JP4375771B2 - Reel leg fixing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a reel leg fixing device that is mounted on a fishing rod and attaches and detaches various fishing reels.
[0002]
[Prior art]
Conventionally, as a reel leg fixing device, for example, a configuration disclosed in Japanese Patent No. 2844285 is known.
[0003]
In this reel leg fixing device, a locking spring is assembled to the moving hood so that the moving hood can move in the axial direction by a predetermined distance (an amount corresponding to the floating gap) with respect to the locking spring when the tightening lever is raised and lowered. It is configured. Specifically, a trough is formed in the locking spring, and the tip edge of the cam piece integrally formed with the tightening lever is engaged with the trough, so that the tip of the cam piece is in front of the trough and The shift movement as described above is enabled by running up the rear inclined surface.
[0004]
That is, when the tightening lever is in the standing state, the locking spring is shifted to the fixed hood side with respect to the moving hood, and when the tightening lever is tilted to hold the reel leg from here, the locking spring is locked. The spring is pressed downward, and the claw formed at the end of the spring is engaged with the locking tooth row of the sheet body, and the movement of the locking spring is restricted. When the tightening lever is further tilted, the tip of the cam piece runs up the rear inclined surface from the valley of the locking spring, and receives a repulsive force from the locking spring. As a result, a repulsive force acts on the tightening lever, and the moving hood can be moved by a predetermined distance toward the fixed hood via the bearing portion.
[0005]
With such a configuration, when the moving hood is pressed against the reel leg and the tightening lever is tilted when the reel is mounted, the moving hood shifts to the fixed hood side, so that the tightening holding force can be improved.
[0006]
[Problems to be solved by the invention]
The shifting action of the moving hood toward the fixed hood cannot be exerted unless the locking spring is shifted to the fixed hood side with respect to the moving hood when the tightening lever is tilted. The shifting of the locking spring toward the fixed hood is performed when the tip of the cam piece runs up the front inclined surface of the valley of the locking spring when the tightening lever is raised most.
[0007]
However, if the tightening lever is raised to some extent, the claw formed at the end of the locking spring will be disengaged from the locking tooth row of the reel seat, and the moving hood can slide freely. When removing, the tightening lever is often not raised most. As a result, when the reel is mounted next time, the locking spring has not moved to the fixed hood side, so that the shift action as described above cannot be exhibited (the tightening holding force improving action cannot be obtained). End up).
[0008]
Also, when tilting the clamping lever to fix the reel legs, the contact position of the moving hood bearing and the clamping lever shaft serves as a fulcrum, and the tip of the cam piece tilts backward from the trough of the locking spring. Due to the structure that runs up the surface, the operation becomes heavy due to the elastic force of the locking spring and the like, and the tightening lever cannot be smoothly laid down.
[0009]
The present invention has been made on the basis of the above-mentioned problems. When the moving hood is fixed by the tightening lever when the reel is mounted, the shifting action of the moving hood forward is always obtained. It is an object of the present invention to provide a reel leg fixing device that can smoothly perform the operation of raising and lowering a tightening lever.
[0010]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, a reel leg fixing device of the present invention is formed on a seat body provided with a reel leg mounting surface, a fixed hood and a moving hood arranged opposite to the seat body, and the seat body. A locking spring provided with a locking concavo-convex portion, a claw portion assembled to the moving hood and locked to the locking rugged portion, and a surface of the locking spring provided rotatably on the moving hood And a tightening lever with a cam portion that presses the locking spring and engages the claw portion with the locking uneven portion, and the cam portion of the tightening lever can be rotated. A support portion that is held on the movable hood, and the tightening lever The latch spring is provided with a receiving means for receiving the sliding of the cam portion after the latch spring is engaged with the latching concave and convex portion, and the cam portion pivots the clamping lever. Then, after the cam portion is received by the receiving means, the movable hood is shifted to the fixed hood side by pressing the inner wall surface of the support portion with the position as a fulcrum, and at the time of raising the tightening lever The moving hood is shifted to the anti-fixed hood before the locking spring is released from the locking uneven portion. It is characterized by that.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
1 to 6 are views showing a first embodiment of a reel leg fixing device according to the present invention. FIG. 1 is a plan view, FIG. 2 is a side view, and FIG. 3 is a state in which a tightening lever is raised. 4 is an enlarged plan view of the moving hood portion shown, FIG. 4 is a vertical cross-sectional view of the moving hood portion showing a state where the tightening lever is raised, FIG. 5 is a vertical cross-sectional view of the moving hood portion showing a state where the tightening lever is halfway down, and FIG. 6 is a longitudinal sectional view of a moving hood portion showing a state in which the tightening lever is tilted.
