JP2003257262A - Electric wire cutting length tuning jig - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device surely measuring an excessive length of a loosened wire of a wire harness. <P>SOLUTION: A pair of fitting members 12, 13 at left and right sides are sliding movement freely fitted to a central case 11 from outside through a spring S respectively, and either one of a plurality of notches 12b, 13b formed to the lower surface of the fitting members 12, 13 are detachment freely fitted to wire supporting jigs G1, G2, and a scale 14 is fixed to the central part of the central case 11 so as to protrude downward. Scales 11b, 12c, 13c, showing horizontal length, are marked on the outer surface of the central case 11 and the fitting members 12, 13 respectively, and the length between the fitting members 12, 13 mounted to adjacent wire supporting jigs G1, G2 is measured by the scales 11b, 12c, and the lower end position of the loosened part of the wire W put between the wire supporting jigs G1, G2 is measured by the scale 14, and the excessive length of the wire W is calculated from those measured values. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a jig for tuning an electric wire cut length, and more specifically, it is a surplus of the electric wires forming a wire harness during the tuning before manufacturing the wire harness. It accurately measures a long amount.

[0002]

2. Description of the Related Art Conventionally, in the process of manufacturing a wire harness for an automobile, each wire constituting the wire harness is cut according to a design value, and then the wires are actually bundled to assemble the wire harness to obtain an appropriate length. I'm tuning what is going on. For the tuning, as shown in FIG. 7, after the wire harness W / H is bridged between the electric wire receiving jigs G erected on the assembly workbench B, it is inspected whether or not each electric wire W has an extra length. It is carried out.

Specifically, as shown in FIG. 8 (A), an operator visually checks the electric wire W laid between the electric wire receiving jigs G and confirms that the electric wire stretched in a straight line has an appropriate length. Therefore, the electric wire W recognized by the worker as having the slack Wa is considered to have extra length.

The first method of measuring the excess length X of the electric wire W is, as shown in FIG. 8 (B), the slack Wa portion of the electric wire W is pulled up by hand, and the folded back portion Wb is measured with a ruler. The extra length X is obtained by doubling / 2X. Alternatively, as a second measuring method of the surplus length X, as shown in FIG.
As shown in FIG. 5, the connector J at the wire end is removed, and one end of the slack wire W is pulled in the wiring direction to eliminate the slack Wa between the wire receiving jigs G and the length of the pulled-out portion Wc of the wire W. The extra length X is obtained by measuring the length with a ruler.

[0005]

However, in the first measuring method described above, since the worker pulls the slack Wa of the electric wire W by hand, if the slack remains other than the folded-back portion Wb to be measured by the ruler. The surplus amount cannot be measured accurately, the surplus amount varies subjectively among workers, and the worker needs experience to make an accurate judgment. Similarly in the second measuring method, the measurement of the excess length varies among workers, and the connector J must be removed when pulling one end of the electric wire W, which is troublesome.

The present invention has been made in view of the above problems, and it is an object of the present invention to accurately measure the excess length of an electric wire that is loosened among the electric wires that form a wire harness.

[0007]

SUMMARY OF THE INVENTION In order to solve the above problems, the present invention provides a cloth while holding an electric wire by an electric wire receiving jig erected on an assembly work table at the time of tuning performed before manufacturing a wire harness. It is a wire cutting tuning jig that measures the excess length when the wire between the wire receiving jig and the wire is loosened, and the pair of left and right mounting members can be slid on the center case via springs. A plurality of notches at intervals on the lower surfaces of the left and right mounting members, the notches are fitted to an electric wire receiving jig, and the left and right mounting members are detachably attached to the jig, and A ruler is provided so as to project downward at the center of the central case, and a scale for indicating the horizontal dimension is provided on the outer surface of the central case and the outer surfaces of the left and right mounting members. The dimension between left and right mounting member attaching Ri together is measured by the scale, the distal end position of the slack portion of the wire between the wire receiving jig as determined by the ruler,
We provide a jig for tuning the wire cutting length, which is configured so that the extra length of the wire can be obtained from these measured values.

The wire cutting length tuning jig is used to measure the binary value of the dimension between the left and right mounting members mounted on the adjacent wire receiving jig and the tip position of the slack portion of the wire to determine the excess length of the wire. The amount can be calculated as follows.

