Abstract
An apparatus for automatic pitch conversion for pick and place heads, comprising at least one auto pitch station for adjusting a pitch in a X-coordinate direction and/or adjusting a pitch in a Y-coordinate direction of pickers/grippers of a pick and place heads; a first actuator, operated by a motor gear assembly of the at least one auto pitch station, wherein the first actuator changes the pitch in the X-coordinate direction distance between rows of pickers/grippers of the respective pick and place head; and a second actuator operated by the same motor gear assembly, wherein the second actuator changes the pitch in the Y-coordinate direction between the pickers/grippers within a row of the respective pick and place head. A method for automatic pitch conversion of pick and place heads and a pick and place head and a pick and place device.
Claims
1. An apparatus for automatic pitch conversion for pick and place heads, comprising: at least one auto pitch station for adjusting a pitch in a X-coordinate direction and/or adjusting a pitch in a Y-coordinate direction of pickers/grippers of the pick and place heads; a first actuator, operated by a motor gear assembly of the at least one auto pitch station, wherein the first actuator comprises a first gear wheel and a first gear rack, the first actuator operatively arranged to change the pitch in the X-coordinate direction distance between rows of pickers/grippers of the respective pick and place head; and, a second actuator operated by the same motor gear assembly of the at least one auto pitch station, wherein the second actuator changes the pitch in the Y-coordinate direction between the pickers/grippers within a row of the respective pick and place head.
2. The apparatus as recited in claim 1, wherein the first actuator is a pusher which is moved along the X-coordinate direction.
3. The apparatus as recited in claim 1, wherein the second actuator is operatively arranged to translate a changeover fork along the X-coordinate direction in order to grab a single picker/gripper of a row or changing the pitch in the Y-coordinate direction.
4. The apparatus as recited in claim 1, wherein a third actuator is associated with the at least one auto pitch station for moving the pickers/grippers in a Z-coordinate direction in order to disable individual pickers/grippers.
5. The apparatus as recited in claim 4, wherein the third actuator is a shaft changeover mechanism with at least one shaft pusher which is movable in the Z-coordinate direction for pushing the pickers/grippers into a disabled position.
6. The apparatus as recited in claim 5, wherein the pusher is used to operate shaft unlock mechanism to bring at least one picker/gripper in an operating position.
7. The apparatus as recited in claim 1, wherein a first auto pitch station and a second auto pitch station are arranged opposite to each other and a shaft changeover mechanism is arranged between the first auto pitch station and the second auto pitch station.
8. The apparatus for automatic pitch conversion for pick and place heads of claim 1, wherein the second actuator comprises a second gear wheel and a second gear rack.
9. An apparatus for automatic pitch conversion for pick and place heads, comprising: a first auto pitch station and a second auto pitch station for adjusting a pitch in a X-coordinate direction and/or adjusting a pitch in a Y-coordinate direction of pickers/grippers of at least one pick and place head; a first actuator operated by a motor gear assembly of the first auto pitch station, wherein the first actuator comprises a first gear wheel and a first gear rack, the first actuator operatively arranged to change the pitch in the X-coordinate direction between rows of pickers/grippers of the respective pick and place head; and, a first actuator operated by a motor gear assembly of the second auto pitch station, wherein the first actuator comprises a first gear wheel and a first gear rack, the first actuator operatively arranged to change the pitch in the X-coordinate direction distance between rows of pickers/grippers of the respective pick and place head; a second actuator operated by the same motor gear assembly of the first auto pitch station, wherein the second actuator changes the pitch in the Y-coordinate direction between the pickers/grippers within a row of the respective pick and place head and a second actuator operated by the same motor gear assembly of the second auto pitch station, wherein the second actuator changes the pitch in the Y-coordinate direction between the pickers/grippers within a row; and, a third actuator is arranged between the first auto pitch station and the second auto pitch station for moving the pickers/grippers in a Z-coordinate direction in order to disable individual pickers/grippers.
