JP2004057144A - Double bearing reel provided with speed changer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a double bearing reel enabling smooth winding of a handle in balanced state, free designing of the speed changer and the rotational ratio and easy and smooth switching operation, causing little troubles, facilitating the design of multi-stage speed change, having a simple construction and excellent durability, suitable for mass production, producible at a low cost and having excellent handleability and convenience. <P>SOLUTION: The reel is provided with a handle 7 connected to an end of a main shaft 5 and a spool 6 rotatably attached to the main shaft 5 in a manner to coincide the rotation centers of the handle and spool with the rotation center line of the main shaft 5. A counter shaft 40 is placed near the other end of the main shaft 5. The speed changer A has a primary speed changing mechanism A1 to transmit the rotational force of the main shaft 5 to the counter shaft 40 and a secondary speed changing mechanism A2 to transmit the rotational force of the counter shaft 40 to the spool clutch 47 of a main clutch mechanism C. The rotational force of the spool clutch 47 is freely transmitted to the spool 6 by the construction. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a dual-bearing reel provided with a transmission mainly used in sea fishing and the like, and in particular, to reduce blurring during a hoisting rotation operation of a handle and to achieve balance during a hoisting rotation operation of a handle. The gearbox is easy to handle and easy to set the rotation ratio of the spool, and it is easy to handle and easy to use. The present invention relates to a dual-bearing type reel having a transmission.
[0002]
[Prior art]
Conventionally, various types of dual-bearing reels of this type have been provided. For example, a transmission that requires a relatively large space between a handle and a spool is interposed, and a spool shaft is provided. There are provided many reels having a handle shaft parallel to and separated from the reel (for example, a fishing reel as disclosed in Japanese Utility Model Publication No. 5-14780).
[0003]
[Problems to be solved by the invention]
However, in the dual-bearing type reel as described above, since the handle shaft is located at a position distant from the spool shaft, a relatively large shake occurs during the hoisting rotation operation of the handle every time the rod moves up and down, There was a problem in that the balance during the hoisting rotation operation of the handle was poor, and it was difficult to rotate the handle smoothly.
Also, because the handle and the spool are relatively far apart in the left and right direction, every time the rod moves left and right, the handle shakes greatly left and right, and the balance during the hoisting rotation operation of the handle deteriorates, There were difficulties, etc. that made it difficult to rotate the handle smoothly. In addition, there is also a problem that the larger the number of shift stages of the transmission, the greater the above-mentioned blur.
In addition, there is a disadvantage that the setting of the rotation ratio of the spool is easily restricted.
[0004]
[Means for Solving the Problems]
Therefore, the present invention not only makes it possible to eliminate the above-mentioned difficulties and the like, but also makes it easy to perform a multi-stage shift without impairing the balance at the time of the winding rotation operation of the handle, and is easy to handle and excellent in usability, The present invention has been created in order to provide a dual-bearing type reel having a simple structure, excellent durability, suitable for mass production, inexpensive, and economical.
[0005]
Thus, in the dual-bearing type reel provided with the transmission according to the first aspect, the rotational force applied by the handle 7 is controlled by the one-way clutch mechanism D, the friction clutch mechanism E, the transmission A, and the main clutch mechanism C. , The handle 7 is connected to one end of a main shaft 5 through a one-way clutch mechanism D and a friction clutch mechanism E. At the same time, the rotation center line is formed so as to match the rotation center line of the main shaft 5, and the spool 6 is rotatably mounted on the main shaft 5, and the rotation center line is And a counter that is substantially parallel to the main shaft 5 near the other end of the main shaft 5. The transmission A is provided with a primary transmission mechanism A1 for transmitting the rotational force of the main shaft 5 to the counter shaft 40, and a transmission mechanism A for transmitting the rotational force of the counter shaft 40 to the spool clutch 47 of the main clutch mechanism C. The main clutch mechanism C includes a next transmission mechanism A2, and the main clutch mechanism C is configured to transmit the torque of the spool clutch 47 rotatably and slidably mounted on the main shaft 5 to the spool 6 freely. Adopted.
[0006]
Further, in the dual-bearing type reel provided with the transmission according to the second aspect, each of the primary transmission mechanism A1 and the secondary transmission mechanism A2 of the transmission A is configured to be capable of shifting at two or more speeds. Means were adopted.
[0007]
Further, in the dual-bearing type reel provided with the transmission according to the third aspect, the primary transmission mechanism A1 of the transmission A is slidably mounted on the main shaft 5 and is connected to the main shaft 5 via a key. 5, a first driving gear 30 rotatably and slidably mounted on the clutch body 45, and a second driving gear rotatably mounted on the main shaft 5. A gear 32, a first driven gear 31, which is always meshed with the first driving gear 30, is slidable with respect to the countershaft 40, and is capable of constantly transmitting rotational force to the countershaft 40 via a key; A second driven gear 33 which is always meshed with the driving gear 32, is slidable with respect to the countershaft 40, and is capable of constantly transmitting rotational force to the countershaft 40 via a key; By the sliding operation of 5, the clutch body 45 is detachably engaged with the first driving gear 30 or the second driving gear 32, and the rotational force of the main shaft 5 is applied to the first driving gear 30 or the second driving gear 32. A means for transmitting and transmitting the countershaft 40 so that the countershaft 40 can rotate at a variable speed is employed.
