KR101830408B1 - Multiple use measuring scale of wire harness - Google Patents

Abstract

An invention for a versatile measurer of wire harness is disclosed. The versatile measurer of the disclosed wire harness comprises: a transducer for applying a wire harness to a hanger pole; a transducer for extending a transverse transducer and for attaching a wire harness to the transducer; And a guiding part connected to the rear side of the slot hole to guide movement of the measuring pole.

Description

[0001] MULTIPLE USE MEASURING SCALE OF WIRE HARNESS [0002]

The present invention relates to a versatile measuring instrument for a wire harness, and more particularly, to a versatile measuring instrument for a wire harness, in which, when applying a wire harness, an allowance for a linear path item and a bent path item is taken into consideration, The present invention relates to a versatile measurer of a wire harness capable of determining the actual reduction value of the wire harness of the straight path item and the bent path item and conveniently moving the measuring pole by using the guide part and the elastic part during measurement.

Generally, there are many electric components in the engine room of the vehicle including various sensors. Most of the sensors in this engine room are attached to the engine or transmission so that the wire harness is fixed using various support materials such as band cables and band clips until the wire reaches each position.

Wire harnesses refer to wires that conduct electricity in automobiles or other electrical devices.

The wire harness to be installed on the vehicle's electrical equipments can be twisted in the center part, pulled downward, and the length of the vertically overlapped part can be measured by the measurer, and the excessive loss length can be measured twice as long as the measurement length.

For example, if the measured value is 50mm, multiply by 2 to measure the excess loss length of 100mm, and cut the wire harness by cutting the length to the length.

However, since many jigs are used in manufacturing and assembling the wire harness, when the conventional excessive loss length is applied as it is, the wire harness is shortened in length, which is a limitation in the field application. In other words, because there are various circuits in which the wire harness is bent according to the item or a straight line, there is no margin length (reflected value of loss) according to the item in measurement. Therefore, the wire harness is shortened only by applying deflection value, .

Therefore, there is a need to improve this.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Japanese Patent Application Laid-Open No. 2005-0015259 (entitled "Multifunctional Measurer, 2005.02.21").

The present invention has been made in view of the above-described need, and it is an object of the present invention to provide a wire harness which is capable of setting a straight line path item and a bending path item, And it is an object of the present invention to provide a versatile measurer of a wire harness capable of determining an actual reduction value of a wire harness of a path item and a bend path item and conveniently moving the measurement pole using a guide part and an elastic part during measurement.

In order to attain the above object, the versatility measurer of the wire harness according to the present invention comprises a horizontal measurer for hooking a wire harness to a hanger pole, and a vertical probe for extending a wire harness to the measuring pole, ; A slot hole formed in the longitudinal measurer to vertically move the measuring pole; And a guide part connected to the slot hole at the rear side for guiding the movement of the measuring pole.

The measuring pole may include: a measuring body for holding the wire harness; A measuring screw portion extending to the rear side of the measuring body portion; And a mounting block coupled to the measuring screw portion and supporting the measuring body portion on a rear surface of the transverse measuring instrument.

The guide portion may include a recessed groove portion formed on a rear surface of the longitudinal measuring instrument for installing the installation block; A cover member for covering the depressed depressed portion to prevent the installation block from being released; And a coupling member for coupling the cover member to the rear surface of the longitudinal measurer.

Further, the cover member is inserted into the recessed groove having a wider width than the depressed recessed portion.

The length measuring device may further include: a first scales for indicating a value of a practical application of the wire harness in consideration of a loss value when the wire harness is applied to a first item; And a second scales for indicating the actual application shortening value of the wire harness considering the loss value when the wire harness is applied to the second item; And at least one of them.

Further, the measuring pole is returned to the original state after the measurement by the longitudinal measuring instrument by the elastic returning member.

The resilient return member may include a coil spring installed in a depressed groove formed in a rear surface of the longitudinal measuring instrument so that the elastic returning member is held in contact with the mounting block and pushes the mounting block upward.

In addition, the installation block prevents a left-right flow when the vehicle ascends and descends by the elevating rails.

The elevating rail portion may include a slide hole formed vertically through the installation block. And a slide shaft member inserted into the slide hole and supported by the longitudinal measuring instrument.

Further, the elastic return member is inserted into the slide shaft member and is operated in a state of being prevented from being separated.