[0009] There is no bending force between adjacent wire receiving jigs.
Pull the wire in the direction perpendicular to the wiring direction, and
Jig center P1 and P2, and the tip and top of the pulled wire
P3, which is the point that overlaps the ruler provided in the center of the central case
Is the apex, P1-P2 is the base of the length L, and P1
-An isosceles triangle with the hypotenuse of length A being P3, P2-P3
And the dimension L of the above base and the distance from the bottom to P3.
From the height dimension H, use the following formula to calculate the
The extra length is calculated. A^Two= (L / 2)^Two+ H^Two A = √ ((L / 2)^Two+ H^Two) Extra wire length = 2A-L

That is, when the above triangle is formed, the length L of the bottom side P1-P2, which is the distance P1-P2 between the jigs, is regarded as the proper length of the electric wire, and each oblique side P1-P3, P2-.
Since the sum 2A of the lengths of P3 is the actual length of the electric wire existing between the electric wire receiving jigs, the extra electric wire length is calculated by 2A-L. Therefore, the excess wire length can be calculated from the two values of L (or L / 2) and H measured by the above wire cutting length tuning jig.

With the wire cutting length tuning jig, when the wire receiving jig is fitted in the notch provided in the mounting member, the spring expands and contracts, and the notch is formed in the mounting member. Since multiple units are provided, it is possible to accommodate any distance between the wire receiving jigs, and the above dimensions can be achieved without the need for an operator to hold the wires by simply fitting the notches in the mounting members between the jigs that bridge the wires. Since L and H can be measured, workability and reading accuracy are improved. The springs have the same spring constant,
The ruler can be automatically located in the center between the electric wire receiving jigs.

The center of each of the electric wire receiving jigs P1 and P2
Since a triangle is formed between the tip and the tip P3, there is no slack of the electric wire left at a place other than the measuring point of the extra length unlike the conventional case, and the measurement accuracy is improved. Furthermore, if the length of the hypotenuse is measured directly with a ruler when calculating the excess wire length, when measuring the length of the hypotenuse P1-P3, and when measuring the hypotenuse P2-P3.
When measuring the length of the
Although the accuracy may be reduced due to the deviation of the holding position, the measurement of the pulling tip P3 of the electric wire can be performed with the length H of P3-P4 by using this tuning jig.
Since it is only once when measuring, the hypotenuses P1-P3, P2
-Measurement accuracy improves rather than measuring P3. Therefore, according to the present invention, the measurement results do not vary from worker to worker, and no skilled experience is required.

Secondly, according to the present invention, at the time of tuning performed before the manufacture of the wire harness, the electric wire receiving jig installed upright on the assembly workbench holds the electric wires and lays them.
A wire cutting length tuning jig that measures the amount of excess length when the wire between the wire receiving jigs loosens, and a pair of left and right mounting members are slidably fitted to the central case via springs. The pair of left and right mounting members are connected and held at both ends of the spring housed in the case, and the center of the spring in the lengthwise direction is fixed to the center position of the case. An elevating part that is slidable is provided, the elevating part is fitted to the adjacent electric wire receiving jig, and a weight is vertically projected from the center of the lower surface of the central case. In addition to providing a wire insertion groove on the lower surface of the wire holding portion, the outer surface of the central case and the mounting member is provided with a scale for indicating the dimension in the left-right direction, and the lifting portion is provided with a scale. Oh , The dimension between the left and right mounting members to be attached to the adjacent electric wire receiving jig is measured by a scale on the outer surface of the case, and the tip of the slack portion of the electric wire between the electric wire receiving jigs is passed through the electric wire insertion groove to obtain the electric wire. (EN) A jig for tuning an electric wire cut length, in which the tip position of a slack portion is measured by the scale of the elevating portion and the extra length of the electric wire is obtained from these measured values.

According to the above structure, since the mounting member can be slid to the left and right by the spring, the mounting member can be used in correspondence with any distance between the electric wire receiving jigs and the electric wire insertion groove at the tip of the weight. Since the slack of the wire is pressed to the lower part, the operator does not need to pull and hold the wire. Further, by positioning the electric wire receiving jig on the elevating part, the electric wire receiving jig is fitted into the recess formed by the elevating part being raised, so that the operator does not need to hold the tuning jig either. .

Further, the scale between the left and right mounting members to be mounted on the adjacent electric wire receiving jig can be measured by the scale on the outer surface of the case, and the electric distance can be measured by measuring the moving distance of the lifting unit above by the scale of the lifting unit. The tip position of the loosened portion can be indirectly measured. The formula for calculating the excess length of the electric wire is as described above.

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described with reference to the drawings. 1 to 4 show a first embodiment. Figure 1
2 shows a jig 10 for tuning the electric wire cutting length,
Square-shaped central case 11 with scale 11b on one side
A left mounting member 12 having a scale 12c and a right mounting member 13 having a scale 13c are slidably fitted on both sides of the same, and a ruler 14 projects downward from the center of the central case 11. I am letting you.

