JP3739682B2 - Parts supply device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a component supply apparatus that supplies two sets of components to be assembled to an assembly to be assembled to be separated from each other to an assembly apparatus for the components.
[0002]
[Prior art]
Conventionally, stud bolts for roof rails are sometimes attached to the left and right sides of the roof of an automobile. When attaching stud bolts that are parts to the roof that is to be assembled, two sets of stud bolts on the left and right sides are set on a dedicated jig with an interval equal to the distance between the left and right sides of the roof. The left and right sets of stud bolts on the jig are delivered to the assembling apparatus, the stud bolts are assembled to the left and right sides of the roof by the assembling apparatus, and the stud bolts are welded to the roof by a welding robot or the like.
[0003]
By the way, if the number of jigs is one, the next stud bolt cannot be set on the jig until the delivery of the stud bolts to the assembling apparatus is completed, resulting in poor work efficiency. In this case, on the turntable, two jigs for supporting the left and right stud bolts are arranged in a pair spaced apart from each other in a predetermined direction orthogonal to the rotation axis of the turntable, and one and the other of both jigs are turned. The turntable can be rotated alternately between the set position on one side of the table and the delivery position on the other side by turning the turntable. Two sets of stud bolts are set on the jig at the set position, and left and right on the assembly device at the delivery position. If two sets of stud bolts are delivered, the stud bolt delivery work and the setting work can be performed simultaneously, and the work efficiency is improved.
[0004]
[Problems to be solved by the invention]
When the turntable is used as described above, the setting work at the setting position can be performed only from the outside of the turntable, and the setting work of one set of stud bolts on the left and right sides with respect to the jig portion near the outer edge of the turntable can be easily performed. Even if possible, the other set of stud bolts must be set in a jig part far inward from the outer edge of the turntable, which makes the setting work troublesome.
[0005]
In view of the above problems, the present invention can efficiently supply two sets of parts to be assembled to the assembly to be separated from each other to the assembling apparatus of the parts, and easily perform the setting work of the parts. It is an object to provide a component supply device that can be obtained.
[0006]
[Means for Solving the Problems]
In order to solve the above problems, the present invention is a component supply device that supplies two sets of components to be assembled to an assembly to be separated from each other to an assembly device for the components. The jigs that support the parts are spaced apart in a predetermined direction perpendicular to the rotation axis of the turntable and are arranged in a pair, and one and the other of both jigs are set on one side around the turntable and the other side. In the diametrical direction in which two sets of parts are set in a jig at the set position and two sets of parts are transferred to the assembling device at the transfer position. Is set to the X-axis direction, each jig is movable in the X-axis direction inside the X-axis direction with respect to the fixing jig part, and a fixed jig part that supports one of the two sets of parts. It is composed of a movable jig part that supports the other part, and at the delivery position. Both jigs so that the fixed jig part of the jig to be moved and the movable jig part are spaced apart in the X-axis direction, and the fixed jig part and the movable jig part in the set position are narrowed in the X-axis direction. The movable jig part is moved.
[0007]
According to the present invention, at the delivery position, two sets of parts can be delivered to the assembling apparatus while being separated by a predetermined distance equal to the distance between the parts assembling positions of the article to be assembled. Two sets of parts can be easily set on both jig parts by making the movable jig part approach the fixture jig part.
[0008]
Although it is possible to move the movable jig parts of both jigs with different drive sources, a movable frame that is moved in the X-axis direction with a single drive source is provided on the turntable. If the movable jig part of both jigs is attached to the frame, only one drive source is required, cost can be reduced, and it is not necessary to secure the movement space of the movable jig parts of both jigs individually. The turntable can be downsized. Furthermore, when the X-axis direction interval between the fixed jig part and the movable jig part of the jig existing at the delivery position is widened, the turntable can be set so that the center of rotation of the turntable enters between the two jig parts. Can be further reduced in size, which is advantageous.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows a roof assembling apparatus for assembling an automobile roof W by assembling various inner members WI to an outer panel WO. As shown in FIG. 16, a plurality of stud bolts WB for fixing the roof rail and the roof molding clip are attached to the side edge portions on the left and right sides of the roof W.
