JPH11291052A - Stud welding equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a stud welding equipment able to obtain stable welding suitable for automation of a stud and a planar base material. SOLUTION: A stud B erectly set from the radial station 10 of a rotary stud feeding stand 12 is grabbed, taken out and applied, through a rotary delivery, at a prescribed welding zone of a planar base material A which is set on a working table 1 movable in the X-Y axial direction, by means of the robot hand of the turnable supporting arm end of a stud delivery means 21 installed on the side; the upper part of this erectly held stub B is fitted to and supported at the lower end of a freely descendent stud gun 25 at the end of an arc welding means 22 positioned just above; and prescribed arc welding is performed by flowing a prescribed welding current at the moment when the stud B itself is raised for a spark interval by an electromagnetic raising mechanism incorporated in the stud gun 25.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention automates the welding of a plurality of stud shafts (hereinafter, referred to as "studs") to be embedded in concrete used for construction, civil engineering, and the like, and a plate base material. The present invention relates to a stud welding device.

[0002]

2. Description of the Related Art Generally, in a construction or civil engineering construction, a steel rod stud buried in a concrete surface and used as a kind of anchor member is welded at right angles to a steel plate base material surface, and the stud is buried. Conventionally, as a method of welding an embedded metal member as a leg, a plurality of studs are conventionally formed on a base material having an appropriate thickness, and one stud is manually positioned at a predetermined interval. A stud welding gun is fitted to the top of the stud, a predetermined large current is applied to the stud while standing up, and an arc is generated between the base materials to perform so-called arc welding to obtain a buried metal part with legs. is there.

[0003]

However, the stud must be set in the welding gun and abutted at a predetermined position while applying a ferrule to maintain the verticality, which requires a skill and is troublesome. . In this case, the stud is pulled during welding due to the line current of magnetic force due to the large DC current, but this moment is the most important, and the operator must maintain the welding posture and depends on whether this state can be maintained. This has a significant effect on strength. From this point,
Welding requires skill and could only be handled by a highly skilled welder. Of course, this type of welding requires a national qualification.

Further, it is very difficult to perform accurate positioning at a predetermined position by manual operation. For this reason, it takes time to form a vigorous embedded metal, it is difficult to obtain an inefficient and uniform welding finish, and the development of a welding apparatus suitable for mass production has been awaited.

In view of the above-mentioned circumstances, the present invention provides an automatic supply in which a stud on which a suitable number of ferrules are arranged is supported by a rotary stand, and a stud of one unit is gripped by a robot hand, and a plate motherboard on a processing table side. To provide a simple stud welding device that solves the above-mentioned problem by combining an automatic feeding that shifts to a welding position of a material and a mechanism that holds a top portion of the stud set upright with a stud gun and performs predetermined arc welding. It is intended for.

[0006]

SUMMARY OF THE INVENTION According to the present invention, there is provided a machining table movable in the X-Y axis direction and a station for erecting and setting a plurality of studs on one side of a machine position on which the machining table is installed. And an intermittently rotating rotary stud supply stand section, and a rotatable support arm with a robot hand that grips the upper and lower portions of the predetermined stud, shifts to a predetermined position on the processing table side, and feeds the predetermined position to the plate base material. A stud supply unit configured with the arranged stud feeding means is installed, and a stud top standing on the plate base material by the feeding of the stud feeding means on the other side of the machine opposite to the stud feeding means. A vertical stud gun with a ferrule press that fits into the gun support arm protruding from the elevating gun mounting column is formed so as to be able to move up and down freely. It is obtained by a means.

In this case, the processing table includes a table main body on which a plate base material is placed, an upper base portion provided with a feed screw shaft with a motor for sliding the table main body in one direction, and an upper base portion. The table has a stepped configuration with a lower base provided with a motor-equipped feed screw shaft that slides in a direction orthogonal to the above, and the table body as a whole moves in the X-Y axis direction.

