under the situation of arranging on straight line ground, even be provided with as patent documentation 5 described marks, also not necessarily can be arranged on the same straight line, therefore, when throwing fishing tackle, can not be with minimum drag, carry out the throwing that fishline is pulled out repeatedly sleekly.That is, be arranged on concavo-convex all in the mobile guide Unit Installation tube portion, differing with respect to each mobile device center line angulation position is maintained fixed surely, and might change in scope at a concavo-convex rib.In addition, even under with respect to the certain situation in the angle position of the center line of each mobile guide device, because the angle position of the non-circular profiles of this concavo-convex angle position and fishing rod part mount pad relation not necessarily is maintained fixed, therefore, also differ and be arranged in accurately on the same straight line surely.

In addition, in patent documentation 4 described examples, because concavo-convex rib distance of reinforcement one side and concavo-convex rib assembling tube portion one side are apart from different, concavo-convex only some engagement, so, when the mobile guide device rotates, in case be subjected to bigger power effect, raised line just might damage.In addition, because it is big more the closer to fishing rod rear portion pole footpath, the rigidity height of fishing rod, therefore difficult deflection, is being equipped with on the guider mount pad of mobile guide device, owing to the mobile guide device rotates with respect to fishing rod across fishline, therefore, the mount pad of rear position is subjected to the effect of bigger shearing (take-up force) power, and problem is arranged on durability.

Summary of the invention

Therefore, the object of the present invention is to provide a kind of many places to be provided with the fishing rod of guider mount pad at the length direction that saves pole, in the case, the mobile guide device is arranged on same the straight line with pole point guide accurately, simultaneously, can prevent concavo-convex damage of rear end mount pad, improve durability.

For achieving the above object, the invention provides a kind of fishing rod, it is characterized by, the guider mount pad forms one at the outside and the fishing rod part of the given position of the fishing rod part of being made by fiber-reinforced synthetic resin; In the periphery of this guider mount pad, have along concavo-convex of a plurality of mount pads one side extension of fishing rod part length direction, that also along the circumferential direction form; From the groove depth of this top of concavo-convex to bottom, on the circumferencial direction of above-mentioned guider mount pad, be roughly necessarily, simultaneously, in the given length of length direction, also be roughly certain; In the assembling tube portion of the fishline guider of so installing, enclose, have rib apart from concavo-convex rib of above-mentioned mount pad concavo-convex apart from identical tube portion one side.

Be meant necessarily that roughly the groove depth of most of groove, is preferably at ± 0.03mm with interior change with interior change at ± 0.05mm.

Because on the circumferencial direction of guider mount pad, groove depth is roughly certain, thus the wall thickness of guider mount pad can be set to only on certain depth residual quantitative thickness than minimal thickness, like this, be expected to alleviate the weight of fishing rod, and can prevent infringement flexibility.In addition, because in the given length of length direction, above-mentioned groove depth is also roughly certain, therefore when inserting the assembling tube portion of fishline guider, can feel the interlock of specified rate consumingly, thereby can guider be tightened on the guider mount pad given position reliably.In addition and since concavo-convex the rib that encloses in the fishline guider assembling cylinder apart from concavo-convex rib of mount pad one side apart from identical, therefore, in conjunction with the time, raised line and recessed can all mutually combine, and make load average, improve durability.

Fishing rod of the present invention, its feature also have, and concavo-convex groove bottom height of above-mentioned mount pad one side increases during to the rear end gradually.

Because the height of concavo-convex groove bottom of mount pad one side increases during to the rear end gradually, therefore, is pressed into the rear end by the assembling tube portion with the fishline guider, can produce firm combination.

Fishing rod of the present invention, its feature also has, and concavo-convex terminal of above-mentioned mount pad one side is the rear end in the guider mount pad zone.

Be pressed into and be installed in the fishline guider in the guider mount pad, can prevent because concavo-convex of mount pad one side or concavo-convex wearing and tearing of a portion one side etc. and the generation of the situation of unintentionally the fishline guider being extracted from the rear end.

Fishing rod of the present invention, its feature also have, and concavo-convex groove depth of above-mentioned mount pad one side is more shallow than concavo-convex groove depth of above-mentioned tube portion one side.

Because concavo-convex different (more shallow) of concavo-convex groove of mount pad one side and tube portion one side, therefore, in conjunction with the time, gapped between the assembling tube portion of fishline guider and guider mount pad.Can relax the raising of Flexurally rigid of the guider mount pad of guider installation position thus.In addition, because concavo-convex of mount pad one side is more shallow, and the wall thickness of guider mount pad is thinner, therefore is expected to relax the raising and the weight reduction of Flexurally rigid.

In order to achieve the above object, according to the present invention, a kind of fishing rod is provided, it is characterized by, has pole point guide, simultaneously, the many places of saving the length direction of pole periphery in the thin fiber-reinforced resin system of front end are provided with the guider mount pad, periphery at this each guider mount pad, be respectively equipped with and point to joint pole length direction, a plurality of concavo-convex of certain rib elongation degree arranged, in recessed of each mount pad, with immediate recessed of the plane of containing pole point guide center and joint pole central axis, to the angle position on this plane and concavo-convex rib elongation degree, identical each other at each mount pad; Enclose in the assembling tube portion of the mobile guide device on being installed on each guider mount pad, have certain concavo-convex of rib elongation degree, the concavo-convex number of this one side is the integral multiple that comprises with concavo-convex several similar numbers of above-mentioned mount pad one side; In the raised line of tube portion one side,,, identical each other at each mobile guide device to the angle position on this plane and concavo-convex rib elongation degree with the immediate raised line in plane of the lead ring center of containing each mobile guide device and cylinder center's axis.Otherwise, if the given raised line of above-mentioned given recessed and raised line and recessed also are suitable for.