[0010]
The roof assembling apparatus includes an inner set station ST1, a welding station ST2, an outer charging station ST3, a sealing station ST4, and a bolt charging station ST5. Then, various inner members WI are set in the inner set station ST1 on the set jig 1 which can reciprocate between the inner set station ST1 and the welding station ST2, and the outer panel WO put in the outer feed station ST3 is set in the first position. The first handling robot 2 is transported to the sealing station ST4 by the one handling robot 2, the sealing agent is applied to the outer panel WO by the plurality of sealing robots 3, and then the first handling robot 2 is placed on the set jig 1 moved forward to the welding station ST2. Is set in a state where the outer panel WO is superimposed on the inner member WI, and the inner member WI is temporarily welded to the outer panel WO by the plurality of welding robots 4, and the left and right side edges of the roof W thus assembled are Bolting station The two sets of left and right stud bolts WB introduced in T5 are set by the second handling robot 5, and in this state, the roof W is lifted from the welding station ST2 by the second handling robot 5, and the stud robot WB is set by the welding robot 4. Welding to the roof W and additional welding to the roof W are performed, and the roof W after the welding is delivered to a transport device (not shown) by the second handling robot 5.
[0011]
The outer panel WO is loaded into the outer loading station ST3 by the carriage 6. As shown in FIGS. 2 and 4, the carriage 6 includes a plurality of upper and lower shelves 6 a so that several outer panels WO can be stored in a stacked state on each shelf 6 a. Each shelf 6a is configured to support the outer panel WO so that it can be pulled out in the lateral direction at both front and rear ends.
[0012]
A support base device 7 that supports the outer panel WO drawn from the carriage 6 is provided on one side in the lateral direction of the outer charging station ST3. As shown in FIGS. 2 to 4, the support base device 7 includes a base frame 71 supported so as to be movable up and down between a pair of front and rear support columns 70, 70, and the front end portion of the outer panel WO is mounted on the base frame 71. A workpiece receiver 72 that supports the outer panel WO and a workpiece receiver 73 that supports the rear end portion of the outer panel WO are provided. The workpiece receivers 72 and 73 are provided with guides 72a and 73a that contact the respective front and rear edges of the outer panel WO, and the outer panel WO. The stoppers 72b and 73b that abut the side edges of the outer panel WO and regulate the position of the outer panel WO are attached, so that the outer panel WO can be positioned and supported by the work receivers 72 and 73. Further, the workpiece receivers 72 and 73 are made to be movable back and forth in the lateral direction along the guide rails 72d and 73d by the cylinders 72c and 73c, and the workpiece receivers 72 and 73 are placed on the shelf 6a of the carriage 6 when the frame 71 is raised and lowered. The workpiece receivers 72 and 73 are moved outward in the lateral direction so as not to interfere. Further, the work receiver 73 is provided on the slider 73g whose position is adjusted in the front-rear direction along the guide rail 73f by the rodless cylinder 73e with respect to the base frame 71 so as to cope with a plurality of types of outer panels WO of different lengths. ing. The cart 6 is a dedicated product corresponding to the model.
[0013]
The underframe 71 is moved up and down along the guide rails 71 b fixed to the support frames 70 by rodless cylinders 71 a erected on the support frames 70. Further, a longitudinal synchronization shaft 71c is supported on the lower surface of the base frame 71 in the front-rear direction, and pinions 71e, 71e meshing with racks 71d, 71d attached to the front and rear support frame 70, 70 are fixed to both ends of the synchronization shaft 71c. The front and rear ends of the underframe 71 are moved up and down synchronously. Then, the frame 71 is stopped at a position where the work receivers 72 and 73 are at the same level as the shelf 6a of the carriage 6, and the stacked outer panel WO accommodated in the shelf 6a is then used as the first handling robot. 2 is pulled out from the carriage 6 and placed on the work receivers 72 and 73. Thereafter, the first handling robot 2 picks up the outer panels WO one by one from the upper one, and the welding station ST2 as a work station via the sealing station ST4. To be transferred to.