In addition, a rotary type stud supply stand section has a holding spring plate type upper support piece sandwiching the upper portion of the vertical stud, and a lower support piece with a guide groove for receiving a spark projection at the lower end of the stud and a ferrule therearound. A plurality of stations are radially arranged, and the center support shaft of the station is intermittently rotated.

Further, the stud feeding means holds a feeding piece section having a front-rear cylinder provided on a rotation support arm protruding from a rotary support shaft, and a stud provided on the upper and lower ends of the feeding piece section. It has a built-in clamping cylinder and a robot hand formed by an upper clamping hand portion and a lower clamping hand portion which can be opened and closed right and left.

Further, the stud gun has a built-in electromagnetic pulling mechanism in which an end of a sleeve portion for receiving the head of the stud faces the upper base portion, and automatically sets an arc gap of the stud.

As described above, the stud welding apparatus has an appropriate number of studs to be supplied to each radial station of the rotary stud supply stand, the upper part of which is sandwiched by the holding spring plates of the upper support pieces, and the ferrule is disposed around. At the bottom,
In order to insert a spark projection into the guide receiving groove of the lower support piece and receive the lower surface of the ferrule on one side of the support to form an upright set, in the welding work, for the predetermined stud, on the rotating support shaft of the stud feeding means installed on the side The projecting rotation support arm is projected. At this time, the upper holding hand portion and the lower holding hand portion of the leading robot hand are pushed in the open state by the cylinder operation, and the upper holding hand portion and the lower holding hand portion are closed at the stud position. Thereafter, if the rotation support arm is retracted, the stud that has been held by the spring can be extracted from the station.

Here, if the rotation support arm is rotated by a predetermined angle toward the processing table side and the robot hand is appropriately extended by the operation of the front and rear cylinders, the robot hand is appropriately moved in advance by another means (in the XY axis direction). The stud is extended in an upright state at the welding position of the plate base material on the working table at the specified position.

Since the stud gun with the ferrule press of the arc welding means is arranged downward above the stud facing the plate base material at the specified welding position, the stud gun is moved to the ferrule press here. When the stud gun is lowered together, the upper part (head) of the stud is fitted and held in the chuck-shaped stud fitting portion at the lower end of the stud gun, and the ferrule presser projecting parallel to the lower side of the stud gun is moved around the lower end of the stud gun. Clip the shoulders of the ferrules, and abut the stud ends against the base material to take a right-angled upright posture.

After the stud is stood and held by the stud gun, the robot hand gripping the stud releases the grip and retreats in the opposite direction to the above, performs a predetermined return rotation, and the initial stud rod supply stand side. Wait at the head position.

Next, in the arc welding process, a large current is applied to the stud gun. In the upright state of the stud, a spark projection protruding from the lower end of the stud is in contact with the plate base material. In this state, the stud needs to be slightly pulled up once and a predetermined arc gap (pulling allowance) needs to be provided between the lower end of the stud and the plate base material. As the floating pulling operation of the stud, the sleeve end of the chuck stud fitting portion for fitting the stud is a member of the electromagnetic pulling mechanism facing the exciting coil at the base end of the gun,
By energizing and energizing the coil portion and raising the sleeve by suction due to the exciting force, a constant arc gap is obtained between the stud and the plate base material. Here, a predetermined welding current is passed through the stud gun, and a large current flows from the spark projection at the lower end of the stud toward the plate base material. The spark heat causes the plate base material and the stud to be welded and so-called arc welded. During this arc welding, the stud is pressed downward by the return spring of the sleeve mounted in the stud gun, so as to obtain a uniform pressure contact with the plate base material.

That is, the tip of the stud and the plate base material are melted by the spark, and a molten pool is formed in the plate base material (welding time).
Then the studs are lowered and welded (projected). In this welding step, the current value, welding time, protrusion allowance, and pulling allowance are welding conditions.