[0008]
Further, in the dual-bearing type reel provided with the transmission according to the fourth aspect, the secondary transmission mechanism A2 of the transmission A is rotatably mounted on the countershaft 40, and is rotatable with respect to the countershaft 40. A slidable first driving pulley 34 and a second driving pulley 36 slidably mounted on the counter shaft 40 and slidably mounted on the counter shaft 40, and a rotatable mounting on the main shaft 5. A first driven pulley 35, a second driven pulley 37 rotatable with the first driven pulley 35 and connected to the spool clutch 47 in a locked state, and wound around the first driven pulley 34 and the first driven pulley 35; And a toothed belt 39 wound around the second driving pulley 36 and the second driven pulley 37, and a toothed belt 38 fixed to the counter shaft 40. And a clutch pin 41 which is detachably engageable with the first driving pulley 34 or the second driving pulley 36. The sliding operation of the counter shaft 40 causes the clutch pin 41 to move to the first driving pulley 34 or the second driving pulley 36. The spool clutch 47 is removably engaged with the pulley 36 and transmits the rotational force of the countershaft 40 to the first driven pulley 35 or the second driven pulley 37 via the toothed belts 38 and 39 to rotate the spool clutch 47 at a variable speed. Means configured to be able to be adopted.
[0009]
Then, in the dual-bearing type reel provided with the transmission according to the fifth aspect, the rotational force applied by the handle 7 causes the one-way clutch mechanism D, the friction clutch mechanism E, the transmission A, and the main clutch mechanism C to rotate. A dual-bearing type reel configured to be transmitted to a spool 6 via a one-way clutch mechanism D and a friction clutch mechanism E so that one end of a main shaft 5 is connected to an alligator via a one-way clutch mechanism D and a friction clutch mechanism E. The spool 6 is formed so that its rotation center line coincides with the rotation center line of the main shaft 5. The spool 6 is rotatably mounted on the main shaft 5, and its rotation center line is aligned with the rotation center line of the main shaft 5. Near the other end of the main shaft 5 is formed a counter that is substantially parallel to the main shaft 5. The transmission A is provided with a primary transmission mechanism A1 for transmitting the rotational force of the main shaft 5 to the counter shaft 40, and a transmission mechanism A for transmitting the rotational force of the counter shaft 40 to the spool clutch 47 of the main clutch mechanism C. A main transmission mechanism A2, and the main clutch mechanism C is configured to be able to freely transmit the rotational force of a spool clutch 47 rotatably and slidably mounted on the main shaft 5 to the spool 6. A switching operation mechanism B for operating the transmission A is provided. The switching operation mechanism B is slidable in the pair of cam cylinders 50 and 60 fixed to the other side cover 4 and the cam cylinders 50 and 60, respectively. And a pair of sleeves 51 and 61 rotatably mounted on the cam cylinder, respectively. A pair of locking pins 53 and 63 housed in the long grooves provided in the 0 and 60, a pair of cams 58 and 68 having cam grooves in which the locking pins 53 and 63 are housed, and the cams 58 and 68, respectively. And a pair of timing gears 59 and 69 meshing with each other, and a shifter lever 71 fixed to one of the cams 58 and 68. The swing operation of the shifter lever 71 allows the timing to be adjusted. A pair of cams 58 and 68 are formed so as to be simultaneously rotated via gears 59 and 69, and the rotation of the cams 58 and 68 causes the locking pins 53 and 63 to move while being restricted by the cam grooves. The clutch body 45 of the primary transmission mechanism A1 is configured to be slid by the movement of the sleeve 51 through which the locking pin 53 passes, and the sleeve 6 through which the other locking pin 63 passes. A means is employed in which the counter shaft 40 of the secondary transmission mechanism A2 is slid by the movement of the clutch gear 41 so that the clutch pin 41 can be moved.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described based on illustrated examples.
The present invention relates to a dual-bearing reel provided with a transmission mainly used for sea fishing and the like, and the dual-bearing reel has a one-way clutch mechanism D and a rotational force applied by a handle 7. The transmission is rotatably transmitted to the spool 6 via the clutch mechanism E, the transmission A, and the main clutch mechanism C, and the switching operation of the transmission A can be performed by the switching operation mechanism B.
[0011]
1 is a main frame formed integrally with a metal material or the like as appropriate and formed so that the spool 6 can be accommodated in the center thereof. An appropriate metal frame plate to be screwed is shown. Reference numeral 3 in the figure denotes an appropriate metal or resin side cover (right side) which is screwed to one side of the main frame 1; Is the other (left) side cover made of a suitable metal or a suitable resin and screwed to the frame plate 2 (the other side of the main frame 1). The main shaft 5 is horizontally arranged so as to penetrate substantially the center of each of the main frame 1, the frame plate 2, the side cover 3, and the side cover 4.
[0012]
The spool 6 is mounted at a substantially central portion in the axial direction of the main shaft 5 via a bearing or the like so as to be freely rotatable in the forward and reverse directions, and the rotation center line of the spool 6 coincides with the rotation center line of the main shaft 5. It is formed so that. Further, a clutch plate 48 of the main clutch mechanism C is screwed at the center of the other side of the spool 6.
[0013]
The handle 7 is formed such that one end of the main shaft 5 is connected to an alligator via a one-way clutch mechanism D and a friction clutch mechanism E, and a rotation center line thereof coincides with a rotation center line of the main shaft 5. .