[0014]
A robot hand 20 capable of holding the outer panel WO is mounted on the tip of the wrist 2a, which is the operation end of the first handling robot 2. As shown in FIGS. 5 and 6, the robot hand 20 is pivotally attached to a plurality of suction pads 22 attached to a hand body 21 that is long in the longitudinal direction of the outer panel WO, and both sides of the hand body 21 so as to be swingable. The outer panel WO is sucked and held by the suction pads 22, and the outer panel WO is swung inward in the lateral direction while the outer panel WO is picked up. It can prevent falling from the jig 20. A plurality of fall prevention arms 23 on each side of the hand main body 21 are connected to a synchronous shaft 23a that is pivotally supported by the hand main body 21 via links 23b, respectively, and a single cylinder 23c that drives the synchronous shaft 23a. The plurality of fall prevention arms 23 are swung in synchronization. The suction pad 22 is arranged so as to be compatible with a plurality of types of outer panels WO.
[0015]
Further, the robot hand 20 is provided with an arm portion 24 that protrudes outward from one end portion of the hand main body 21. The arm portion 24 includes a pair of arm pieces 24a and 24a that are substantially L-shaped in side view, and a cross bar 24b that is provided between the ends of the arm pieces 24a and 24a. The arm portion 24 is pivotally supported at one end portion of the hand body 21 via a shaft 24c horizontally provided between the base ends of both arm pieces 24a, 24a, and the arm portion 24 is shown in FIG. The projection position indicated by the solid line can be swung to the storage position indicated by the virtual line. When the outer panel WO is pulled out from the shelf 6 a of the carriage 6, the robot hand 20 is placed in a posture in which one end of the hand main body 21 faces the carriage 6, and the work receivers 72 and 73 of the frame 71 of the support base device 7 are placed. The robot hand 20 is moved in the lateral direction by the operation of the first handling robot 2 with the arm unit 24 being swung to the protruding position, and becomes the object of the current drawing operation as shown in FIG. The arm portion 24 is hooked on the lowermost outer panel WO of the laminated outer panel supported by the shelf 6a, and the laminated outer panel WO is pulled out on the work receivers 72 and 73 from this shelf. After that, the laminated outer panels WO on the workpiece receivers 72 and 73 are held one by one from the upper one by the robot hand 20 and transferred to the welding station ST2 via the sealing station ST4. Swings the arm portion 24 to the storage position so that the arm portion 24 does not interfere with other devices such as a clamp member on the setting jig 1.
[0016]
A robot hand 50 capable of holding the roof W and the stud bolt WB is attached to the tip of the wrist 5a, which is the operation end of the second handling robot 5. As shown in FIGS. 8 and 9, the robot hand 50 includes a plurality of roof holders 52 and stud bolt holders 53 on each side of the hand main body 51. The roof holder 52 is formed of a clamp member that holds the side edge of the roof W. Further, as shown in FIGS. 10 to 12, the stud bolt holder 53 is formed of a clamp member that holds the stud bolt WB by a pair of clamp arms 53b and 53b that are opened and closed by a cylinder 53a. Then, a cylinder 53d is erected on a bracket 53c fixed to the side of the hand body 51, and the movable bracket 53e moved up and down by the cylinder 53d is adjacent to confirm the presence of the stud bolt holder 53 and the stud bolt WB. A switch 53f is attached. Since the stud bolts WB are attached to a plurality of locations on the side edge of the roof W in a pair of front and rear, stud bolt holders 53 are provided in a plurality of locations on the side of the hand body 51 in a pair of front and rear. . The clamp arm 53b is made of a copper-based material that hardly adheres to the spatter scattered during welding, for example, a copper alloy containing beryllium, and is heat-treated for increasing the hardness. A seat plate WBa is fixed to the lower end of the stud bolt WB, and the stud bolt WB is welded to the side edge of the roof W at the seat plate WBa.
[0017]
The bolt supply station ST5 is provided with a bolt supply device 8 for supplying two sets of left and right stud bolts WB to the second handling robot 5 as an assembly device for stud bolts. As shown in FIGS. 13 to 15, the bolt supply device 8 has a first and second pair of jigs 82 ₁ and 82 ₂ placed on a turntable 81 rotatably supported by a base 80. A pair of jigs 82 ₁ and 82 ₂ are arranged apart from each other in a predetermined direction (X-axis direction) perpendicular to the rotation axis of the rotary table 81, and one of the jigs 82 ₁ and 82 ₂ is set on one side around the turntable 81 and the other. Rotation of the turntable 81 makes it possible to alternately reverse to the side delivery position ST5b, and two sets of left and right stud bolts WB are set on one jig at the set position ST5a, and from the other jig at the delivery position ST5b. Two sets of left and right stud bolts WB are delivered to the second handling robot 5.