[0016]
The reel leg fixing device 1 includes a sheet main body 3 formed into a plate shape from a metal such as SUS, BS, or Al, or a synthetic resin, and by winding a foot portion 3a integrally formed on the front and rear thereof. Fixed to the surface of the soot tube.
[0017]
On the rear side surface of the seat main body 3, there is formed a locking irregularity portion 3b that is continuous along the axial direction, and a claw portion of a locking spring, which will be described later, is locked here. Further, a main body cover 4 having a reel leg mounting surface 4a on the surface is fixed to the central region of the sheet main body 3. The reel leg mounting surface may be formed integrally with the seat body.
[0018]
A fixed hood 5 is fixedly attached to the front side of the seat body 3 so as to receive the front end portion of the reel leg and has a reel leg receiving portion 5a formed of synthetic resin, hard rubber, metal, or the like. A movable hood 7 described in detail below is attached to the rear side of the seat body 3 so as to be slidable in the axial direction. Specifically, as shown in FIG. 4, the movable hood 7 is not dropped by the first bent portion 7 a and the second bent portion 7 b that are bent with respect to the lower edge of the seat body 3. It is supported so as to be movable along the axial direction (front-rear direction).
[0019]
In addition, although the arrangement | positioning state with respect to the soot tube of the reel leg fixing device 1 is arbitrary, in this Embodiment, in the state shown in FIG. 2, the left side is the front side (tip side), and the right side is the back side ( In the following description, the side where the reel leg mounting surface 4a is located is the upper side, and the opposite side is the lower side. Moreover, the fixed hood 5 may be configured to be movable in the axial direction, like the moving hood.
[0020]
Here, the configuration of the movable hood 7 will be described.
The movable hood 7 is supported by the bent portions 7a and 7b so as to be movable in the axial direction with respect to the seat body 3, and is integrally provided with members described in detail below and is movable with respect to the seat body 3. It has become.
[0021]
The moving hood 7 includes a moving hood main body 9 formed of a wear-resistant material such as metal. The moving hood main body 9 is opened to receive the rear end portion of the reel legs, and is made of synthetic resin, hard A reel leg receiving portion 10 made of rubber, metal or the like is provided. In addition, a pair of left and right spring receiving surfaces 11 are formed on the rear portion of the movable hood main body 9 so as to extend rearward. The spring receiving surface 11 has a predetermined distance along the axial direction, and a protruding portion of a locking spring to be described later is placed thereon so that the locking spring slides in the axial direction. .
[0022]
Further, on the rear side of each spring receiving surface, a support portion 12 that is curved upward is formed, and the front end wall 12a of the support portion 12 and the reel leg receiving portion of the movable hood main body 9 are provided. A protruding portion of the locking spring is placed between the rear end wall 10a and the locking spring can slide in the axial direction (in FIG. 3, the range in which the locking spring can slide is shifted). Indicated as quantity X).
[0023]
A tightening lever 15 is rotatably engaged with and held by the support portion 12 via a side piece described later. The tightening lever 15 includes an operation unit 16 that can be operated up and down with a finger of a hand, and a cam unit 17 that is bent forward by a predetermined angle from the lower end of the operation unit 16 in a state where the operation unit is raised. .
