JPH08186426A - Automatic bending machine for semirigid coaxial cable - Google Patents

Abstract

PURPOSE: To automate all the processes of cable bending work with high accuracy by pressing a semirigid coaxial cable from the upside orthogonally to the cable axial direction. CONSTITUTION: This bending machine is provided with a main body 10 of the bending machine for mounting a semirigid coaxial cable 1 in the longitudinal direction, slide part 20 to be moved on the main body of the bender along the cable axial direction, fixing and rotating part 30 composed of a fixing means for fixing one end side of the coaxial cable 1 and a rotating means for rotating the fixing means at any arbitrary angle around the cable axis and mounted on the slide part, bend working part 40 composed of a holding means 41 for holding the other end side of the coaxial cable 1, raising means for raising the holding means 41 at any arbitrary angle and pressing means 43 positioned near the raising direction side of the holding means 41 so as to next press the coaxial cable 1 from the upside orthogonally with the axial direction, and information processing part 50 composed of an input means 51 for inputting the respective numerical data such as the rotating angle of the fixing and rotating part 30, the raising angle of the bend working part 40 and the slide distance of the slide part 20 and a driving and control means 52 for driving and controlling the fixing and rotating part 30, bend working part 40 and slide part 20.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic bending machine for a semi-rigid coaxial cable, and more particularly to a semi-rigid coaxial cable automatic bending machine for automating a bending process of a semi-rigid coaxial cable with high accuracy.

[0002]

2. Description of the Related Art Generally, a bending process of a semi-rigid coaxial cable has hitherto been performed manually by a worker using a jig based on a manufacturing drawing.

However, the bending of the semi-rigid coaxial cable by a worker's manual work requires highly skilled techniques and intuition, and cannot be done by anyone. Therefore, the work of bending the semi-rigid coaxial cable cannot be easily performed.

Further, since such a semi-rigid coaxial cable is manually operated, the shape of the cable varies among skilled workers even if the workers are different.
There is also a problem that it is difficult to make products uniform. Furthermore, depending on the completed shape of the cable, it may be necessary to perform a three-dimensional cable bending process, which is difficult and time-consuming to perform manually even though it is an expert.

Therefore, in order to reduce the burden of the bending work of the semi-rigid coaxial cable by the manual work of such a skilled person, Japanese Patent Laid-Open No. 63-263803 discloses that:
A helical coil forming device provided with a bending mechanism for a coaxial cable used for making a helical coil antenna has been proposed.

This helical coil forming device is provided with a bending portion for bending the central conductor extension portion, which is extended and exposed from the coaxial cable, at a right angle, so that the bending process of the coaxial cable in forming the helical coil antenna can be efficiently performed. I have to.

[0007]

However, the cable bending portion of the helical coil forming device disclosed in Japanese Unexamined Patent Publication No. 63-263803 only bends the cable at a right angle, and other angles. I could not cope with the bending of.

Further, it is necessary to bend the cable manually at 45 degrees in advance, and it is not completely automated, but only a part of the burden of manual work is reduced.
Further, it can be used only for forming a helical coil antenna, and there is a problem that it is not versatile.

The present invention has been proposed in order to solve the problems of each of the above-mentioned conventional techniques, and mechanically carries out all the cable bending processes that are conventionally performed manually by an operator. The purpose is to provide an automatic bending machine for semi-rigid coaxial cables.

[0010]

In order to achieve the above object, an automatic bending machine for a semi-rigid coaxial cable according to claim 1 of the present invention comprises a bending machine body for mounting a semi-rigid coaxial cable in a longitudinal direction, and a bending machine body on which the bending machine body is mounted. A slide part that moves along the cable axis direction, a fixing means for fixing one end side of the semi-rigid coaxial cable mounted on the bending machine body, and a rotating means for rotating this fixing means at an arbitrary angle in the axial direction of the cable. A fixed rotating part mounted on the slide part, a holding means for holding the other end of the semi-rigid coaxial cable mounted on the bending machine body, and an erecting means for erecting the holding means at an arbitrary angle. And a holding means that is located near the upright direction side of the holding means and that presses the semi-rigid coaxial cable from above, orthogonal to the cable axis direction. Et Naru bent portion, it is constituted provided with the.

According to another aspect of the semi-rigid coaxial cable automatic bending machine of the present invention, numerical data of each of the rotation angle of the fixed rotating portion, the upright angle of the upright means of the bending portion and / or the slide distance of the slide portion. Is provided, and an information processing unit including an input unit for inputting and a drive control unit for driving and controlling the fixed rotating unit, the bending unit and the slide unit.

Furthermore, in the semi-rigid coaxial cable automatic bending machine according to a third aspect of the present invention, the fixed rotating portion fixes one end sides of the plurality of semi-rigid coaxial cables in parallel, and the holding means of the bending portion fixes the fixing portion. The other end of the same number of semi-rigid coaxial cables as the rotating portion is held in parallel.