Springs S1 having the same spring constant are mounted between both end surfaces 11c of the central case 11 and outer end surfaces 12d and 13d of the left and right mounting members 12 and 13, respectively. Slide grooves 12a and 13a are cut out in the longitudinal direction on the upper surfaces of the mounting members 12 and 13, and pins 11a protruding upward from both ends of the upper surface of the central case 11 are formed on the slide grooves 12a and 13a.
It is projected upward through 13a and serves as a stopper. Notches 12b, 13b for fitting the electric wire receiving jigs G1, G2 on the lower surfaces of the mounting members 12, 13.
3 are provided at intervals.

FIG. 3 shows two substantially Y-shaped electric wire receiving jigs G.
Of the wire harness spanned between 1 and G2, only one electric wire W having slack is shown, and the attachment members 12 and 13 of the jig 10 for adjusting the electric wire cutting length are attached to the adjacent electric wire receiving jigs G1 and G2. The outermost notches 12b and 13b are fitted together. In addition, when the distance between the electric wire receiving jigs G1 and G2 is short, the inner notches 12b and 13b are preferably fitted.
Here, the centers of the electric wire receiving jigs G1 and G2 are set to P1 and P, respectively.
2. The position where the loose wire W is pulled downward at right angles to the wiring direction and which intersects the ruler 14 is P3.
Let P4 be the intersecting position of the perpendicular line drawn from the center case 11 to the line P1-P2, and since the ruler 14 is provided at the center of the center case 11, the triangle P1-P2-P3.
Forms an isosceles triangle whose base is P1-P2.

FIG. 4 is a schematic diagram showing the above-mentioned isosceles triangle.
As shown in, the length of the bottom side P1-P2 is L, the hypotenuse P1-
The length of P3, P2-P3 is A, P1-P4, P2-P4
Has a length of L / 2 and a height of H. Base P1-P2
L is the distance between the electric wire receiving jigs G1 and G2 and is therefore considered to be the proper length of the electric wire.
Since the sum 2A of the lengths of -P3 is the length of the actual electric wire W existing between the electric wire receiving jigs G1 and G2, the extra wire length is calculated by 2A-L, that is, the extra wire length. = 2A−L (Equation 1)

Next, the hypotenuse P1-P3 and the left side portion P1 of the bottom
From the relational expression A ² = (L / 2) ² + H ² of each side of the right triangle formed by −P4 and the height H, the length A of the hypotenuse P1-P3 can be calculated by Expression 2. A = √ ((L / 2) ² + H ² ) ... (Formula 2)

Therefore, by substituting the equation 2 into the equation 1, the excess wire length can be calculated. That is, the distance L / 2 from the center position P1 of the wire receiving jig G1 to the center P4 of the central case 11 is read by the scale 11b of the central case 11 and the scale 12c of the mounting member 12, and the ruler 14
The distance H from the P4 to the tip P3 of the electric wire W is read by the scale 14a, and the electric wire excess length can be calculated by substituting the L / 2 (or L) and H into the above equations. .

The center P of each of the electric wire receiving jigs G1 and G2
Since a triangle is formed between the wire P and the tip P3 of the electric wire W, the slack of the electric wire W does not remain at a place other than the measuring point of the extra length as in the conventional case, and the measurement accuracy is improved. If the wire cutting length tuning jig 10 is used, the mounting member 1 is provided between the jigs G1 and G2 that bridge the wire W.
The notches 12b and 13b of 2 and 13 are fitted and the scales 11b and 1
Since the above dimensions L / 2 (or L) and H can be measured without holding the operator by simply reading 2c and 14a, the measurement result does not vary from operator to operator, and no skilled experience is required.

Cutouts 12b provided in the mounting members 12 and 13,
When the wire receiving jigs G1 and G2 are fitted to the wire receiving jig 13b, the mounting members 12 and 13 are provided with three notches 12b and 13b, and the spring S1 expands and contracts.
The interval of 1 and G2 can cope with all cases.

FIG. 5 shows a second embodiment. The wire cutting length tuning jig 10 'of the present embodiment is the central case 1
A guide column 15 'having a slide groove 15a' is projected above the center of the upper surface of 1 ', and bearings 12e' are provided at the upper surface end portions of the left and right mounting members 12, 13 on the side of the central case.
13e 'is projected. Two guide plates 16 ', 1
Slide the groove 18 'through which one end of 7'is overlaid and slide through
5a 'is slidably fitted into the guide plate 1
The other ends of 6'and 17 'are rotatably supported by bearings 12e' and 13e 'by pins 19' and 20 ', respectively.