[0024]
The operating portion 16 has a shape that overlaps the surface of the reel leg receiving portion 10 when the tightening lever is tilted down. The operating portion 16 is located at the position shown in FIGS. 4 and 6 via the support portion 12. Rotation operation is possible within the range.
[0025]
Further, the cam portion 17 is integrally formed with a pair of side piece portions 19 extending into the respective internal spaces of the support portion 12, and the front edge 19 a (the front edge of the cam portion 17 and the front edge of the cam portion 17). Has a function as a cam (first cam) that crosses a locking spring, which will be described later, and comes into contact with the surface thereof, and the rear edge 19b of each side piece 19 is a wall surface of the support 12 It has a function as a cam (second cam) in contact with the (inner wall surface 12b). That is, the tightening lever 15 is prevented from coming off by a pair of side piece portions 19 formed on the cam portion 17 being engaged with the inner wall surface 12b of each support portion 12, and over a predetermined angular range. And can be rotated.
[0026]
Further, a projection 19c is formed at an intermediate portion of the front edge 19a of the cam portion 17 so as to enter a hole portion constituting a receiving means formed on a locking spring described later.
[0027]
The movable hood main body 9 is assembled with a plate-like locking spring 20 that can slide in the front-rear direction with respect to the movable hood main body and that is actuated by the front edge (first cam) 19a of the side piece 19 of the tightening lever 15. It has been. As shown in FIG. 7A, the locking spring 20 is formed with a pair of overhanging portions 21 protruding leftward and rightward on the front end side, which are respectively mounted on the spring receiving surface 11 described above. And is slid in the axial direction. Further, as shown in FIG. 7B, a claw portion 22 that is bent downward and is locked to the locking uneven portion 3 b of the sheet main body 3 is provided at the rear end portion of the locking spring 20. Is formed.
[0028]
The locking spring 20 extends in the axial direction so as to be easily elastically deformed in the vertical direction, and the surface of the front end portion 23 is pressed by a spring pressing portion 9 a formed on the back surface of the movable hood body 9. It has come to be attached.
[0029]
The rear side of the portion where the overhanging portion 21 of the locking spring 20 is formed is an operating surface 25 on which the front edge 19a of the cam portion 17 slides, and the tightening lever 15 is rotated. In this case, the claw portion 22 is elastically deformed toward the locking uneven portion 3b by being pressed by the front edge 19a.
[0030]
In such a configuration, an elastic portion is formed by appropriately bending the locking spring 20 so that the locking spring 20 can easily move up and down or allow a slight change in the front-rear direction as a whole. It is desirable to keep it. In the present embodiment, for example, as shown in FIGS. 7A and 7B, an elastic portion 25 a that is curved upward is formed in a substantially middle portion of the operating surface 25.
[0031]
Further, it is desirable to form an elastic portion that gives an urging force that springs up the claw portion 22 side to the front end portion 23 of the locking spring 20 pressed by the spring pressing portion 9a. In the present embodiment, for example, as shown in FIGS. 7A and 7C, an elastic portion that gives such an action is formed by raising the central portion in a C-shape that gradually spreads backward. is doing.
[0032]
Further, when the tightening lever 15 is tilted, its front edge (first cam) 19a slides from the front to the rear on the operating surface 25 in accordance with the turning operation. When the tightening lever is rotated to a predetermined position, receiving means is formed so as to receive the front edge 19a (set to a fixed state or a substantially fixed state). In this case, the receiving means can be configured by only the locking spring, but in the present embodiment, the receiving means is configured by cooperating the structure of the locking spring 20 and the structure of the front edge 19a of the cam portion 17. ing.
[0033]
Specifically, a hole portion 26 extending in the axial direction is formed in a substantially central region of the operating surface 25 of the locking spring 20, and a projection 19c formed at an intermediate portion of the front edge 19a enters here. I am doing so. That is, when the tightening lever 15 is tilted from the standing state, the protrusion 19c moves the hole 26 from the front to the back along with the rotation, but has come to a predetermined rotation position. At this time, it cannot be rotated any more by abutting against the hole rear end 26a.
