TAPE WINDER

Abstract

A roll tape 1 is held by a tip end portion of an arm 3 connected by a pivot shaft 4 fixed to a rotating body 5, and an enlarged diameter curved surface portion 6 is provided that comes into contact with the arm 3 that pivots at a time of rotation. In an angle range in which the arm 3 is in contact with the enlarged diameter curved surface portion 6, the arm 3 is pushed in a rotation outward direction at the time of rotation such that the tape stretched from the roll tape 1 to an object 9 is wound around the object 9 while being pulled out. In an angle range in which the arm 3 is not in contact with the enlarged diameter curved surface portion 6, the tape previously pulled out from the roll tape 1 is wound around the object 9 while being wound up on the object 9. By repeating this alternately, displacement of the object from the rotation axis is suppressed, and proper winding is performed.

Description

TECHNICAL FIELD

The present invention relates to a tape winder that winds a roll tape around an object such as a bundle of electric wires.

BACKGROUND ART

As a part of manufacturing of wire harnesses for a vehicle, a tape winding device has been proposed that winds a tape around a bundle of electric wires or an exterior member covering the bundle. In a tape winder included in the tape winding device, a tape supported by a rotating body that rotates in a plane intersecting the object at a right angle rotates around the object extended on the rotation axis so that the tape is wound around the object.

RELATED ART DOCUMENTS

Patent Document

Patent Document 1: Japanese Unexamined Patent Application Publication No. 2015-224123

SUMMARY OF THE INVENTION

Problems to be Solved by the Invention

In the tape winder included in the known tape winding device, at the time of winding a tape, the object is drawn to the tape by a tape peeling force (adhesive force against the non-adhesive surface that is the back surface of the tape) and is displaced from the axis, and thus proper winding may not be able to be performed.

In the known tape winder, the object is pulled in the rotation direction by the peeling force of the rotating tape, so that the object may rotate and a twist may occur.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a tape winder having excellent tape winding performance for a roll tape.

Means for Solving the Problems

In order to achieve the object described above, in the present invention, a roll tape is held by a tip end portion of an arm connected by a pivot shaft fixed to a rotating body, and an enlarged diameter curved surface portion is provided that comes into contact with the arm that pivots at a time of rotation. In an angle range in which the arm is in contact with the enlarged diameter curved surface portion, the arm is pushed in a rotation outward direction at the time of rotation such that the tape stretched from the roll tape to an object is wound around the object while being pulled out. In an angle range in which the arm is not in contact with the enlarged diameter curved surface portion, the tape previously pulled out from the roll tape is wound around the object while being wound up on the object. In the angle range in which the arm is not in contact with the enlarged diameter curved surface portion, the tape is wound around the object 9 without being pulled out from the roll tape 1. Therefore, a tensile force applied to the object 9 in the direction of the roll tape 1 is suppressed. By repeating this alternately, displacement of the object from the rotation axis is suppressed, and proper winding is performed.

Effects of the Invention

According to the present invention, it is possible to provide a tape winder having excellent winding performance for a roll tape and a tape winding device including the tape winder.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1(a) is a perspective view of a tape winder according to the present invention. FIG. 1(b) is a perspective view showing a back surface of a tape holder portion of the tape winder.

FIG. 2 is a perspective view showing a tape winding operation.

FIG. 3(a) is a schematic view showing an operation of winding a tape around an object while pulling out the tape. FIG. 3(b) is a schematic view showing an operation of winding up a tape on the object without pulling out the tape.

MODES FOR CARRYING OUT THE INVENTION

As shown in FIG. 1, a holder portion 2 is provided at a tip end portion of an arm 3 connected by a pivot shaft 4 fixed to a rotating body 5 to hold a roll tape 1 (adhesive tape). A roller 10 is provided on the back surface of the holder portion 2 at the tip end of the arm 3, and an enlarged diameter curved surface portion that comes into contact with the roller 10 when the roll tape 1 rotates and passes under the object is provided. A first support portion 7 and a second support portion 8 are provided that support the object 9 so as to suppress the object 9 from displacing from the axis of the rotating body 5.

The pivot shaft 4 has such a holding force that the pivot shaft 4 does not pivot due to the weights of the roll tape 1, the holder portion 2, and the arm 3, and has a holding force within such a range that the arm 3 pivots without pulling out the tape from the roll tape 1 when the tape stretched from the roll tape 1 to the object 9 is wound up by the object 9.

Examples

The operations of the tape winder will be described with reference to FIG. 2. FIG. 3 shows schematic views showing the rotating body 5 and the arm 3 performing a tape winding operation.

