KR101359633B1 - Sorting device for cable and sorting method of the same - Google Patents

Abstract

The present invention provides a cable alignment device capable of setting the alignment position of an input terminal and an output terminal automatically during the manufacturing of a cable and accordingly improving production efficiency and an alignment method using the same. The cable alignment device capable of automatically arranging the input terminal and the output terminal during the manufacturing of a cable, given in the present invention, includes: an alignment jig on which each signal line in one terminal of the cable is aligned in a line and the signal line is fixed while being electrically connected; a controller which is electrically connected to the signal line of the alignment jig and from which a probe for reading during the alignment of the cable is exposed to the outside; and an alignment unit which includes a motor driven by the controller and orders the alignment position of the signal line of the cable by moving a transfer guide by driving the motor under the control of the controller when the probe touches the other end of the cable.

Description

Sorting device for cable and Sorting method of the same}

The present invention relates to a cable alignment device and an alignment method using the same, and more particularly, a cable alignment device and an alignment using the same that can improve the production efficiency by automatically aligning the signal line arrangement position of the input terminal and the output terminal during the manufacture of the cable It is about a method.

Background Art Conventionally, an ultrasonic imaging system has been known in which ultrasonic waves are irradiated onto a subject (human body), the reflected wave (eco) is imaged, and an image of the subject is imaged. Since ultrasonic waves are harmless to a living body, this ultrasonic imaging system is particularly useful for medical purposes and is used for detecting foreign substances in a living body, determining the degree of trauma, observing a tumor, and observing a fetus. For example, an ultrasound test using an ultrasound probe is performed for an examination such as an ultrasound diagnosis using the ultrasound imaging system.

FIG. 1A shows an overall configuration diagram of an ultrasonic diagnostic apparatus 1 having such an ultrasonic probe. As shown in FIG. 1A, the ultrasonic diagnostic apparatus 1 includes a main body 2, a monitor 3, and an ultrasonic probe 10. The ultrasonic probe 10 is composed of an ultrasonic probe head 20 and a cable 30 for transmitting or receiving ultrasonic waves, which are connected to the main body 2 of the ultrasonic diagnostic apparatus 1.

In the ultrasonic examination using the ultrasonic probe 10, the ultrasonic probe head 20 is brought into contact with an inspection site (e.g., the abdomen) of the human body, and the tomography image of the inspection site is acquired by irradiating ultrasonic waves to the inspection site. This is performed by displaying the acquired tomographic image on the monitor 3.

On the other hand, as shown in Figure 1b, the cable 30 used in the ultrasonic diagnostic apparatus 10 is disposed at a substantially center position of the cable 30, a plurality of signal lines 40 for transmitting an electrical signal to the probe head 10 And a shield tube member 50 surrounding the circumferences of the plurality of signal lines 40 and an outer skin portion 60 surrounding the shield tube member 50. As a material of the outer skin part 60, a flexible material is selected. In addition, the shield pipe | tube material 50 is comprised by the thin linear member woven into several net form.

Coaxial cable is mainly used as such cable, and in order to manufacture such cable, each signal line should be arranged in the same arrangement at the input terminal and the output terminal. There was a problem falling.

The present invention has been made to solve the above problems, it is possible to automatically align the input terminal and output terminal of the cable having a plurality of input and output signal lines, such as ultrasonic probe cable to a predetermined arrangement position to improve the production efficiency An object of the present invention is to provide a cable alignment device and an alignment method using the same.

According to one embodiment of the present invention for achieving the above object, a cable alignment device for automatically aligning the input terminal and the output terminal during the manufacture of the cable, each signal line in one end of the cable is aligned in line and the signal line An alignment jig fixed in the electrically connected state; A controller electrically connected to the signal line of the alignment jig and having a probe for meter reading when the cable is aligned; And a motor operated by the controller, and when the probe contacts the other end of the cable, the motor is operated under the control of the controller to move the transfer guide to indicate the alignment position of the signal line of the cable. A cable alignment device including an alignment unit is provided.

The alignment jig is formed with a base plate, a handle portion installed so that one side is rotated on the base plate, a pressure plate connected to one end of the handle portion, and a plurality of alignment grooves positioned at a lower portion of the pressure plate and aligning the cable with the signal line. A cable alignment device including a jig plate, and a probe formed at the lower portion of the alignment groove of the jig plate, the probe is electrically connected to the controller.

The controller may be provided with an origin switch for moving the transfer guide to the original position.

The conveying guide may be a linear guide (LM guide) which is moved back and forth on the alignment unit.

The alignment unit may include a fixing clip for fixing one end of the cable, an alignment plate having a plurality of alignment grooves formed to align the signal line.

A reference line may be formed on the linear guide.

