JP3101549B2 - Device for absorbing tension and slack in linear bodies - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for winding a linear body such as a filament around a bobbin or a mandrel while adjusting the tension of the linear body with a tension adjuster so as not to loosen the linear body. The present invention relates to a tension / slack absorbing device for a linear body to be wound tightly around a bobbin or a mandrel.

[0002]

2. Description of the Related Art When a linear body such as a filament is regularly wound around a bobbin or a mandrel rotating at a predetermined speed, first, the tension of the linear body is adjusted so that the linear body is not loosened. Must be wound tightly. FIG. 4 shows a typical device for preventing slack of a linear body which has been conventionally used. For example, a filament impregnated with a thermosetting resin liquid melted in a resin bath is prevented from being slackened by the slack preventing device. The filament (1) travels under a predetermined tension by a tension adjuster (not shown), and a resin bath (15) filled with a molten thermosetting resin liquid. ) Through which the reciprocating motion reciprocates parallel to the mandrel (16).
Mandrel (1) driven by a motor (17) from
It is wound around 6), but the slack of the filament (1) is prevented by the swing support (19) arranged in front of the yarn mouth (20). The swing support (19) has a substantially U-shape, and a column (18a) standing on a gantry (18).
It is provided to be able to swing freely.

Accordingly, the filament (1) having a predetermined tension applied by the tension adjuster travels while being immersed in the molten resin liquid in the resin bath (15), and rotates around the roller (15a) rotating in the resin liquid. The resin liquid is uniformly impregnated in contact with the surface. Then, the filament (1) is wound around the rotating mandrel (16) while abutting on the top of the swing support (19) which has been lowered to the right. Since the filament (1) is slidably connected to the swing support (19), if the filament (1) is wound around the mandrel (16) in a state where the filament (1) is pulled without being loosened, the swing support (19) is formed. ) Cannot withstand its own weight, its top rises slightly upwards to the right, and when the filament (1) becomes loose, its own weight of the swing support (19) wins and its top rotates clockwise. Then it falls to the right. In this way, the slack of the filament (1) is absorbed and the slack is prevented by the swing support (19) repeating the upward and downward swings.
The above-mentioned tension adjuster is already known and generally used, and controls the tension of the filament by a powder brake or the like.

[0004]

However, in the above-described conventional device for preventing slack of a linear body, since the slack of the filament is prevented by the weight of the top of the swing support, the response corresponding to the slack of the filament is slow. turn into.
When the distance between the filament and the mandrel is increased, the filament is likely to be loosened.In such a case, the swing support repeatedly rises and falls to the right with considerable amplitude. Could not be absorbed. In view of the above, the present invention has been made in view of the above-described problems, and has a function of following a running state of a linear body such as a filament, and promptly responds to the loosening of the linear body to absorb the loosening. It is an object of the present invention to provide a device for absorbing tension and slack of a linear body that can be used.

[0005]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention provides an apparatus for absorbing tension and slack in a linear body as described below. That is, a swing arm rotatably supported at a tip end of a shaft rotatably supported on a gantry, two rollers laterally provided on the swing arm, and the shaft and the swing arm. A coil spring stretched therebetween, a rotation handle for rotating the shaft, and a stopper for preventing the swing arm from further tilting, until or after the swing arm contacts the stopper. Further, the shaft is rotated by the rotary handle to adjust the elasticity of the coil spring, and the change in the angle of inclination of the swing arm formed by the relaxation of the coil spring causes the roller to rotate. A tension / slack absorbing device for a linear body, which is configured to automatically absorb tension and slack of a wound linear body.

[0006]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is an explanatory view showing a state in which a linear body such as a filament is wound around a mandrel by employing the linear body tension / slack absorbing device according to the present invention. As described above, the filament (1) to which a predetermined tension is applied by the tension adjuster (not shown) is impregnated with the resin liquid melted in the resin bath (15), and the two rollers (12) of the swing arm (8) are impregnated. ) (12a) and wound around a mandrel (16) rotated by a motor (17). Then, as described later, when the filament (1) is loosened, the restoring force of the coil spring (11) stretched on the shaft (3) and the swing arm (8) wins, and the swing arm (8)
The two rollers (12) and (12a) laterally mounted on the surface of the filament (1) rotate integrally and rotate clockwise to be inclined.
The filament (1) is wound around the mandrel (16) while maintaining normal tension. On the other hand, if the filament (1) is wound around the mandrel (16) in an extremely pulled state, the restoring force of the coil spring (11) is inferior, so that the two rollers (12) ( The oscillating arm (8) on which the side 12a) is provided is turned counterclockwise and tilts to relieve the extreme pulling of the filament (1), and the filament (1) is returned to its normal state in the mandrel (8). 16).