The versatility measurer of the wire harness according to the present invention measures the allowable length of the straight path item and the bent path item in application of the wire harness, And the actual reduction value of the wire harness of the bend path item can be determined.

Further, according to the present invention, the measuring pole can be stably guided without moving left and right by moving the measuring pole by using the guide portion and the lifting and lowering rail portion.

In addition, according to the present invention, when the measurement pole is moved by using the elastic return member, the measurement pole is returned to the original position after the measurement pole is released, convenience of use can be provided.

1 is an exploded perspective view of a front view of a versatile measuring instrument of a wire harness according to an embodiment of the present invention.
2 is a rear exploded perspective view of a multi-use measuring instrument of a wire harness according to an embodiment of the present invention.
3 is a front view of a versatile measurer of a wire harness according to an embodiment of the present invention.
4 is a rear assembled perspective view of a versatile measurer of a wire harness according to an embodiment of the present invention.
5 is a cross-sectional view and a partial cutaway cross-sectional view of a versatile measurer of a wire harness according to an embodiment of the present invention.
6 is a plan view of a versatile measurer of a wire harness according to an embodiment of the present invention.
FIG. 7 is a diagram showing a conversion table of the first short scale and the second short scale preliminary to the allowance according to the item in the versatile meter of the wire harness according to the embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a versatile measurer of a wire harness according to an embodiment of the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is an exploded perspective view of a front view of a multi-purpose measuring instrument of a wire harness according to an embodiment of the present invention, FIG. 2 is a rear exploded perspective view of a multi- 4 is a rear perspective view of a multi-use measuring instrument of a wire harness according to an embodiment of the present invention, and FIG. 5 is a perspective view of a wire harness according to an embodiment of the present invention. FIG. 6 is a horizontal cross-sectional view of a multi-use measuring instrument of a wire harness according to an embodiment of the present invention, and FIG. 7 is a cross-sectional view and partial cut- FIG. 5 is a diagram showing conversion charts of the first short scale and the second short scale preliminary to the allowable length according to the second embodiment of the present invention.

Referring to FIGS. 1 to 7, a versatile measurer of a wire harness according to an embodiment of the present invention includes a measurer body 100, a slot hole 200, and a guide unit 300.

The measurer body 100 is a person who measures the deflection length of the wire harness to determine the length to cut (cut) the wire harness.

The wire harness must measure the deflection length of the wire harness to be applied according to the item-specific circuit. For example, when the wire harness applied to the door (DOOR) item and the wire harness applied to the main item are different from each other, the measured value of the deflection length of the wire harness is used as it is. , There is a problem that the length of the outer ear harness is too short to be used.

Accordingly, it is preferable that the allowable length (reflected loss value due to bending) is reflected in advance by taking into consideration the bending path of the wire harness applied in accordance with the item, and the measured value of the measurer body 100 is actually measured at the outer harness Since it is written on the measurer body 100 so as to be determined as a reduction value to be cut (cut), the bending path is automatically reflected when the reduction value is read and cut.

The measurer body 100 includes a horizontal measurer 110 for hanging a wire harness to the hanger pole 130 and a vertical measurer 120 for extending a wire harness to the measuring pole 140 from the horizontal measurer 110 do.

Two hook poles 130 are formed at both ends of the horizontal measurer 110 so as to hang the bottom of the wire harness.

The hooking pawl 130 is formed with a threaded portion at an end thereof and is coupled to the coupling hole 116 of the horizontal measuring instrument 110. Of course, the hanger poles 130 may be assembled indoors or in other ways to the transducers 110.

The measuring pole 140 is disposed on the vertical measurer 120 so as to form an isosceles triangle with a plurality of hanger poles 130 when the vertical pole 120 descends.

The slot hole 200 is formed in the vertical measuring unit and moves the measuring pole 140 up and down. The slot hole 200 is formed to be vertically long in a state of passing through the center of the vertical measurer 120 and is formed to pass through to the upper position higher than the hanger pole 130 of the horizontal measurer 110.

The measuring pole 140 includes a measuring body portion 150 for hanging a wire harness, a measuring screw portion 160 extending to the rear side of the measuring body portion 150, 150 on the rear surface of the longitudinal measurer 120. The mounting block 170 includes a mounting block 170,

The measuring body portion 150 is formed to be circular in an arc shape corresponding to the curvature of the outer circumference of the wire harness.