[0014]
That is, the rotation center line of the handle 7, the rotation center line of the spool 6, and the rotation center line of the main shaft 5 coincide with each other. A large shake does not occur during the hoisting rotation operation of the handle 7, the balance at the time of the hoisting rotation operation of the handle 7 is good, and the handle 7 can be reliably and smoothly rotated.
[0015]
In the drawing, reference numeral 8 denotes a drag lever which is screwed to a male thread portion of a center sleeve 10 to which a base end portion of the handle 7 is fixed so that the degree of use of the friction clutch mechanism E can be adjusted. One end of the main shaft 5 is rotatably mounted on the arm and is rotatably supported by one of the side covers 3 via a bearing.
[0016]
Further, reference numeral 11 in the figure denotes an outer housing fixed to the main shaft 5 through a groove locking pin 18 penetrated through the main shaft 5, and reference numeral 12 denotes a plate washer rotatably mounted on the center sleeve 10. Reference numeral 13 denotes a pressure plate mounted so as to be slidable and non-rotatable with respect to the center sleeve 10 in the direction of the center of the cylinder. Reference numeral 14 denotes a pressure plate provided around the other end of the center sleeve 10. Is a seat washer interposed between the flange portion and the outer housing 11, and 15 is a friction sheet interposed between the flange portion of the center sleeve 10 and the plate washer 12; , A friction sheet interposed between the plate washer 12 and the pressure plate 13. The retaining pin is penetrated and a part of the retaining pin is fitted into a notched peripheral groove of the main shaft 5. The retaining pin 17 prevents the center sleeve 10 from rotating with respect to the main shaft 5 without preventing the center sleeve 10 from rotating. The main shaft 5 is provided so as to be prevented from moving from a predetermined position.
[0017]
Thus, the rotational force applied to the handle 7 is transmitted to the center sleeve 10, transmitted from the center sleeve 10 to the plate washer 12 via the friction sheets 15 and 16, transmitted from the plate washer 12 to the outer housing 11, and It is configured to be transmitted from the housing 11 to the main shaft 5.
[0018]
The center sleeve 10, the outer housing 11, the plate washer 12, the pressure plate 13, the seat washer 14, and the friction sheets 15 and 16 constitute a friction clutch mechanism E. Is adjusted by rotating the drag lever 8 (tightening operation).
[0019]
In the figure, reference numeral 20 denotes a ratchet which is non-rotatably mounted on the center sleeve 10, and reference numeral 21 denotes a ratchet which is mounted on the side cover 3 so as to be swingable and is locked to the outer peripheral teeth of the ratchet 20. Is a spring for preventing the reverse rotation of the ratchet. Reference numeral 22 in the figure denotes a spring which can always urge the resilient force so that the stopper 21 is locked to the ratchet 20. The ratchet 20 and the stopper 21 , A spring 22 constitute a one-way clutch mechanism D.
[0020]
Incidentally, reference numeral 23 in the drawing denotes a cam plate fixed to the one side cover 3, and reference numeral 24 abuts on the cam plate 23 and allows the center sleeve 10 to rotate freely within a predetermined range (for example, 180 degrees). In the figure, reference numeral 25 denotes a drag lever fixed to the cam ring 24, and reference numeral 26 denotes a contact with a side surface of the drag lever 25, so that the swing operation of the drag lever 25 is smooth. In the figure, reference numeral 27 denotes a rubber seal ring capable of surrounding the bearing 26 and a pair of flat springs 28, and reference numeral 29 denotes a preset dial screwed to the center sleeve 10. 29.
That is, by the swinging operation of the drag lever 25, the contact position between the cam plate 23 and the inclined cam portion provided on the cam ring 24 changes, and the cam ring 24 can be arbitrarily separated and approached from the cam plate 23, The friction clutch mechanism E is configured to be able to change the working condition and the like.
[0021]
Then, in the other side cover 4, a counter shaft 40 whose other end of the main shaft 5 is substantially parallel to the waist is rotatably and slidably disposed. The transmission device A includes a primary transmission mechanism A1 that transmits the rotational force of the counter shaft 40, and a secondary transmission mechanism A2 that transmits the rotational force of the counter shaft 40 to the spool clutch 47 of the main clutch mechanism C.
[0022]
In addition, the transmission A includes a primary transmission mechanism A1 configured to be capable of shifting at two or more speeds and a secondary transmission mechanism A2 configured to be capable of shifting at two or more speeds. The transmission A as a whole is configured to be able to shift to four or more speeds.
[0023]
And, the primary transmission mechanism A1 of the transmission A is slidably mounted on the main shaft 5, and a clutch body 45 formed so as to constantly transmit the rotational force of the main shaft 5 via a key; The first driving gear 30 rotatably and slidably mounted on the cylindrical portion of the clutch body 45, the second driving gear 32 rotatably mounted on the main shaft 5, and the first driving gear 30 The first driven gear 31 slidable on the countershaft 40 and constantly transmitting rotational force to the countershaft 40 via a key, and meshes with the second driving gear 32 at all times. A second driven gear 33 slidable with respect to the shaft 40 and capable of constantly transmitting a rotational force to the countershaft 40 via a key. The claws of the clutch body 45 are detachably engaged with the engaging grooves of the first driving gear 30 or the engaging grooves of the second driving gear 32, and the rotational force of the main shaft 5 is applied to the first driving gear 30, Alternatively, the countershaft 40 is configured to be able to rotate at a variable speed by transmitting it to the second driving gear 32.