10. The apparatus as recited in claim 9, wherein the first actuator is a pusher, wherein the pusher of the first auto pitch station is moved by the motor gear assembly of the first auto pitch station and the pusher of the second auto pitch station is moved by the motor gear assembly of the second auto pitch station along the X-coordinate direction in opposing directions.
11. The apparatus as recited in claim 9, wherein the second actuator is operatively arranged to translate a changeover fork, wherein the changeover fork of the first auto pitch station is moved by the motor gear assembly of the first auto pitch station and the changeover fork of the second auto pitch station is moved by the motor gear assembly of the second auto pitch station along the Y-coordinate direction in opposing directions in order to grab a single picker/gripper of a row of the rows of picker/grippers or changing the pitch in the X-coordinate direction.
12. The apparatus as recited in claim 9, wherein the third actuator is a shaft changeover mechanism with at least one shaft pusher which is movable in the Z-coordinate direction, for pushing selected pickers/grippers into a disabled position.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
(1) The nature and mode of operation of the present invention will now be more fully described in the following detailed description of the invention taken with the accompanying drawing figures, in which
(2) FIG. 1 is a schematic representation of a pick and place device;
(3) FIG. 2a is a schematic view of an embodiment of a pick and place head;
(4) FIG. 2b is a schematic view of an embodiment of a pick and place head;
(5) FIG. 2c is a schematic view of an embodiment of a pick and place head;
(6) FIG. 2d is a schematic view of an embodiment of a pick and place head;
(7) FIG. 3 is a perspective view of a pick and place head with N rows and M columns;
(8) FIG. 4 is a perspective view of the pick and place head of FIG. 3, which is positioned between a first auto pitch station and a second auto pitch station;
(9) FIG. 5 is a perspective view of the arrangement of the first auto pitch station and the second auto pitch station;
(10) FIG. 6 is a detailed perspective view the second auto pitch station shown in FIG. 5;
(11) FIG. 7 is a side view of the second auto pitch station shown in FIG. 5;
(12) FIG. 8 shows the first actuators of the first and second auto pitch station for changing the distance between rows of pickers/grippers;
(13) FIG. 9 shows the rows of pickers/grippers at various distances;
(14) FIG. 10 is a perspective view of the lock mechanism of rows at a maximum X-pitch;
(15) FIG. 11a is the working principle of the lock mechanism in the rows;
(16) FIG. 11b is the working principle of the lock mechanism in the rows;
(17) FIG. 12 is a detailed view of the device to hold the rows a maximum distance when the pitch within the rows is changed;
(18) FIG. 13 is a perspective view of the changeover mechanism for changing the distance within the rows;
(19) FIG. 14 is another perspective view of the changeover mechanism for changing the distance within the rows;
(20) FIG. 15 is a perspective view of two pickers/grippers set at a specific distance within a row;
(21) FIG. 16 is a side view of a push up mechanism for bringing the shaft of the pickers/grippers into an elevated position;
(22) FIG. 17 is a sectional side view of the pick and place head, wherein one shaft of the pickers/grippers is at an elevated position;
(23) FIG. 18 is a detailed perspective view of the mechanism which push up shafts in a row;
(24) FIG. 19 shows a shaft of a picker/gripper kept by a mechanism in a pushed up and locked position;
(25) FIG. 20 shows a shaft of a picker/gripper released by the shaft unlock mechanism so that the picker/gripper is in an operating position;
(26) FIG. 21a shows a different pattern of the arrangement of the pickers/grippers in a pick and place head;
(27) FIG. 21b shows a different pattern of the arrangement of the pickers/grippers in a pick and place head; and,
(28) FIG. 22 is a perspective view of an embodiment of the pick and place head, wherein pickers/grippers are arranged in a single row.
DETAILED DESCRIPTION OF THE INVENTION
(29) Like reference numerals refer to like elements throughout the various figures. Furthermore, only reference numerals necessary for the description of the respective figure are shown in the figures. The shown embodiments represent only examples of how the invention can be carried out. This should not be regarded as limiting the invention.