[0034]
A series of operations when the reel legs are attached in the above-described configuration will be described.
First, with the tightening lever 15 raised, the reel leg L is placed on the reel leg placing surface 4 a and the front end thereof is inserted into the reel leg receiving portion 5 a of the fixed hood 5. In this state, as shown in FIG. 4, the movable hood 7 is slid in the fixed hood direction, the reel leg receiving part 10 is pressed against the rear end part of the reel leg L, and the operation part 16 is pressed with a finger. Then, the clamping lever 15 is laid down.
[0035]
In the standing state of the tightening lever before performing the overturning operation, the locking spring 20 is moved forward relative to the movable hood body 9, that is, as shown in FIG. The front end edge of the overhanging portion 21 is in contact with the rear end wall 10a of the reel leg receiving portion 10 (the reason why the locking spring 20 always moves relatively forward when the tightening lever 15 stands up). Will be described later).
[0036]
When the finger is applied to the operation portion 16 to perform the inclining operation of the tightening lever 15, the claw portion 22 of the locking spring 20 is initially in a free state with respect to the locking uneven portion 3b. As 15 falls down, its front edge (first cam) 19a presses the operating surface 25 to push down the locking spring 20, and the claw portion 22 is engaged with the locking uneven portion 3b. The stop spring 20 is fixed.
[0037]
Further, when the operating portion 16 is pushed and the tightening lever 15 is tilted to a predetermined angle, the moving hood 7 is moved relatively forward relative to the locking spring 20 by the amount of slide X described above. It has become. This moving action is achieved by the rear edge 19b of each side piece 19 serving as a cam (second cam) that contacts the inner wall surface 12b of the support portion 12.
[0038]
That is, when the tightening lever 15 is laid down, as described above, the protrusion 19c abuts against the hole rear end 26a of the locking spring 20 at a predetermined rotational position, and the front edge 19a can move further rearward. Instead, this position (receiving position) serves as a fulcrum, and each side piece 19 rotates together with the tightening lever 15. Accordingly, the rear edge 19b of each side piece portion forms a cam action with the curved inner wall surface 12b of the support portion 12, and moves the movable hood 7 to the fixed hood side. Before reaching the receiving position, the locking spring 20 is moved downward and the claw portion 22 is locked to the concavo-convex portion 3b, so that the fulcrum position does not shift backward, Stable cam action can be obtained.
[0039]
In order to obtain such an action, the inner wall surface 12b of the support portion 12 and each side piece portion 19 are configured to have a positional relationship as shown in FIG. FIG. 8 shows a state in which the tightening lever 15 is lying down, and schematically shows a state in which the protrusion 19c formed in the central region of the front edge 19a is in contact with the rear end 26a of the hole 26. It is shown in.
[0040]
Before reaching this state, the front edge 19a that moves rearward along with the rotation of the tightening lever 15 presses the operating surface 25 downward, so that the claw portion 22 engages with the engaging uneven portion 3b and the engaging spring. 20 is in a state in which it does not move in the axial direction, and in this state, a projection 19c formed at an intermediate portion of the front edge 19a enters the hole 26. When the protrusion 19c moves from the front to the rear along with the rotation of the tightening lever 15, the protrusion 19c is moved to the rear of the hole when it reaches a predetermined rotation position. It contacts the end 26a so that it cannot move any more (this receiving position becomes the fulcrum position of the rear edge 19b, which is the second cam, in the subsequent rotation of the tightening lever 15).
[0041]
In FIG. 8, a circle having a radius of the distance between the front edge 19a and the rear edge 19b that is in contact with the operating surface 25 with the receiving position as the center is indicated by a symbol C. In other words, this circle (referred to as a reference circle) is a rotation locus drawn by the rear edge 19b of the side piece 19 when the tightening lever 15 is further tilted after the projection 19c is received at the receiving position.