[0013]

According to the semi-rigid coaxial cable automatic bending machine of the present invention having the above-mentioned structure, all the cable bending work can be performed mechanically, the working efficiency can be greatly improved, and the high quality and uniform product can be obtained. Can be realized.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a semi-rigid coaxial cable automatic bending machine of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic perspective view showing the appearance of a semi-rigid coaxial cable automatic bending machine according to this embodiment. In the figure, 10 is a bending machine main body, which constitutes a workbench on which the semi-rigid coaxial cable 1 to be processed is mounted in the longitudinal direction. On the upper surface of the bending machine main body 10, a slide portion 20 that moves from one end side to the other end side along the cable axial direction.
Is provided.

As shown in FIG. 2, the slide portion 20 has a slide drive means 21 which is rotationally driven by the rotary motion of a stepping motor, meshes with the bottom surface of the slide portion 40 to form a rack and pinion, and thereby slides. Part 2
0 is movable in the cable axis direction (FIG. 2 shows the state where the slide portion 20 is located at the right end).

Reference numeral 30 denotes a fixed rotating portion, which is a fixing means 31 for fixing one end side of the semi-rigid coaxial cable 1 mounted on the bending machine main body 10, and a rotation for rotating this fixing means at an arbitrary angle around the axis of the cable. And means 32 and is mounted on one side of the slide portion 20.

The fixing means 31 of the fixed rotating portion 30 is formed in the shape of a collet chuck that detachably holds one end of the coaxial cable 1.

Further, the rotation driving means 32 of the fixed rotation part 30.
Consists of a stepping motor, etc.
The fixing means 21 is rotatably supported and is rotated. Thereby, the fixing means 3 of the fixed rotating unit 30
The coaxial cable 1 gripped by 1 rotates about an axis.

Reference numeral 40 denotes a bending portion, which is provided at the end of the bending machine body 10 opposite to the fixed rotating portion 30 and holds the semi-rigid coaxial cable 1 on the side not fixed to the fixed rotating portion 30. 41, an erecting means 42 for erecting the holding means 41 at an arbitrary angle, and a holding means 43 which is located in the vicinity of the erecting direction side of the holding means 41 and crosses above the semi-rigid coaxial cable 1 orthogonal to the cable axis direction. It is composed of.

The holding means 41 is a plate-like member having a semicircular groove having a diameter substantially the same as that of the semi-rigid coaxial cable 1, and the groove holds the semi-rigid coaxial cable 1. As shown in FIGS. 3 and 4, on the bottom surface of the holding means 41, an upright means 42 composed of an arc-shaped gear is arranged, and the upholding means 41 is upright in the arc direction of the semi-rigid coaxial cable 1. .

The standing drive means 44 of the standing means 42 is
As shown in FIG. 4, a rack and pinion is formed by meshing with the back surface of the upright means 42, and the slide drive means 2 described above is used.
1, like the rotation driving means 32, the holding means 41 is erected by being rotationally driven by the rotary motion of the stepping motor. The range of the standing angle of the holding means 41 can be freely set by extending the arc shape of the standing means 42.

As shown in FIGS. 1 and 3, the pressing means 43 is located at the bending processing position of the coaxial cable 1. In this embodiment, the cylindrical rod-shaped member is formed into a gate-shaped coaxial cable 1.
It is provided so as to straddle the top of the. However, the present invention is not limited to this, and may be, for example, a semicircular shape or the like, and the coaxial cable 1 may be pressed from above even if it is not a straddle shape.

Further, as shown in FIG. 1, in the automatic bending machine of the present embodiment, the numerical values of the slide distance of the slide portion 20, the rotation angle of the fixed rotation portion 30, and the standing angle of the bending portion 40 are data. Input means 51 for inputting the
0, a fixed rotation unit 30, and a drive control unit 52 for controlling the drive unit of the bending unit 40.
(Usually a personal computer) is connected.

The information processing unit 50 calculates the motor rotation angle (the number of drive pulses) based on the input data, and drives the stepping motors of the respective units, so that the slide unit 20 and the fixed unit are fixed as follows. Each part of the rotating part 30 and the bending part 40 is driven and controlled.

That is, the slide portion 20 and the fixed rotation portion 3
0, since the stepping motor, which is a driving means for each part of the bending part 40, rotates by a predetermined angle for each pulse,
By sending an arbitrary drive pulse to the motor, it becomes possible to rotate the motor by an arbitrary angle. And
The information processing unit 50 independently controls the stepping motors of the slide unit 20, the fixed rotating unit 30, and the bending unit 40.

Therefore, in the semi-rigid coaxial cable 1,
Settings such as which position and which direction to bend
The cable bending point (moved by the rotation of the motor of the slide unit 20) input to the input unit 51 of the information processing unit 50, the bending direction (the rotation of the fixed rotation unit 30 indicates the direction of the cable, which is instructed to each stepping motor. Change) and the bending angle (processed by the rotation of the motor of the bending section 40).

The semi-rigid coaxial cable automatic bending machine of this embodiment having such a structure is used as follows. That is, first, one end of the semi-rigid coaxial cable 1 to be processed is held and fixed by the fixing means 31 of the rotation fixing portion 30, and the other end side is mounted in the groove portion of the holding means 41 of the bending portion 40 to set. To do.