(30) Furthermore, it is understood that this patent is not limited to the particular methodology, materials and modifications described and as such may, of course, vary. It is also understood that the terminology used herein is for the purpose of describing particular aspects only, and is not intended to limit the scope of the present invention as claimed.
(31) Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood to one of ordinary skill in the art to which this invention belongs. It should be understood that any methods, devices or materials similar or equivalent to those described herein can be used in the practice or testing of the invention.
(32) The schematic representation of FIG. 1 shows a pick and place device 100. The embodiment shown here has a first and a second auto pitch station 1 and 2. The first auto pitch station 1 and the second auto pitch station 2 are shared between multiple pick and place heads 4, 5, 6, 7. Changeover automation of the pitch of the various pick and place heads 4, 5, 6, 7 is largely carried out stationary and not on moving. Therefore, the pick and place heads 4, 5, 6, 7 are more lightweight since they do not carry motors for adjusting the pitch. The pick and place device 100 has a transport system 12. The transport system 12 stretches across several individual transport lanes 13, 14, 15, 16 which are used to transport JEDEC trays (not shown) or other units through the pick and place device 100. The pick and place device 100 is used to pick up electronic components from a transportation tray (JEDEC tray) and to move the electronic components to an inspection station and/or to place electronic components in a transportation tray. The pick and place heads 4, 5, 6, 7 are used to place electronic components (not shown) in the cells of the JEDEC trays and the placing in the cells of the JEDEC trays is usually done by pick and place devices 100, having several pick and place heads 4, 5, 6, 7. The number of pickers/grippers per pick and place head 4, 5, 6, 7 is only an example and should not be regarded as a limitation of the present invention.
(33) The first and second auto pitch stations 1 and 2 are shared between multiple several pick and place heads 4, 5, 6, 7. The pick and place device 100, shown in FIG. 1, has pick and place heads 4, 5, 6, 7 which differ in the number of rows N and the number of columns M according to which pickers/grippers 20 of the pick and place heads 4, 5, 6, 7 are arranged. The first auto pitch station 1 and the second auto pitch station 2 are stationary in the pick and place device 100. As mentioned before each individual pick and place head 4, 5, 6 or 7 can be moved by the transport system 12 so that the first auto pitch station 1 and/or the second auto pitch station 2 can operate on individual pick and place heads 4, 5, 6 or 7 in order to change the pitch of the pickers/grippers 20 within the rows N and/or columns M. Additionally, a height position H of the pickers/grippers 20 can be changed as well. In an elevated height position H the picker/gripper 20 is not active. Accordingly, with the first auto pitch station 1 and/or the second auto pitch station 2 it is possible to configure the pattern of the pickers/grippers 20 of the pick and place heads 4, 5, 6 or 7 so that it meets the handling requirements for the individual electronic components. The pick and place heads 4, 5, 6 or 7 are pitch free configurable in the direction of the row N and the column M. The pitch can be non-equidistant between pickers/grippers 20. This is important for the inspection and handling of larger electronic components that require multiple pickers/grippers 20 per component.
(34) The pick and place device 100 has a sensing system 9, which is used to verify the position and the pitch of the pickers/grippers 20 of the individual pick and place heads 4, 5, 6, or 7. Calibration is done as well by the sensing system 9.
(35) FIGS. 2a to 2d show various embodiments of the pick and place heads 4, 5, 6 or 7. FIG. 2a is a pick and place head 4 with four rows N of pickers/grippers 20 which are oriented in a Y-coordinate direction Y. The distance between the rows N can be adjusted along a X-coordinate direction X. The embodiment shown in FIG. 2b has three rows N of pickers/grippers 20 oriented in the Y-coordinate direction Y. Both embodiments (FIG. 2a and FIG. 2b) have fourteen columns M of pickers/grippers 20, which are oriented in the X-coordinate direction X. FIG. 2c is an embodiment of a pick and place head 6 with two rows N of pickers/grippers 20 which are oriented in a Y-coordinate direction V. FIG. 2d is an embodiment of a pick and place head 6 with a single row N of pickers/grippers 20 which are oriented in a Y-coordinate direction Y. Both embodiments (FIG. 2c and FIG. 2d) have six columns M of pickers/grippers 20, which are oriented in the X-coordinate direction X. The pick and place heads 4, 5, 6, 7 (shown in FIGS. 2a to 2d) comprising a plurality of electronic component pickers/grippers 20 positioned along multiple horizontal axes (rows N) such that electronic components (not shown) placed underneath the pickers/grippers 20 can be picked up and placed (in tray cells, not shown).