The measurement screw part 160 may be configured to be smaller in diameter of the measurement body part 150 and to be hooked on the front side of the slot hole 200.

The mounting block 170 is formed in a square pillar shape and slides up and down in the recessed groove portion 310 described later. A screw hole is formed on the front side of the mounting block 170 to connect the measuring screw part 160. Thus, when the measuring pole 140 is moved up and down along the slot hole 200, the mounting block 170 also moves up and down together within the recessed groove 310.

The guide unit 300 is connected to the rear side of the slot hole 200 to guide the movement of the measuring pole 140.

The guide part 300 includes a recessed groove part 310 formed on the rear surface of the vertical measuring instrument 120 and a cover covering the recessed groove part 310 to prevent the installation block 170 from being separated, And a coupling member 330 for coupling the cover member 320 to the rear surface of the longitudinal measurer 120. [

The recessed trench 310 is formed to be larger than the width of the slot hole 200 in order to prevent the mounting block 170 from falling forward.

The cover member 320 may be inserted into the receiving groove portion 340 having a wider width than the recessed groove portion 310.

The cover member 320 may be a rectangular plate.

Since the depth of the storage groove portion 340 is equal to or larger than the thickness of the cover member 320, the cover member 320 is prevented from being exposed from the rear surface of the longitudinal probe 120.

The coupling member 330 may be a screw or a bolt.

The longitudinal measurer 120 includes a first short scale 112 for indicating a practical application shortening value of the wire harness considering the loss value when the wire harness is applied to the first item, And a second shortened scale 114 for indicating the actual shortened value of the wire harness in consideration of the shortening of the wire harness.

At this time, the first item is the door (DOOR) item, and the second item is the main (MAIN) item.

In the diagram of FIG. 7, the wire harness applied to the DOOR current may be cut by cutting the first short scale 112 marked with the EXTN scale on the left side of the longitudinal measurer 120. The wire harness applied to the mains may be cut by cutting the second scales 114 indicated by the MAIN scales on the right side of the longitudinal measurer 120.

The first reduced scale 112 and the second reduced scale 114 are formed so that the deflection length d of the wire harness applied to the first item and the second item is b (50 mm), and c (the length between the hooking pole 130 and the measuring pole 140) can be calculated using the Pythagorean theorem.

For example, as shown in the left EXTN of Figs. 3 and 7, when the wire harness deflection length b of the door type is 110 mm (the first column in the chart), actually, the wire harness is 10 mm long The wire harness is cut by 10 mm. However, since the first shortening scale (112) is reduced by 5 mm only, the display amount of the first shortening scale 112 indicated by the actual reduction value is read as it is. 112) It is enough to cut (cut) only the display amount of 5mm.

As shown in the right side MAIN of FIGS. 3 and 7, when the deflection length b of the main current is 115 mm (the first column in the diagram), the wire harness is actually 15 mm long, The wire harness is cut off by 15 mm. However, since the display scale of the second scale 114 is 5 mm, the display size of the second scale 114 is reduced by 5 mm, (Cut) only.

The measuring pole 140 can be returned to the original position after measurement by the measuring unit 120 by the elastic returning member 400. [

The elastic return member 400 includes a coil spring installed in the recessed groove 310 to push the mounting block 170 upward by being supported by the mounting block 170.

The installation block 170 prevents the left-right flow when the elevating rail part 500 is lifted or lowered.

The elevating rail part 500 includes a slide hole 510 formed in the installation block 170 so as to be vertically passed through the slide hole 510 and a slide shaft member 520 inserted in the slide hole 510 and supported by the vertical surveyor 120 .

The mounting block 170 connected to the measuring pole 140 also descends when the measuring pole 140 is lowered by hanging the wire harness so that the slide hole 510 of the mounting block 170 is moved downward along the slide shaft member 520 Thereby elastically contracting the elastic return member 400. [

Subsequently, the user reads the first reduced scale (112, EXTN scale) or the second reduced scale (114, MAIN scale) where the measuring pole 140 is located, so that the reduced values of the wire harness applied to the door and main flow Decide and cut.

The elastic return member 400 can be elastically operated to push the mounting block 170 upward while being inserted into the slide shaft member 520 and prevented from being separated.

