KR20150049984A - Welding test apparatus - Google Patents

Abstract

The present invention relates to a welding test apparatus for inspecting welding strength of welding portion, which comprises: a wrench device and an inspection device. The wrench device includes: a body, wherein a mounting groove are formed; the rotating gear wherein the protrusion is formed on the outside of the mounting groove, rotatably mounted in the mounting recess; and a fixed member to provide rotational resistance to the rotary gear, projected on the inside of the mounting groove, inserted into the gear grooves of the rotary gear. The inspection device includes: a coupling member coupled to the body; an inspection member, wherein an insertion groove is formed, slidably fixed on the coupling member in the longitudinal direction of the body; and a rotary member coupled to a protrusion and rotating by being linked to the rotating member, wherein the protrusion inserted into the insertion groove is formed on one side of the outer surface.

Description

{WELDING TEST APPARATUS}

The present invention relates to a welding inspection machine for inspecting a welded state (normal or defective state) of a welded portion in a linear direction by applying a force to the welded portion in a linear direction while preventing an excessive force from being transmitted to the welded portion.

In general, a hybrid vehicle that uses an engine and a motor as a power source, and an electric vehicle that is driven by a motor alone require a high voltage and current, and a battery module in which a plurality of battery cells are stacked adjacent to each other is used.

The battery module basically comprises a battery cell, a cell cover, and a module housing. That is, the battery module assembles a plurality of battery cells into a cell cover, and then inserts the cell cover into which the battery cells are assembled by inserting the cell cover into the module housing.

Details of the battery module in this way are disclosed in Laid-open Patent No. 10-2008-0095430.

1, a lead 20 of a battery cell is welded to a bus bar 10 of a module housing (not shown), which connects a battery with a battery, This is the process required to make a series connection and turn it into a voltage.

After the welding process, the welding state of the bus bar 10 and the lead 20 is inspected. Normally, the operator confirms the welding state with the naked eye or uses the inspection tool 30 to confirm the welding state.

1, after the tip of the inspection tool 30 is inserted into the welding portion A between the bus bar 10 and the lid 20, the inspection tool 30 is moved to the welding portion A between the bus bar 10 and the lid 20 by a strong force Down direction. At this time, when the welded state of the welded portion A is poor, the welded portion A is pulled and the bus bar 10 and the lead 30 are pulled out. (20) are opened or separated.

However, in the welding inspection method according to the related art, the pressure for pressing the welding portion A is not constant, quality assurance for the welding point inspection can not be made, and the bus bar 10 and the lead 20 are damaged, There was a problem.

Published Patent No. 10-2008-0095430

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a welding method and a welding method for welding a lead wire and a bus bar, While preventing the excessive force from being transmitted to the welded portion.

As a means for solving the above-mentioned problems, the present invention can inspect the state of welding by applying a force in a linear direction to a weld between a lead and a bus bar.

To this end, a welding inspection apparatus for inspecting a welding strength of a welding portion according to an embodiment of the present invention includes a body having a mounting groove formed therein, and a protruding portion rotatably mounted on the mounting groove, A wrench device having a rotary gear and a fixing member protruding inwardly of the mounting groove and inserted into a gear groove of the rotary gear to provide rotational resistance to the rotary gear; And an inspection member which is fixed to the coupling member so as to be slidable in the longitudinal direction of the body and has an insertion groove formed thereon, the coupling member being coupled to the projection and rotating in association with the rotation gear, And an inspection device having a rotary member on which a protrusion to be inserted into the insertion groove is formed.

Wherein when the body is pressed toward the welding portion while the distal end of the inspection member is in contact with the welding portion, the rotational force of the rotation gear is transmitted to the rotating portion by the force that the inspection portion slides toward the rear of the body by the welding portion, The welding strength of the welding portion can be inspected by turning over the resistance.

When a predetermined force or more is applied to the protruding portion due to the force of the inspection member sliding to the rear of the body by the welding portion, the fixing member inserted into the gear groove is released and inserted into the adjacent gear groove adjacent thereto, The gear can rotate.

The predetermined force acting on the projecting portion and releasing the fixing member from the gear groove may be equal to or greater than a minimum bonding force required for the welding portion.

The wrench device may further include a spring for providing an elastic force to insert the fixing member into the gear groove of the rotary gear.

One side of the tip end of the fixing member facing the rotation direction of the protrusion toward the rear of the body may be formed as an inclined surface and the other side facing the opposite direction may be formed as a vertical surface.