Next, numerical data such as a cable bending point position, a cable rotation angle, and a cable bending angle required for bending are input to the personal computer of the information processing unit 1. When a cable bending process start instruction is input to the personal computer of the information processing unit 1, the same process is started.

First, the information processing section 1 rotates the drive motor of the slide section 20 according to the inputted cable bending point position data to slide the slide section 20 to an arbitrary position.

Next, the information processing section 1 rotates the drive motor of the fixed rotating section 30 according to the input cable rotation angle data to rotate the semi-rigid coaxial cable 1 around the axis by an arbitrary angle.

After that, the information processing section 1 rotates the drive motor of the bending section 40 to drive the erection means 42 according to the input cable bending angle data, and erects the holding means 41 to an arbitrary position so as to be semi-rigid. Coaxial cable 1
Bend.

As a result, the coaxial cable 1 whose bending position is held down by the holding means 43 is bent at a predetermined bending position to a desired angle. The above-described series of operations is performed until all bending of the cable is completed.

As described above, according to the automatic bending machine for semi-rigid coaxial cables of this embodiment, since all the bending work is automated by a machine, the bending work of the cable can be made highly precise and the time required for the bending work can be reduced. It can be shortened, work efficiency can be greatly improved, and high quality and uniform product can be achieved. It also reduces the labor costs required for cable bending.

The present invention is not limited to the above embodiment, but various modifications can be made within the scope of the invention. For example, in the above-described embodiment, the bending process of a single semi-rigid coaxial cable is targeted, but the number of bending processes may be plural.

That is, as shown in FIG. 5, a plurality of fixed rotating portions 30 are provided so that one end sides of the plurality of semi-rigid coaxial cables 1a and 1b can be fixed in parallel (30
a, 30b), the holding means 41 of the bending portion 40 also has a plurality of grooves so that the other end sides of the same number of semi-rigid coaxial cables as the fixed rotating portions 30a, 30b can be held in parallel. Accordingly, it is possible to bend a plurality of semi-rigid coaxial cables at the same time by bending once.

[0036]

As described above, according to the semi-rigid coaxial cable automatic bending machine of the present invention, it is possible to mechanically perform all the cable bending work which the operator has manually performed until now. The processing time can be shortened, work efficiency can be greatly improved, and high quality and uniform product can be contributed.

[Brief description of drawings]

FIG. 1 is a schematic perspective view showing the external appearance of a semi-rigid coaxial cable automatic bending machine according to an embodiment of the present invention.

FIG. 2 is a schematic side view showing driving means for a slide part and a fixed rotation part of the semi-rigid coaxial cable automatic bending machine shown in FIG.

FIG. 3 is a schematic side view showing a bending portion of the semi-rigid coaxial cable automatic bending machine shown in FIG.

FIG. 4 is a schematic side view showing driving means of a bending portion of the semi-rigid coaxial cable automatic bending machine shown in FIG.

FIG. 5 is a schematic perspective view showing an appearance of a semi-rigid coaxial cable automatic bending machine according to another embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Semi-rigid coaxial cable 20 ... Sliding part 21 ... Slide driving means 30 ... Fixed rotating part 31 ... Fixing means 32 ... Rotation driving means 40 ... Bending part 41 ... Holding means 42 ... Standing means 43 ... Pressing means 44 ... Standing driving means 50 ... Information processing unit 51 ... Input means 52 ... Drive control means

Claims (3)

[Claims] 1. A bending machine main body on which a semi-rigid coaxial cable is mounted in a longitudinal direction, a slide portion which moves on the bending machine main body along a cable axial direction, and one end side of a semi-rigid coaxial cable mounted on the bending machine main body. A fixed rotating unit mounted on the slide unit, which comprises a fixing unit for fixing and a rotating unit for rotating the fixing unit at an arbitrary angle around the axis of the cable, and a semi-rigid coaxial unit mounted on the bending machine body. Holding means for holding the other end side of the cable, standing means for standing this holding means at an arbitrary angle, and a semi-rigid coaxial cable that is located near the standing direction side of the holding means and is orthogonal to the cable axial direction from above. An automatic bending machine for a semi-rigid coaxial cable, comprising: a bending section including pressing means for pressing. 2. An input unit for inputting numerical data of each of a rotation angle of the fixed rotating unit, an upright angle of a rising unit of the bending unit and / or a slide distance of the sliding unit, the fixed rotating unit and the bending unit. The semi-rigid coaxial cable automatic bending machine according to claim 1, further comprising an information processing unit including a drive control unit that drives and controls the processing unit and the slide unit. 3. The fixed rotating part fixes one end side of a plurality of semi-rigid coaxial cables in parallel, and the holding means of the bending part fixes the other end side of the same number of semi-rigid coaxial cables as the fixed rotating part. The automatic bending machine for semi-rigid coaxial cables according to claim 1 or 2, which is held in parallel.