With the above structure, the pin 18 'fitted in the slide groove 15a' slides up and down,
Left and right mounting members 12 'fitted on the central case 11',
Since 13 'is slidable, it is possible to easily cope with the case where the distance between the adjacent electric wire receiving jigs changes. Since other configurations are the same as those in the first embodiment, description thereof will be omitted.

FIG. 6 shows a third embodiment. A pair of left and right first mounting members 3 from the openings at both ends of the central case 31 having a square tubular shape.
2 and 33 are slidably fitted into the central case 11 through the spring S2.
Is fixed to the center position of the inner surface of the bottom wall of the first case by the hook 38, and the pins 32a, 33a protruding on the upper surfaces of the first mounting members 32, 33 are inserted into the slide grooves 31a cut out on the upper surface of the central case 11.
Is protruding.

The ascending / descending parts 36 and 37 are composed of the first mounting member 32,
It is provided between 33 and the second mounting members 34, 35 so as to be able to move up and down. Specifically, as shown representatively for the one elevating part 36 in FIGS. 6C and 6D, the first mounting member 32
Also, the protrusions 36b protruding from both side surfaces of the elevating part 33 are fitted into the grooves 32b, 34b cut out in the vertical direction on the surface of the second mounting member 34 facing the elevating part 36, and the grooves 32b, 3b.
A spring S3 is interposed between the upper end of 4b and the protrusion 36b.

A bar-shaped weight 39 is vertically projected from the center of the lower surface of the central case 31, a rectangular parallelepiped-shaped wire holding portion 40 is provided at the tip of the weight 39, and an electric wire is inserted through the lower surface of the wire holding portion 40. The groove 40a is used as a tuning jig 3
It is recessed in the longitudinal direction of 0. Scales 31b, 32b, 33b for indicating the horizontal dimension are provided continuously to the outer surface of the central case 31 and the first mounting members 32, 33, and the elevating sections 36, 37 have vertical scales 36a, 37a.
Is attached.

As shown in FIG. 6 (A), the wire cutting length tuning jig 30 is connected to the wire insertion groove 4 of the wire holding portion 40.
When the electric wire w is inserted into the adjacent electric wire receiving jigs G1 and G2 with the electric wire w inserted in the wire 0a, the state shown in FIG. That is, the elevating units 36 and 37 that can be moved up and down via the spring S3.
While being supported by the wire pressing jigs G1 and G2, other parts fall by its own weight, the wire W supports the wire insertion groove 40a of the wire pressing portion 40 and stops, and the lower end recesses of the second mounting members 34 and 35 are Both ends of the electric wire are led out from 35a to the outside.

In this state, the dimension between the mounting member 32 mounted on the wire receiving jig G1 and the center P4 of the central case 31 is measured by the scales 31b, 32b on the outer surfaces of the central case 31 and the mounting members 32, 33. Lifting unit 36,
The tip end position of the wire slack portion is indirectly measured by measuring the upward moving distance of the elevating portions 36, 37 by the scales 36a, 37a of 37. That is, the scales 36a and 37a of the elevating units 36 and 37 have the upper end as the starting point, and the value of the starting point is not set to zero, but from the line connecting the centers of the wire receiving jigs G1 and G2 to the wire holding unit 40. By setting the distance of 1 to the value of the starting point, the height H of the isosceles triangle P1-P2-P3 can be measured by reading the scale 36a that overlaps the upper end of the central case 31 in FIG. 6B. Note that the formula for calculating the excess wire length is the same as that in the first embodiment, and therefore its explanation is omitted.

With the above construction, since the slack portion of the electric wire W is passed through the electric wire insertion groove 40a of the electric wire pressing portion 40 to press the electric wire W downward, it is not necessary for the operator to pull and hold the electric wire W downward. In addition, the elevating parts 36 and 37 are springs S
First mounting members 32, 33 and second mounting member 3
The electric wires W are passed through the electric wire insertion groove 40a of the electric wire holding portion 40 by being connected to the electric wire holding portions 4, 35, and the elevating portions 36, 37.
Since the elevating parts 36 and 37 press the electric wire receiving jigs G1 and G2 in the measurement state in which is raised, accurate measurement can be performed.