In the drawing, reference numeral 42 denotes a ball that abuts one end of the countershaft 40, reference numeral 43 denotes a spring that constantly presses the countershaft 40 through the ball 42 at the other end, and reference numeral 46 denotes a first spring. The collar is interposed between the first driving gear 30 and the second driving gear 32 and surrounds the claw portion of the clutch body 45.
[0024]
The secondary transmission mechanism A2 of the transmission A is rotatably mounted on the countershaft 40, and is slidably movable on the countershaft 40 with the first driving pulley 34 and rotatable on the countershaft 40. A second driving pulley 36 that is attached and slidable with respect to the counter shaft 40, a first driven pulley 35 that is rotatably mounted on the main shaft 5, and is rotatable with the first driven pulley 35. A second driven pulley 37 connected to the spool clutch 47 in a locked state, a toothed belt 38 wound around the first driven pulley 34 and the first driven pulley 35, a second driven pulley 36, and a second driven pulley 37 Belt 39 wound around the shaft and a countershaft 40 and penetrated and fixed, and a locking groove of the first driving pulley 34 or a second driving pulley. And a clutch pin 41 which can be detachably engaged with the engaging groove of the rim 36, and the sliding operation of the counter shaft 40 causes the clutch pin 41 to engage with the engaging groove of the first driving pulley 34 or The driving force of the counter shaft 40 is transmitted to the first driven pulley 35 or the second driven pulley 37 via the toothed belts 38 and 39 so as to be freely engaged and disengaged with the locking groove of the second driving pulley 36. The second driven pulley 37 is configured to rotate the spool clutch 47 at a variable speed.
[0025]
That is, by disposing the transmission A on the other end of the main shaft 5, the handle 7 and the spool 6 can be disposed at relatively close positions in the left-right direction. Even if the bearing type reel moves to the left and right, it is possible to reduce the left and right movement of the handle 7, the balance at the time of the hoisting rotation operation of the handle 7 is good, and the handle 7 can be reliably and smoothly wound up and rotated. I have. In addition, the number of gears of the transmission A is easily increased, and the blur is not increased even if the number of gears of the transmission A is increased. In addition, the setting of the rotation ratio of the spool is hardly restricted, and is formed so that it can be freely set.
[0026]
Next, the switching operation mechanism B for operating the transmission A will be described. First, the switching operation mechanism B for operating the primary transmission mechanism A1 of the transmission A includes the following components.
That is, reference numeral 50 in the drawing denotes a cam cylinder fixed to the other side cover 4 with a set screw, and reference numeral 51 denotes a sleeve slidably and rotatably mounted in the cam cylinder 50; Is a knob fixed to the sleeve 51 via a set screw, 53 in the figure is a locking pin that is penetrated by the sleeve 51 and is housed in an inclined groove provided in the cam cylinder 50, and 54 in the figure is A cam cap 55 attached to the other end of the clutch body 45 is a spring which constantly presses the cam cap 54 at one end via a ball 56, and 57 is a cam that It is a return spring compressed between the cap 54.
Thus, by the rotation operation of the knob 52, the sleeve 51 moves in the direction of the rotation center line of the main shaft 5 while rotating, and the clutch body 45 is moved via the spring 55, the ball 56, the cam cap 54, the return spring 57 and the like. The first driving gear 30 or the second driving gear 32 moves sideways so that the pawls of the clutch body 45 are locked in the engagement grooves of the first driving gear 30 or the second driving gear 32. It is composed.
[0027]
The switching operation mechanism B that operates the secondary transmission mechanism A2 of the transmission A includes the following components.
That is, reference numeral 60 in the drawing denotes a cam cylinder fixed to the other side cover 4 with a set screw, and reference numeral 61 denotes a sleeve slidably and rotatably mounted in the cam cylinder 60, and reference numeral 62 in the drawing. Is a knob fixed to the sleeve 61 via a set screw, 63 in the figure is a locking pin that is penetrated by the sleeve 61 and is housed in an inclined groove provided in the cam cylinder 60, and 64 in the figure is A push rod slidably and rotatably mounted in a small hole formed in the other end of the counter shaft 40. In the figure, reference numeral 65 denotes a spring contracted between the push rod 64 and the counter shaft 40. In the drawing, reference numeral 66 denotes a ball interposed between the sleeve 61 and the push rod 64.
Thus, the rotation of the knob 62 causes the sleeve 61 to move in the direction of the rotation center line of the counter shaft 40 while rotating, and the counter shaft 40 slides via the ball 66, the spring 65, the ball 42, the spring 43, and the like. Then, the clutch pin 41 is moved by the first driving pulley 34 or the second driving pulley 36, and the clutch pin 41 is locked by the locking groove of the first driving pulley 34 or the second driving pulley 36. It is configured so that:
[0028]
As shown in FIGS. 7 and 10, a switching operation mechanism B for operating the transmission A includes a pair of cam cylinders 50 and 60 fixed to the other side cover 4, and a pair of cam cylinders 50 and 60. A pair of sleeves 51 and 61 slidably and rotatably mounted on the cam cylinders 50 and 60, respectively. A pair of cams 58, 68 having pins 53, 63, a cam groove for accommodating the locking pins 53, 63, and a pair of cams 58, 68 which are externally fitted and fixed to each other and mesh with each other. Timing gears 59 and 69, a shifter lever 71 fixed to one of the cams 58 and 68, and a shifter cover 70 fixed to the other side cover 4; A pair of cams 58 and 68 are formed so as to be simultaneously rotated via timing gears 59 and 69 by a swing operation, and the locking pins 53 and 63 are regulated by the cam grooves by the rotation of the cams 58 and 68. And the clutch body 45 of the primary transmission mechanism A1 is slid by the movement of the sleeve 51 through which one of the locking pins 53 passes, and the sleeve through which the other locking pin 63 passes. The movement of the clutch shaft 41 can also be configured to slide the counter shaft 40 of the secondary transmission mechanism A2 by moving the clutch pin 41. In other words, the primary shift mechanism A1 and the secondary shift mechanism A2 are simultaneously operated by the swing operation of one shifter lever 71, so that a multiple-stage shift operation can be performed very easily.
