DE102014210401A1 - Plug setting tool - Google Patents

Abstract

The present invention relates to a setting tool (200; 300; 400) for automated setting of mounting components (271; 371; 471), in particular for automated setting of assembly plugs in vehicle body openings, comprising a drive frame (210; 310; 410); a control sleeve (240; 340; 440) and a magazine (270; 370; 470) for providing a plurality of components (271; 371; 471) to be set. The drive frame (210; 310; 410) is movably mounted on the control sleeve (240; 340; 440) and movable relative to the control sleeve between a home position and a set position to seat the component.

Description

1. Field of the invention

The invention relates to a setting tool for the automated setting of mounting components, in particular the setting of mounting plug in the body openings of a vehicle, and an industrial robot, which is equipped with such a setting tool.

2. Background

In many industrial assembly and manufacturing operations, it is necessary to set a large number of similar assembly components, such as plugs to cover or close openings of a component. In particular, the self-supporting bodies of modern cars have manufacturing due to a variety of cavities, which must be closed with mounting plugs. The attachment of the mounting plug was done in the past, usually by hand. This is not economical for many applications.

The DE 10 2007 036 666 A1 relates to a method for foaming a hollow body having at least two openings of a vehicle body, in which a foaming material is introduced via a first opening in the hollow body and wherein the second opening must be closed at least temporarily. According to this document, in particular, vehicle bodies have a plurality of openings, which are provided, for example, for the double-sided use of welding tongs for connecting the individual structural panels of the vehicle body. These openings are usually closed by means of films or plugs, namely so-called paint or assembly plug, manually. The attachment of such elements is time consuming and laborious and also cumbersome. As a solution, this document proposes to manually apply instead of a plurality of individual mounting plugs to temporarily cover the openings to be closed with a spacious cover that is removed from the body when it is no longer needed. Instead of manually attaching a plurality of mounting plugs, it is only necessary with this solution to attach a single, large cover element. However, a disadvantage of this solution is that the cover elements must be specially adapted to the respective structural parts or geometries of the body, so that a large number of correspondingly shaped cover elements must be provided for a single vehicle body. Also, this solution appears less suitable for widely distributed openings or for openings located in hard to reach places.

It is therefore the object of the present invention to provide a setting tool for the automated setting of assembly components, such as, in particular, assembly plugs in body openings of a vehicle, with which in particular the automated setting by means of an industrial robot is possible. This object is achieved with a setting tool according to claim 1 and an industrial robot according to claim 14.

3. Detailed description of the invention

The setting tool according to the invention for the automated setting of assembly components is intended, in particular, for mounting assembly plugs in the body openings of a vehicle by means of a robot. However, it is also suitable for a variety of other industrial applications in which a variety of components must be set. The setting tool has a drive frame, a control sleeve and a magazine for providing a plurality of components to be set. The magazine is immovably set up in relation to the control sleeve and attached thereto, for example, releasably.

The drive frame is preferably arranged linearly movable on the control sleeve and movable relative to the control sleeve between a starting position and a setting position in which a component is set. In the application of the setting tool usually the control sleeve is attached to the device to be provided with the device, d. H. brought into contact. Subsequently, the drive frame is moved in relation to the control sleeve and in particular in a linear direction to the device to be provided with a component. The device, such as the body or a body part of a vehicle, thus serves as a stop or abutment for the control sleeve and the relative movement of the drive frame to the control sleeve, the components located in the magazine can be set piece by piece. For this purpose, the setting tool further comprises separating means for removing the components from the magazine, which are arranged so that they are actuated when the drive frame is moved from the starting position to the setting position. For example, the separating means may be provided on the drive frame itself, for. B. in the form of spring clips, which engage in the movement of the drive frame from the starting position to the setting position, a single component at the opening of the magazine and move to the set position.

Preferably, the setting tool further comprises a punch element, which is set up in this way is to bring a contact force on the components to be placed when the drive frame is in the set position. The stamping element may be, for example, a part of the drive frame, which comes in the set position in engagement with the previously separated component, and this pressed into the desired position. In the case of the assembly plug mentioned above, the stamp presses, for example, the plug into the corresponding body opening of a vehicle.