Because concavo-convex rib elongation degree is identical at each mount pad each other, therefore, concavo-convex number of each mount pad is identical; And because rib elongation degree is certain, joint pole front end is thin, and therefore the distance interval of the circumferencial direction between recessed (or raised line) is bigger at the mount pad place that is positioned at back-end location.So the closer to the rear end that is subjected to the bigger shearing force that is derived from the mobile guide device, concavo-convex distance is big more at interval, thereby can improve durability.And because above-mentioned given recessed angle position is identical at each mount pad each other, therefore when considering rib elongation degree one regularly, in each mount pad, recessed or raised line are positioned on the same angle position of joint pole periphery.In addition, because the above-mentioned given raised line angle position of tube portion one side is identical at each mobile guide device each other, therefore, make this raised line and above-mentioned recessed when opposed when being installed in the mobile guide device on the guider mount pad and being combined into, can be straight line with pole point guide accurately.And, since the concavo-convex number of tube side be comprise with mount pad on the integral multiple of concavo-convex several similar numbers, so all raised lines on the mount pad can combine with recessed of tube side.

Fishing rod of the present invention is characterized by, and the groove depth from concavo-convex top to bottom of above-mentioned mount pad one side is roughly necessarily at circumferencial direction, simultaneously, also is roughly certain in the given length of length direction.

The so-called groove depth that roughly necessarily is meant most of groove, is preferably at ± 0.03mm with interior change with interior change at ± 0.05mm.

Because groove depth is roughly certain on the circumferencial direction of guider mount pad, therefore, wall thickness that can the guider mount pad is set to the only thin thickness of the thickness of residual specified rate on certain degree of depth, can alleviate fishing rod weight like this, and prevent infringement to flexibility, and because in the given length of length direction, groove depth is roughly certain, therefore when inserting the assembling tube portion of mobile guide device, can feel the interlock of specified rate consumingly, thereby can be tightened in reliably on the given position of guider mount pad.

In the present invention, also provide aforesaid fishing rod, it is characterized by, the concavo-convex number of above-mentioned tube side is identical with the concavo-convex number of mount pad one side.

In this case, when install in conjunction with the time, all raised lines and recessed can mutually combine, load evenly, therefore concavo-convex durability is improved.

A kind of manufacture method of fishing rod also is provided in the present invention, it is characterized by, the guider mount pad forms one at the outside and the fishing rod part by the given position of the fishing rod part of fiber-reinforced synthetic resin system, and has: the operation that the periphery of this guider mount pad is processed into the circle of given accuracy; Periphery with this circular guider mount pad is a benchmark, on the guider mount pad, processes the operation of the groove that extends along its length, and the degree of depth of a plurality of grooves of this given rib distance is roughly necessarily at circumferencial direction.

Given accuracy is meant, with by the guider mount pad that is processed into the minimum length to guider mount pad periphery (radius) that records of the center of circle of external minimum circumscribed circle (radius is R1) be R2, R1-R2 is made as Δ, it is given accuracy, its value is preferably below the 0.03mm for below the 0.05mm.

Periphery with the guider mount pad of circle is a benchmark, being processed into the groove that extends along its length on the guider mount pad is meant, when working groove, utilizing chuck to clamp under the state of guider mount pad, or process under the state with supporting members support guider mount pad, the former is because the axle center of chuck is consistent (promptly with the axle center of guider mount pad, the locus of the central hub of chuck can be caught usually, typical case is on certain position), therefore, the axle center of guider mount pad is always on identical position (being typically in certain position); And, always can capture the axle center (being typically on certain position) of the guider mount pad of extrapolating from the bearing-surface of supporting member for the latter.

Rotate even process conglobate guider mount pad,, therefore can keep the axle center of guider mount pad constant owing to be that rounded periphery with given accuracy is a benchmark.Thereby the periphery as the guider mount pad of the object of need processing grooving no matter whether it rotates, all can remain on fixed position.That is, for example, carry out the groove first being processed, the locus such as height by measuring the guider mount pad peripheral surface that waits decision still can keep certain by rotation.Therefore, when processing the operation of grooving at first, the degree of depth by the incision of guider mount pad peripheral surface even after this rotation is arranged, still can keep initial depth, and needn't measure repeatedly.Like this, just easy on the circumferencial direction of guider mount pad, make the degree of depth and be roughly certain a plurality of grooves.

Description of drawings

Fig. 1 is the end view of the joint pole portion of fishing rod of the present invention;

Fig. 2 is the profilograph of the major part of joint pole shown in Figure 1;

Fig. 3 amplifies drawing in side sectional elevation along the part of the arrow line C-C of Fig. 2;

Fig. 4 is the front view of the fishline guider that moves about used among Fig. 1;

Fig. 5 is the drawing in side sectional elevation of state that the guider of Fig. 4 is housed;

Fig. 6 is the amplification profile of the major part of Fig. 5;

Fig. 7 is the schematic diagram of another embodiment of guider mount pad;

Fig. 8 amplifies drawing in side sectional elevation along the part of the arrow line H-H of Fig. 7;

Fig. 9 is the schematic diagram in the guider mount pad zone before processing concavo-convex;

Figure 10 is a certain process schematic representation of the process of concavo-convex of grinding on the guider mount pad;

Figure 11 is the schematic diagram of used tool among Figure 10;

Figure 12 is a certain process schematic representation of joint pole forming process;

Figure 13 is the end view of foregrip of the present invention;

Figure 14 is that drawing in side sectional elevation is amplified in the part of each guider mount pad;

Figure 15 is the front view of mobile guide device;

Figure 16 is the drawing in side sectional elevation that the position of mobile guide device shown in Figure 15 is housed;

Figure 17 is near the amplification profilograph the guider mount pad.

