JPH042588A - Operating force transmission device using control cable - Google Patents

Abstract

PURPOSE:To transmit operating force to all operating members by cutting off the respective outer tubes of plural control cables across the specified length at the collected part in a cable disposing process, and connecting exposed inner cables integrally by a connecting member. CONSTITUTION:Both control cables 1a, 1b for operating the front-rear wheel brakes of a bicycle braking device are collected at an appropriate place. At this collected part, each outer tube 2 is cut off by the specified length to expose an inner cable 3. A collecting means 25 with a pair of fitting plates 27, 28 formed by bending at both ends of a base 26 is prepared, and a cylindrical fixture 30, rigidly secured at one cut-off end of each outer tube 2, is fitted into a fitting hole 32 formed at the fitting plate 27 from outside, while a cylindrical fixture 39, rigidly secured at the other cut-off end of each outer tube 2, is fitted into a guide cylinder 37 fitted at the other fitting plate 28. Both inner cables 3 disposed mutually parallel between both fitting plates 27, 28 are integrally connected by tightening two vertical clamping plates 41 by a screw 42.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention provides two or more control cables in which an inner cable is inserted into an outer tube and an operating force is transmitted by sliding in the axial direction of the inner cable. The present invention relates to a device that can transmit the operating force to all operating members connected to each control cable by simply applying an operating force to the operating members of the control cables when the control cables are wired.

Prior Art and Problems to be Solved by the Invention This type of control cable is used, for example, to transmit operating force between a brake operating lever provided on the handlebar of a bicycle and a brake provided on the wheel side. Generally, the left operating lever is connected to the rear wheel brake, and the right operating lever is connected to the front wheel brake, so that they can be operated separately.

By the way, when applying the brakes to a bicycle, especially when a sudden stop is required, it is self-evident that it is effective to apply the brakes on both wheels at the same time. I was trying to hold both levers at the same time, but when I'm driving with one hand because I'm carrying luggage in one hand, I can only grip one control lever, and the brakes can only be applied to the corresponding wheel. There was a desire for a device that would be able to apply the brakes to both wheels simply by grasping either one of the operating levers.

Means for Solving the Problems The present invention has been completed mainly based on such a request, and is a method of fixing both ends of the outer tube by inserting an inner cable into the flexible outer tube. 1. It can be inserted into the member and protruded from the end of the outer tube. = A plurality of control cables with 2 or more V connected to both ends of the inner cable to the operating member and the actuating member, respectively, and arranged so as to transmit the operating force by sliding in the axial direction of the inner cable. , gather in one place during the wiring (~, each con!・[I-
At the point where the cables gather, the outer tube is cut away over a length of -f to expose the inner cable,
Attach both ends of the cut portion of each outer tube to a pair of corresponding mounting plates at a distance from each other,
Each exposed inner cable was passed through between the corner mounting plates, and each exposed inner cable was integrally connected by a connecting member.

In addition, when the control cable transmits the operating force by the pulling motion of the inner cable, the end of the cutout of the outer tube on the operating member side or the terminal of the outer tube on the operating member side should be connected to each other in the axial direction. They may be attached to a mounting plate or a fixing member so as to be freely movable in the direction toward each other.

In addition, when the control cable transmits the operating force by interlocking the push of the inner cable, the end of the cutout of the outer tube on the operating member side or the terminal of the outer tube on the operating member side may be connected to each other in the axial direction. It may be configured to be attached to a mounting plate or a fixing member so as to be freely movable in the direction of separation.

Functions and Effects of the Invention The present invention has the above configuration, and when an operating force is applied to the operating member connected to the - control cable to cause the inner cable to perform a pulling or pushing motion, the inner cable and the other control cables Since the inner cables are physically connected by the connecting member at the exposed part during the wiring, the inner cables to which the operating force is applied and the other inner cables are simultaneously subjected to bowing or pushing movements. Therefore, by simply applying an operating force to the - operating member, the operating members connected to all the control cables can be operated at the same time. In addition, the structure itself is simple, just cut out the middle of the outer tube of each control cable, attach both ends to the mounting plate, and connect the exposed inner cables together, making it inexpensive to manufacture. There is a potential effect.