The elastic return member 400 is preferably formed to have an inner diameter slightly larger than an outer diameter of the slide shaft member 520 in order to prevent the elastic return member 400 from being excessively collapsed during the elastic operation.

The slide shaft member 520 may be press-fitted into the insertion hole 540 formed in the bottom of the recessed groove 310 via the insertion hole 530 formed on the upper side of the vertical measuring instrument 120. Thereby, the slidable shaft member 520 is prevented from being separated from the longitudinal gauges 120 of the measurer body 100 after assembly.

And a hooking groove 118 formed in the front and rear of the vertical measurer 120 so as to be able to hang on the lower side thereof. The hooking groove 118 is preferably a circular hole.

Therefore, the multi-use meter of the wire harness according to the embodiment of the present invention can be configured such that, when applying the wire harness, the multi-purpose meter of the wire harness according to the embodiment of the present invention takes into account the margin (reflected loss value) ), The actual reduction value of the wire harness of the straight path item and the bent path item can be determined.

Further, according to the present invention, the measuring pole can be stably guided without moving left and right by moving the measuring pole by using the guide portion. In addition, according to the present invention, when the measuring pole is moved by using the returning unit to measure the measured value, the measuring pole is returned to the original position, and the convenience of use can be provided.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand.

Accordingly, the true scope of protection of the present invention should be defined by the following claims.

100: Measuring body 110: Horizontal measuring instrument
112: first reduction scale 114: second reduction scale
120: vertical measuring instrument 130: hanger pole
140: measuring pole 150: measuring body part
160: measuring thread 170: mounting block
200: Slot hole 300: Guide part:
310: depression groove 320: cover member
330: coupling member 340: storage groove
400: elastic return member 500:
410: Slide ball 420: Slide shaft member
430: insertion hole 440: insertion hole

Claims (5)

A measurer body including a horizontal measurer for hooking a wire harness to a hanger pole and a vertical measurer for extending a wire harness to the measuring pole, A slot hole formed in the longitudinal measurer to vertically move the measuring pole; And a guiding part connected to the rear side of the slot hole to guide movement of the measuring pole,
Wherein the measuring pole includes: a measuring body portion for hanging the wire harness; A measuring screw portion extending to the rear side of the measuring body portion; And a mounting block coupled to the measuring screw portion and supporting the measuring body portion on the rear surface of the longitudinal measuring instrument,
Wherein the guide portion comprises: a depressed groove portion formed on a rear surface of the longitudinal measuring instrument for installing the installation block; A cover member for covering the depressed depressed portion to prevent the installation block from being released; And a coupling member for coupling the cover member to the back surface of the longitudinal measurer,
The elastic restoring member is supported by the mounting block and is installed in a recessed groove portion formed on a back surface of the longitudinal measuring instrument so as to push the mounting block upward, And a coil spring
Wherein the cover member is inserted into a receiving groove having a wider width than the recessed groove, and the recessed groove is formed to be larger than a width of the slot hole to prevent a forward departure of the mounting block,
Since the depth of the receiving groove is equal to or larger than the thickness of the cover member, the cover member is prevented from being exposed from the rear surface of the longitudinal measurer,
The installation block prevents a left-right flow at the time of ascending and descending by the elevating rail portion,
Wherein the lifting / lowering rail portion includes: a slide hole formed vertically through the installation block; And a slide shaft member inserted in the slide hole and supported by the longitudinal measuring instrument,
Wherein the slot hole is formed to be vertically long in a state of passing through the central portion of the longitudinal measurer and penetrates to a position higher than a hanger pole of the transversal measurer,
Wherein the slide shaft member is installed in a fitting hole formed in the bottom of the recessed groove portion through an insertion hole formed on the upper side of the longitudinal probe.
The method according to claim 1,
The vertical-
A first scales for indicating the actual application shortening value of the wire harness considering the loss value when the wire harness is applied to the first item; And
A second scales for indicating a value of actual reduction of the wire harness in consideration of a loss value when the wire harness is applied to a second item; Wherein the wire harness includes at least one of at least one of the wire harnesses.
delete The method according to claim 1,
Wherein the cover member is a rectangular plate member,
Wherein the coupling member is a screw or a bolt.
The method according to claim 1,
Wherein the elastic return member is inserted into the slide shaft member and is operated to be separated from the slide shaft member.

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