[0018]
The turntable 81 is formed of a substantially rectangular frame, and has inner and outer double cylindrical portions 81a and 81b suspended from the lower surface of the central portion thereof, and the turntable 81 is attached to the bearing 80a on the base 80 with the outer cylindrical portion 81a. Further, the movable rack 83 supported by the base 80 via the guide rail 80b and driven by the cylinder 83a is engaged with a gear 81c fixed to the outer periphery of the lower end of the inner cylindrical portion 81b. The table 81 can be rotated forward and backward by 180 degrees.
[0019]
Each of the jigs 82 ₁ and 82 ₂ is capable of moving in the X-axis direction on the inner side in the X-axis direction with respect to the fixing jig part 84 and the fixing jig part 84 that supports one set of the left and right stud bolts WB. The movable jig portion 85 supports the left and right other set of stud bolts WB. Each of these jig portions 84 and 85 is formed by attaching two dedicated jig bodies 841 and 851 having bolt support portions 841a and 851a to general-purpose frames 840 and 850 that are long in the Y-axis direction orthogonal to the X-axis direction. Thus, the dedicated jig bodies 841 and 851 can be freely attached to and detached from the general-purpose frames 840 and 850 by pin members 842 and 852 engaged with the intermediate portions thereof and claw members 843 and 853 engaged with the end portions. The dedicated jig bodies 841 and 851 can be exchanged when the distance between the front and rear of the pair of stud bolts WB changes. Then, the fixing jig portions 84 and 84 of both the first and second jigs 82 ₁ and 82 ₂ are fixed to one end and the other end of the turntable 81 in the general-purpose frames 840 and 840, respectively. The movable jig portions 85 and 85 of the tools 82 ₁ and 82 ₂ are fixed to a common movable frame 86 provided on the turntable 81 in the general-purpose frames 850 and 850.
[0020]
The movable frame 86 is moved in the X-axis direction along the guide rails 86b on both sides in the Y-axis direction of the turntable 81 by a rodless cylinder 86a provided on the turntable 81. When the first jig 82 ₁ is at the set position ST5a, the movable frame 86 is moved to the stroke end position on the first jig 82 ₁ side, which is regulated by the stopper 86c attached to the turntable 81, and delivered. wide spacing of the second jig 82 _second fixture portion 84 and the movable device portion 85 existing in the position ST5b, narrowing the distance between the first jig 82 _first fixture portion 84 and the movable jig 85 When the second jig 82 ₂ is at the set position ST5a, the movable frame 86 is moved to the stroke end position on the second jig 82 ₂ side, which is regulated by the stopper 86d attached to the turntable 81, and the delivery position is reached. wide spacing of the first jig 82 _first fixture portion 84 and the movable device portion 85 existing in ST5b, narrowing the distance between the second jig 82 _second fixture portion 84 and the movable device portion 85. Here, the distance between the fixed jig portion 84 and the movable jig portion 85 of each jig at the delivery position ST5b is the distance between the left and right side edges of the roof W, that is, for the left and right stud bolts of the robot hand 50. It is set to be equal to the distance between the holders 53, and the left and right stud bolts WB held by the fixed jig part 84 and the movable jig part 85 are gripped by the left and right stud bolt holders 53. can do. On the other hand, since the interval between the fixed jig portion 84 and the movable jig portion 85 of each jig existing at the set position ST5a becomes narrow, an operator can easily set the stud bolt WB on both the jig portions 84 and 85. it can. Moreover, in this embodiment, when the space | interval of the fixing jig part 84 and the movable jig part 85 of each jig | tool which exists in delivery position ST5b is made wide, the rotation center of the turntable 81 between both the jig parts 84 and 85 is provided. Therefore, the turntable 81 can be miniaturized. Further, in the present embodiment, the bolt supply device 8 is arranged so that the set position ST5a is adjacent to the side of the inner set station ST1, so that one worker can perform the inner setting work and the bolt setting work. ing.