Symbol description

10: the joint pole; 10A, 10B, 10C: the fishline guider moves about; J: concavo-convex; J1: raised line; J2: recessed (groove); TK: chuck; TL: instrument; ZA, ZB, ZC: guider mount pad; ZBS: the circular surface of guider mount pad; T1, T2, T3: assembling tube portion; YG1, YG2, YG3: mobile guide device; Z1, Z2, Z3: guider mount pad.

Embodiment

Below, illustrate in greater detail the present invention according to Fig. 1～the 1st embodiment shown in Figure 12.

Fig. 1 is the end view in the joint pole zone of fishing rod of the present invention.In the present embodiment, on the joint pole 10 of the fiber-reinforced synthetic resin system that is matrix with synthetic resin such as epoxy resin, strengthens with fortifying fibres such as carbon fibers, its length direction is provided with three places and is used for keeping moving about fishline guider 10A, 10B and 10C.Near above-mentioned three places of joint pole 10, be provided with guider mount pad ZA, ZB and ZC.In addition, at leading section pole point guide 10T is housed.Label 12 expression seat poles.Fishing rod in this example is got by three pole spreadings, also has the basic pole that does not indicate among the figure.

As described later, when joint pole moulding, on surface as the joint pole 10 of the bar portion main body of fishing rod, pre-preg sheet by coiling fiber-reinforced resin in joint pole moulding pre-preg etc., be overall shaped into each guider mount pad, also can be after joint pole moulding, global formation again.By the grinding after the moulding section is finish-machined to circle, and on guider mount pad surface, along the circumferential direction, to form many concavo-convex J that extend along its length to determining deviation.Yet, in this example, near the rear end of each guider mount pad, form the cylindrical portion E that does not have concavo-convex and circular surface is arranged.

Move about fishline guider 10A, 10B, 10C also can be provided for being installed in the assembling tube portion on above-mentioned each guider mount pad as shown in Figure 4; Be used to guide the lead ring G of fishline; The framework F that connects this lead ring and above-mentioned assembling tube portion.Lead ring G adopts the high-abrasive material that is made of metals such as pottery such as carborundum or stainless steels to make.The assembling tube T of portion is made by synthetic resin or metal, and framework F also can be made by metal or synthetic resin.

Represented among Fig. 2 is that guider mount pad ZB with the centre position is the vertical section of example, and two other guider mount pad too.Near the rear end of guider mount pad ZB the cylindrical portion E, in this example, also be provided with around concavo-convex J of whole circle.Fig. 3 represents along the cross section enlarged drawing of the arrow line C-C of Fig. 2.The raised line J1 of concavo-convex J and recessed J2 alongst extend.In this manual, recessed is also sometimes referred to as groove.Behind the conglobate surperficial ZBS of grinding residual raised line face width be that a, groove width are b, a+b is that a rib is apart from P.In this example, enclose the land with identical rib apart from forming concavo-convex around whole.

Groove depth f, roughly certain in the more than half area L 1 of concavo-convex front end.But the bottom wall thickness t of the deepest part of groove is t1 at the front end of area L 1, in the rear end be t2 (＞t1); Therefore, thickening gradually from front to back.That is, the height of concavo-convex groove bottom uprises from front to back gradually, also, when forming circular surface ZBS when the periphery of grinding guider mount pad, forms the thin taper guider mount pad of front end.In the shorter area L 2 of concavo-convex rear end, groove depth has A-P to shoal gradually, finally reaches the surface of cylindrical portion E.

Because the groove depth f in the above-mentioned zone length L 1 of length direction is roughly certain, therefore when the assembling tube portion of guider of fishline is moved about in insertion, will feel has the tight combination of stinging of very strong specified rate, can be tightened in reliably on the given position of guider mount pad.And because concavo-convex groove bottom height increases gradually in the rear end, therefore be pressed into the rear end, just can produce firm combination by assembling tube portion with the fishline guider.In addition, because rear portion in guider mount pad zone of concavo-convex terminal (remaining have cylindric E), therefore can prevent to be pressed into the fishline guider that moves about in the guider mount pad because of concavo-convex wearing and tearing of concavo-convex, tin portion one side of mount pad one side, not note situation about will deviate from slightly from the rear portion.

In addition, for weight reduction, bottom land wall thickness t1, the t2 of above-mentioned guider mount pad are preferably wall thickness T 1, the T2 that is thinner than the joint pole 10 that is positioned at its relevant position respectively.And the bottom land wall thickness t of the area L 1 between this is also thin than the wall thickness T that is positioned at joint pole herein.Groove depth f can be 0.1mm for instance.Groove depth f is the shallow slot that is about 0.02～0.2mm.Therefore, can make the attenuation of guider mount pad thickness, in this example, the wall thickness of guider mount pad (t+f) is preferably 0.2～0.4mm or 0.2～0.5mm, is about 30～80% of joint pole 10 wall thickness (T1+T2)/2.Like this, can prevent infringement, and be expected to alleviate the weight of fishing rod flexibility.