FIG. 2 is a cross-sectional view of a side surface of the tension / slack absorbing device for a linear body. In FIG. 2, (2) is a stand, (3)
Is a shaft, and the shaft (3) is rotatably supported on the gantry (2) via a bearing. (4) is a worm gear fixed around the rear end of the shaft (3), and (5) is a rotary handle for operating a shaft provided with a gear meshing with the worm gear (4). At the center of the shaft (3), a projecting portion (6) is protruded in a stepwise manner, and a spring fixing pin (7) is attached to the projecting portion (6). (8) is a swing arm having an opening (9) formed in the center, and the tip of the shaft (3) passes through the opening (9) of the swing arm (8). Stop plate (10) having a larger diameter than opening (9)
Thereby, the swing arm (8) is rotatably supported on the shaft (3). (11) is a coil spring wound around the shaft (3). One end of the coil spring (11) is connected to a spring fixing pin (7) attached to the protruding portion (6) of the shaft (3). The other end is connected to a spring fixing pin (7a) attached to the inner wall of the swing arm (8).
(12) and (12a) are rollers rotatably mounted on the outer wall of the swing arm (8), and (13) is a gantry (2).
Side cylinder that is installed horizontally on the inner wall of the coil spring (1).
1) is covered. The filament (1) travels in the vertical direction in the drawing, winds the roller (12), winds it around the roller (12a) in a crossed manner, and runs in the back direction of the drawing to move the mandrel ( 16).

FIG. 3 is a front view of the swing arm (8). The tip of the shaft (3) has an opening (9) of the swing arm (8).
The swing arm (8) is rotatably supported on the shaft (3) by a stopper plate (10). Rollers (12) and (12a) are rotatably supported at the upper and lower ends of the swing arm (8), and the filament (1) traveling from the left side in the drawing is wound around the roller (12) and crossed. It is wound around a roller (12a) in a hung manner, travels rightward in the drawing, and is wound around a mandrel (16). (14) a stopper disposed on the gantry (2) for preventing the swing arm (8) from further tilting.

Since the present invention has the above configuration, its operation will be described below. First, a predetermined tension is applied to the filament (1), the filament (1) is wound around the rollers (12) and (12a) in a cross-like manner, and the tip thereof is connected to the motor (1) through a yarn mouth (20).
Wound around the rotating mandrel (16) in 7),
At this time, when the rotating handle (5) is rotated clockwise,
Since the gear fixed to the shaft connected to the rotating handle (5) and the worm gear (4) fixed around the rear end of the shaft (3) are meshed, the shaft (3) 3 rotates clockwise in FIG. 3, and the swing arm (8) also rotates clockwise as a unit, and tilts to an angle shown by the broken line in FIG. Then, the swing arm (8) is connected to the stopper (14).
, The rotation of the rotation handle (5) is stopped.
At this time, if the filament (1) wound around the roller (12a) is loose, the filament (1) moves so that its tension and the pulling force to the mandrel (16) become the same, so that the swing arm ( 8) rotates counterclockwise. However, the swing arm (8) attempts to return to the original state and returns in the clockwise direction by the restoring force of the coil spring (11), and the degree of the return is determined by the filament (1) wound around the roller (12a). Since it follows the degree of loosening, after all, when the tension state of the filament (1) wound around the rotating mandrel (16) and the restoring force of the coil spring (11) are balanced, the swing arm (8) ) Stops stably and the filament (1) is wound around the mandrel (16) in a tensioned state without being loosened while maintaining the inclination angle at that time.

On the other hand, the filament (1) is extremely mandrel (16) more than the restoring force of the coil spring (11).
When the tension is pulled, the swinging arm (8) rotates counterclockwise. When the tension of the filament (1) is slightly relaxed on the way, the coil spring (11) is rotated. ), The swing arm (8) starts to rotate clockwise. After all, when the tension state of the filament (1) and the restoring force of the coil spring (11) are balanced, the swing arm (8). ) Stops stably,
While maintaining the tilt angle at that time, the filament (1) is not pulled excessively, and the mandrel (16) is in a normal tension state in which the filament (1) is stretched without loosening. ).