[0042]
In the present embodiment, the inner wall surface 12b of the support portion 12 is smoothly curved at the top, and when the front edge 19a of the side piece is received at the receiving position, the rear edge 19b is near the top. In this relationship, the fixed hood side is formed so as to be inside the reference circle C. Specifically, when the front edge 19a is received at the receiving position, the inner wall surface 12b is a curved surface with the fixed hood side inside the reference circle C with respect to the top, or a curved surface with an inclination. After the rear edge 19b, which is the second cam, slides on the top of the inner wall surface 12b, the inner wall surface is pressed by the rear edge 19b, and the support portion 12, that is, the movable hood body 9 is moved against the seat body 3. It pushes forward (see FIG. 5).
[0043]
Further, when the vertical line to the reel leg mounting surface is Y, the cam portion 17 is located at the position of the vertical line Y when the tightening lever 15 is fallen, or a position just before that (θ ≦ 10) as shown in the figure. It is preferable that the receiving position is set at (°). With this configuration, an efficient cam action can be obtained when the receiving position becomes a fulcrum, and the movable hood body 9 can be easily pushed forward.
[0044]
Then, when the operating portion 16 of the tightening lever 15 is in a substantially horizontal direction as shown by a dotted line, the state is completely lowered (see FIG. 6). At this time, the contact position P2 between the rear edge 19b and the inner wall surface 12b is displaced in the arrow direction with respect to the initial position P1, and the displacement amount between P1 and P2 corresponds to the shift amount X (FIG. 3). reference). For this reason, the shift amount X can be appropriately changed by changing the rotation range of the cam portion 17.
[0045]
Further, as described above, the elastic portion 25a is formed in the locking spring 20, and itself can move up and down or slightly change in the front-rear direction. For this reason, when the cam portion 17 is rotated from the receiving position, its fulcrum can move slightly downward or slightly rearward, and the tightening lever 15 can be completely in a lying state.
[0046]
As described above, when the tightening lever 15 is tightened, the movable hood body 9 is forcibly shifted forward by the shift amount X described above (the front edge 12a of the support portion 12 is the tension of the locking spring 20). The reel leg receiving part 10 of the movable hood main body 9 is pressed against the surface of the reel leg, and the tightening force can be improved. In this case, since the means for shifting the movable hood body 9 to the fixed hood side uses the cam action of the cam portion 17 with the receiving position as a fulcrum, the force required to shift the movable hood body is Since the inner wall surface 12b can be formed in a curved surface, the overturning operation can be performed smoothly. Further, since the elastic portion 25a is formed on the locking spring 20, when the inner wall surface 12b is pressed by the rear edge 19b, the fulcrum position moves slightly downward or slightly rearward. In addition to being able to do this, it is possible to prevent damage to the receiving means, etc., and it is possible to completely fall down, improving gripping and operability.
[0047]
The hole portion 26 formed in the locking spring 20 described above receives the lower end of the cam portion 17 so as not to move backward by cooperating with the protrusion 19c. However, the operating surface 25 of the locking spring 20 is In the case of the present embodiment, a shape that allows the forward movement to be free (this is a shape that does not stop the movement of the protrusion 19c, and is a peak or valley within a predetermined range from the hole rear end 26a to the front. When the tightening lever 15 is raised, the front edge 19a can slide forward without being hindered as a whole. Further, at the receiving position, the surface of the working surface 25 is roughened to some extent to increase the frictional resistance between the front edge 19a and the working surface, and the cam portion 17 is rotated in the standing direction. At this time, it is preferable to keep the lower end portion from slipping.
[0048]
According to the configuration described above, when the tightening lever 15 is raised from the lying down state in order to remove the reel legs, the support portion 12 is moved rearward from the overhang portion 21 of the locking spring 20 by the shift amount X, as shown in FIG. It returns to the state like this. Hereinafter, this operation will be described.