The skewed layer difference mitigation DS1 of portion, the DS2 that can also be provided with forwards in the front-end and back-end of guider mount pad respectively, the rear height reduce gradually.This mitigation part also can be made with synthetic resin and coating.This step difference relaxes part, but concentrates except the stress of accommodation kink pole when crooked, also has the effect that improves outward appearance.

In the assembling tube T of portion of the fishline guider that respectively moves about, enclose, form have be arranged at each corresponding guider mount pad on concavo-convex J ' of concavo-convex the identical rib distance of J.Because of in conjunction with the time, raised line and recessed can all mutually combine, and therefore, can be subjected to impartial load effect, thereby improve durability.Fig. 5 represents this bonding state.Fig. 6 is the partial enlarged drawing of this state.

The groove depth f of concavo-convex J of mount pad is more shallow than the groove depth f ' (height of raised line J1 ') of the groove J2 ' of concavo-convex J ' of tube portion one side of the fishline guider that moves about.In addition, the toe angle θ of the chevron raised line J1 ' of concavo-convex J ' of tube portion one side is about 90 degree at this in the scope of 60 degree～120 degree.

On the other hand, the shape of concavo-convex groove J2 of mount pad one side is wide and shallow, in this example, is the curve form of circular or an oval-shaped part.As shown in Figure 6, because groove J2 is shallow and wide, so, the chevron raised line J1 ' of concavo-convex J ' of tube portion one side touches with the bottom connection of groove J2, and, between the raised line J1 of concavo-convex J of mount pad one side, leave gap SP1, the SP2 of larger proportion on left side and the right side of chevron raised line J1 '.In addition, between the groove J2 ' of concavo-convex J ' of the end face of the raised line J1 of concavo-convex J of mount pad one side and tube portion one side, also formed bigger gap SP3.Therefore, although the raised line J1 ' of concavo-convex J ' of tube portion one side touches with the bottom connection of the lower position of the groove J2 of concavo-convex J of mount pad one side, but owing to the wearing and tearing that can prevent to contact and cause, so can improve the durability of concavo-convex J with shallow slot because of left and right edges with raised line J1.

As mentioned above, when wall thickness more shallow when concavo-convex groove depth or the guider mount pad was thin, convex strip portions damaged easily, if but adopt following structure, just can prevent concavo-convex damage, thereby can improve durability.

Promptly, a kind of fishing rod can be provided, it is characterized by: have a plurality of outsides that are positioned at the fishing rod part given position of making by fiber-reinforced synthetic resin and with the guider mount pad form one, that extend along the length direction of fishing rod part in the periphery of this guider mount pad, circumferencial direction with given rib apart from form, concavo-convex of mount pad one side; This groove of concavo-convex is from this concavo-convex top to the very shallow and very wide form of width of the groove depth of its bottom; The assembling tube portion of fishline guider is installed in this concavo-convex groove, encloses in it to have rib concavo-convex apart from tube portion one side identical with concavo-convex rib distance of above-mentioned mount pad one side; Concavo-convex groove depth of this one side is more than the twice of concavo-convex groove depth of above-mentioned mount pad one side; And raised line roughly is chevron, and its drift angle is in 60 degree～120 degree scopes.

Like this, because concavo-convex groove of mount pad one side is shallow and wide, concavo-convex groove depth of tube portion one side of same rib distance is more than the twice of groove depth of concavo-convex of mount pad one side, and, raised line roughly is chevron, its drift angle is in the scope of 60～120 degree, therefore, the chevron raised line top that can prevent tube portion one side under bonding state contacts with concavo-convex bottom land of mount pad one side, and can prevent the edge of chevron part and the groove of mount pad one side of the raised line of a portion one side, promptly the side edge of mount pad one side raised line is touched.Therefore, can protect easily by the edge of knocking-on breach or wearing and tearing, the groove that long term maintenance is shallow, and improve wearability.In addition, because groove is very shallow, thus can make the wall thickness of guider mount pad thinner, and the raising and the weight reduction that are expected to slow down flexural rigidity.

In addition, each fishline guider that moves about has the various sizes form, like this, except can being extracted from the front by corresponding guider mount pad, can also make the fishline guider that moves about that is positioned at the back by being positioned at the guider mount pad of front.And the maximum outside diameter of each guider mount pad is littler than the front inner diameter of seat pole 12.Therefore, joint pole 10 can be housed inside in the pole 12, and can extract out.

Fig. 7 is the schematic diagram of another embodiment of guider mount pad, and Fig. 8 is the cross section enlarged drawing along arrow line H-H.Concavo-convex J can not be provided in a side of on the whole circumference of guider mount pad ZB ', but in only a part of therein scope, for example in the scope of 120 degree～270 degree.Therefore, beyond this angular range, residual have a circular surface.

Fig. 9 represents to carry out grinding guider mount pad ZB before to concavo-convex, and as shown in the figure, the surperficial ZBS of guider mount pad ZB is processed to the state of high-precision circle.Saving pole 10 or be shaped on the raw-material appropriate location of the pole that saves pole 10, by formation tubular thickening parts such as coiling fiber-reinforced resin pre-preg sheets, like this, because pre-preg sheets etc. exist coiling starting end and coiling clearing end, therefore, how can produce so-called wall thickness and not wait problem.Even by hot briquetting, the periphery of tubular thickening part generally can not be high-precision circle yet, therefore needs grinding.