In the above, the rotation handle (5) is rotated clockwise to rotate the swing arm (8) clockwise, and when the swing arm (8) comes into contact with the stopper (14), the rotation handle is rotated. When the rotation of (5) is stopped, but the tension of the filament (1) or the pulling force on the mandrel (16) is stronger than the above case, the swing arm (8) comes into contact with the stopper (14). Then, the rotating handle (5) is further rotated clockwise. Then, the shaft (3) rotates without rotating the swing arm (8), and one end is connected to the spring fixing pin (7) attached to the projection (6) of the shaft (3), The other end of the coil spring (11) connected to the spring fixing pin (7a) attached to the swing arm (8) is tightened sequentially, at which point the rotation of the rotary handle (5) stops. When the filament (1) is caused to travel, the filament (1) is pulled in a state of tension higher than the tension of the filament (1) or the pulling force on the mandrel (16).
It is wound around. The oscillating arm (8) follows the tension state of the filament (1) sensitively and changes its inclination angle. When the filament (1) is loosened even a little, the oscillating arm (8) moves clockwise. ,Also,
When the tension of the filament (1) increases even slightly, the swinging arm (8) absorbs the slack and tension of the filament (1) by changing its inclination angle in a counterclockwise direction, and in a normal tension state. The filament (1) is wound around the mandrel (16). The coil spring (11) is not limited to a specific one, but only needs to have a certain spring force, and the position of the stopper (14) is not limited to another.

In any case, the present invention is based on the change in the tilt angle of the swing arm formed by the relaxation of the coil spring stretched between the swing arm and the shaft rotatably supporting the swing arm. Wherein the tension and slack of the linear body wound around the two rollers of the swing arm are automatically absorbed. A free swing arm is provided, and a roller capable of crossing a linear body is provided on the swing arm so as to be rotatable up and down, and a shaft is rotated between the shaft and the swing arm by a rotation handle. A tension / slack absorbing device for a linear body, comprising a coil spring having an adjustable elasticity and a stopper for preventing the swing arm from further tilting, the degree of tension of the linear body. Slack in response to By adjusting the elasticity of the coil spring with the rotating handle, the response speed to the slackness of the linear body can be adjusted, and by providing a stopper, the energy storage of the coil spring can be increased. effective. Thus, the present invention can be arbitrarily changed in design within the spirit of the present invention.

[0013]

The tension / slack absorbing device according to the present invention automatically prevents a linear member such as a filament from being loosened by the restoring force of a coil spring, and applies the linear member to a mandrel in a normal tension state. The swing arm can respond to the degree of tension of the linear body and automatically change its tilt angle to return the tension of the linear body to the normal state. it can. Moreover, the structure is simple and the operation is easy, which greatly contributes to the improvement of product quality and productivity.

[Brief description of the drawings]

FIG. 1 is an explanatory view showing a state in which a linear body is wound around a mandrel using a linear body tension / slack absorbing device according to the present invention.

FIG. 2 is a cross-sectional view of a side surface of the device for absorbing tension and slack of a linear body according to the present invention.

FIG. 3 is a front view of a swing arm.

FIG. 4 is an explanatory view of a conventional example.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Filament 2 Stand 3 Axis 4 Worm gear 5 Rotation handle 6 Projection 7 Spring fixing pin 7a Spring fixing pin 8 Swing arm 9 Opening 10 Stop plate 11 Coil spring 12 Roller 12a Roller 13 Side tube 14 Stopper 15 Resin bus 15a Roller 16 Mandrel 17 Motor 18 Mount 18a Column 19 Swing support 20 Thread

────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-4-226251 (JP, A) JP-A-3-259864 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) B65H 59/36 D02H 13/32

Claims (1)

(57) [Claims] An end of a shaft rotatably supported on a base.
Swinging arm rotatably supported by
The two laterally mounted rollers, the shaft and the swing arm
Rotating the shaft with the coil spring stretched between
The rotation handle and the tilting arm are prevented from tilting further.
Equipped with a stopper that stops, a swing arm is attached to the stopper
Until or after contact, the rotating hand
Adjust the elasticity of the coil spring by rotating the shaft
And the tension of the coil spring is adjusted.
Due to the change in the tilt angle of the swing arm
Automatically adjusts the tension and slack of the linear body wound around the roller.
Of linear body characterized by being configured to absorb
Tension / slack absorber.