[0049]
When the tightening lever 15 is raised from the state shown by the dotted line in FIG. 8, the cam portion 17 is rotated to the position shown by the solid line. Since the rear edge 19b of the cam portion 17 is pressed against the inner wall surface 12b by a predetermined pressing force by the elastic force of the locking spring 20, when the cam portion 17 is rotated, the inner wall surface 12b is pressed accordingly. Then, the support part 12 is shifted backward. In this case, since the frictional resistance between the front edge 19a and the operation surface 25 is increased at the receiving position as described above, the lower end of the cam portion 17 does not slide forward, The edge 19b can press the inner wall surface 12b to reliably shift the support portion 12 backward.
[0050]
When the tightening lever 15 is further raised, the front edge 19a rotates away from the operating surface 25, so that it slides forward on the operating surface. Is released, and the claw portion 22 of the locking spring 20 is disengaged from the locking uneven portion 3b. That is, before the nail | claw part 22 of the latching spring 20 remove | deviates from the latching uneven | corrugated | grooved uneven part 3b, the movable hood main body 9 is shifted to the back side with respect to the latching spring 20, and will be in the state shown in FIG. Yes.
[0051]
Further, as described above, the front end portion of the locking spring 20 is formed with an elastic portion that gives an urging force that flips the claw portion 22 side upward, so that when the tightening lever 15 is raised, The urging force makes it easy to rotate the cam portion 17 in the standing direction, and the tightening lever can be raised smoothly.
[0052]
Next, when the reel is attached to and detached from the above-described reel leg fixing device, the relationship and operation of the movable hood main body 9, the tightening lever 15, and the locking spring 20 will be described together.
[0053]
When the reel legs are fixed, the tightening lever 15 is raised and the claw portion 22 of the locking spring 20 is separated from the locking uneven portion 3b, and the movable hood body 9 is shifted by the shift amount X with respect to the locking spring 20. It is in a state shifted backward (see FIG. 3).
[0054]
In this state, the reel leg is disposed between the fixed hood 5 and the movable hood main body 9, the movable hood main body 9 is applied to the rear end surface of the reel leg L (see FIG. 4), and the operation portion 16 of the tightening lever 15 is moved. Press to bring down the tightening lever (see FIGS. 5 and 6).
[0055]
At this time, as described above, the rear edge 19b of the side piece 19 performs a cam action with the receiving position as a fulcrum, thereby shifting the movable hood main body 9 forward by the shift amount X. That is, when the movable hood main body 9 is shifted forward, the tightening force with respect to the reel legs is improved, and the attached reels are not rattled.
[0056]
When the tightening lever 15 is raised when removing the reel, the movable hood main body 9 is moved rearward with respect to the locking spring 20 before the locking claw 22 is detached from the locking uneven portion 3b as described above. ing. That is, the movable hood main body 9 is always moved rearward with respect to the locking spring 20 when the reel is in a removable state (after the locking claw 22 is removed from the locking uneven portion 3b). Therefore, even when the reel is mounted next time, it is possible to reliably obtain a tightening action by shifting the movable hood main body 9 forward. When the tightening lever 15 is erected, the moving hood main body 9 receives a rearward force due to the repulsive force from the reel leg L in the pressure contact state. More certain.
[0057]
Next, various modifications of the reel leg fixing device of the present invention will be described.
FIG. 9 is a diagram illustrating various modified examples of the locking spring assembled to the movable hood. The locking spring 40 shown in FIG. 9A is formed with a rising portion 40a that rises upward at a predetermined position on the surface, whereby the front edge 19a of the cam portion (in this example, the protrusion 19c is unnecessary). The receiving position S that restricts the rearward movement of is formed. With this configuration, it becomes possible to restrict the rearward movement of the front edge 19a of the cam portion only by the shape of the locking spring, and the configuration of the receiving means is simplified.