In addition, can produce the moulding bending because of hot briquetting because joint pole itself is also many, easily deflection, therefore, form high-precision when circular on the surface that makes the tubular thickening part by grinding, catch joint pole 10 to make its rotation with instrument etc.,, be not in the mood for processing so will utilize usually owing to be difficult in the case keep the stable of axle center.Usually, have the axle center CL2 of the guider mount pad ZB of the high-precision circular surface ZBS that processes like this, inconsistent with the axle center CL1 of this locational joint pole 10.But guider mount pad surface ZBS still can form high-precision circle.

Also can not adopt above-mentioned centerless grinding, but adopt with on clampings such as the machine chuck joint pole 10 apart from tubular thickening part end 30mm with interior part, envoy's pole 10 rotates, and grinding is carried out on the surface of tubular thickening part.In this case and since clamping be the part very near apart from the tubular thickening part, so can produce skew hardly as the tubular thickening part of grinding object, thereby can make axle center CL1 almost consistent with axle center CL2.Therefore, this method is compared with the method that adopts centerless grinding, and the wall thickness of tubular guider mount pad is more even at circumferencial direction, can make to form concavo-convex required wall thickness minimum, thereby alleviate the weight of fishing rod.

Figure 10 along the circumferential direction, is provided with many simplified diagram along the operation of concavo-convex J of the length direction extension of joint poles 10 with the spacing of stipulating on the surperficial ZBS of the guider mount pad that is processed into high-precision circle shown in Figure 9.When the groove of this concavo-convex J of grinding, utilize near the cylindrical portion E in rear end of chuck TK clamping guider mount pad surface ZBS, to save pole 10 and remain on horizontal direction, and keep this clamp position, make instrument shown in Figure 11 (milling cutter) TL rotation, meanwhile, on the guider mount pad, be milled into alongst groove.Adding man-hour, can be provided for holding the supporting member UK of the lower surface of guider mount pad ZB, to prevent to save pole 10 deflections.Then,, rotate given rib distance, and adjacent channels is similarly carried out grinding, repeat this operation then, like this, just make Fig. 1, guider mount pad shown in Figure 2 with chuck TK clamping guider mount pad.

Also can not rotate above-mentioned chuck TK, but strengthen the chucking power of chuck, rotate given rib elongation degree with other method envoy pole 10, under this state, clamp same cylindrical portion E once more, TL is processed to form groove with instrument.Which kind of method that don't work, that clamp with chuck all is above-mentioned cylindrical portion E as the part of the peripheral surface ZBS of guider mount pad, rather than the peripheral surface of joint pole 10 itself.Like this, clamp the part of peripheral surface ZBS that grinding becomes the guider mount pad of high precision cylindrical, on this peripheral surface ZBS, process the groove of given depth with instrument TL.

In this processing method, even rotation is as the guider mount pad ZB (with the joint pole) of groove processing object thing, because the peripheral surface ZBS of this guider mount pad is high-precision circle, so, the cutting-in of the above-mentioned instrument TL that sets at first even rotating on each position after arbitrarily angled, instrument and the opposed peripheral surface of guider mount pad, need not revised the setting of measurement etc. yet, and can still adopt original setting, and obtain and initial identical cutting-in.That is, groove is being added man-hour, always because the rounded periphery face ZBS of high-precision guider mount pad in clamping, therefore, no matter the anglec of rotation how, always can make the groove depth that is processed by instrument TL keep certain.This situation in method of the present invention (claim 14), is a benchmark with the periphery of the guider mount pad of circle, is illustrated.

The end view of used instrument TL in the above-mentioned example of Figure 11 (b) expression.The front end of rotating shaft JK is equipped with cutter HA, utilizes the fixed part KB of rotating shaft front end that cutter HA is fixed.(a) be front view.The shape of above-mentioned groove J2 is by the shape decision of cutter HA.

Below, illustrate and the situation of Figure 10 processing method different, when on the peripheral surface of whole guider mount pad, making concavo-convex J.Chuck from up and down or about clamp the guider mount pad, in the chuck outside opening portion must be set, so that the peripheral surface of guider mount pad is exposed.Situation according to the peripheral surface of the guider mount pad that exposes in this opening portion is set depth of cut, peripheral surface is contacted with cutter on the instrument, thereby form groove along its length on the total length of peripheral surface.

Whenever process after the groove, chuck is rotated once, or unclamp chuck, make chuck rotate given angle, clamp the guider mount pad with chuck again, process another groove, repeat this operation then.Therefore, under the situation that is spreading all over the whole processing grooving of enclosing the land, also can clamping process concavo-convex.This processing unit (plant) can replace with plain-milling machine.Under situation about making in this way, same with the method for concavo-convex of the illustrated formation of Figure 10, periphery with circular guider mount pad is (according to circumstances different, also can be that circular guider mount pad is placed concavo-convex residual raised line surface outward) be benchmark, also can keep the degree of depth of each groove certain at an easy rate.

Figure 12 is the schematic diagram of an example that is used to illustrate the manufacture method of the joint pole 10 that is provided with guider mount pad shown in Figure 1.This body and function of seat pole of on core bar 20, reeling pre-preg sheet 22, then, the appropriate location in its outside, reeling is used to form pre-preg sheet 24A, 24B, the 24C of guider mount pad.Also can earlier this each pre-preg sheet be overlapped with this body and function pre-preg sheet 22, they are reeled simultaneously.In addition, can set the kind, sheet number, thickness, winding number, material etc. of each pre-preg sheet arbitrarily.