[0029]
As shown in FIG. 11, the switching operation mechanism B for operating the transmission A is arranged so that the pair of timing gears 59 and 69 do not mesh with each other, and meshes with the pair of timing gears 59 and 69. The gear 76 may be fixed to the other end of the shift lever shaft 75, and the shifter lever 71 may be fixed to one end of the shift lever shaft 75. That is, the shifter lever 71 may be arranged so that the one side cover 3 is set aside so that the shifter lever 71 can be operated with the right hand.
[0030]
Further, the main clutch mechanism C is configured so that the rotational force of the spool clutch 47 rotatably and slidably mounted on the main shaft 5 can be freely transmitted to the spool 6 via the clutch plate 48. It is. That is, by sliding the spool clutch 47 along the rotation center line of the main shaft 5, the protrusion provided on one side of the spool clutch 47 is disengaged from the recess provided on the other side of the clutch plate 48. The spool 6 is freely locked, and the rotational force of the spool clutch 47 is transmitted to the clutch plate 48 so that the spool 6 rotates. When the line is wound by the spool 6, the spool clutch 47 is connected to the spool 6, and when the line is wound by the spool 6, the connection between the spool clutch 47 and the spool 6 can be released.
[0031]
The means for sliding the spool clutch 47 of the main clutch mechanism C includes, for example, a lever 80 swingably mounted on the frame plate 2 and a spool clutch 47 connected to a cam 81 fixed to the lever 80. And a clutch yoke 86, which is locked in a locking groove of the spool clutch 47 and whose spring force is constantly urged so as to always approach the frame plate 2. The slider 85 is slid by the swing operation of the lever 80, and the spool yoke 86 is moved in the left-right direction by a tapered portion provided on the slider 85, so that the spool clutch 47 can slide. I have. In the figure, reference numeral 83 denotes a spring post fixed to the frame plate 2. Both ends of the spring 82 are locked by the spring post 83 and the lever 80 so that the lever 80 can be constantly biased. Is formed.
Thus, by causing the lever 80 to swing against the elastic force of the spring 82, the linked state between the spool clutch 47 and the clutch plate 48 can be released.
[0032]
Incidentally, the specific configuration, shape, dimensions, and material of the dual-bearing type reel, the specific configuration of the transmission A, the arrangement position, the specific configuration of the primary transmission mechanism A1, the arrangement position, and the specific configuration of the secondary transmission mechanism A2 Configuration, disposition position, specific configuration of switching operation mechanism B, disposition position, specific configuration of main clutch mechanism C, disposition position, specific configuration of one-way clutch mechanism D, disposition position, friction clutch mechanism E Specific configuration, arrangement position, specific configuration, shape, dimensions, and material of the main frame 1, specific configuration, shape, dimensions, and material of the frame plate 2, specific configuration, shape, dimensions, and materials of the side cover 3 Specific configuration, shape, size, material of side cover 4, specific configuration, shape, dimension, material of main shaft 5, specific configuration, shape, dimension, material of spool 6, specific configuration, shape of handle 7, Size, Quality, specific configuration, shape, dimensions, and material of the drag lever 8, specific configuration, shape, dimensions, and material of the center sleeve 10, specific configuration, shape, dimensions, and material of the outer housing 11, and specific examples of the plate washer 12 Configuration, shape, dimensions, material, specific configuration, shape, dimensions, material of pressure plate 13, specific configuration of seat washer 14, shape, dimensions, material, specific configuration, shape, dimensions, material of friction sheet 15 Specific configuration, shape, size, material of friction sheet 16, specific configuration, shape, dimension, material of retaining pin 17, specific configuration, shape, dimension, material of groove locking pin 18, specific configuration of ratchet 20, Shape, dimension, material, specific configuration, shape, dimension, material of stopper 21, specific configuration, shape, dimension, material of spring 22, cam plate 23 Specific configuration, shape, dimension, material, specific configuration, shape, dimension, material of cam ring 24, specific configuration, shape, dimension, material of drag lever 25, specific configuration, shape, dimension, material of bearing 26, Specific configuration, shape, dimensions, and material of seal ring 27, specific configuration, shape, dimensions, and material of spring 28, specific configuration, shape, dimensions, and material of preset dial 29, and specific configuration of first driving gear 30 , Shape, size, material, specific configuration, shape, size, material of first driven gear 31, specific configuration, shape, size, material of second driven gear 32, specific configuration, shape of second driven gear 33 , Dimensions, material, specific configuration, shape, dimensions, material of first driving pulley 34, specific configuration, shape, dimensions, material of first driven pulley 35, specific configuration, shape, dimensions of second driving pulley 36 , Material, second driven pulley 37, specific configuration, shape, dimensions, material of the toothed belt 38, specific configuration, shape, dimensions, material of the toothed belt 39, specific configuration of the counter shaft 40, Shape, size, material, arrangement position, specific configuration, shape, size, material of clutch pin 41, specific configuration, shape, size, material of ball 42, specific configuration, shape, size, material of spring 43, Specific configuration, shape, size, material of clutch body 45, specific configuration, shape, size, material of collar 