[0058]
Also in this modified example, by roughening the vicinity of the receiving position S, it is possible to apply a frictional force to the lower end of the cam portion to bring it to a stopped state, and to easily shift the moving hood backward. Also in this modified example, it is desirable to form the bent elastic portion 41 so that the locking spring 40 can easily move up and down, or to allow a slight change in the front-rear direction as a whole. .
[0059]
In addition, although the position which forms the elastic part which gives an effect | action as mentioned above is not specifically limited, as shown in FIG. 8, immediately after the spring receiving surface 11 so that rotation of a cam part may not be prevented. It is desirable to form so as to be located in the rear region. Also in this modified example, as in the configuration shown in FIG. 7, an elastic portion that applies an urging force to spring up the claw portion 42 side to the front end portion 43 pressed by the spring pressing portion 9 a of the moving hood. It is desirable to form.
[0060]
The locking spring 50 shown in FIG. 9B forms a receiving position S by forming a rising portion 50a that rises upward at a predetermined position on the surface thereof. The elastic portion 51 is formed so that the locking spring 50 can be easily moved up and down easily by being gradually raised in a substantially flat shape toward the end side, or allows a slight change in the front-rear direction as a whole. .
[0061]
According to this modification, when the tightening lever 15 is raised, the front edge 19a of the cam portion 17 (in this example, the protrusion 19c is not required) receives a certain amount of resistance due to its rising surface, so that the receiving position The moving hood main body 9 can be shifted backward via the inner wall surface 12b of the locking portion 12 without roughening the vicinity of S. Also in this modified example, as in the configuration shown in FIG. 7, an elastic portion that applies a biasing force to flip up the claw portion 52 side to the front end portion 53 pressed by the spring pressing portion 9 a of the moving hood. It is desirable to form.
[0062]
The locking spring 60 shown in FIG. 9 (c) forms a receiving position S by forming a rising portion 60a that rises upward at a predetermined position on the surface thereof, and an upper surface on the base end side. The elastic portions 61a and 61b are formed on the side and the lower surface side.
[0063]
According to this modified example, the locking spring 60 is more likely to move up and down or change as a whole in the front-rear direction as compared with the locking spring having the above-described configuration, and the tightening operation of the tightening lever can be performed smoothly and fall down. It becomes easy to complete. Also in this modified example, as in the configuration shown in FIG. 7, an elastic portion that applies an urging force to spring up the claw portion 62 side to the front end portion 63 pressed by the spring pressing portion 9 a of the moving hood. It is desirable to form.
[0064]
In addition, the elastic part formed in each latching spring mentioned above is effective also in the structure (plate spring structure which formed the trough part) of the latching spring currently disclosed by the well-known technique mentioned above. That is, by forming the elastic portions 41, 51, or 61a, 61b as described above on the front end side of the valley portion, the locking spring is easily moved up and down or changed in the front-rear direction. The cam surface of the tightening lever engaged therewith can be moved smoothly. Further, similarly to the above-described configuration, by forming an elastic portion at the front end portion that gives an urging force that flips the claw portion upward, the cam portion Can be smoothly rotated.
[0065]
FIG. 10 is a diagram showing another embodiment of the reel leg fixing device.
In the above-described embodiment, the reel leg fixing device is formed in a sheet shape, and is configured to be fixed to the tub tube via the feet formed at both ends of the seat body. In the fixing device, a flat reel mounting surface 70a is formed on the sheet main body 70, and the whole is formed in a cylindrical shape. In this case, the sheet body 70 may be formed into a cylindrical shape in advance, and may be press-fitted into the soot tube R, or may be integrally formed with the soot tube material (FRP).
[0066]
Thus, the shape of the sheet body can be appropriately modified and is not limited. Further, in this configuration, the fixed hood 71 is formed in the seat body 70 and the guide groove 72 extending in the axial direction is formed, and the engaging portion of the moving hood 75 is engaged therewith and slid in the front-rear direction. It is configured as follows. Further, on the opposite side of the seat body to the reel leg fixing device, a slip stopper 77 is formed to improve the gripping property in order to improve the gripping property.