In preferred embodiments, the setting tool has a sliding guide between the drive frame and the control sleeve, which comprises at least one control link and an associated sliding block, which is guided in the control sleeve. Particularly preferred in all embodiments of the invention, the control link of the control sleeve is assigned and the associated sliding block the drive frame. In a movement of the drive frame relative to the control sleeve of the sliding block follows the control link, so that the - usually linear - movement of the drive frame can be used relative to the control sleeve on the control link for actuating or moving the various elements of the setting tool, in particular the separating means or the above-mentioned advantageous stamp elements.

Preferably, the drive frame moves linearly with respect to the control sleeve and the control sleeve and / or the drive frame for this purpose guide means which guide the drive frame linear. Particularly preferred guide means may be, for example, cylindrical bushings or rings which are provided on the control sleeve or the drive frame and in which the drive frame or the control sleeve is at least partially received and guided.

The setting tool according to the invention has u. a. the advantage that it is possible to use this without the need for additional energy sources or actuators, since the setting tool can work or operate exclusively on the relative movement between the drive frame and control sleeve. This relative movement is in particular initiated by the robot arm, to which the drive frame is preferably attached.

So that the drive frame, after it has been moved to the set position to set a mounting plug, automatically moves back into the starting position, spring elements are preferably arranged between the drive frame and control sleeve. These bias the drive frame in the starting position, so that the movement of the drive frame from the starting position to the setting position takes place against the force of the springs. If, after a successful setting operation, the setting tool is again moved away from the body or the device on which the component was set, the springs again force the drive frame back from the set position to the starting position (or move the control sleeve in relation to the drive frame). without any additional external force being necessary.

In an advantageous development, the drive frame has a gripping device for gripping the components to be set from the magazine. The gripping device is designed such that components are gripped in the starting position of the drive frame, which can be done for example via spring clips, which come into clamping engagement with the first component at the exit of the magazine, as soon as the drive frame is in its initial position. When the drive frame is then moved to the set position, it removes the component to be set from the magazine and leads this to the set position. In principle, such a gripping device can be provided in addition to the separating means of the setting tool, but the gripping device can itself also be the separating means. In other words, by removing the component to be placed by means of the gripping device, this can also be isolated. Alternatively, the separating means may also be a separate component different from the gripping device, wherein the component to be placed is then separated from the magazine in a first step and is picked up by a gripping device and positioned accordingly in a second step. This will be explained in more detail below with reference to the figures.

The present invention also relates to an industrial robot comprising at least one robot arm and a setting tool according to the invention. According to the invention it is provided that the drive frame of the setting tool is firmly connected to the robot arm. In operation, the robot arm guides the setting tool, for example, to a body opening until the control sleeve of the setting tool touches the body. The body forms, so to speak, a stop for the setting tool or the control sleeve. As the robotic arm then continues to move the drive frame, the relative displacement of the drive frame to the control sleeve occurs, and this movement and associated drive or kinetic energy of the robotic arm can be used to automate the desired set operation, and in particular without the additional error prone and expensive energy sources or electrical actuating means o. Ä. Are necessary.

The setting tool according to the invention is preferably purely mechanical. The setting tool according to the invention preferably has no electric, hydraulic or pneumatic actuators.

4. Description of preferred embodiments

In the following the invention will be explained in more detail with reference to the attached figures. Hereby shows:

1 an inventive setting tool in a three-dimensional schematic view;

2a / b the setting tool of 1 in a sectional side view;

3 a detail of the setting tool of 1 in a three-dimensional, schematic and partially sectioned view;

4 the detail view of 3 from another perspective;

5 the workflow of the setting of 1 ;

6 an exchangeable magazine for components to be placed;

7a a three-dimensional, schematic, partially sectioned view of a second embodiment of a setting tool according to the invention;

7b a sectional side view of the embodiment of

7a ;

8a - 8d sectional side views showing the details of the device 7a group;

9 a third embodiment of a setting tool according to the invention in a schematic, three-dimensional, partially sectioned view;

10a / b two side views of the setting tool of 9 ;

11a / b are sectional side views of the separating or gripping devices of the embodiment of 9 ;

12 a schematic, three-dimensional, partially sectioned view of a removable magazine for the third embodiment; and

13 a three-dimensional, schematic, partially sectioned detail of the third embodiment.

