DE19537404C2 - Transfer device with a board suction device - Google Patents

Description

The invention relates to a transfer device a board suction device according to the Oberbe handle of claim 1. Such a transfer device is according to the preamble of claim 1 obvious prior use has become known.

In the obviously used transfer device the beam is immobile on a stationary frame attached at both ends. The board suction device will moved by two motion drives, namely by one first motion drive to lower a circuit board spider on a stack of boards and for subsequent Lift a suction board from this stack. The In the prior art, this motion drive consists of a piston-cylinder unit with a correspondingly large mass. Furthermore, the board suction device is one of two  motion drive between two end drives move on the beam using a motor. This method of the board suction device takes place in Form of accelerated movements associated with the relatively large masses of both movements to be moved drives, especially at the transfer area of the board Workstation, the destruction corresponding to large kine energies. Thereby vibrations in induced, which lead to a "flutter" of the board. The So far, one has been over-braked by large masses countered, but again a strong leadership and thus a correspondingly massive conditional guide bar.

One of the above-mentioned overt uses transfer device of the same generic type direction is in the previously published DE prospectus "HSP 200 HANDLING SYSTEMS FOR MODERN PRODUCTION LINES "der KUTTLER Verwaltungstechnik GmbH, D-78083 Dauchingen, Niedereschacher Str. 44.

From EP 0 073 185 there is an automatic welding machine with an egg known portal-like frame, on its horizontal Move the guide bar back and forth two articulated arm robots are cash. The guide bar in turn is on his the ends of one column can be moved up and down leads.

From DE 42 26 072 A1 (see there in particular Fig. 2) a two-dimensional drive system extending in a horizontal plane is known, the central workpiece holder is interspersed by two spindles crossing each other at right angles, each with a screw drive. Spindle drives displaceable on straight guides and guide slides on the end of the spindle are each attached to two mutually parallel, spaced, circumferentially guided synchronous belts, each of which runs over a pulley at one reversing end. In each case two pulleys are arranged on a shaft in a torsionally rigid manner in order to achieve a forced synchronous running of two corresponding belts.

From DE-GM 77 12 606 is finally a Verle cart known, whose provided with a clamp gripper vertically movable load boom over a deflected Load chain with an up and down moving counterweight is connected to movement.

Based on the subject of prior public use hend, the invention is based on the object To transfer device of the type mentioned fen, which with a relatively low construction cost large stroke and feed speed of the board to the Workstation allowed and at the same time disadvantageous Schwin conditions, especially fluttering of the board closes.

This task is shared with the characteristics of the The preamble and the characterizing part of claim 1 ge solves.  

The sub-claims contain advantageous Ausge events. Due to the spatial separation of the linear actuator from the feed drive of the board suction device, wherein the linear actuator is spatially fixed acts a relatively large, inertia to be braked at all times only in the vertical direction and another, opposite however, less inertia in the horizontal direction.

The bar is over at both ends of the frame a guide movable and by means of the attacking on it Lift drive can be moved vertically. This will make the of the kinetic energy of the masses to be braked inertial vibrations in vertical direction tion from the correspondingly rigid frame caught who is by no means necessarily with one fixed foundation must be connected, but on egg arranged and move with a roller frame can be.

Furthermore, only one lifting drive engages on the beam on. The guide of the beam includes for tilt-free Movement two attacking at both ends, in ver tical supports of the frame endless chains or Timing belt, which has a bearing on both ends and there shaft provided with non-rotatably connected gears are positively coupled with each other. Through this Features are made at both ends of the bar by the positive coupling of a chain or toothed belt mens in connection with the shaft a completely synchro movement of the beam in both vertical directions It is completely irrelevant whether the bar ex  is arranged horizontally or diagonally on the frame. As particularly simple solution, it turns out that one of the Chains or one of the timing belts with an electric motor is coupled as a linear actuator. In this case there are more No need for linear actuators.

According to the two chains or at the toothed belt on her facing away from the clutch Equip each side with a counterweight. With these Features of the invention have succeeded in raising the or weights to be lowered and the associated masses Inertia regarding the beam, the board suction direction and the circuit boards themselves, so that with little delay and with the lowest possible energy consumption accelerate or slow down the wall quickly.