The inspection member may include a guide piece slidably coupled to the coupling member, and a test piece coupled to the guide piece and having a tip inserted into a welded portion where an object contacts an object.

The inspection piece may be detachably coupled to the guide piece.

A stopper for restricting the insertion length of the test piece may be provided on one surface of the test piece.

The stopper may be provided movably in the longitudinal direction of the test piece.

The tip of the protrusion may be formed in an arcuate shape.

The coupling member may include a coupling piece having a " U "shape and fitted into the body through the open groove, and a fixing piece inserted and fixed in the groove of the coupling piece.

The fixing piece may be provided so as to be movable and fixable in a vertical direction of the coupling piece in an opened groove of the coupling piece.

The welding inspection apparatus according to the present invention can prevent damage to the lead and the bus bar by inspecting the welding state by applying a linear force to the weld between the lead and the bus bar, It is possible to prevent excessive force from being transmitted to the welded portion, and quality assurance for the weld strength test can be achieved.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a welding inspection state according to the prior art; Fig.
Figure 2 shows a welding tester according to the invention.
3 shows a wrench device of a welding inspection machine according to the present invention.
4 is a perspective view showing an inspection apparatus of a welding inspection apparatus according to the present invention.
5 is a sectional view showing an inspection apparatus of a welding inspection apparatus according to the present invention.
6 is a cross-sectional view showing a coupling structure of a guide piece and a test piece of an inspection apparatus according to the present invention.
7 is a perspective view showing a stopper member of an inspection apparatus according to the present invention.
FIGS. 8 and 9 are views showing an operation state of the welding inspection apparatus according to the present invention, FIG. 8 is a view showing a state before operation of the welding inspection apparatus, and FIG.

The welding inspection apparatus of the present invention includes a wrench device having rotation resistance and an inspection device which is slidably coupled to the wrench device in the longitudinal direction of the wrench device and supported by the rotation resistance of the wrench device, The welding state can be inspected in such a manner that a force is applied in a linear direction while being inserted into a weld portion between the lead and the bus bar. At this time, if a force for overcoming the rotational resistance of the wrench device is applied to the inspection device, It is possible to prevent a force greater than a predetermined force from being applied to the inspection apparatus while sliding the apparatus in the longitudinal direction of the wrench apparatus.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

The welding inspection apparatus according to the embodiment of the present invention is for checking the welding strength of a welding portion as shown in FIG. 2, and includes a wrench apparatus 100 and an inspection apparatus 200.

2 and 3, the wrench device 100 includes a body 110 on which a mounting groove 111a is formed, a body 110 rotatably mounted on the mounting groove 111a, The rotation gear 120 protrudes inward from the mounting groove 111a and is inserted into the gear groove 122 of the rotary gear 120 to provide rotational resistance to the rotary gear 120 (Not shown).

The body 110 has a head portion 111 formed with a circular mounting groove 111a at one side thereof and a knob portion 112 formed at the other side of the body 110. The head portion 111 and the knob portion 112 are integrally formed .

The rotary gear 120 is rotatably mounted on the mounting groove 111a and has a polygonal protrusion 121 formed at the center of one side and a gear groove 122 formed at an equal interval on the outer circumference.

The fixing member 130 has a rear end fixed to the fixing groove 111b formed at one side of the mounting groove 111a and a tip end protruding from the mounting groove 111a.

One side of the tip of the fixing member 130 facing the direction in which the protrusion 231 rotates toward the back of the body 110 is formed of a vertical surface 131 and the other side of the fixing member 130 facing the opposite direction is formed of a slope 132 The rotation resistance of the rotary gear 120 can be increased by forming one side of the fixing member 130 as the vertical surface 131 and the other side can be formed as the inclined surface 132, 120) can be returned to their original positions with less force. Of course, both the one side and the other side of the fixing member 130 may be formed as a vertical plane, or both may be formed as an inclined plane.

The wrench device 100 further includes a spring 140 that provides an elastic force to keep the fixing member 130 inserted into the gear groove 121 of the rotary gear 120.

That is, the wrench device 100 includes a spring 140 inside the fixing groove 111b, and the fixing member 130 is protruded from the mounting groove 111a by the elastic force of the spring 140, When the rotational force of the fixing member 130 (the elastic force of the spring) is exerted on the rotary gear 120 while the fixing member 130 is inserted into the gear groove 121 of the fixing member 130, 130, the rotary gear 120 rotates while being drawn into the fixing groove 111b.