1 shows a setting tool according to the invention 200 in a three-dimensional schematic view, with some of the contours are shown transparent (partially cut) to facilitate the explanation of the operation of the setting tool. The setting tool 200 is used for automated setting of mounting components and can be attached via a mounting flange 204 on an arm of an industrial robot or similar be attached, which operates the setting tool. The core components are a drive frame 210 that with the mounting flange 204 is provided, and a control sleeve 240 , The drive frame 210 is linearly movable on the control sleeve 240 arranged. For this purpose, the drive frame 210 a cylindrical guide bush 211 on, in which the control sleeve 240 is included. In 1 the drive frame is shown in its initial position. Between the drive frame 210 and the control sleeve 240 are four spring elements 202 provided during a movement of the drive frame 210 be compressed in the setting position. The drive frame is thus in the initial position shown the 1 against the control sleeve 240 biased. The spring elements 202 are dimensioned sufficiently strong, so that they the drive frame 210 can move back again from the set position to the starting position without external force, or the control sleeve 240 in relation to the drive frame 210 can move, so that the drive frame 210 (in relation to the control sleeve) is again in the starting position. Inside the control sleeve 240 is a changeable magazine 270 set up, which serves to provide a plurality of components to be set. The magazine 270 is changeable and has a bayonet lock 275 immovable in relation to the control sleeve.

The drive frame 210 further has an operating handle 244 on, with the separating agent 242 can be operated when the drive frame 210 moved from the initial position shown in the set position. At the setting or insert end of the control sleeve 240 are also two control scenes 250 provided, which cooperates with an associated sliding block, which is associated with the drive frame. These parts are below based on the 3 and 4 explained in more detail.

Referring to 2a and 2 B is the setting tool 200 of the 1 shown in a sectional side view. Based on 2a and 2 B the separation of the components to be set and the taking of the same should be explained in more detail. In the sectional view of 2 is easy to see how the control sleeve 240 movable in relation to the drive frame 210 set up and in the guide bushing provided for this purpose 211 of the drive frame 210 (it is clear to the person skilled in the art that it is for the relative movement between Drive frame and control sleeve does not matter which part is actually moved). The control sleeve 240 is on a body 100 put on so that the two tax frames 250 left and right at the body opening 110 at the ready with the body 100 are. The person skilled in the art will recognize that, for example, if the robot arm is in this position via the fastening flange 204 the drive frame 210 down towards the bodywork 100 moves it to a relative movement between the drive frame 210 and control sleeve 240 comes without the need for power-operated actuating means or external drive influences.

The control sleeve 240 takes inside the magazine 270 on. The magazine 270 contains a plurality of mounting plugs 271 that have a magazine pen 273 pressed in the direction of the exit of the magazine. So the mounting plugs 271 not unintentionally from the magazine 270 to be pressed is a separating agent 242 provided in the form of two rotatably mounted brackets. The two brackets are identical, so that in the following the operation of the same is explained only by means of one of the brackets. In 2 B is to realize that a nose 247 of the separating agent 242 the mounting plug 271 stops at the exit of the magazine. To the mounting plug 271 To be able to remove it, ie to separate it from the magazine stock, must the separating means 242 in the in 2a rotated position shown. This rotary motion is via swivel 248 of the separating agent and a projection 245 of the separating agent causes. By means of the swivel joint 248 is the separating agent 242 on the control sleeve 240 rotatably mounted. When the drive frame 210 in the in 2a shown starting position, the operating handle acts 244 on the lead 245 so that the singling means 242 in the in 2a shown open position is turned or is. At the same time a stamp element presses 220 of the drive frame 210 against the first mounting plug located at the exit of the magazine 271 and a gripping device 222 in the form of four spring clips (s. 4 ) grips the peripheral edge of the mounting plug 271 , In the in 2a shown position is the first mounting plug 271 at the output of the magazine so by the drive frame 210 provided gripping device taken while the separating means is in the illustrated starting position of the drive frame 242 such by the drive frame 210 pressed that first mounting plug 271 is free, ie is isolated.