First, the object 9 (a bundle of electric wires or the like) held by an operator's hand or a device and extending on the axis of the rotating body 5 is supported by the first support portion 7 and the second support portion 8. At this time, it is preferable to bring the object 9 into contact with the deepest portion of the inner surface of the recess of each of the first support portion 7 and the second support portion 8.

A tape end portion of the roll tape 1 held by the tip end portion of the arm 3 connected to the rotating body 5 with the pivot shaft 4 is pulled out and attached to the object 9.

When the rotating body 5 starts rotating in the direction of a rotation direction 11 in response to the driving force from a driving device, the tape stretched from the roll tape 1 to the object 9 is wound up by the object 9, the arm 3 pivots, and the roll tape 1 comes close to the object 9 while rotating.

When the roll tape 1 rotates to a position below the object 9, the roller 10 provided on the back surface of the tape holder portion 2 comes into contact with the enlarged diameter curved surface portion 6.

As shown in FIG. 3(a), when the rotating body 5 rotates in the direction of the rotation direction 11 while the roller 10 is in contact with the enlarged diameter curved surface portion 6, the arm 3 is pushed in a rotation outward direction and the arm 3 pivots in a pivot direction (outward) 12, so that the tape is wound around the object 9 while being pulled out from the roll tape 1. At this time, a downward tensile force is applied to the object 9 in order to pull out the tape, but the object 9 is supported by the first support portion 7 and the second support portion 8 in the downward direction.

As shown in FIG. 3(b), in an angle range in which the roller 10 is not in contact with the enlarged diameter curved surface portion 6, the rotating body 5 rotates in the direction of the rotation direction 11 so that the tape stretched from the roll tape 1 to the object 9 is wound up by the object 9, whereby a tension is applied between the roll tape 1 and the object 9. Since the object 9 is supported by the first support portion 7 and the second support portion 8, the roll tape 1 is pulled in the direction of the object 9. The holding force of the pivot shaft 4 connecting the rotating body 5 and the arm 3 is smaller than the peeling force of the tape (adhesive force against the non-adhesive surface that is the back surface of the tape). Therefore, the arm 3 pivots around the pivot shaft 4 in the direction of the rotation direction (inward) 13 that is a direction in which the roll tape 1 comes close to the object 9, without pulling out the tape. When the roll tape 1 is brought close to the object 9 while the tape is being wound up by the object 9 from the roll tape 1, the tension applied to the tape stretched between the roll tape 1 and the object 9 is suppressed, so that the tensile force applied to the object 9 in the direction of the roll tape 1 is also suppressed.

The operation of winding the tape around the object 9 while pulling out the tape from the roll tape 1 and the operation of winding the tape that has been previously pulled out around the object 9 while winding up the tape on the object 9 without pulling out the tape from the roll tape 1 are alternately repeated, so that the displacement of the object from the rotation axis is suppressed and proper winding is performed.

The present invention is not limited to the above embodiments, and various modifications can be adopted within the scope of the present invention. In addition, materials, shapes, dimensions, locations, and the like of the components in the above embodiments can be set as appropriate and are not limited as long as the present invention can be achieved. This applies to the shape of the rotating body, the location and the shape of the support portion, for example.

Further, the winding position is not limited to one position for overlap winding, and it is possible to spirally wind the tape around the object by moving the tape winder and the object relative to each other along the rotation axis.

Further, the object around which the tape is wound is not limited to the bundle of electric wires, and in the present invention, any linear material around which the tape can be wound may be adopted. For example, the object may be a single electric wire, a linear member not including an electric wire, or a tube-shaped material.

DESCRIPTION OF REFERENCE SIGNS

• • 1 roll tape
  • 2 holder portion
  • 3 arm
  • 4 pivot shaft
  • 5 rotating body
  • 6 enlarged diameter curved surface portion
  • 7 first support portion
  • 8 second support portion
  • 9 object
  • 10 roller
  • 11 rotation direction
  • 12 pivot direction (outward)
  • 13 pivot direction (inward)

Claims

1. A tape winding device characterized in that a roll tape is held by a tip end portion of an arm connected by a pivot shaft fixed to a rotating body, and an operation of winding a tape around an object while pulling out the tape from the roll tape and an operation of winding a tape that has been previously pulled out around the object while winding up the tape on the object are alternately repeated.

2. The tape winding device according to claim 1, characterized in that an enlarged diameter curved surface portion is provided that comes into contact with the arm that pivots at a time of rotation, and the arm is pushed in a rotation outward direction at the time of rotation such that the tape stretched from the roll tape to the object is pulled out.