46, specific configuration, shape, size, material of spool clutch 47, specific configuration, shape of clutch plate 48 , Dimensions, material, specific configuration, shape, dimensions, and material of cam cylinder 50, specific configuration, shape, dimensions, and material of sleeve 51, specific configuration, shape, dimensions, and material of knob 52; Physical configuration, shape, dimensions, material, specific configuration, shape, dimensions, material of cam cap 54, specific configuration, shape, dimensions, material of spring 55, specific configuration, shape, dimensions, material, of ball 56, The specific configuration, shape, dimensions, and material of the return spring 57, the specific configuration, shape, dimensions, and material of the cam cylinder 60, the specific configuration, shape, dimensions, and the material of the sleeve 61, and the specific configuration and shape of the knob 62, Dimensions, material, specific configuration, shape, dimensions, material of locking pin 63, specific configuration, shape, dimension, material of push rod 64, specific configuration, shape, dimension, material of spring 65, specific of ball 66 Configuration, shape, dimensions, material, specific configuration of shifter cover 70, configuration, dimensions, material, specific configuration of shifter lever 71, configuration, dimensions, material, specific configuration of shift lever shaft 75, Shape, size, material, specific configuration, shape, size, material of gear 76, specific configuration, shape, size, material of lever 80, specific configuration, shape, size, material of cam 81, specific of spring 82 Configuration, shape, dimensions, material, specific configuration, shape, dimensions, material of spring post 83, specific configuration, shape, dimensions, material of slider 85, specific configuration, shape, dimensions, material, etc. of clutch yoke 86 are as follows. , Can be freely set and changed as appropriate without being limited to those shown in the drawings.
[0033]
【The invention's effect】
Therefore, according to the dual-bearing type reel of the first aspect of the present invention, the rotation center line of the spool 6 and the rotation center line of the handle 7 coincide with each other. Shaking is less likely to occur during operation, and the balance during the hoisting rotation operation of the handle 7 is improved, so that the handle 7 can be smoothly hoisted and rotated.
Further, the handle 7 has one end of the main shaft 5 connected to the alligator via the one-way clutch mechanism D and the friction clutch mechanism E, so that the handle 7 can be disposed closer to the spool 6 in the left-right direction. As a result, when the rod moves left and right, the handle 7 can be prevented from largely shaking left and right, the balance at the time of the hoisting rotation operation of the handle 7 is improved, and the handle 7 can be smoothly hoisted and rotated. become able to. In addition, even if the number of gears of the transmission A increases, the above-mentioned blur does not increase.
In addition, the dual-bearing type reel according to claim 1 of the present invention has a simple structure, excellent durability, suitable for mass production, low cost, economical, easy to handle, and excellent in usability. Become.
[0034]
In particular, a countershaft 40 substantially parallel to the main shaft 5 is disposed near the other end of the main shaft 5, and the transmission A transmits the primary transmission that transmits the rotational force of the main shaft 5 to the countershaft 40. Since it has the mechanism A1 and the secondary transmission mechanism A2 that transmits the rotational force of the countershaft 40 to the spool clutch 47 of the main clutch mechanism C, it is easy to provide a plurality of transmissions A on the main shaft 5 and the countershaft 40. Further, since the transmission A is provided on the side opposite to the handle 7 with the spool 6 interposed therebetween, the transmission A itself can be relatively freely designed and the rotation ratio of the spool 6 can be set. It is easy to set freely without restriction.
Further, since the transmission A is divided into a primary transmission mechanism A1 and a secondary transmission mechanism A2, the switching operation can be performed easily and smoothly, and the transmission A can be easily changed to a multi-stage transmission with less trouble. Become.
[0035]
Further, according to the dual-bearing type reel of the present invention, each of the primary transmission mechanism A1 and the secondary transmission mechanism A2 of the transmission A can be shifted to two or more stages, and the transmission A can be shifted to four stages. It can be configured more easily than shifting. In addition, the switching operation can be performed easily and smoothly, and the handling becomes easy. In other words, the transmission A is optimal for multi-speed transmission.
[0036]
Further, according to the dual-bearing type reel of the present invention, the rotational force of the main shaft 5 can be transmitted to the first driving gear 30 or the second driving gear 32 only by the sliding operation of the clutch body 45. Thus, the countershaft 40 can be rotated in two stages through the first driven gear 31 or the second driven gear 33. In other words, the primary speed change mechanism A1 can be easily configured for two-stage speed change, and the speed change operation can be performed reliably and smoothly.
[0037]
According to the dual-bearing type reel of the present invention, the rotational force of the counter shaft 40 can be transmitted to the first driving pulley 34 or the second driving pulley 36 only by the sliding operation of the counter shaft 40. As a result, the spool clutch 47 can be rotated in two stages through the toothed belts 38 and 39 and the first driven pulley 35 or the second driven pulley 37. That is, the secondary transmission mechanism A2 can be simply configured for two-stage transmission, and the transmission operation can be performed reliably and smoothly.