In addition, according to the present invention, as a cable alignment method for automatically aligning the input terminal and the output terminal during the manufacture of the cable, the alignment jig after aligning each signal line of one end of the cable in an alignment groove provided in the alignment jig Pressurizing to electrically contact the signal line with a probe provided in the alignment groove; Reading a probe at each signal line at the other end of the cable; And moving the conveyance guide according to the probe of the probe to guide the alignment position of each signal line on the alignment unit.

Positioning the transfer guide of the alignment unit at the origin before the probe is read.

According to the present invention, the signal line of the input terminal and the output terminal of the cable having a plurality of input and output terminals, such as ultrasonic probe cable can be automatically aligned to a predetermined arrangement position has the effect of improving the production efficiency.

1A is an overall configuration diagram of a general ultrasound diagnostic apparatus,
Figure 1b is a cross-sectional view showing the internal configuration of the cable of the ultrasonic diagnostic apparatus,
Figure 2 is an overall configuration showing a cable alignment device according to an embodiment of the present invention,
3 is a block diagram showing a configuration of an alignment jig, which is one configuration of a cable alignment device according to an embodiment of the present invention;
Figure 4 is a plan view showing the configuration of the alignment plate of the alignment jig, which is one configuration of the cable alignment device according to an embodiment of the present invention,
5 is a perspective view showing an alignment unit which is one configuration of a cable alignment device according to an embodiment of the present invention; and
Figure 6 is a block diagram showing an alignment unit which is one configuration of a cable alignment device according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2, the present invention provides a cable alignment device including an alignment jig 100, a controller 200, and an alignment unit 300.

3 and 4, the alignment jig 100 is rotatably mounted at a predetermined radius through the hinge portion 170 of the handle 160 for the gripping. Meanwhile, the handle part 160 is connected to the pressing plate 110, and the jig plate 120 having a plurality of alignment grooves 121 formed thereon is mounted on the base 150.

Accordingly, when the user grips the handle 160 and presses the pressure plate 110 to the top of the jig plate 120, the pressure plate 110 and the jig plate 120 are in contact with each other.

Meanwhile, as shown in FIG. 2, a plurality of alignment grooves 121 are formed in the jig plate 120, and signal lines Ln are respectively seated on the alignment grooves 121. Meanwhile, the probes 122 are formed in the alignment grooves 121, respectively, and the probes 122 are electrically connected to the controller 200. In addition, the controller 200 may be provided with a home switch 210 for positioning the position of the transfer guide 310. In detail, a plurality of probes 122 may be formed on an upper surface of the base 150. In addition, the alignment groove 121 is exposed through the through hole 121a formed in the jig plate 120. In addition, the jig plate 120 may be mounted to be movable up and down on the base 150 by a plurality of posts 125a as shown in FIG. 4, and springs (not shown) may be mounted on the posts 125a. A function to buffer at regular intervals can be added.

Accordingly, when the user arranges each signal line (Ln) along the alignment groove 121 of the jig plate 120 and presses the handle 160 to press the pressure plate 110 on the jig plate 120, the alignment groove The signal line Ln seated on the 121 is pressurized, and the probe 122 mounted on the upper portion of the base 150 is in contact with the core wire of the signal line Ln (enveloped by the shell), so that each of the controller 200 The signal line Ln is in an electrically connected state. In this case, the signal line Ln may be randomly arranged in the alignment groove 121.

On the other hand, the controller 200 may be connected to the probe (P) for probing the terminal (core) of the output signal line (Ln). In addition, the controller 200 may be connected to the motor M to control forward and backward movement of the transport guide 310 by driving control of the motor M. FIG. In this case, the conveyance guide 310 may be applied with a conventional LM guide (linear guide) as shown in FIG. 5, thus enabling precise conveyance.

Referring to FIG. 5, the alignment unit 300 has a work plate 316 formed on an upper portion of the transfer guide 310 which is linearly advanced back and forth by the motor M, and a plurality of alignments are formed on the work plate 316. The alignment plate 315 in which the groove 311 is formed may be mounted.

Accordingly, the working plate 316 is advanced back and forth according to the linear movement of the transfer guide 310, and the alignment plate 315 mounted on the working plate 316 is moved forward and backward.

In this case, as shown in FIG. 2, the alignment plate 315 is moved with respect to the reference line 321 of the reference plate 320 by directly driving the alignment plate 315 with the motor M. The signal line Ln of the output terminal can be arranged in the alignment groove 311 of the alignment plate 315 in the same order as the arrangement of 121, resulting in the signal line Ln of the input terminal and the output terminal of the cable C. You can make the arrays the same.

At this time, the feed control of the alignment plate 315 through the motor (M) is to probe the probe (P) connected to the controller 200 to the end (core wire) of the signal line (Ln) of the output end side of the motor in the controller 200 This can be achieved by electronically controlling the drive of (M).