However, the arrangement of the ferrule with respect to the stud is merely a loose fit around the stud and is not of an integral structure, so that even if the stud is raised slightly to obtain a predetermined arc gap, the ferrule itself is not attached to its shoulder. The part is pressed by the ferrule retainer and is immovable and keeps in contact with the plate base material. For this reason, the spark spark at the time of arc welding is covered with a ferrule, and the scattering of the spark is regulated.

[0018]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A stud welding apparatus according to the present invention will be described below with reference to the drawings of an embodiment.

FIG. 1 shows an embodiment of a stud welding apparatus in which a work carry-in conveyor and a work carry-out conveyor are arranged at front and rear positions of a processing table. Reference numeral 1 denotes a working table on which a plate base material is set, which is movable in the X-Y axis directions. A work carrying conveyor 2 and a work carrying conveyor 3 made of free rollers are arranged at front and rear positions of the working table 1. The configuration of the processing table 1 is such that the table body 1 on which the fed plate base material A is placed is placed.
a and the table body 1a in one direction (for example, the Y-axis direction).
A movable upper base 1b having a rail-shaped guide shaft 4 slidably received thereon and a feed screw shaft 6 with a motor 5 screwed into the table main body 1a, and a movable upper base 1b receiving the upper base 1b. A guide shaft portion 4 'sliding in the orthogonal direction (X-axis direction) and a fixed lower base portion 1c having a feed screw shaft 6' with a motor 5 'to be screwed into the upper base portion 1b are stacked in a stepwise manner. The entire table main body 1a is appropriately moved in the XY axis direction with the degree of rotation screw insertion of the two feed screw shafts 6, 6 'orthogonal to each other.

Reference numeral 7 denotes a stud supply unit installed on one of the right and left sides of a machine body 8 serving as a base on which the processing table 1 is erected. The stud supply unit 7 comprises a stud B with a head arranged in a lateral direction. Standing set (grab)
A single station 10 in which an upper support piece 10a having a holding spring plate 9 and a lower support piece 10b with a guide groove 11 for guiding a lower end spark projection Ba of a stud B are vertically aligned.
Are provided in the radial direction and a rotary stud supply stand section 12 and a clamping cylinder 13 for holding the upper part of the stud are built in and an upper clamping hand section 1 which opens and closes right and left.
4 and a robot hand 16 having a built-in clamping cylinder 13 ′ for gripping the lower part of the stud and having a lower holding hand portion 15 parallel thereto, and a rotating support arm 18 projecting laterally from a rotating support shaft 17.
And a stud feeding means 21 attached to the end of the projecting piece 20 having the front and rear cylinders 19. Reference numeral 22 denotes an arc welding means installed on the other side of the body 8 opposite to the stud supply unit 7;
2 is a gun supporting arm 2 protruding laterally from the elevating type gun mounting column 23.
4, a stud gun 25 is attached downward with a lifting cylinder 26. In this case, the configuration of the stud gun 25 is such that the top (head) of the stud B is provided at the lower end.
And a chuck-like stud fitting portion 25a for fitting
A sleeve 25b which is an inner cylindrical portion of the stud fitting portion 25a
Iron core 25 serving as a pull-up rod protruding from the upper end of
c is made to face an adsorption cylinder portion 25e in an exciting coil 27 built in a gun barrel 25d to form an electromagnetic pulling mechanism 28 for an arc gap, and a predetermined length is provided on an outer peripheral portion of the gun barrel 25d. The vertical support shaft 30 is disposed in parallel with the vertical support shaft 30.
Is integrated with an arc-shaped ferrule presser 31 at the lower end of the ferrule.
The entire configuration of the processing table 1, the stud supply unit 7 and the arc welding means 22 constitutes a stud welding apparatus 29.

Now, the operation will be described. When a stud B is automatically welded to a predetermined welding portion of a plate base material A, first, a plurality of studs B with heads Bb (eight studs B in FIG. 6). ) Are set up beforehand in eight stations 10 of the rotary stud supply stand unit 12. In this case, the studs B are set up by pressing the studs B upright against the upper and lower support pieces 10a and the lower support pieces 10b that face each other and constitute each station 10. At this time, stud B
The lower end of the plate is provided with a spark projection Ba projecting from the lower support plate 10b.
The ferrule C made of Setomono, which is inserted into the guide groove 11 of FIG.
0a (see FIG. 6).