(36) FIG. 3 shows a perspective view of a pick and place head 4, 5, 6, 7 with N rows and M columns of pickers/grippers 20. The embodiment shown here has two rows N (oriented in the Y-coordinate direction Y) with fourteen pickers/grippers 20 and consequently fourteen columns (oriented in the X-coordinate direction X) of pickers/grippers 20. It is noted the number of rows N and the number of columns M should not be regarded as limiting effect of the invention. The pitch 30 (X-pitch) between two successive rows N1 and N2 can be adjusted in the X-coordinate direction X. The pitch 32 (Y pitch) between two successive pickers/grippers 20 within a row N1 or N2 can be adjusted in the Y-coordinate direction Y. The pickers/grippers 20 are moveably mounted within a rigid frame 38. The rigid frame 38 is movably attached to the transport system 12 (see FIG. 1) of the pick and place device 100. The individual pick and place head 4, 5, 6 or 7 can be moved by the transport system 12 to the first auto pitch station 1 and/or the second auto pitch station 2 (see FIG. 4). Each pick and place head 4, 5, 6 or 7 has multiple horizontal axes. The pickers/grippers 20 being parallel to a first horizontal axis A.sub.1 which is oriented along the Y-coordinate direction of the pick and place heads 4, 5, 6 or 7. The first horizontal axis A.sub.1 can be shifted along a second axis A.sub.2, which is oriented in the X-coordinate direction X in order to adjust the pitch 30 (X-pitch) between the first row N.sub.1 and the second row N.sub.2. Each row N.sub.1 and N.sub.2 is biased with an elastic element 36 towards a maximum X-pitch 31 (see FIG. 9). The rows N.sub.1 and N.sub.2 are mounted on blocks 41 which enable the movement of the rows N.sub.1 and N.sub.2 along the rails 39 in the X-coordinate direction X.
(37) In FIG. 4, a perspective view of the pick and place head 4, 5, 6 or 7 of FIG. 3 is shown, which is positioned between the first auto pitch station 1 and the second auto pitch station 2. As shown in FIG. 1, the pick and place heads 4, 5, 6 or 7 can be moved independently from each other by the transport system 12 (see FIG. 1) of the pick and place device 100. The first auto pitch station 1 and the second auto pitch station 2 are preferably fixed to the pick and place device 100. The first auto pitch station 1 and the second auto pitch station 2 are used to configure the pitch of the pickers/grippers 20 of the pick and place heads 4, 5, 6 or 7 in the X-coordinate direction X and Y-coordinate direction Y. Additionally, it is possible to disable/enable pickers/grippers 20 of the pick and place heads 4, 5, 6 or 7. A shaft changeover mechanism 3 is placed between the first auto pitch station 1 and the second auto pitch station 2.
(38) A preferred embodiment is shown in FIG. 5. According to the perspective view, the preferred embodiment comprises a first auto pitch station 1 and a second auto pitch station 2 which are arranged opposite to each other. No pick and place head 4, 5, 6 or 7 is in position between the first auto pitch station 1 or the second auto pitch station 2 in order to provide a better view of the operating elements of the first and second auto pitch station 1 and 2. A shaft changeover mechanism 3 is associated with the first and second auto pitch station 1 and 2. The changeover mechanism 3 is placed such that it can disable/move-up single pickers/grippers 20. The first auto pitch station 1 has a motor gear assembly 21 which is used to operate a pushier 23 to adjust the pitch 30 (X-pitch) between the rows N of the pickers/grippers 20. Additionally, the second auto pitch station 2 has a motor gear assembly 22 for operating a pusher 24 to adjust the pitch 30 (X-pitch) between the rows N in which the pickers/grippers 20 are arranged. The first auto pitch station 1 has a changeover fork 25 (see FIG. 6 of 7) and the second auto pitch station 2 has a changeover fork 26 both of which are used to adjust the pitch 32 (Y-pitch) between the pickers/grippers 20 within a row N or the rows N.sub.1, N.sub.2, . . . , N.sub.N. The changeover fork 25 of the first auto pitch station 1 is operated as well by the gear assembly 21. The changeover fork 26 of the second auto pitch station 2 is operated as well by the motor assembly 22.