[0032]

As is apparent from the above description, according to the first aspect of the present invention, when the wire receiving jig is fitted in the notch provided in the mounting member, the notch is provided with a plurality of notches. Since the spring expands and contracts, it is possible to cope with any distance between the electric wire receiving jigs. Further, by fitting the notch to the electric wire receiving jig, the operator does not hold the tuning jig and the scale between the left and right mounting members attached to the electric wire receiving jig and the tip position of the slack portion of the electric wire are calibrated. You can calculate the excess length of the wire just by reading. Further, according to the above measurement, since a triangle is formed between the center of each of the wire receiving jigs and the tip of the wire slack portion, there is no slack remaining in the area other than the measurement site as in the conventional case. The measurement result does not vary.

According to the second aspect of the present invention, since the slack portion of the wire is pushed through the wire insertion groove at the tip of the weight and pressed downward, it is not necessary for an operator to pull and hold the slack portion of the wire downward, and It is possible to indirectly measure the tip position of the wire slack portion by measuring the moving distance of the elevating part upward by the scale of the elevating part.

[Brief description of drawings]

FIG. 1 is a perspective view of a wire cutting length tuning jig according to a first embodiment of the present invention.

FIG. 2 is a front view of a wire cutting length tuning jig.

FIG. 3 is a diagram showing a measurement state.

FIG. 4 is a schematic diagram for calculating an extra wire length.

FIG. 5 is a front view of a wire cutting length tuning jig of a second embodiment.

6A is a perspective view before installation of the jig for tuning an electric wire cutting length according to the third embodiment, FIG. 6B is a perspective view after installation, FIG. 6C is a cross-sectional view of a main part before installation, and FIG. ) Is a cross-sectional view of a main part after installation.

FIG. 7 is a view showing a state in which the wire harness is wired on an assembly workbench.

8A is a drawing showing slack of an electric wire, FIG. 8B is an explanatory view of a conventional extra length measuring means, and FIG. 8C is an explanatory view of another conventional extra length measuring means. .

[Explanation of symbols]

10, 10 ', 30 Wire cutting length tuning jig 11,31 Central case 12, 13 Mounting member 12a, 13a slide groove 12b, 13b Notch 14 Ruler 36, 37 Lifting part 39 dead weight 40 Wire holding part 41 Wire insertion groove G1, G2 electric wire receiving jig S1, S2, S3 springs W electric wire

   ─────────────────────────────────────────────────── ─── Continued front page    F term (reference) 2F061 AA16 BB04 CC01 DD22 FF09                       FF21 FF33 FF34 FF46 FF52                       FF74 GG04 GG07 GG21 JJ08                       LL25 LL27 LL35 LL51 LL65                 5G355 AA03 CA04 CA05

Claims (2)

[Claims] 1. When the wires are laid while holding the wires by an electric wire receiving jig standing on an assembly workbench during tuning performed before manufacturing the wire harness, and slack occurs in the electric wires between the electric wire receiving jigs. It is a wire cutting tuning jig that measures the excess length, and a pair of left and right mounting members are slidably fitted to the central case via springs, respectively, and a space is provided on the lower surface of these left and right mounting members. A plurality of cutouts are provided, and the cutouts are fitted to the electric wire receiving jig so that the left and right mounting members can be detachably attached to the jig, and the ruler projects downward at the center of the central case, The outer surface of the central case and the outer surface of the left and right mounting members are provided with scales for indicating the left-right dimension, and the size between the left and right mounting members to be mounted on the adjacent electric wire receiving jig is determined by the scales. While measuring, the tip position of the slack portion of the wire between the wire receiving jig as determined by the ruler, wire cutting length jig tuning surplus length of the wire is configured to be determined from these measurements. 2. When tuning is performed before manufacturing the wire harness, when the electric wires are held while being held by an electric wire receiving jig standing on an assembly workbench, and slack occurs in the electric wires between the electric wire receiving jigs. It is a wire cutting length tuning jig that measures the excess length.A pair of left and right mounting members are slidably fitted in the central case via springs, and these left and right mounting members are housed inside the case. The spring is connected to both ends of the spring and held, and the center of the spring in the longitudinal direction is fixed to the center position of the case. The mounting member is provided with an elevating part that is vertically slidable. The weight is fitted in the adjacent wire receiving jig, and the weight is projected in the vertical direction from the center of the lower surface of the central case, and the wire pressing portion is provided at the tip of the weight and the lower surface of the wire pressing portion is provided. A wire insertion groove is provided, and the outer surface of the central case and the mounting member is provided with a scale for indicating the size in the left-right direction, and the elevating part is provided with a scale, and the left and right to be attached to the adjacent electric wire receiving jigs. The dimension between the mounting members is measured by a scale on the outer surface of the case, and the tip of the slack portion of the wire between the wire receiving jigs is passed through the wire insertion groove. A jig for tuning the wire cutting length that is configured to measure the excess length of the wire based on the measured values on the scale.