In the case of the automatic supply type shown in the drawing, the plate base material A is fed appropriately on the work carrying conveyor 2 and is appropriately carried into the table body 1a of the processing table 1 and laid on the table body 1a. On the surface of the highly conductive seat 33 made of aluminum, copper member or the like, a fixing jig 32a and a clip jig 32b for receiving a corner end of the plate base material attached at a predetermined position are locked to form a set of welding positioning. . However, the clip jig 32b is fitted in the slide groove 34 on the table main body 1a side, and can be moved according to the width of the plate base material A to adjust the set position (see FIGS. 5 and 10).

After that, the table body 1a is connected to two orthogonal feed screw shafts 6 and 6 'of the movable upper base portion 1b and the fixed lower base portion 1c, which are positioned below the table main body 1a. ,
The stud gun 2 of the arc welding means 22 in which a predetermined welding position in the set plate base material A is located at an upper position is driven by driving the 5 'to be appropriately screwed and moved in the XY axis direction.
Face just below 5.

Here, the rotating column shaft 17 of the stud feeding means 21 installed on the side of the processing table 1 is appropriately rotated by driving a motor (not shown).
The pivotal support arm 18 integral with the pivoting arm 7 is rotated to the side of the stud supply stand section 12 located laterally, and the robot hand 16 at the tip of the pivotal support arm 18 is set to a predetermined position set upright on the stud supply stand section 12. Confront stud B.

When the robot hand 16 reaches the protruding stud position by the operation of the front / rear cylinder 19 incorporating the projecting piece 20 at the base end thereof, the robot hand 16 is clamped downward with the upper clamping hand portion 14 of the robot hand 16. If the pair of finger pieces 14a, 15a of the hand unit 15 opened to the left and right in advance is closed by the operation of the built-in clamping cylinders 13, 13 ',
The studs B are sandwiched between the finger pieces 14a and 15a, and the fingers are stood upright. In this state, if the projecting piece portion 20 at the base end of the robot hand 16 is slightly retracted in the reverse direction, the stud B whose upper and lower portions are gripped by the upper holding hand portion 14 and the lower holding hand portion 15 becomes stud B. The bar is automatically pulled out and taken out against the spring support of the station 10 of the bar supply stand unit 12. Thereafter, the robot hand 16 itself is once slightly raised by the operation of the separate cylinder 35 to be in a standby state in which the stud B does not come into contact with the processing table 1 at the traverse position.

Next, when the rotating support shaft 17 serving as the base end of the rotating support arm 18 of the stud feeding means 21 is reversed and shakes 90 ° toward the table body 1a (rotates 90 °), it is gripped by the robot hand 16. The stud B is located at a predetermined welding position on the processing table 1 (a position directly below the stat gun 25).
It is fed out.

As described above, the stud B fed to the predetermined position on the table main body 1a side (the position directly below the stat gun 25) is previously set on the table main body 1a facing the position directly below the stat gun 25 at that time. It is on the axis with the first welding point a of the plate base material A, and the welding is positioned. However, it was swung (turned) toward the table body 1a.
The welding positioning of the stud B itself is performed by controlling the rotation of the rotary support shaft 17 and controlling the front and rear cylinders 19 that regulate the protrusion of the robot hand 16.

After the predetermined stud B is fed out to the table body 1a by the stud feeding means 21, the rotating shaft 36 of the stud supply stand 12 is intermittently driven by a motor (not shown). Rotate stud B
The intermittent frame feed is performed for the empty station 10 where the stud B has been set, and the new station 10 on which the next stud B is set is transferred to the transfer position to be on standby.