(39) FIGS. 6 and 7 show a detailed view of the upper portion of the first or second auto pitch station 1 or 2. The motor gear assembly 21, 22 is used to operate the pusher 23, 24. The pusher 23, 24 is moved by the motor gear assembly 21, 22 along an X-coordinate direction X to adjust the pitch 30 (X-pitch) between the rows N of the pickers/grippers 20 (see FIGS. 8 and 9). The pusher 23, 24 has a gear rack 29 which is in operative relationship with a gear wheel 35 of the motor gear assembly 21, 22. The changeover fork 25, 26 has a gear rack 36 which is in operative relationship with a gear wheel 37 of the motor gear assembly 21, 22. As mentioned above, the changeover fork 25, 26 is used to adjust the pitch 32 (Y-pitch) between the pickers/grippers 20 within a row N. The working principle of the changeover fork 25, 26 is explained in FIGS. 13 to 15,
(40) FIG. 8 shows pusher 23 associated with the motor gear assembly 21 of the first auto pitch station 1 and pusher 24 associated with the motor gear assembly 22 of the second auto pitch station 2. FIG. 8 and FIG. 9 show a pick and place head 4, 5, 6 or 7 which has the pickers/grippers 20 arranged in a first row N and a second row N.sub.2. Each row N.sub.1 and N.sub.2 is biased with an elastic element 36 towards a maximum X-pitch 31 (see FIG. 9). The pushers 23 and 24 act against the force of the respective elastic element 36. Preferably, the elastic element 36 is a spring. The pushers 23 and 24 push each row N.sub.1 and N.sub.2 and the rows N.sub.1 and N.sub.2 are moved with the pickers/grippers 20 along two parallel rails 39 to the desired pitch 30 (X-pitch). The gear rack 29 of the pusher 23, 24 cooperates with the gear wheel 35 of the respective motors gear assembly 21, 22 in order to bring the first row N.sub.1 and a second row N.sub.2 to the desired pitch 30 (X-pitch).
(41) FIG. 10 shows a perspective view of a locking mechanism 40 of two rows N.sub.1 and N.sub.2 at a maximum X-pitch 31 or at the desired pitch 30 (X-pitch). The locking mechanism 40 is mounted to a frame element 38 (see FIG. 3) of the pick and place head 4, 5, 6, 7, which is oriented in the X-coordinate direction X. The locking mechanism 40 has a lock device 49 for rows N.sub.1 and N.sub.2 which operates if the rows N.sub.1 and N.sub.2 are at the maximum X-pitch 31. The lock device 49 is needed when the changeover forks 25 or 26 are being pushed onto shafts 45 (see FIG. 13) of the pickers/grippers 20 to unlock the pickers/grippers 20 and to enable a change of the pitch 32 (Y-pitch). The rows N.sub.1 and N.sub.2 are mounted on blocks 41 which enable the movement of the rows along the rails 39 in the X-coordinate direction X. At the maximum X-pitch 31 the lock device 49 moves between the blocks 41 and blocks the position of the rows N.sub.1 and N.sub.2 when the changeover forks 25 and/or 26 are pushed into the shafts 45 of the pickers/grippers 20 in order to unlock the pickers/grippers 20 and change the pitch 32 (Y-pitch) between the two adjacent pickers/grippers 20 along the Y-coordinate direction Y. Each row N.sub.1 and N.sub.2 has its own row locking mechanism 42. The row locking mechanism 42 of the locking mechanism 40 has an unlock cylinder 43, acting on a bar element 44 which is biased by a plurality of locking springs 46. In case the unlock cylinder 43 is operated the bar element 44 can pivot about a pivot point 47 and a friction material 48 is disengaged from the respective row N.sub.1 and N.sub.2. As a consequence, the pitch 30 (X-pitch) between the rows N.sub.1 and N.sub.2, on which the pickers/grippers 20 are mounted on, being continuously adjustable in the X-coordinate direction X. When the rows N.sub.1 and N.sub.2 are at the desired position in the X-coordinate direction X friction material 48 is engaged again with the rows N.sub.1 and N.sub.2 to hold them at the desired pitch 30 (X-pitch).