The wrench device 100 having such a structure is configured such that when a force less than the rotational resistance of the fixing member 130 acts on the protrusion 121 of the rotary gear 120 provided in the mounting groove 111a of the body 110, The gear 120 can not rotate because it can not win the rotational resistance and a force greater than the rotational resistance of the fixing member 130 acts on the protrusion 121 of the rotational gear 120, It rotates while winning.

1, 4 and 5, the inspection apparatus 200 includes a coupling member 210 coupled to the handle 112 of the body 110, a body 110 coupled to the coupling member 210, An inspection member 220 which is fixed slidably in the longitudinal direction of the rotary shaft 120 and on which the insertion groove 221a is formed, And a rotary member 230 on which protrusions 231 to be inserted are formed.

The coupling member 210 includes a coupling portion 211 having a U-shaped shape to be fitted in the handle portion 111 of the body 110 and coupling portions 211 and 211 coupled to the open space of the coupling portion 211, And a fixing portion 212 fixed to the handle portion 111. The fixing portion 212 is formed with a guide hole 212a into which the inspection member 220 is slidably inserted.

The inspection member 220 includes a guide piece 221 slidably coupled to the guide hole 212a of the coupling member 210 and having an insertion groove 221a formed at its tip end, And a test piece 222 inserted into the weld between the lead and the bus bar.

Here, the inspection piece 222 may be detachably coupled to the guide piece 221.

6, the rear end portion 222a of the test piece 222 is fixed through the bolt 225 in a state of being inserted into the coupling groove 221b formed at the tip of the guide piece 221 . That is, when the bolts 225 are tightened or loosened, the test piece 222 and the guide piece 221 can be joined or separated, and if the test piece 222 is damaged or worn due to the use of the test piece 222, When only the inspection piece 222 is replaced from the piece 221, continuous use is possible.

5, the rotary member 230 has a protruding portion 231 inserted into the insertion groove 221a at one side of the outer circumferential surface, and has the same shape as the protruding portion 121 coupled to the protruding portion 121 at the center of the front surface. A polygonal coupling groove 232 is formed.

That is, when the inspection member 220 slides rearwardly of the wrench device 100, the rotation member 230 moves the protrusion 231 inserted into the insertion groove 221a of the guide piece 221 into the rotation direction of the wrench device 100 A rotational force is transmitted to the rotating member 220 while being pressed backward and the rotational force transmitted to the rotating member 220 is transmitted to the rotating gear 120 through the protruding portion 121. At this time, since the rotary gear 120 receives the rotational resistance by the fixing member 130, the rotary gear 120 is held in a fixed state. When the rotational force of the rotary gear 120 is transmitted to the rotary member 220, the rotary gear 120 rotates to overcome the rotational resistance of the fixing member 130 and the rotary member 220 rotates Rotate.

The inspection device 200 includes a stopper member 240 that limits the depth of insertion of the inspection piece 222 inserted into the weld between the lead and the bus bar, And is movably coupled and fixed in the longitudinal direction of the test piece 222. [

7, a stopper member 240 is provided on one side of the front end of the test piece 222 where the inclined surface 222b is formed and in which a long hole 241 is formed in the longitudinal direction of the test piece 222, And a bolt 242 that is coupled to the test piece 222 through a first end 241.

That is, the bolt 242 may be tightened or loosened to move and fix the stopper member 240 in the longitudinal direction of the test piece 222 within the range of the long hole 241, Can be adjusted.

The state of use of the welding tester according to the embodiment of the present invention having such a structure will be described as follows.

8, when the body 110 of the wrench device 100 is held, the inspection member 220 of the inspection apparatus 200 is inserted into the welding portion between the lid 20 and the bus bar 10 A, and then the wrench device 100 is pushed into the welding portion A with a strong force. That is, a strong force is applied in a linear direction to the welded portion A between the lead 20 and the bus bar 10.

The inspection piece 222 of the inspection member 220 is gradually inserted between the lead 20 and the bus bar 10 so that tensile force is applied to the welding portion A between the lead 20 and the bus bar 10 .

At this time, if the welding state of the lead 20 and the bus bar 10 is poor, the welding portion A is gradually stretched or broken and the lead 20 and the bus bar 10 are opened or separated. Badness can be confirmed.