Behind coiling pre-preg sheet, according to conventional method, the coiling restraint zone heats under this state and fires.Then, remove and take out restraint zone and core bar, make the joint pole.After this, when the peripheral surface to the guider mount pad is processed to form circle, make concavo-convex simultaneously.

For being used in the pre-preg sheet that forms the guider mount pad flexibility of seat pole significantly not being damaged, is 5 with elastic modelling quantity preferably, 000kgf/mm ²(49,000N/mm ²) following low elastic modulus carbon fiber is as fortifying fibre.For example, can use elastic modelling quantity is 1,000kgf/mm ²(9800N/mm ²) the fortifying fibre of carbon fiber one-way stretch orientation be immersed in the epoxy resin and simple tension orientation sheet material, the differently-oriented directivity of this carbon fiber is the length direction of joint pole.Use the pre-preg material of the fortifying fibre of low elastic modulus, not only can suppress the raising of rigidity, simultaneously, can also improve intensity and durability by fiber along its length.

In the above description, be to be example explanation guider mount pad with specific guider mount pad ZB, other guider mount pad is identical with it.In addition, in the above-mentioned explanation, be example explanation fishing rod part, and it is identical with it to be provided with the fishing rod part of other kind of guider mount pad with the joint pole.Illustrated each side does not have special contradiction among the different embodiment, and is suitable equally in other embodiments.

Now, be described in detail according to Figure 13～second embodiment shown in Figure 17.

Figure 13 is the toe side view of outer guiding type fishing rod of the present invention.In this second embodiment, basic pole (among the figure indicate), middle pole 12 and 10 3 poles of joint pole can be pegged graft, thereby form the plug-in type fishing rod, also can form spliced etc.Each fishing rod part is to be base material with synthetic resin such as epoxy resin, the fiber-reinforced resin system fishing rod part that strengthens with fortifying fibres such as carbon fibers.Owing to be plug-in type, basic pole, middle pole are hollow tube, and joint pole 10 can be hollow tube, also can be solid hopkinson bar.Pole point guide TG is fixed on the joint pole, and in this example, the periphery at joint pole length direction has three places to be provided with guider mount pad Z1, Z2, Z3.In addition, on middle pole 12, the guider mount pad that has two places to be provided with not indicate among the figure.

The guider mount pad is made by fiber-reinforced resin or synthetic resin etc., forms one with fishing rod part.On these guider mount pads, mobile guide device YG1, YG2, YG3 can be installed respectively.In addition, also there is the mobile guide device that does not indicate among two figure.As mentioned above, owing to be plug-in type, with regard to the joint pole, be installed in the mobile guide device YG3 on the guider mount pad Z3 of rearmost end, can pass through guider mount pad Z2, the Z1 of front end, and mobile guide device YG2 can pass through guider mount pad Z1, like this, when collection, each mobile guide device all focuses near the pole point guide TG.

Figure 14 (a) (b) (c) part of being respectively guider mount pad Z1, Z2, Z3 position amplifies drawing in side sectional elevation.In the present embodiment, the most approaching recessed the OJ1S of guider mount pad Z1 of plane H that contains the center (indicating among the figure) of pole point guide TG and save the central axis C L (Figure 16) of pole 10 is positioned on this plane, and recessed OJ2S, the OJ3S of the plane H of the most approaching other guider mount pad Z2, Z3 also are positioned on the H of plane, therefore, each mount pad is positioned on the identical angle position each other.But, also can be not on the H of this plane near recessed of plane H, as long as mount pad coplane each other.More than, raised line also is suitable for.In addition, the rib elongation degree θ of each recessed OJ1, OJ2, OJ3 is also mutually the same, is 12 degree in the present embodiment.Form raised line TJ1, TJ2, TJ3 between recessed.

As mentioned above, near the guider mount pad of rear position, concavo-convex the rib distance at circumferencial direction on it is long more.Therefore, when under the big situation of raised line lower width change the mobile guide device being installed, concavo-convex durability of the mount pad at rear improves.As shown in figure 14, near the mount pad of rear position, the wall thickness of its guider mount pad is thick more, but this thickness is arbitrarily, but also thickness is identical.

Figure 15 is for being the front view of the mobile guide device of representative with YG1.Other mobile guide device is identical with it.By hard materials such as pottery lead ring R1 that makes and the assembling tube T1 of portion that makes by synthetic resin or fiber-reinforced resin, utilize the frame body F1 that makes by metal or synthetic resin to connect up and down.Perimembranous in assembling tube portion with certain rib elongation degree (being 12 degree in this embodiment), forming and points to the raised line TJ1 ' that assembles the tube central axis TC1 of portion direction and recessed.On the periphery given position of this assembling tube T1 of portion, form protuberance TK, on the given position of frame body F1, be provided with the recess FK that is used for the assembling frame support body.

Utilize the combination of this protuberance and recess, the raised line TJ1 ' S of the plane H ' of the central axis TC1 of the most approaching center C that contains lead ring R1 1 and the assembling tube T1 of portion in this concavo-convex is positioned on the H ' of this plane.Other two mobile guide device YG2, YG3 are identical therewith.Yet, also can be not on this plane, as long as mount pad is positioned at same angle position each other near the raised line of plane H '.More than, recessed also is suitable for.