(42) The locking and unlocking of the rows N.sub.1 and N.sub.2 is shown in simplified FIGS. 11a and 11b. With the working principle shown here the rows N.sub.1 and N.sub.2 can be locked or unlocked. In case the unlock cylinder 43 is not operated (see FIG. 11a) the friction material 48 is engaged with the rows N.sub.1 and N.sub.2 and locks them into position. In FIG. 11b the unlock cylinder 43 is operated and the bar element 44 pivots around pivot point 47. The friction material 48 is released and the rows N.sub.1 and N.sub.2 of pickers/grippers 20 can be moved.
(43) FIG. 12 shows a detailed view of the locking device 49 to hold the rows N.sub.1 and N.sub.2 at a maximum distance when the pitch 32 (Y-pitch) within the rows N.sub.1 and N.sub.2 is changed with the changeover forks 25, 26. The locking device 49 is between the blocks 41 for the rows N.sub.1 and N.sub.2 of pickers/grippers 20. The rows N.sub.1 and N.sub.2 are held at the maximum X-pitch 31. The locking device 49 is biased by at least one spring 51 and can carry out or support a flappable motion 52. In case the unlock cylinder 43 of the row locking mechanism 42 is operated the locking device 49 can be retracted from between the blocks 41 for the rows N.sub.1 and N.sub.2 of pickers/grippers 20.
(44) FIGS. 13 and 14 show a perspective view of the Y-changeover mechanism 50 for changing the distance of the pickers/grippers 20 within the rows N.sub.1 and N.sub.2. The pitch 32 between the pickers/grippers 20 can be changed or adjusted continuously (stepless) along the Y-coordinate direction Y. Each picker/gripper 20 has its own locking mechanism to lock the picker/gripper 20 at a ruler 51, which is orientated in the Y-coordinate direction Y. The locking mechanism comprises a locking spring 53, a friction material 54, in contact with the ruler 51 and a pivotable locking element 55. The changeover fork 25, 26 is inserted into the shaft 45 of the respective picker/gripper 20 in order to pivot the pivotable locking element 55 around a pivot point 56 and thereby releasing the friction material 54 from the ruler 51. Once the picker/gripper 20 is released from the ruler it can be moved along a guide 57 which is oriented as well along the Y-coordinate direction Y. The guide 57 is mounted in the pick and place head 4, 5, 6, 7. The stepless movement picker/gripper 20 is carried out by moving the pick and place head 4, 5, 6, 7, which is arranged between the first auto pitch station 1 and the second auto pitch station 2, along the guide 57. The changeover fork 25, 26 is attached to a picker/gripper 20 and the movement of the place head 4, 5, 6, 7 brings the picker/gripper 20 to the desired position along the Y-coordinate direction V. The pitch 32 (Y-pitch) adjustment is done by fixating the changeover fork 25, 26 to the pick and place head 4, 5, 6, 7 while moving the pick and place head 4, 5, 6, 7 using the standard transport system 12 within the pick and place device 100, in the embodiment shown in FIG. 13 the locking device 49 is in operative relationship with the blocks 41 for the rows N.sub.1 and N.sub.2 of pickers/grippers 20.