[0038]
Further, according to the dual-bearing type reel of the present invention, since the rotation center line of the spool 6 and the rotation center line of the handle 7 coincide with each other, even if the rod moves up and down, the winding rotation of the handle 7 is performed. Shaking is less likely to occur during operation, and the balance during the hoisting rotation operation of the handle 7 is improved, so that the handle 7 can be smoothly hoisted and rotated.
In addition, the handle 7 has one end of the main shaft 5 connected to the alligator via the one-way clutch mechanism D and the friction clutch mechanism E, so that the handle 7 can be disposed closer to the spool 6 in the left-right direction. As a result, when the rod moves left and right, the handle 7 can be prevented from largely shaking left and right, the balance at the time of the hoisting rotation operation of the handle 7 is improved, and the handle 7 can be smoothly hoisted and rotated. become able to. In addition, even if the number of gears of the transmission A increases, the above-mentioned blur does not increase.
In addition, the dual-bearing type reel according to claim 1 of the present invention has a simple structure, excellent durability, suitable for mass production, low cost, economical, easy to handle, and excellent in usability. Become.
[0039]
A counter shaft 40 substantially parallel to the main shaft 5 is disposed near the other end of the main shaft 5, and the transmission A transmits the primary speed to the counter shaft 40 by transmitting the rotational force of the main shaft 5 to the counter shaft 40. Since it has the mechanism A1 and the secondary transmission mechanism A2 that transmits the rotational force of the countershaft 40 to the spool clutch 47 of the main clutch mechanism C, it is easy to provide a plurality of transmissions A on the main shaft 5 and the countershaft 40. Further, since the transmission A is provided on the side opposite to the handle 7 with the spool 6 interposed therebetween, the transmission A itself can be relatively freely designed and the rotation ratio of the spool 6 can be set. It is easy to set freely without restriction.
Further, since the transmission A is divided into a primary transmission mechanism A1 and a secondary transmission mechanism A2, the switching operation can be performed easily and smoothly, and the transmission A can be easily changed to a multi-stage transmission with less trouble. Become.
[0040]
In particular, a pair of cam cylinders 50 and 60 fixed to the other side cover 4, a pair of sleeves 51 and 61 slidably and rotatably mounted in the cam cylinders 50 and 60, respectively, A pair of locking pins 53 and 63 penetrated by 51 and 61 respectively and housed in long grooves provided in the cam cylinders 50 and 60 and a pair of cam grooves having the locking pins 53 and 63 housed therein. The cams 58, 68, a pair of timing gears 59, 69 that are externally fitted and fixed to the cams 58, 68, respectively, and mesh with each other, and a shifter lever 71 fixed to one of the cams 58, 68. A pair of cams 58 and 68 are formed so as to be simultaneously rotated via timing gears 59 and 69 by the swing operation of the shifter lever 71. As a result, the locking pins 53 and 63 are moved by being restricted by the cam grooves, and the clutch body 45 of the primary transmission mechanism A1 is slid by the movement of the sleeve 51 through which one of the locking pins 53 passes. As a result, the counter shaft 40 of the secondary transmission mechanism A2 is slid by the movement of the sleeve 61 through which the other locking pin 63 is penetrated, so that the clutch pin 41 can be moved. By operating the primary transmission mechanism A1 and the secondary transmission mechanism A2 at the same time by the swinging operation of 71, a double-bearing type equipped with a transmission that is very easy to operate in a plurality of stages, is easy to handle, and is easy to use. Reel.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view illustrating a basic operation structure of a dual-bearing type reel according to the present invention.
FIG. 2 is a cross-sectional view illustrating a dual-bearing type reel of the present invention.
FIG. 3 is an exploded perspective view illustrating a transmission portion of the dual-bearing type reel of the present invention.
FIG. 4 is an exploded perspective view illustrating a switching operation mechanism portion in the dual-bearing type reel of the present invention.
FIG. 5 is an exploded perspective view illustrating a main clutch mechanism in the dual bearing reel of the present invention.
FIG. 6 is an exploded perspective view illustrating a one-way clutch mechanism and a friction clutch mechanism in the dual-bearing type reel of the present invention.
FIG. 7 is an exploded perspective view illustrating a switching operation mechanism portion in another dual-bearing type reel of the present invention.
FIG. 8 is an exploded perspective view illustrating a one-way clutch mechanism and a friction clutch mechanism in another dual-bearing type reel of the present invention.
FIG. 9 is a cross-sectional view illustrating another dual-bearing type reel of the present invention.
FIG. 10 is a cross-sectional view illustrating another dual-bearing type reel of the present invention.
FIG. 11 is a perspective view illustrating another dual-bearing type reel of the present invention.