In this state, the process proceeds to the welding process. That is, after the stud B is located at the welding position a of the plate base material A, the stud B lowers the robot hand 16 a little, and the lower end (spark projection Ba) comes into contact with the surface of the plate base material A. And Here, the stat gun 25 of the arc welding means 22 which stands by at a position directly above the standing stud B is
The elevating cylinder 2 provided at the base end of the stat gun 25
6 and lowered to the upper end (head Bb) of the stud B in the chuck-shaped stud fitting portion 25a opened at the lower end.
And a spark spark scattering prevention ferrule C, which is loosely fitted to the lower end of the stud B, is attached to its shoulder by an arc-shaped ferrule retainer 31 at the lower end of an elevating shaft 30 which is lowered integrally with the stat gun 25. In order to receive the portion in the form of a clip, the entire stud B is vertically held on the surface of the plate base material A.

At this time, the robot hand 16 which has held the stud B until now has its upper clamping hand portion 14
The lower holding hand portion 15 opens the hand by the reverse operation of the clamping cylinder 13 to release the holding, and
With the return rotation of the vehicle, it moves backward to the side of the fuselage and waits.

Thereafter, as an arc welding operation between the plate base material A and the stud B, the stud B is kept in contact with the plate base material A, and a predetermined switch (not shown) is appropriately turned on to stud gun 25 When the excitation coil 27 of the electromagnetic lifting mechanism 28 built in the base is energized and excited, the movable core 25c facing the center of the coil is attracted and pulled up, and the sleeve 25b integrated with the movable core 25c rises. Then, the stud B fitted to the stud fitting portion 25a is lifted, and a predetermined arc gap s (for example, about 2 mm) is automatically obtained.

However, the ferrule C is maintained in a state of being loosely fitted to the stud B and pressed against the surface of the base material A by the ferrule presser 31 whose shoulder has been lowered (see FIG. 12).

Here, if an arc current is applied at the moment when the stat gun 25 is pulled up from the plate base material A, the stud B
A spark is generated between the spark projection Bc at the lower end of the plate and the plate base material A, and the stud B and the plate base material A are melted by the spark heat to form a molten pool e in the plate base material A (this arc time is , Depending on stud diameter). The arc time at this time is set by the welding power source. After the arc time, the stud B enters the molten pool e, is welded, and the stud B and the plate base material A are welded.
Are integrated. During this welding, the cylinder 26 to which the stud gun 25 is attached is stationary, and the ferrule C
To a constant pressure. Further, the stud B itself pushes the sleeve 25b by the built-in return main spring 25f to lower the stud B. After the predetermined arc welding is completed, if the stat gun 25 is raised by the lifting cylinder 26 in the opposite manner as described above, the stud B is retracted (raised) from the standing stud B integrated with the plate base material A, and one process is completed. .

Further, the second welded portion b of the rear plate base material A
When the next stud B is to be arc-welded, the stud supply stand section 12 rotates the rotating shaft of the stud supply part 12 appropriately and intermittently so that the new stud B faces a predetermined delivery position. For this reason, the robot hand 16 of the rotation support arm 18 of the stud feeding means 21 waiting in the lateral position is projected in the same manner as described above, and the upper and lower holding hand portions 14 and 15 grip the upper and lower portions of the stud B. Then, the stud B is extended to the table base material A, the descent of the stat gun 25 is repeated, and the same arc welding as described above is performed to terminate the second arc welding.

Hereinafter, the welding positions of the plate base material A (FIGS. 13 and 1)
4, studs B are automatically (mechanically) sequentially and arc-welded to four places), and the finished embedding metal D is disengaged from the fixing jig 32a and the clip jig 32b. May be transferred to the work unloading conveyor 3.

The ferrule C remaining at the base end of the stud B in the finished embedded metal D is made of seto, so that it can be easily detached by appropriately dividing it with a hammer or the like, and is partitioned at the base end. The weld overlay t is reached, and a beautiful weld finish can be obtained.