(45) As shown in FIG. 15, it is preferred that the pickers/grippers 20 are moved along two guides 57. Each of the two guides 57 are mounted between two blocks 41 (see FIG. 10) in the pick and place head 4, 5, 6, 7. The two guides 57 are necessary for a stable movement of the pickers/grippers 20 in the Y-coordinate direction. The changeover fork 25, 26 is removed and the friction rubber 54 together with the pivotable locking element 55 lock the respective picker/gripper 20 at the desired position along the ruler 51. FIG. 15 shows that two consecutive pickers/grippers 20 are set at a pitch 32 (Y-pitch). Any desired pitch 32 (Y-pitch) can be set with the first auto pitch station 1 and/or the second auto pitch station 2. The shaft 45 for the picker/gripper 20 is movably mounted in a frame element 73. The frame element 73 itself has two openings 74 through which the guides 57 run in order to allow a smooth movement along the Y-coordinate direction Y.
(46) FIG. 16 shows a side view of the shaft changeover mechanism 3 to push the shaft 45 of the pickers/grippers 20 into an elevated or retracted position. The shaft changeover mechanism 3 acts on a place head 4, 5, 6, 7 which has two rows N.sub.1 and N.sub.2 of pickers/grippers 20. Each picker/gripper 20 can be disabled and enabled by moving it in vertical direction, along the Z-coordinate direction Z, up and down, respectively. The shaft changeover mechanism 3 is arranged between the first auto pitch station 1 and the second auto pitch station 2 (see FIG. 5). A first shaft pusher 61 and a second shaft pusher 62 are part of the shaft changeover mechanism 3. FIG. 16 shows the situation that the second shaft pusher 62 acts on a picker/gripper 20 of the second row N.sub.2.
(47) FIG. 17 shows a sectional side view of the pick and place head 4, 5, 6, 7, wherein one shaft 45 of the pickers/grippers 20 in the second row N.sub.2 is at an elevated position H. The picker/gripper 20 which is in the elevated position H is disabled and cannot be used to pick or place an electronic component.
(48) FIG. 18 shows a detailed perspective view of the first shaft pusher 61 and the second shaft pusher 62 which are part of the shaft changeover mechanism 3 (see FIG. 16). The first shaft pusher 61 and the second shaft pusher 62 can be operated independently from one another. A hydraulic cylinder 63 is used for each of the first shaft pusher 61 and the second shaft pusher 62 in order to carry out their up and down movement. Each of the first shaft pusher 61 and the second shaft pusher 62 has two parallel rods 64, which are mounted in bearing blocks 65 for movement in the Z-coordinate direction Z.
(49) FIG. 19 shows a shaft 45 of a picker/gripper 20 kept by a shaft lock bracket 71 in a pushed up and locked position. The shaft lock bracket 71 is in engagement with a stopper 72 of the locking spring 53 and the shaft 45 is thereby held at the elevated position H. The shaft 45 is guided for movement in a frame element 73 along the Z-coordinate direction Z. The locking spring 53 is compressed.
(50) FIG. 20 shows that the shaft 45 of a picker/gripper 20 is released by a shaft unlock mechanism 75. In case the shaft 45 is unlocked the respective picker/gripper 20 is in an operating position. According to the embodiment shown here, unlocking of the shaft 45 could be done centrally per row N.sub.1, which means that all pickers/grippers 20 are unlocked at the same time. According to an alternative embodiment an independent unlocking per picker/gripper 20 is possible as well. FIG. 20 shows the central unlocking. The shaft unlock mechanism 75 has a central lever 76 which is pushed by a motorized pusher 23 of the first auto pitch station 1 or pusher 24 the second auto pitch station 2, respectively. The pusher 23 and/or pusher 24 have a dual function. As mentioned above, the pusher, movable in the X-coordinate direction is used to move individual or all disabled nozzles of a row down by activating a shaft unlock mechanism of the pickers/grippers of each row N.sub.1 and N.sub.2. Due to the push, the shaft unlock mechanism 75 pivots around a pivot axis 77 and comes into mechanical contact with the shaft lock bracket 71. The shaft lock bracket 71 is disengaged from the stopper 72 and the shaft 45 falls, supported by the locking spring 53, down and is again in the operative position.