In 2 B is the drive frame 210 shown halfway between its starting position and its setting position. The separating means 242 are about their feathers 246 again guided in their holding position, in which they prevent the magazine spring 273 the mounting plugs 271 out of the magazine. The isolated mounting plug 271 is about the spring clips 222 from the drive frame 210 recorded and by means of the carrier 224 turned 90 degrees. How this rotary motion is effected is explained below on the basis of 3 and 4 explained.

The 3 shows a three-dimensional schematic view, in particular the control scenes 250 and their mode of action. The drive frame 210 has a carrier 224 on, the stamp 220 as well as the gripping device 222 in the form of the four spring clips. The carrier 224 is about a rotation axis 225 rotatable on the drive frame 210 held. The axis of rotation is in the control link 250 guided and can therefore also be regarded as a sliding block. Hard with the carrier 224 connected, or integrally formed, are two T-shaped controls 226 on each side of the carrier. These T-shaped elements 226 act with a control unit 251 the control gate 250 together. As the expert from the consideration of 3 and 4 can determine an element of the T-shaped control comes 226 with the control unit 251 engaged when the drive frame 210 in 3 is moved down. Will the movement of the drive frame 210 continued downward, this contact causes a rotation of the carrier 224 counterclockwise in the 3 shown orientation. At the end of the movement, ie when the drive frame is in its set position, the carrier is 224 rotated 180 degrees and the gripped mounting plug 271 in the body opening 110 pressed.

In 4 is clearly seen that the stamp element 220 at the assembly plug 271 abuts and like the spring clips 222 the mounting plug 271 have seized on its peripheral edge. The separating agent 242 is by means of the strap 244 turned into the open position, so that it is possible, the first mounting plug 271 remove at the output of the magazine by means of the gripping device. The 3 and 4 thus show the same position (starting position) of the drive frame 210 as the 2a ,

In 5 the setting process is illustrated schematically. At I, the setting tool 200 by means of, for example, a robot for opening the body 110 a body panel of a body 100 guided. The drive frame 210 is in its initial position relative to the control sleeve 240 , In II, the end of the control sleeve 240 pressed against the body and a further movement of the setting tool in the direction of the body opening 110 now causes a relative movement of drive frame 210 to the control sleeve 240 , In III is the drive frame 210 shown midway between its starting position and the setting position. The one shown in III Arrangement corresponds to that of 2 B , In IV, the movement is completed, ie the drive frame is guided to the set position and the removed mounting plug 271 is in the opening 110 used. The stamp element 220 causes a firm pressing or pressing the mounting plug into the opening. At V, the setting tool 200 again from the body opening 110 away. Since the setting tool on the mounting flange 204 of the drive frame 210 is guided or moved, the control sleeve remains 240 initially in contact with the body, since the spring elements 202 are set up so that the setting tool 200 always has the desire in the in 1 to jump shown configuration. In VI, the starting position is not yet reached, which can be recognized by the fact that the operating handle 244 not in contact with the lead yet 245 of the separating agent 242 is. In the position shown in VII and VIII is the drive frame 210 back to its starting position and the operating handle 244 has the separating agent 242 back in the 2a rotated open position shown. The carrier 224 is back in the 1 respectively. 2a shown position and has the next, now isolated mounting plug 271 taken. The tool is now ready for the next job and the process starts again at I at the next body opening to be closed. The setting tool shown therefore operates advantageously purely mechanical and therefore does not require electrical, hydraulic or pneumatic actuators or the like.

6 shows a schematic three-dimensional view of a removable magazine 270 used with the setting tool of the embodiment of 1 can interact.