As shown in Figure 4, in the time of on above-mentioned mobile guide device YG1 being installed in guider mount pad Z1, if make recessed given OJ1S of the given raised line TJ1 ' S of a side and mount pad one side opposed, then can be under the above-mentioned plane H ' state consistent with plane H installation mobile guide device.That is, YG1 and pole point guide TG arranges in a line on the mobile guide device.Other mobile guide device is identical therewith.In the present embodiment, mount pad one side has concavo-convex 30, and cylinder one side also has 30 concavo-convex, when all in conjunction with the time, the load stepless action, can improve concavo-convex durability.

Figure 17 is near the amplification profilograph the guider mount pad Z1.Being located at the bottom thickness t of recessed OJ1 among a plurality of concavo-convex of periphery of the thin fishing rod part of front end 10, promptly can be to be certain thickness to the rear end by front end, and also the rear is thicker.In this example, cumulative to back-end location P2 thickness from front position P1, after this, when roughly reaching back-end location P3, thickness increases suddenly, is taper.

Like this, can prevent that the mobile guide device from moving too backward, dynamics is strong excessively, so that is deviate from by the rear end.In addition, difference of height (groove depth) f of raised line end face and recessed bottom surface, between position P2 and P3, be roughly certain.From position P2 to P3, groove depth gradually goes to zero.Other guider mount pad is identical therewith.In a word, because after leaning on more, high more in each guider mount pad with respect to the height of concavo-convex recessed bottom surface saving the pole central axis, therefore, as the mobile guide device is moved backward, can each guider mount pad of compression clamping.In addition, because groove depth is roughly in the given length of length direction necessarily, therefore, when inserting mobile guide device assembling tube portion, therefore the interlock that can feel specified rate consumingly can be tightened on the guider mount pad effectively.

Be provided with in the rear end of guider mount pad and do not form concavo-convex zone, also this zone can be set on Zone Full.In order to reduce the drop of guider mount pad front-end and back-end, move reposefully and installation mobile guide device, also available synthetic resin or coating are provided with rake Z1 '.Other guider mount pad is identical therewith.This structure can prevent effectively that stress is concentrated.

Below illustrate and make above-mentioned groove depth f keep certain method at circumferencial direction.

Make guider mount pad and fiber-reinforced synthetic resin system fishing rod part form one in the outside of given position, it has: the operation that this guider mount pad periphery is processed into the circle of given accuracy; Periphery with this circular guider mount pad is a benchmark, processes the operation of the groove that extends along its length on the guider mount pad, like this, just can make the degree of depth of a plurality of grooves of given rib distance roughly keep certain at circumferencial direction.

Given accuracy is meant, the minimum length to guider mount pad periphery (radius) that records with the center of circle by the external minimum circumscribed circle of the guider mount pad that is processed into (radius is R1) is R2, R1-R2 is made as Δ, it is given accuracy, its value is preferably below the 0.03mm for below the 0.05mm.

Periphery with the guider mount pad of circle is a benchmark, being processed into the groove that extends along its length on the guider mount pad is meant, when working groove, utilizing chuck to clamp under the state of guider mount pad, or process under the state with supporting members support guider mount pad, the former is because the axle center of chuck is consistent (promptly with the axle center of guider mount pad, the locus of the central hub of chuck can be caught usually, typical case is on certain position), therefore, the axle center of guider mount pad is always on identical position (being typically in certain position); And, always can capture the axle center (being typically on certain position) of the guider mount pad of extrapolating from the bearing-surface of supporting member for the latter.

Rotate even process conglobate guider mount pad,, therefore can keep the axle center of guider mount pad constant owing to be that rounded periphery with given accuracy is a benchmark.Thereby the periphery as the guider mount pad of the object of need processing grooving no matter whether it rotates, all can remain on fixed position.That is, for example, carry out the groove first being processed, the locus such as height by measuring the guider mount pad peripheral surface that waits decision still can keep certain by rotation.Therefore, when processing the operation of grooving at first, the degree of depth by the incision of guider mount pad peripheral surface even after this rotation is arranged, still can keep initial depth, and needn't measure repeatedly.Like this, just easy on the circumferencial direction of guider mount pad, make the degree of depth and be roughly certain a plurality of grooves.

More than in different embodiment the illustrated short of special contradiction of each side, also can be suitable for mutually in other embodiments.

The effect of invention

Can find out that from above explanation the present invention can provide a kind of reinforcement at fishing rod part On process a plurality of concavo-convex when forming the guider mount pad, can efficiently and at low cost make Groove depth keeps certain manufacture method. In addition, the present invention also can provide a kind of and can will angle reliably Line-oriented device is tightened in the guider mount pad and in light weight, the fishing rod that flexibility is good.

The present invention also can provide a kind of many places of the length direction saving pole that guider is set and install During seat, motion guiding device and pole point guide is arranged in a linear accurately, simultaneously can Prevent the fishing rod concavo-convex damage, that durability is improved on the mount pad of rear.

Claims (14)

1. a fishing rod is characterized in that, the guider mount pad forms one at the outside and the described fishing rod part of the fishing rod part given position of being made by fiber-reinforced synthetic resin;

In the periphery of described guider mount pad, have along concavo-convex of a plurality of mount pads one side extension of fishing rod part length direction, that also along the circumferential direction form;

From the groove depth of described concavo-convex top to bottom, on the circumferencial direction of described guider mount pad, be roughly necessarily, simultaneously, in the given length of length direction, also be roughly necessarily,

In the assembling tube portion of the fishline guider of installing thus, enclose, have rib apart from concavo-convex rib of described mount pad one side concavo-convex apart from identical tube portion one side.