Note that when the inner cable of the control cable is pulled, the length of the inner cable that protrudes toward the operation section +i side becomes longer, even for the control cable that is not operating the operation member, so the length of the inner cable that protrudes toward the operation section + If both the terminal and the end of the resected portion on the operating member side are fixed immovably, the inner cable is pushed out inside the outer tube toward the operating member and acts to drive the operating member, causing a load. becomes larger.

Therefore, the end of the cutout of the outer tube on the operation member side, or the end of the outer tube on the operation member side,
When attached to a mounting plate or fixed member so that they can move freely in the direction in which they approach each other in the axial direction, -
When the length of the protrusion of the inner cable toward the operating member side of the control cable to which no operating force is applied increases as the inner cable of the outer tube is bowed, the cut end of the outer tube on the operating member side or When the terminal moves, the inner cable is allowed to bulge and bend outward between the mounting plate and the fixing member without sliding inside the outer tube, thereby reducing the increased protruding length of the inner cable. absorb,
The load can be reduced by preventing the pressing force of the inner cable from acting on the operating member.

In addition, when pushing the inner cable of the control cable, the length of the inner cable that protrudes toward the operating member side of the control cable that is not being operated becomes shorter, and the end of the outer tube on the operating member side is cut off. If the ends are immovably fixed, the inner cable is pulled toward the operating member within the outer tube and acts to drive the operating member, which similarly increases the load. Therefore, the end of the cutout of the outer tube on the operation member side or the end of the outer tube on the operation member side can be moved freely in the direction in which they are separated from each other in the axial direction, relative to the mounting plate or the fixing member. If the length of the control cable protruding toward the operating member side of the control cable to which no operating force is applied becomes shorter as the - inner cable is pushed and moved, the outer tube's operating member side The protruding length of the inner cable is reduced by allowing the inner cable to contract and flex inwardly between the mounting plate and the fixing member without sliding within the outer tube while the cut end or terminal of the inner cable moves. Similarly, the load can be reduced by absorbing the amount of stress and preventing the tensile force of the inner cable from acting on the operating member.

EXAMPLE Hereinafter, an example in which the present invention is applied to a brake device for a bicycle will be described with reference to FIGS. 1 and 2.

In the figure, la and Ib are control cables in which an inner cable 3 is slidably inserted into a flexible outer tube 2, and an ascending shaft 7 is connected to a bracket 6 at both ends of the handle 5, respectively. The levers are individually routed between the right and left operating levers 8, which are freely swingably supported at the center, and the operating links IO, which actuate the brakes provided on the front and rear wheels. Each control cable la
, Ib on the handle 5 side, a cylindrical fitting 13 fixed to the end of the outer tube 2 is fitted into a mounting tube 15 protruding from each corresponding bracket 6, and a stepped portion 14 on the outer periphery is fitted. A terminal tool that comes into contact with the end surface of the mounting rtj 15 and is fixed to the end of the inner cable 3 that protrudes from the end! 6 are each connected to an operating lever 8. At the end of the brake side of the wheel, a cylindrical fitting 18, which is also fixed to the end of the outer tube 2, is connected to a mounting hole 21 of a retaining plate 2o fixed to a frame (not shown) on the front wheel side and the rear wheel side.
The stepped portion 19 on the outer periphery is in contact with the edge of the hole, and the end of the inner cable 3 is fixed to one end of the actuating link 10. Moreover, a compression coil spring 23 is provided between the holding plate 20 and the attachment end of the inner cable 3 of the operating link IO.
is installed, and its elastic expansion force causes the operating link IO to swing and retreat around the axis 11 to the non-operating position, as shown by the solid line in Fig. 1, and also pulls the inner cable 3 toward the brake side. , the operating lever 8 is swung to an open position with its tip side away from the handle 5.

The above structure is the same as that of the conventional device, and in this embodiment,
Both control cables la and lb are collected at appropriate locations, and each outer tube 2
is cut off over a certain length, and the inner cable 3 is exposed.