In the 7a is a second embodiment of a setting tool according to the invention 300 shown. The principle of operation of the setting tool 300 corresponds to that of the first embodiment. However, there are some structural changes provided, in particular the setting tool 300 has no rotatable support with which the mounting plug could be rotated by 180 °. The rotation of the mounting plug is advantageous for certain types of components to be placed, namely for components that can be easily inserted into the magazine in a particular direction or can be removed from the magazine. The setting tool 300 has a drive frame 310 on top of a mounting flange 304 features. The drive frame 310 can thus be connected to a robot arm, the drive frame 310 and thus the whole setting tool 300 emotional. Next has the setting tool 300 a control sleeve 340 on that with a guide bush 311 is provided, in which the drive frame 310 recorded and stored linearly movable. The control sleeve 340 also has opposite sides two control scenes 350 on, with associated sliding blocks 351 of the drive element 310 interact.

As in the first embodiment, drive frame and control sleeve are also here via a spring element 302 biased against each other. This spring element 302 is set up to be the drive frame 310 always in the in 7a shown moved back home position when, for example, the guide bush 311 is held and otherwise no external forces act. The skilled artisan will recognize that this return to the starting position of the drive frame in practice usually takes place in that the spring element 302 the control sleeve 340 moves until the relative arrangement of drive frame and control sleeve of 7a is reached. The drive frame 310 is a rotatably mounted stamp element 320 assigned, by means of which the components to be placed are forced into the set position. This will be explained below using the 8th explained.

In 7b is the setting tool 300 of the 7a shown in a sectional view. You can see how the drive frame 310 in the guide bush 311 the control sleeve 340 is guided. The drive frame 310 is also sleeve-shaped, so that in its interior the magazine 370 can record. The magazine 370 However, it is immovable set up in relation to the control sleeve, so that the drive frame 310 can move relative to the control sleeve and the magazine. The magazine 370 can be immovably fixed in relation to the control sleeve via a bayonet attachment, as is the case in the first embodiment. The operation of the stamp element 320 will now be referring to 8th explained in more detail.

Referring to 8a are separating agents 342 shown in the form of spring clips on the drive frame 310 are attached. The spring clips dive through corresponding openings at the exit end of the shell of the magazine 370 and jam the peripheral edge of the first mounting plug located at the exit of the magazine 371 , This will grip the mounting plug. When the drive frame 310 in the in 8a If the orientation shown is moved further downwards, he removes the mounting plug 371 and leads him to the setting position. The magazine also has staples or a constriction at its exit which prevents the magazine spring from pushing the assembly plugs out of the magazine. The spring clips of the separating agent 342 However, they are stronger than the retention effect of the magazine, so they can still remove the mounting plug.

In the setting position in 8b presses the stamp element 320 the mounting plug into the opening to be closed. For this purpose, the stamp element 320 two rotatable on the drive frame 310 furnished levers 322 on. Every lever 322 is about a hinge 323 rotatably mounted on the drive frame and by means of a spring 324 in the in 8c and 7b biased alignment biased. The lever 322 or the stamp element 320 further has an actuating foot 321 on, in contact with a control edge 325 the control sleeve occurs when the drive frame 310 is moved to the setting position. This is in 8d to recognize. When moving the drive frame in the in 8d position shown causes the control edge 325 a rotation of the lever 322 90 ° so that the lever forces the mounting plug firmly into place when the drive frame is in the set position.

The feather 324 tenses the lever 322 against this setting position shown, ie without the action of the control edge 325 on the actuating foot 321 forces the spring 324 the lever 322 back to the starting position of the 8c , The skilled person will recognize that in the second embodiment, the separating agent 342 in the form of spring clips simultaneously represents a gripping device for gripping the components to be placed from the magazine. The spring clips of the separating agent 342 not only singles the first mounting plug located at the exit of the magazine, but they are also the ones who grasp the mounting plug and take it from the starting position to the set position.