On the other hand, when the welding state of the rig 20 and the bus bar 10 is normal, as shown in FIG. 9, the rigidity of the welding portion A between the lead 20 and the bus bar 10 causes the inspection member 220 The inserting portion 222 of the inserting portion 222 remains inserted.

That is, since the rotational resistance of the fixing member 130 is transmitted and fixed to the rotary gear 120, the rotary member 230 and the inspection member 220, the inspection member 222 of the inspection member 220 is inserted State.

When the wrench device 100 is subjected to a force for exerting the rotational resistance of the fixing member 130, the rotary gear 120 rotates by the rotation resistance of the fixing member 130, The member 230 is rotated and the inspection member 220 is slid rearward by the projecting portion 231 of the rotary member 230 so that the welding member A between the lead 20 and the bus bar 10 is fixed to the fixing member 130 to prevent a strong force from being applied. In other words, excessive force is prevented from being transmitted to the welded portion because the welded portion A between the lead 20 and the bus bar 10 is not applied to the welded portion with a constant force, and quality assurance for the welded portion can be assured.

The fixing member 130 is detached from the gear groove 121 of the rotary gear 120 and inserted into the other gear groove 121 by the rotation of the rotary gear 120. At this time, And a click sound, which is a sound of the insert, is inserted into the other gear groove 121, so that the operator can easily confirm the welding state.

Since the protrusion 231 of the rotary member 230 rotates while being inserted into the insertion groove 221a of the inspection piece 221, the sliding distance of the inspection member 220 is limited, Thereby preventing excessive sliding.

The test piece 222 of the test piece 220 is inserted into the welded portion A between the lead 20 and the bus bar 10 so that the stopper member 240 is inserted into the lead 20 or the bus bar 10 10 so as to prevent the test piece 221 from being excessively inserted.

100: wrench device 110: body
120: rotary gear 130: fixed member
200: Inspection device
210: coupling member 220: inspection member
230: rotating member

Claims (13)

A welding inspection apparatus for inspecting a welding strength of a welding portion,
A rotary gear rotatably mounted on the mounting groove and formed with a protruding portion protruding outward from the mounting groove; a protrusion protruding to the inside of the mounting groove and inserted into the gear groove of the rotary gear, A wrench device having a fixing member for providing rotational resistance to the rotary gear; And
An inspection member fixed to the coupling member so as to be slidable in the longitudinal direction of the body and having an insertion groove formed thereon, and a rotation member coupled to the rotation member and rotating in association with the rotation gear, And an inspection device having a rotary member on which protrusions to be inserted into the insertion grooves are formed. The method according to claim 1,
The force of the inspection member sliding toward the rear of the body by the welding portion when the body is pressed linearly toward the welding portion while the tip of the inspection member is in contact with the welding portion, And the welding strength of the welding portion is inspected by turning on the rotary resistance. The method of claim 2,
When a predetermined force or more is applied to the protruding portion due to the force of the inspection member sliding to the rear of the body by the welding portion, the fixing member inserted into the gear groove is released and inserted into the adjacent gear groove adjacent thereto, And the gear is rotated.
The method of claim 3,
Wherein a predetermined force acting on the projecting portion and causing the fixing member to be separated from the gear groove is equal to or greater than a minimum bonding force required for the welding portion. The method according to claim 1,
Wherein the wrench device further comprises a spring for providing an elastic force to insert the fixing member into the gear groove of the rotary gear. The method according to claim 1,
Wherein one side of the tip end of the fixing member facing the direction in which the protrusion is rotated toward the rear of the body is formed as a vertical surface and the other side facing the opposite direction is formed as an inclined surface. The method according to claim 1,
Wherein the inspection member includes a guide piece slidably coupled to the coupling member and a test piece coupled to the guide piece and having a tip inserted into a welded portion where an object contacts an object. The method of claim 7,
And the inspection piece is detachably coupled to the guide piece. The method of claim 7,
And a stopper for limiting an insertion length of the test piece is provided on one surface of the inspection piece. The method of claim 9,
Wherein the stopper is provided movably and movably in the longitudinal direction of the test piece. The method according to claim 1,
Wherein a tip of the protrusion is formed in an arcuate shape. The method according to claim 1,
Wherein the coupling member comprises a coupling piece having a " U "shape and fitted into the body through an open groove, and a fixing piece inserted and fixed in the groove of the coupling piece. The method of claim 12,
Wherein the fixing piece is provided movably in the vertical direction of the coupling piece in an opened groove of the coupling piece.

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