Meanwhile, referring to FIG. 5 as an alignment device 300 having a form different from that of FIG. 2, a work plate 316 is mounted on an upper portion of the transfer guide 310, and a mounting plate 315 is mounted on a part of the work plate 316. Is formed, and a plurality of alignment grooves 311 are formed in the mounting plate 315. In addition, the reference plate 320 on which the reference line 321 is formed may be fixed to the upper portion of the alignment plate 315. Accordingly, when the probe P is probed on the signal line Ln, the transfer guide 310 is moved in accordance with the alignment groove 311, and the operator aligns the signal line Ln with the reference line 321. The signal lines Ln at the input and output terminals of the cable C can be arranged in the same manner.

Meanwhile, referring to FIG. 6, the alignment device 300 forms a working plate 316 on the transfer guide 310, and a clamp 313 for fixing the cable C to the working plate 316. The fixing clip 312 may be provided in plural to install and arrange other signal lines Ln when the probe P is probed.

In addition, the working plate 316 may be configured such that only the alignment plate 315 is moved back and forth by the transfer guide 310 in a fixed state. In this case, the reference plate 320 on which the reference line 321 is formed may be fixed to the working plate 316. Accordingly, when the user probes the core of the signal line Ln of the cable C, the alignment plate 315 is moved to automatically match the corresponding alignment groove 311 with the reference line 321 so that the cable C It is possible to align the signal line (Ln) with respect to the input and output terminals.

Hereinafter, the state of use of the cable alignment device of the present invention will be described. First, the signal line Ln of the output terminal or the input terminal of the cable C is arranged in the alignment groove 121 of the jig plate 120 of the alignment jig 100, respectively. Subsequently, the operator presses the pressure plate 110 toward the jig plate 120 while holding the handle 160 to electrically contact the probe 122 with each signal line Ln.

Subsequently, the operator performs individual reading through the probe P with respect to the signal line Ln of the other end (input or output) of the cable C. Accordingly, one end of the cable (C) electrically connected to the controller 200 is connected to the transfer guide 310 or the alignment plate 315 by energizing the other end through the probe (P) by the same line (given an arbitrary arrangement number). One of the formed alignment grooves 311 is operated to match the reference line 321.

In this way, the signal lines Ln on the output side can be arranged in alignment with the alignment grooves 311 in accordance with the arrangement order of the signal lines Ln on the input side. The manufacture of the cable can be made.

Meanwhile, when the arrangement of one cable C is completed as described above, the operation of aligning the alignment plate 315 to the origin through the origin switch 210 of the controller 200 may be preceded for the next cable alignment. That is, since the alignment plate 315 is moved during the previous process, the alignment plate 315 is moved out of the original position in the previous process.

While the present invention has been particularly shown and described with reference to the particular embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

100: alignment jig
110: pressure plate
120: jig board
122: probe
200: controller
210: home switch
300: alignment unit
320: reference plate
321: reference line

Claims (8)

A cable aligning device for automatically aligning signal lines at the input and output terminals when manufacturing a cable,
An alignment jig in which each signal line in one end of the cable is aligned in a row and fixed with the signal lines electrically connected;
A controller electrically connected to the signal line of the alignment jig and having a probe for meter reading when the cable is aligned; And
A motor operated by the controller is provided, and when the probe is in contact with the other end of the cable, the alignment unit is moved to indicate the alignment position of the signal line of the cable by operating the motor under the control of the controller Including,
The alignment unit includes an alignment plate having forward and backward transport guides, a fixing clip for fixing one end of the cable, and a plurality of alignment grooves mounted on an upper portion of the transport guide and forward and backward to align the signal lines. Cable sorting device, characterized in that further comprises. The method of claim 1,
The alignment jig,
Base Plate,
Handle portion installed so that one side is rotated on the base plate,
A pressure plate connected to one end of the handle part, and
It includes a jig plate formed in the lower portion of the pressure plate and formed with a plurality of alignment grooves for the cable line is aligned with the cable,
And a probe which is electrically connected to the controller through a lower portion of the alignment groove of the jig plate. The method of claim 1,
The controller comprising:
Cable alignment apparatus characterized in that the home switch for moving the alignment unit to the original position. delete delete The method of claim 1,
Cable alignment apparatus characterized in that the reference line is formed on the transfer guide. A cable alignment method using the cable alignment device according to claim 1,
After arranging each signal line of one end of the cable in a plurality of alignment grooves provided in the alignment jig and arranging them in a line, the alignment jig is pressed to electrically contact the signal line with a probe provided in the alignment groove. Making a step;
Individually reading the probe at each signal line at the other end of the cable; And
The alignment groove of the alignment plate is moved in accordance with the reference line formed on the alignment unit in accordance with the probe of the probe, comprising the step of guiding the signal line to the alignment groove, respectively. . The method of claim 7, wherein
Prior to the probe reading, further comprising positioning the transfer guide of the alignment unit at the origin.

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