[0037]

As described above, the stud welding apparatus of the present invention is provided on both sides of the working table moving in the X-Y axis directions.
A stud supply unit composed of a rotary stud supply stand having a station for setting the stud upright and a stud feeding means of a rotary support arm with a robot hand for gripping the upper and lower portions of the stud and feeding it to the processing table, and An arc welding means with a stud gun with a ferrule press is arranged above the welding position of the set base material, and the stud is automatically loaded vertically into the base material on the processing table, resulting in a thick and heavy head. Even if the studs are present, the robot hand can be reliably fed from the supply stand to the working table, and the plate base material set on the working table can be securely welded by moving the table body itself in the XY axes. The troublesome work of loading and supporting the plate base material and studs, which are heavy, which was conventionally troublesome, has been eliminated. In, without requiring immobile holding during welding heavy stud gun most techniques are required in welding operations (2 kg heavier than cancer), it is precise welding without hard labor.

Further, the station of the rotary type stud supply stand is composed of an upper support piece with a holding spring plate and a lower support piece with a guide groove for guiding a spark projection at the lower end of the stud. It is easily supported simply by pushing it between the upper support piece and the lower support piece.

Further, the entire apparatus is compactly arranged as a whole because the rotary stud supply stand, the stud feeding means, and the arc welding means are arranged around the processing table, so that the installation space is reduced. It has effects such as good usability.

[Brief description of the drawings]

FIG. 1 is a plan view showing a main part of an embodiment of a stud welding apparatus according to the present invention.

FIG. 2 is a front view of the same.

FIG. 3 is a side view of the same.

FIG. 4 is a perspective view of a processing table unit.

FIG. 5 is an explanatory diagram in which a jig is arranged on the processing table.

FIG. 6 is an explanatory view of a rotary stud bar supply stand unit.

FIG. 7 is an explanatory view of a stud feeding means.

FIG. 8 is an explanatory diagram of the robot hand unit.

FIG. 9 is an explanatory view of an arc welding means.

FIG. 10 is an explanatory view of fixing a plate base material to a processing table with a jig and arc welding studs.

FIG. 11 is an explanatory view showing an electromagnetic pulling mechanism of the stud gun.

FIG. 12 is an explanatory diagram of arc welding by the stud gun.

FIG. 13 is a perspective view showing a buried metal member obtained by arc welding a stud to a plate base material.

14A and 14B show a relationship between a plate preform and a stud, wherein FIG. 14A is a plan view of the plate preform and FIG. 14B is a front view of a headed stud provided with a ferrule.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Processing table 1a Table main body 1b Movable upper base 1c Fixed lower base 4,4 'Guide shaft 5,5 Motor 6,6' Feed screw shaft 7 Stud supply unit 8 Body 9 Holding spring plate 10 Station DESCRIPTION OF SYMBOLS 10a Upper support piece 10b Lower support piece 11 Guide groove 12 Rotary type stat supply stand part 14 Upper holding hand part 15 Lower holding hand part 16 Robot hand 17 Rotating support shaft 18 Rotation support arm 21 Stud feeding means 22 Arc welding means 23 Elevation Type gun mounting support 24 Gun support arm 25 Stud gun 28 Electromagnetic pull-up mechanism A Plate base material B Stud Ba Spark projection

[Procedure amendment]

[Submission date] March 4, 1999

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Claims

[Correction method] Change

[Correction contents]

[Claims]

[Procedure amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0008

[Correction method] Change

[Correction contents]

In addition, a rotary type stud supply stand section has a holding spring plate type upper support piece sandwiching the upper portion of the vertical stud, and a lower support piece with a guide groove for receiving a spark projection at the lower end of the stud and a ferrule therearound. Become a stasis
Arranging a plurality based on ® down radially, and the intermittent rotation and the center shaft of the station.