[Explanation of symbols]
A transmission
A1 Primary transmission mechanism A2 Secondary transmission mechanism
B Switching operation mechanism
C Main clutch mechanism
D One-way clutch mechanism
E friction clutch mechanism
1 Main frame 2 Frame plate
3 Side cover 4 Side cover
5 Main shaft 6 Spool
7 Handle 8 Drag lever
10 Center sleeve 11 Outer housing
12 Plate washer 13 Pressure plate
14 Seat washer 15 Friction sheet
16 friction sheet 17 retaining pin
18 Groove locking pin
20 Ratchet 21 Stopper
22 Spring 23 Cam plate
24 Cam ring 25 Drag lever
26 Bearing 27 Seal ring
28 Sarabane 29 Preset dial
30 first driving gear 31 first driven gear
32 Second driving gear 33 Second driven gear
34 1st driven pulley 35 1st driven pulley
36 Second driven pulley 37 Second driven pulley
38 Toothed belt 39 Toothed belt
40 counter shaft 41 clutch pin
42 Ball 43 Spring
45 clutch body 46 color
47 Spool clutch 48 Clutch plate
50 Cam cylinder 51 Sleeve
52 Knob 53 Lock pin
54 Cam cap 55 Spring
56 ball 57 return spring
60 Cam cylinder 61 Sleeve
62 Knob 63 Lock pin
64 Push rod 65 Spring
66 balls
70 Shifter cover 71 Shifter lever
75 shift lever shaft 76 gear
80 lever 81 cam
82 spring 83 spring post
85 slider 86 clutch yoke

Claims (5)

A dual-bearing reel configured to transmit rotational force imparted by a handle to a spool via a one-way clutch mechanism, a friction clutch mechanism, a transmission, and a main clutch mechanism so as to be freely variable, and the handle includes a one-way clutch. One end of the main shaft is connected to the alligator via a mechanism and a friction clutch mechanism, and a rotation center line thereof is formed so as to coincide with a rotation center line of the main shaft, and the spool is rotatably mounted on the main shaft. And a counter shaft substantially parallel to the main shaft is disposed near the other end of the main shaft. , Primary transmission mechanism that transmits the torque of the main shaft to the counter shaft A secondary transmission mechanism for transmitting the rotational force of the counter shaft to the spool clutch of the main clutch mechanism. The main clutch mechanism transmits the rotational force of the spool clutch rotatably and slidably mounted on the main shaft. A dual-bearing type reel provided with a transmission, wherein the reel can be freely transmitted to a spool. The dual-bearing type reel equipped with a transmission according to claim 1, wherein each of the primary transmission mechanism and the secondary transmission mechanism of the transmission is configured to be capable of shifting at two or more speeds. The primary transmission mechanism of the transmission is slidably mounted on the main shaft, and a clutch body to which the rotational force of the main shaft is constantly transmitted via a key, and rotatably and slidably mounted on the clutch body. A first driving gear mounted, a second driving gear rotatably mounted on the main shaft, and always meshed with the first driving gear, slidably on the counter shaft, and a counter via a key. A first driven gear capable of constantly transmitting torque to the shaft and a second driven gear constantly meshed with each other, slidably with respect to the counter shaft, and capable of constantly transmitting torque to the counter shaft via a key. A second driven gear, wherein the clutch body is removably locked to the first driving gear or the second driving gear by sliding operation of the clutch body, and the rotational force of the main shaft is changed to the first driving gear or the second driving gear. Is transmitted to the second driving gear, double-bearing type reel comprising a transmission device according to claim 1 or claim 2, wherein the configured so that it can shift rotation of the counter shaft. The secondary transmission mechanism of the transmission is rotatably mounted on the countershaft, is slidably mounted on the countershaft, and is rotatably mounted on the countershaft. Slidable second driving pulley, first driven pulley rotatably mounted on the main shaft, and second driven pulley rotatable with the first driven pulley and connected to the spool clutch in a locked state. A toothed belt wound around the first driving pulley and the first driven pulley, a toothed belt wound around the second driving pulley and the second driven pulley, and a first driving pulley fixed to the counter shaft. Alternatively, a clutch pin that can be detachably engaged with the second driving pulley is provided, and the clutch pin is moved by the sliding operation of the counter shaft. The spool clutch is detachably locked to the pulley or the second driving pulley, and transmits the rotational force of the counter shaft to the first driven pulley or the second driven pulley via the toothed belt so that the spool clutch can be rotated at a variable speed. A dual-bearing type reel provided with the transmission according to claim 1, 2 or 3. A dual-bearing reel configured to transmit rotational force imparted by a handle to a spool via a one-way clutch mechanism, a friction clutch mechanism, a transmission, and a main clutch mechanism so as to be freely variable, and the handle includes a one-way clutch. One end of the main shaft is connected to the alligator via a mechanism and a friction clutch mechanism, and a rotation center line thereof is formed so as to coincide with a rotation center line of the main shaft, and the spool is rotatably mounted on the main shaft. And a counter shaft substantially parallel to the main shaft is disposed near the other end of the main shaft. , Primary transmission mechanism that transmits the torque of the main shaft to the counter shaft A secondary transmission mechanism for transmitting the rotational force of the counter shaft to the spool clutch of the main clutch mechanism. The main clutch mechanism transmits the rotational force of the spool clutch rotatably and slidably mounted on the main shaft. , A switching operation mechanism for operating the transmission is provided. The switching operation mechanism includes a pair of cam cylinders fixed to the other side cover, and slides inside the cam cylinders. A pair of sleeves that are movably and rotatably mounted, a pair of locking pins that are respectively penetrated by the sleeves, and are stored in long grooves provided in the cam cylinder; and a cam groove in which the locking pins are stored. A pair of cams having a pair of cams, a pair of timing gears which are externally fitted and fixed to each of the cams and mesh with each other, and which are fixed to one of the cams. And a pair of cams are formed so that a pair of cams can be simultaneously rotated via a timing gear by a swing operation of the shifter levers. It is configured such that the clutch body of the primary transmission mechanism is slid by the movement of the sleeve through which one of the locking pins is penetrated, and the secondary is moved by the movement of the sleeve through which the other locking pin is penetrated. A dual-bearing type reel equipped with a transmission, wherein a counter shaft of a transmission mechanism is slid to move a clutch pin.

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