As shown in detail in FIG. 2, a concentrator 25 is provided at both ends of the elongated base plate 26, which is a pair of curved mounting plates 27 and 28 that correspond to each other. A stepped cylindrical fitting 30 is fixed to the cut end, and the cylindrical fitting 30 is fitted from the outside into a mounting hole 32 formed in one mounting plate 27, and a stepped portion is formed on the edge of the hole. 31 is assigned. Two screw holes 34 are formed in the other mounting plate 28 in correspondence with the above-mentioned mounting holes 32, and an insertion tube 35 having a male thread cut on the outer periphery is screwed into each screw hole 34, and a nut 36 is screwed into each screw hole 34. At the same time, a guide tube 37 is attached to the outer protruding end of the insertion tube 35 by screwing a female thread formed on the inner periphery of one end of the guide tube 37, and the operation of each outer tube 2 described above is possible. Lever 8
A cylindrical fitting 39 fixed to the cut end of the side is fitted into the corresponding guide tube 37 so as to freely move in and out, and is applied to the tip of the insertion tube 35.

The exposed inner cable 3 protruding from the cut end of each outer tube 2 on the operation lever 8 side is connected to the insertion tube 3.
5 and the cut end of the outer tube 2 on the opposite side, the inner cables 3 are routed parallel to each other between the number plates 27 and 28, and both inner cables 3 are routed in parallel to each other between the number plates 27 and .2
At a position on the operating link IO side between 8 and 8, it is sandwiched between two upper and lower clamping plates 41, and is integrally coupled by tightening both clamping plates 41 with screws 42.

The present embodiment has the above-mentioned structure, and when the right operating lever 8 is squeezed, the inner cable 3 of the front wheel control cable 12L elastically contracts and pulls the compression coil spring 23, as shown by the chain line in FIG. The inner cable 3 and the control cable lb for the rear wheel are used for exercise.
The inner cable 3 of
1, the inner cable 3 on the rear wheel side is also simultaneously pulled while elastically contracting the compression coil spring 23, and the operating link 10 that operates the brakes of the front and rear wheels is simultaneously driven to swing.

At this time, even if the control cable lb on the rear wheel side is not operated, the inner cable 3 protrudes toward the operating lever 8 side.
Since the length becomes long, if the end of the outer tube 2 on the operating lever 8 side and the cut end on the operating lever 8 side are fixed to the bracket 6 and the mounting plate 28, respectively, the inner cable 3 It slides within the tube 2 and is pushed out toward the operating lever 8, acting to swing the operating lever 8 and increasing the load. However, in this embodiment, since the cylindrical fitting 39 fixed to the cut end of the outer tube 2 on the operating lever 8 side can freely move in and out of the guide tube 37, the inner cable 3 When the protrusion length toward the operation lever 8 side becomes longer, the first
The cylindrical fitting 39 is shown in the dashed line in the figure and in FIG.
The inner cable 3 is allowed to expand and bend outward together with the outer tube 2 while escaping from the guide tube 37, and the protrusion length of the inner cable 3 is reduced between the mounting plate 28 and the mounting tube 15 of the bracket 6. By absorbing the increase in the
The pressing force of the inner cable 3 is not applied to the inner cable 3. Note that even if the cylindrical fitting 39 is immovably fixed to the mounting plate 28, as in this embodiment, the cylindrical fitting 13 at the end of the outer tube 2 on the operation lever 8 side
Or, if it is fitted freely in and out of the mounting tube 15 of the bracket 6, the cylindrical fitting 13 will escape from the mounting tube 15 and the inner cable 3 will swell and bend outward in the same way as above. to absorb the increase in the protrusion length. That is, which one of the cylindrical fitting 39 at the cut end of the outer tube 2 on the operating lever 8 side and the cylindrical fitting 3 at the end on the operating lever 8 side is connected to the guide tube 37 and the mounting tube 15. If the inner cable 3 can be freely moved in and out, the pressing force of the inner cable 3 will not act on the operating lever 8.