[0021]
When assembling the roof W, the left and right stud bolts of the robot hand 50 of the second handling robot 5 are attached during the temporary welding of the inner member WI to the outer panel WO on the set jig 1 by the welding robot 4 at the welding station ST2. The holder 53 receives the left and right two sets of stud bolts WB as described above, and after the tack welding is completed, the robot hand 50 is transferred to the welding station ST2, and the left and right sets of stud bolts WB are attached to the left and right side edges of the roof W. set. Next, the roof W is held by the roof holder 52 of the robot hand 50, and the roof W is lifted from the welding station ST2 by the operation of the second handling robot 5. In this state, the welding robot 4 welds the stud bolts WB to the roof W, and performs additional hit welding on the roof W. After the welding is completed, the roof W is discharged. Further, when the roof W is lifted from the welding station ST2, the setting jig 1 is moved back to the inner setting station ST1, and the next inner member WI is set to the setting jig 1, and then the setting position at the bolt loading station ST5. The stud bolt WB is set on the fixed jig portion 84 and the movable jig portion 85 of the jig inverted to ST5a, and the roof W is continuously assembled by repeating the above operations.
[0022]
As described above, the embodiment in which the present invention is applied to the bolt supply device 8 that supplies the two sets of the left and right stud bolts WB to the second handling robot 5 has been described. It can be widely applied as a supply device for a set of parts.
[0023]
【The invention's effect】
As is clear from the above description, according to the present invention, two sets of parts can be efficiently delivered to the assembling apparatus with a required space between them, and two sets of parts at the set position can be transferred. Parts can be set easily and productivity is improved.
[Brief description of the drawings]
FIG. 1 is a plan view of a roof assembling apparatus including a component supply apparatus according to the present invention.
FIG. 2 is an enlarged plan view of an outer charging station of the roof assembling apparatus.
FIG. 3 is a front view of the support base device viewed from the direction of arrow III in FIG. 2;
4 is a side view taken along line IV-IV in FIG. 3;
FIG. 5 is a plan view of a robot hand of the first handling robot.
6 is a side view of the robot hand viewed from the direction of arrow VI in FIG. 5. FIG.
FIG. 7 is a side view of the main part showing the operation of pulling out the outer panel from the cart. FIG. 8 is a plan view of the robot hand of the second handling robot.
9 is a side view of the robot hand viewed from the direction of arrow IX in FIG.
10 is an enlarged front view of the bolt holder as viewed from the direction of arrow X in FIG. 8;
11 is a side view taken along line XI-XI in FIG.
12 is a plan view of the bolt holder as viewed from above in FIG. 10;
FIG. 13 is a plan view of the bolt supply device.
14 is a side view of the bolt supply device viewed from the right side of FIG. 13;
15 is a sectional view taken along line XV-XV in FIG.
FIG. 16 is a perspective view showing an assembled state of the stud bolt with respect to the roof.
[Explanation of symbols]
W ... roof (to be assembled product) WB ... stud bolt (parts) 5 ... second handling robot (assembled device) 8 ... volt supply device (component supply device) 81 ... turntable 82 _1, 82 ₂ ... jig 84 ... fixed jig part 85 ... movable jig part 86 ... movable frame ST5a ... set position ST5b ... delivery position

Claims (3)

A component supply device for supplying two sets of components to be assembled to the assembly to be assembled to each other to the assembly device,
On the turntable, jigs for supporting two sets of parts are arranged in a pair spaced apart in a predetermined direction perpendicular to the rotation axis of the turntable, and one of the jigs and the other are arranged around the turntable. The set position on the side and the delivery position on the other side can be alternately reversed by rotating the turntable. Two sets of parts are set on the jig at the set position, and two sets of parts are received by the assembly device at the delivery position. In what you pass,
With the predetermined direction as the X-axis direction, each jig is movable in the X-axis direction inside the X-axis direction with respect to the fixing jig portion, and a fixing jig portion that supports one of the two sets of parts. It consists of a movable jig part that supports the other of the two sets of parts,
The distance between the fixed jig part of the jig at the delivery position and the movable jig part is wide in the X-axis direction, and the distance between the fixed jig part of the jig at the set position and the movable jig part is narrowed in the X-axis direction. Move the movable jig part of both jigs,
A component supply device. 2. A movable frame that is moved in the X-axis direction by a single drive source is provided on the turntable, and movable jig portions of the two jigs are attached to the movable frame. Parts supply equipment. The rotation center of the turntable enters between the jig parts when the X-axis direction interval between the fixed jig part and the movable jig part of the jig existing at the delivery position is widened. The component supply apparatus according to claim 1 or 2.

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