[0067]
Also in the reel leg fixing device having such a configuration, the same operations and effects as the configurations of the above-described embodiments and modifications can be obtained.
[0068]
In addition, the present invention can be implemented by arbitrarily combining the configurations of the above-described embodiments and modifications. Furthermore, in the above-described embodiment, the hood arranged opposite to the hood is a fixed hood and a movable hood, but both can be configured as a movable hood. According to such a configuration, the placement position of the reel legs can be adjusted.
[0069]
【The invention's effect】
According to the present invention, when the moving hood is fixed by the tightening lever at the time of mounting the reel, the moving action of the moving hood is always obtained, so that the reel leg can be securely fixed without rattling. . Furthermore, when the tightening lever is raised and laid down, the operation can be performed smoothly.
[Brief description of the drawings]
FIG. 1 is a plan view showing a first embodiment of a reel leg fixing device according to the present invention.
FIG. 2 is a side view of a reel leg fixing device.
FIG. 3 is an enlarged plan view of a moving hood portion showing a state where a tightening lever is raised.
FIG. 4 is a longitudinal sectional view of a moving hood portion showing a state where a tightening lever is raised.
FIG. 5 is a longitudinal sectional view of a moving hood portion showing a state where the tightening lever is tilted halfway.
FIG. 6 is a longitudinal sectional view of a moving hood portion showing a state in which the tightening lever is tilted.
7A and 7B are diagrams showing a configuration of a locking spring, where FIG. 7A is a plan view, FIG. 7B is a side view, and FIG. 7C is a front view.
FIG. 8 is a diagram illustrating the operation of the receiving means, showing a state where the tightening lever is lying down;
FIGS. 9A and 9B are views showing a modification of the present invention, and FIGS.
FIG. 10 is a diagram showing a second embodiment of a reel leg fixing device according to the present invention.
[Explanation of symbols]
1 Reel leg fixing device
3 Seat body
3b Locking irregularities
5 Fixed hood
7 Moving food
12 Supporting part
12b inner wall
15 Tightening lever
17 Cam part
19a leading edge
19b trailing edge
19c protrusion
20, 40, 50, 60 Locking spring
22, 42, 52, 62 Claw
26 hole

Claims (3)

A seat body provided with a reel leg mounting surface, a fixed hood and a movable hood disposed opposite to the seat body, a latching concavo-convex portion formed on the seat body, and the latching hood assembled to the movable hood. A locking spring provided with a claw portion that is locked to the concavo-convex portion, and a movable hood that is rotatably provided, slides on the surface of the locking spring and presses the locking spring, thereby the claw portion In a reel leg fixing device having a tightening lever provided with a cam portion that engages with a locking uneven portion,
The cam portion of the restraint lever provided with a support portion for holding rotatably the movable hood, sliding of the cam portion after the locking spring to fall down rotating the clamping lever engages with the engaging concave-convex portion A receiving means for receiving movement is provided in the locking spring;
The cam portion turns the tightening lever so that the cam portion is received by the receiving means, and then the inner hood of the support portion is pressed with the position as a fulcrum to move the moving hood to the fixed hood side. A reel leg fixing device that shifts and moves the moving hood to the anti-fixing hood side before the locking spring is detached from the locking uneven portion when the tightening lever is turned upright . The cam portion includes a first cam that slides on the surface of the locking spring, and a second cam that presses the inner wall surface of the support portion,
2. The reel leg fixing device according to claim 1, wherein the second cam presses the inner wall surface of the support portion and shifts the moving hood to the anti-fixed hood side when the tightening lever is turned upright. 3. . The friction resistance between the surfaces of the first cam and the locking spring is such that when the tightening lever is raised and rotated, the second cam presses the inner wall surface of the support portion and shifts the movable hood to the anti-fixed hood side. The reel leg fixing device according to claim 2, wherein the first cam is configured to slide on the surface of the locking spring after being moved.

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