In the 9 - 13 is a third embodiment of a setting tool according to the invention 400 shown. The principle of operation is the same as in the other two embodiments. Referring to 9 , includes the setting tool 400 accordingly a drive frame 410 the via a mounting flange 404 can be firmly connected with, for example, a robot arm. The robot arm thus moves the drive frame 410 and since this in turn with the other components of the setting tool 400 connected, the entire tool 400 , The drive frame 410 is relatively movable to a control sleeve 440 set up. The control sleeve 440 has a cylindrical guide bush 411 on, in which the drive frame 410 is linearly guided. Between drive frame and control sleeve is a spring or a spring element 402 , which is arranged so that it drive frame and control sleeve in the in 10a shown starting position forces.

In 9 is the drive frame 410 shown in the set position. In 9 is also good to recognize, such as a mounting plug 471 by means of the drive frame 410 pressed into a setting position. The stopper 471 is by means of a gripping device 422 the drive frame 410 taken. The gripping device 422 consists essentially of four spring clips that engage the circumference of the round mounting plug.

At the control sleeve 440 is also a magazine 470 immovable. The magazine 470 is detachable on the control sleeve 440 fixed so that it can be replaced when the components to be placed are used up. Like the magazines of the first and second embodiment, the magazine also has 470 a magazine pen 473 on which the mounting plugs to be set 471 forces in the direction of the magazine exit.

Referring now to the 10a and 10b , is the setting device 400 shown in a side view. In 10a the drive frame is shown in its initial position and in 10b in the setting position. The drive frame is arranged linearly movable on the control sleeve and has a punch element 420 to provide the mounting plug with a pressing force when the drive frame in the set position of 10b is. Between the drive frame and control sleeve a special slotted guide is provided. The control sleeve is a control link 450 assigned and the drive element a sliding block 451 which is guided in the control gate. The control gate 450 is at a tax bar 455 provided, which is rotatable in the control sleeve 440 is set up. The control gate 450 is a groove and helical around the control rod 455 wound. The person skilled in the art recognizes that in a case like in 10 shown linear downward movement of the drive frame 410 the sliding stone 451 with the control gate 450 - Due to the helical winding - cooperates such that the control rod 455 rotates. The control gate 450 is again designed such that the control rod 455 turns 180 ° when the drive frame moves from the home position to the set position. The purpose of this design is to remove mounting plugs from the magazine 470 to singulate and seize these from the output of the magazine 470 to move to the position in which they are to be placed. For this purpose, a gripping device for gripping the components to be set or mounting plugs from the magazine is set up on the control rod, which rotates with the control rod. This is based on the 11 explained in more detail below.

The 11a and 11b show sectional schematic views of a detail of the magazine and the separation means provided there. Similar to the first embodiment, the third embodiment also has separating means 442 in the form of two rotatably mounted clamps on. The separating agent 442 is each about a swivel joint 448 rotatably mounted on the magazine or the control sleeve. It has a lead 445 on, which points in the exit direction of the magazine, as well as a protruding nose 447 , which holds the first mounting plug at the exit of the magazine, so that this and the other mounting plugs in the magazine are not pushed out by the magazine spring. So that the first mounting plug at the output of the magazine is separated and can be taken, the projections 445 operated and the separating means 442 around the hinge 448 rotated accordingly. This gives the noses 447 the mounting plug free. This is in 11b shown.

In 11a is the separating agent 442 shown in the position it occupies when the drive frame is not in the starting position. In 11b is the drive frame in the starting position and a conveyor frame 460 who is at the control rod 455 is located below the opening of the magazine and pushes over appropriate battlements 461 the projections 445 to the outside, so that the separating agent 442 releases the first assembly plug located in the exit of the magazine. This then falls by gravity down on or in the conveyor frame 460 where he is from clamping springs 462 is held. This condition is in 11b shown. It should be noted that in the illustration of 11b the same mounting plug 471 ' shown twice, once in position, after being in the promotional framework 460 on the other hand, in the position where it was indeed solved by the separating agent, but not yet due to gravity in the funding framework 460 has fallen. This is for illustrative purposes only, and in practice, the mounting plug will 471 ' either in the position shown below between the clamping springs 462 be there or on the way there.