When the right operating lever 8 is released, both operating links IO swing back to their original retracted positions due to the restoring elasticity of the compression coil spring 23, and both inner cables 3 are pulled toward the operating link 10. , the right control lever 8 will open as before, and the control cable 1 on the rear wheel side will open as before.
While the outer tube 2 of b is contracted and bent inward as before, the protruding cylindrical fitting 39 returns into the guide tube 37.

When the left operation 1 collar 8 is grasped, both inner cables 3 are pulled together in the same manner as described above, and both operating links IO are simultaneously oscillated to the operating position, and at that time, the operating link IO is simultaneously moved to the operating position. Inner cable 3 is not connected to the right operating lever 8.
It is also the same as above that the pressing force of is not applied.

In addition, the present invention can also be applied to a system in which the operating force is transmitted by pushing the inner cable 3, contrary to the above embodiment, and in that case, the force of the inner cable 3 is transferred to the operating member on the side that is not being operated. In order to prevent this from acting, the cut end of the outer tube 2 on the operation member side or the end on the operation member side should be moved in the direction in which both the ends approach each other in the axial direction, contrary to the above embodiment. When the movement is restrained and it is attached to the mounting member so that it can move freely in the direction away from each other, one inner cable 3 is pushed [2] As the inner cable 3 moves, the operating member of the inner cable 3 of the control cable on the non-operating side When the protrusion length to the side becomes shorter, the cut end or terminal of the outer tube 2 on the operation member side moves,
By allowing the inner cable 3 to flex inwardly without sliding within the outer tube 2 between the two numbered members, the decrease in protrusion length is absorbed, and the inner cable 3 is attached to the operating member. It is possible to prevent the tensile force of

In addition, it can be applied to a push-pull type control cable that moves the inner cable in both push and pull directions, and it can also be applied to a case where three or more control cables are routed.
The present invention can be widely applied to all operating force transmission devices using control cables.

[Brief explanation of the drawing]

Figure 1 is a -i notch overall configuration diagram of one embodiment of the present invention, and Figure 2 is a
The figure is a partially enlarged perspective view. la, lb: Control cable 2. Outer tube 31 Inner cable 5: Handle 6. Bracket 8. Operation lever 10° operating link 13. Cylindrical fitting 15: Mounting part 18 Cylindrical fitting 20: Holding plate
21 Mounting hole 25. Concentrator 27.28: Mounting plate 3
0: Cylindrical fitting 32/Mounting hole 34: Screw hole 35: Insertion tube 37: Guide tube 39: Cylindrical fitting 41: Pressure plate 42: Screw Applicant Shiba 1) Husband's attorney Patent attorney Hiroshi Noguchi

Claims (1)

[Scope of Claims] 1. Inserting an inner cable into a flexible outer tube, attaching both ends of the outer tube to fixing members, and operating both ends of the inner cable protruding from the ends of the outer tube. Two or more control cables connected to the member and the actuating member respectively and arranged so as to transmit operating force by sliding in the axial direction of the inner cable are gathered at one place in the middle of the arrangement. , cutting off a certain length of the outer tube at the gathering portion of each of the control cables to expose the inner cable, and attaching a pair of corresponding ends of each of the outer tubes at a distance from each other at the cut out portion. A control cable is used, characterized in that each of the exposed inner cables attached to a plate is passed through between the two mounting plates, and the exposed inner cables are integrally connected by a connecting member. Operation force transmission device 2 When the control cable transmits the operation force by the pulling movement of the inner cable, the end of the cutout of the outer tube on the operation member side, or the end of the outer tube on the operation member side. Operation using the control cable according to claim 1, characterized in that the terminal is attached to the mounting plate or the fixing member so as to be freely movable in the direction in which both approaches each other in the axial direction. Force Transmission Device 3 When the control cable transmits the operating force by the pushing movement of the inner cable, the end of the cutout of the outer tube on the operating member side or the end of the outer tube on the operating member side , operating force transmission using a control cable according to claim 1, wherein the control cable is attached to the mounting plate or the fixing member so as to be freely movable in a direction in which both are separated from each other in the axial direction. Device