(51) FIGS. 21a and 21b show two different patterns of the arrangement of the pickers/grippers 20 in a pick and place head 4, 5, 6, 7. The pick and place head shown here has two rows N.sub.1 and N.sub.2 of pickers/grippers 20 and each row has fourteen pickers/grippers 20 arranged at a pitch 32 (Y-pitch) in the coordinate direction Y. According to the requirement of the electronic components to be handled the pitch 30 (X-pitch) can be adjusted as well. As described in FIGS. 18 to 20 individual pickers/grippers 20 can be disabled. The respective picker/gripper 20 is brought by the shaft changeover mechanism 3 into the elevated position H. The pickers/grippers 20 which are in the elevated position H are marked as filled circles in FIGS. 21a and 21b. The present invention enables any desired pattern which is needs to handle the electronic component. In FIG. 21a three pickers/grippers 20 per row N.sub.1 and N.sub.2 form one handling unit 80 which is used to handle one electronic component. As shown in FIG. 21a the pickers/grippers 20 of one unit 80 have the middle picker/gripper 20 per row N.sub.1 and N.sub.2 and per unit 80 disabled. The units are separated by one disabled picker/gripper 20 per row N.sub.1 and N.sub.2. In FIG. 21b four pickers/grippers 20 per row N.sub.1 and N.sub.2 form a unit 80. The disabled pickers/grippers 20 are shown as filled circles. The pattern of unit 80 is formed in that the second and fourth picker/gripper 20 of row N.sub.1 is disabled and the second and third picker/gripper 20 of row N.sub.2 is disabled. Any pattern which is required for handling specific electronic components can be formed by present invention.
(52) FIG. 22 shows an embodiment of a pick and place head 4, 5, 6, 7 which has four pickers/grippers 20 arranged in one row N.sub.1. The pickers/grippers 20 can be moved along the guides 57 which are oriented in the Y-coordinate direction. Each picker/gripper 20 has as well a pivotable locking element 55 (described already in FIG. 15) which is used to lock a respective picker/gripper 20 at the desired position along the ruler 51.
(53) While the invention has been described with respect to a limited number of embodiments, these should not be construed as limitations on the scope of the invention, but rather as exemplifications of some of the preferred embodiments. Other possible variations, modifications, and applications are also within the scope of the invention. Accordingly, the scope of the invention should not be limited by what has thus far been described, but by the appended claims and their legal equivalents.
LIST OF REFERENCE NUMERALS
(54) 1 first auto pitch station 2 second auto pitch station 3 shaft changeover mechanism 4 pick and place head 5 pick and place head 6 pick and place head 7 pick and place head 9 sensing system 10 motor 12 transport system 13 transport lane 14 transport lane 15 transport lane 16 transport lane 20 picker/gripper 21 motor gear assembly of first auto pitch station 22 motor gear assembly of second auto pitch station 23 pusher 24 pusher 25 changeover fork 26 changeover fork 29 gear rack 30 pitch (X-pitch) 31 maximum X-pitch 32 pitch (Y-pitch) 34 height 35 gear wheel 36 elastic element 38 rigid frame 39 rail 40 locking mechanism 41 block 42 row locking mechanism 43 unlock cylinder 44 bar element 45 shaft 46 locking spring 47 pivot point 48 friction material 49 lock device 50 Y-changeover mechanism 51 ruler 52 flappable motion 53 locking spring 54 friction material 55 locking element 56 pivot point 57 guide 61 first shaft pusher 62 second shaft pusher 63 hydraulic cylinder 64 rod 65 bearing block 71 shaft lock bracket 72 stopper 73 frame element 74 openings 75 shaft unlock mechanism 76 central lever 77 pivot axis 80 handling unit 100 pick and place device H elevated position N.sub.1, N.sub.2, N.sub.3, N.sub.4, . . . , N.sub.N row M.sub.1, M.sub.2, M.sub.3, M.sub.4, . . . , M.sub.N column X X-coordinate direction Y Y-coordinate direction Z Z-coordinate direction