Referring to 11 , is also to recognize that the separating means 442 are formed in the form of retaining clips, in the case shown on the magazine 470 are rotatably mounted. It is also conceivable, the separating means 442 to store rotatably on the control sleeve.

In 12 is the interchangeable magazine 470 shown in a schematic, partially sectioned view. The magazine is about fasteners 475 in the form of four hooks on the control sleeve detachably fastened, so that it is immovable relative to the control sleeve. You can also see the separating agent 442 , wherein the opposite separating means 442 due to the partially sectioned view in 12 not visible.

In 13 is shown a detailed view in partially cut state when the drive frame 410 is in its setting position. One recognizes that also the drive frame 410 about gripping devices 422 in the form of four spring clips features to the mounting plug 471 to keep that out of the promotional framework 460 by the action of the drive frame down in 13 to be led. The clamping springs 462 the funding framework 460 are designed so that they hold the mounting plug only slightly, so that it can be easily detached from the drive frame or the punch of the drive frame and moved down into the opening to be closed.

LIST OF REFERENCE NUMBERS

200, 300, 400

 setting tool

202, 302, 402

 Spring elements between drive frame and control sleeve

210, 310, 410

 drive frame

211, 311, 411

 Guide bush of the drive frame or the control sleeve

100

 body

110

 body opening

204, 304, 404

 Mounting flange for mounting the drive frame

220, 320, 420

 stamp element

222

 Gripping device (spring clips)

224

 carrier

225

 Axis of rotation of the carrier

226

 T-shaped control

240, 340, 440

 control sleeve

242, 342, 442

 separating device

244

 Operating handle of the drive frame

245

 Advantage of the separating agent

246

 Spring of the separating agent

247

 Nose of the separating agent

248

 Rotary joint of the separating agent

250, 350, 450

 control link

251

 control unit

270, 370, 470

 magazine

275

 bayonet fixing

271, 371, 471

 mounting plugs

273, 373, 473

 magazine spring

321

 striker foot

322

 lever

323

 swivel

324

 feather

325

 Control edge of the control sleeves

351, 451

 sliding block

422

 Gripping device with spring clips

455

 control rod

445

 Advantage of the separating agent

446

 Spring of the separating agent

447

 Nose of the separating agent

448

 Rotary joint of the separating agent

460

 conveyor frame

461

 Peaks of the conveyor frame

462

 Clamping springs of the conveyor frame

475

 Fasteners of the magazine

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102007036666 A1 [0003]

Claims (14)