[Procedure amendment 3]

[Document name to be amended] Statement

[Correction target item name] 0025

[Correction method] Change

[Correction contents]

When the robot hand 16 reaches the protruding stud position by the operation of the front / rear cylinder 19 incorporating the projecting piece 20 at the base end thereof, the robot hand 16 is clamped downward with the upper clamping hand portion 14 of the robot hand 16. If the pair of finger pieces 14a, 15a of the hand unit 15 opened to the left and right in advance is closed by the operation of the built-in clamping cylinders 13, 13 ',
The studs B are sandwiched between the finger pieces 14a and 15a, and the fingers are stood upright. In this state, if a little to retract the protruding piece portion 20 of the base end portion of the robot hand 16 in the opposite, stud B which is gripped upper and lower portions above clamping hand portion 14 and the lower clamping hand portion 15, the stud The supply stand 12 automatically exits and is taken out against the spring support of the station 10. Thereafter, the robot hand 16 itself is once slightly raised by the operation of the separate cylinder 35 to be in a standby state in which the stud B does not come into contact with the processing table 1 at the traverse position.

[Procedure amendment 4]

[Document name to be amended] Statement

[Correction target item name] Fig. 6

[Correction method] Change

[Correction contents]

FIG. 6 is an explanatory diagram of a rotary stud supply stand unit .

[Procedure amendment 5]

[Document name to be amended] Statement

[Correction target item name] Explanation of sign

[Correction method] Change

[Correction contents]

[Description of Signs] 1 Processing table 1a Table main body 1b Movable upper base 1c Fixed lower base 4,4 'Guide shaft 5,5 Motor 6,6' Feed screw shaft 7 Stud supply unit 8 Body 9 Clamping spring plate 10 Station 10a Upper support piece 10b Lower support piece 11 Guide groove 12 Rotary stud supply stand section 14 Upper clamp hand section 15 Lower clamp hand section 16 Robot hand 17 Rotating support shaft 18 Rotating support arm 21 Stud feeding means 22 Arc welding means 23 Elevating type gun mounting column 24 Gun support arm 25 Stud gun 28 Electromagnetic lifting mechanism A Plate base material B Stud Ba Spark projection

Claims (5)

[Claims] 1. A processing table movable in the X-Y axis direction, and one side of a machine body position where the processing table is erected,
An intermittently rotating rotary stud supply stand section in which stations for setting up and setting a plurality of studs are arranged radially, and a predetermined position of the plate base material by gripping upper and lower portions of the predetermined stud and moving to a predetermined position on the processing table side. And a stud feeding unit having a rotatable support arm with a robot hand for feeding the stud feeding unit, and a stud feeding unit feeding the stud feeding unit to the other side of the body opposite to the stud feeding unit. Arc welding means formed by vertically forming a vertical stud gun with a ferrule press fitting the top of a stud standing and waiting on a plate base material at a gun support arm end protruding from a vertically movable gun mounting column. A stud welding device comprising: 2. A processing table comprising: a table main body on which a plate base material is placed; an upper base portion provided with a feed screw shaft with a motor for sliding the table main body in one direction; 2. The stud welding apparatus according to claim 1, wherein the stud welding apparatus has a stepped configuration with a lower base portion provided with a motor-equipped feed screw shaft that slides in a direction orthogonal to the direction, and moves the table body as a whole in the X-Y axis direction. . 3. A rotary stud supply stand section includes a holding spring plate type upper supporting piece sandwiching an upper portion of a vertical stud, and a lower supporting piece with a guide groove for receiving a spark protrusion at a lower end of the stud and a ferrule therearound. The stud welding apparatus according to claim 1, wherein a plurality of stations are radially arranged, and a center support shaft of the station is intermittently rotated. 4. A stud feeding means for holding a feeding piece section having a front-rear cylinder built in a rotation support arm protruding from a rotating support shaft, and a stud provided on the upper and lower ends of the feeding piece section. 2. The stud welding apparatus according to claim 1, further comprising a robot hand having a built-in clamping cylinder and formed of an upper holding hand portion and a lower holding hand portion which can be opened and closed. 5. The stud gun has a built-in electromagnetic pulling mechanism in which an end of a sleeve portion for receiving the head of the stud faces the upper base portion, and automatically sets an arc gap of the stud.
The stud welding apparatus as described.