2. fishing rod as claimed in claim 1 is characterized in that, concavo-convex groove bottom height of described mount pad one side increases during to the rear end gradually.

3. fishing rod as claimed in claim 1 is characterized in that, concavo-convex terminal of described mount pad one side is the rear end in the guider mount pad zone.

4. as any one described fishing rod in the claim 1～3, it is characterized by, concavo-convex groove depth of described mount pad one side is more shallow than concavo-convex groove depth of described tube portion one side.

5. fishing rod, it is characterized in that, has pole point guide, simultaneously, the many places of saving the length direction of pole periphery in the thin fiber-reinforced resin system of front end are provided with the guider mount pad, periphery at described each guider mount pad, be respectively equipped with point to joint pole length direction, certain rib elongation degree is arranged a plurality of concavo-convex, in recessed of each mount pad, with immediate recessed of the plane of containing pole point guide center and joint pole central axis, to the angle position on this plane and concavo-convex rib elongation degree, identical each other at each mount pad

Enclose in the assembling tube portion of the mobile guide device on being installed on each guider mount pad, have certain concavo-convex of rib elongation degree; The concavo-convex number of described tube portion one side is the integral multiple that comprises with concavo-convex several similar numbers of described mount pad one side; In the raised line of tube portion one side,,, identical each other at each mobile guide device to the angle position on this plane and concavo-convex rib elongation degree with the immediate raised line in plane of the lead ring center of containing each mobile guide device and cylinder center's axis.

6. fishing rod as claimed in claim 5 is characterized in that, the groove depth from concavo-convex top to bottom of described mount pad one side is roughly necessarily at circumferencial direction; Simultaneously, in the given length of length direction, also be roughly necessarily.

7. as claim 5 or 6 described fishing rods, it is characterized in that the concavo-convex number of described tube side is identical with the concavo-convex number of described mount pad one side.

8. as any one described fishing rod in the claim 1～3, it is characterized in that, has pole point guide, simultaneously, the many places of saving the length direction of pole periphery in the thin fiber-reinforced resin system of front end are provided with the guider mount pad, periphery at described each guider mount pad, be respectively equipped with and point to joint pole length direction, a plurality of concavo-convex of certain rib elongation degree arranged, in recessed of each mount pad, with immediate recessed of the plane of containing pole point guide center and joint pole central axis, to the angle position on this plane and concavo-convex rib elongation degree, identical each other at each mount pad

Enclose in the assembling tube portion of the mobile guide device on being installed on each guider mount pad, have certain concavo-convex of rib elongation degree; The concavo-convex number of described tube portion one side is the integral multiple that comprises with concavo-convex several similar numbers of described mount pad one side; In the raised line of tube portion one side,,, identical each other at each mobile guide device to the angle position on this plane and concavo-convex rib elongation degree with the immediate raised line in plane of the lead ring center of containing each mobile guide device and cylinder center's axis.

9. fishing rod as claimed in claim 4, it is characterized in that, has pole point guide, simultaneously, the many places of saving the length direction of pole periphery in the thin fiber-reinforced resin system of front end are provided with the guider mount pad, periphery at described each guider mount pad, be respectively equipped with point to joint pole length direction, certain rib elongation degree is arranged a plurality of concavo-convex, in recessed of each mount pad, with immediate recessed of the plane of containing pole point guide center and joint pole central axis, to the angle position on this plane and concavo-convex rib elongation degree, identical each other at each mount pad

Enclose in the assembling tube portion of the mobile guide device on being installed on each guider mount pad, have certain concavo-convex of rib elongation degree; The concavo-convex number of described tube portion one side is the integral multiple that comprises with concavo-convex several similar numbers of described mount pad one side; In the raised line of tube portion one side,,, identical each other at each mobile guide device to the angle position on this plane and concavo-convex rib elongation degree with the immediate raised line in plane of the lead ring center of containing each mobile guide device and cylinder center's axis.

10. as claim 2 or 3 described fishing rods, it is characterized in that the groove depth from concavo-convex top to bottom of described mount pad one side is roughly necessarily at circumferencial direction; Simultaneously, in the given length of length direction, also be roughly necessarily.

11. fishing rod as claimed in claim 4 is characterized in that, the groove depth from concavo-convex top to bottom of described mount pad one side is roughly necessarily at circumferencial direction; Simultaneously, in the given length of length direction, also be roughly necessarily.

12., it is characterized in that the concavo-convex number of described tube side is identical with the concavo-convex number of described mount pad one side as claim 2 or 3 described fishing rods.

13. fishing rod as claimed in claim 4 is characterized in that, the concavo-convex number of described tube side is identical with the concavo-convex number of described mount pad one side.

14. the manufacture method of a fishing rod is characterized in that, the guider mount pad forms one at the outside and the fishing rod part by the given position of the fishing rod part of fiber-reinforced synthetic resin system, and has:

The periphery of described guider mount pad is processed into the operation of the circle of given accuracy; With

Periphery with the guider mount pad of described circle is a benchmark, on the guider mount pad, processes the operation of the groove that extends along its length,

The degree of depth of a plurality of grooves of described given rib distance is roughly necessarily at circumferencial direction.

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