Setting tool ( 200 ; 300 ; 400 ) for the automated setting of assembly components ( 271 ; 371 ; 471 ), in particular for the automated setting of mounting plugs in vehicle body openings, comprising: 210 ; 310 ; 410 ), • a control sleeve ( 240 ; 340 ; 440 ), • a magazine ( 270 ; 370 ; 470 ) for providing a plurality of components to be set ( 271 ; 371 ; 471 ), which magazine is immovably arranged in relation to the control sleeve; the drive frame ( 210 ; 310 ; 410 ) movable, preferably linearly movable, on the control sleeve ( 240 ; 340 ; 440 ) and is movable relative to the control sleeve between a starting position and a setting position in which a component is placed, and wherein the setting tool ( 200 ; 300 ; 400 ) further separating agents ( 242 ; 342 ; 442 ) for removing the components from the magazine, which are adapted to be actuated when the drive frame is moved from the starting position to the setting position. Setting tool according to claim 1, characterized in that the setting tool ( 200 ; 300 ; 400 ) further a stamp element ( 220 ; 320 ; 420 ), which is adapted to bring a contact force on the components to be placed when the drive frame is in the set position. Setting tool according to claim 1 or 2, characterized in that the setting tool ( 200 ; 300 ; 400 ) has a slotted guide between the drive frame and the control sleeve, with at least one control link ( 250 ; 350 ; 450 ) and an associated sliding block ( 351 ; 451 ) guided in the control cam; wherein preferably the control link ( 250 ; 350 ; 450 ) is assigned to the control sleeve and the associated sliding block ( 351 ; 451 ) the drive frame. Setting tool according to one of the preceding claims, characterized in that the control sleeve ( 240 ; 340 ; 440 ) and / or the drive frame ( 210 ; 310 ; 410 ) Have guide means, in which the drive frame is guided in relation to the control sleeve or the control sleeve in relation to the drive frame linear, in particular in the form of one or more cylindrical bushes ( 211 ; 311 ; 411 ). Setting tool according to one of the preceding claims, characterized in that between drive frame ( 210 ; 310 ; 410 ) and control sleeve ( 240 ; 340 ; 440 ) Spring elements ( 202 ; 302 ; 402 ) are arranged, which bias the drive frame in the starting position and are preferably designed so that they can move the drive frame back from the set position to the starting position without external force. Setting tool according to one of the preceding claims, characterized in that the drive frame ( 210 ; 310 ; 410 ) a gripping device ( 222 ; 342 ; 422 . 462 ) for gripping the components to be set from the magazine ( 270 ; 370 ; 470 ), and the gripping device is designed such that components are gripped in the starting position of the drive frame. Setting tool according to the preceding claim, characterized in that the gripping device ( 222 ; 342 ; 422 . 462 ) consists of spring clips which are arranged so that they come in the initial position of the drive frame in clamping engagement with a component to be placed. Setting tool according to one of the two preceding claims, characterized in that the gripping device ( 222 ) rotatable on the drive frame ( 210 ) and that the setting tool ( 210 ) a slide guide ( 250 ) between drive frame ( 210 ) and control sleeve ( 240 ), with at least one control link ( 250 ) on the control sleeve ( 240 ) and an associated sliding block, which is guided in the control link and the drive frame ( 210 ), and wherein the control link ( 250 ) a control unit ( 251 ) associated with storage ( 225 . 226 ) of the gripping device ( 222 ) on the drive frame ( 210 ) cooperates to prevent a rotation of the gripping device ( 222 ) when the drive frame moves from the home position to the set position. Setting tool according to one of the preceding claims, characterized in that the separating means ( 342 ) on the drive frame ( 340 ) are arranged and arranged to separate components from the magazine when the drive frame is moved from the starting position to the set position. Setting tool according to one of the preceding claims, characterized in that the setting tool ( 300 ) further a stamp element ( 320 ), which on the drive frame ( 310 ) is arranged and at least one, rotatably mounted on the drive frame lever ( 322 ), and wherein the control sleeve ( 340 ) a control edge ( 349 ) arranged to be in control contact with the at least one lever ( 322 ) when the drive frame is moved from the home position to the set position, so that the lever ( 322 ) acts on the component to be placed to force the components to be placed in the set position when the drive frame is in the set position. Setting tool according to the preceding claim, characterized in that the at least one lever ( 322 ) with a spring ( 324 ) is biased. Setting tool according to one of the preceding claims, characterized in that the setting tool ( 400 ) continue a control rod ( 455 ) rotatably mounted on or in the control sleeve ( 440 ) and a control ( 450 ), which helically around the rod ( 455 ) is wound around, and in that the drive frame ( 410 ) an associated sliding block ( 451 ), so that during a linear movement of the drive frame ( 410 ) relative to the control frame ( 440 ) the Kulissenstein ( 451 ) in the control block ( 450 ) a rotary movement of the rod ( 455 ), and further wherein a gripping device ( 460 ) for removing the components to be set from the magazine ( 470 ) on the control rod ( 455 ) is arranged, which rotates with the control rod with. Setting tool according to the preceding claim, characterized in that the separating means ( 422 ) for removing the components from the magazine ( 470 ) rotatably mounted retaining clips, which with the gripping device ( 460 ) and that of the gripping device ( 460 ) are rotated to a release position to separate a component to be placed from the magazine when the gripping device ( 460 ) by means of the control rod ( 455 ) is moved to a corresponding position on the output opening of the magazine. Industrial robot, comprising at least one robot arm and a setting tool according to one of the preceding claims, characterized in that the robot arm with the drive frame ( 210 ; 310 ; 410 ) of the setting tool ( 200 ; 300 ; 400 ) is firmly connected.

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