When designing the linear actuator, the Invention several different embodiments:

According to a first embodiment, the huban exists drifted from a col arranged vertically in the frame rodless cylinder, acting on both sides ter piston is positively coupled to the bar. This training is characterized by a special un striking elegance of the one that does not require a piston rod Cylinder off, which is fixed to the frame accordingly can be arranged and contributes to its stiffening.

According to a second embodiment, the huban powered by a pneumatic or hydraulic actuation baren piston-cylinder unit formed, the piston rod  on the beam and its cylinder on the frame is articulated. This embodiment also allows all known hydraulic and pneumatic re gel and control elements a quick and trouble-free free lifting operation of the board suction device, wherein the compensation of the kinetic energies in vertical Direction practically vibration-free and also hydraulic can be carried out mechanically or pneumatically.

According to a third embodiment, the stroke exists drive from an electric motor, its drive pinion over a chain or a timing belt and over there with the coupling to be coupled in the beam this in the frame height-adjusted. In this embodiment, the Ab Braking of the beam inductively in the vertical direction the electric motor.

Another embodiment of the linear actuator is by a threaded spindle driven by a motor forms an internal thread with a corresponding pitch reaches through in the beam. And finally the Huban can drive consist of a ball screw, its lower Ge arranged in the frame, rotated by an engine a spindle with a ball arranged in the beam sentence takes hold. These lifting drives do require rapid lifting movement a relatively large slope of ever because of the threaded spindles and a corresponding one tuned engine speed, however, are common on Drive means available on the market at all times.  

The guide of the bar can be made of rollers, wheels, La like or the like to be formed against appropriate treads from vertical supports of the frame supports. It is also possible to have a straight guide Beam by other form-fitting means, such as in for example a trapezoidal, dovetail or prism leadership to achieve. However, the latter require one exact vertical guidance at both ends of a horizontal aligned bar. However, if the bar is inside the frame is to be arranged at an angle, which the inven is allowed by the latter Guides to avoid canting.

An embodiment of the invention is in the Drawings shown. Show

Fig. 1 is a side view of a transfer device of the invention in conjunction with an adjoining its right side workstation,

Fig. 2 is a side view of the sole Übergabevor direction of FIG. 1,

Fig. 3 is a sectional view in the direction of the Pfeiffer les III of Fig. 2,

Fig. 4 is a front view of the transfer device in the direction of arrow IV of Fig. 2,

Fig. 5 is a plan view in the direction of arrow V of Fig. 4 and

Fig. 6 corresponding to FIG. 4 front view of the transfer device with a guide of the Bal kens in the form of two endless chains in Ver connection with both ends in the frame mounted shafts with non-rotatably connected gears that mesh with the chain.

According to Fig. 1 10, the transfer device with a Platinenansaugeinrichtung 11 includes a frame 12, a beam 13 and a feed drive 14, the Pla tinenansaugeinrichtung 11 toward a work station 15 moves toward and away again. Between the transfer device 10 and the work station 15 there is a transfer device 16 and behind the work station 15 a transport device 17, which is likewise of no further interest here, for further transport of the boards treated in the work station 15 . In the illustrated case, the work station 15 consists of a greasing device for applying liquid or pasty greasing agents by means of two greasing rollers 18 onto the plate 21 passing through to the right in the transport plane 19 in the direction of the arrow 20 from a stack of sinkers 22 (see FIG. 4) .

In Figs. 2 to 6, the Übergabevor alone device 10 is illustrated. This transfer device 10 can be moved on a roller frame 23 with lockable rollers 24 . In this transfer device 10 , the feed drive 14 for the board suction device 11 is spatially separated from the lifting drive 25 of the beam 13 and the lifting drive 25 is arranged fixed to the frame, with the beam 13 supporting at its two ends 13 a, 13 b in vertical 26 , 27 of the frame 12 via a guide 28 each be movable and by means of the clutch 25 a engaging him on the actuator 25 vertically in both directions gene of the double arrow 29 is movable.

According to the embodiment of FIGS . 2 to 6, this lifting drive 25 consists of a piston rodless cylinder 30 arranged vertically in the frame 12 , the piston, not shown, acting on both sides of the piston ben is positively coupled to the beam 13 via the coupling 25 a. For the two-sided loading of the piston within the rodless cylinder 30 , the bar 13 can be moved very quickly in both directions of the double arrow 29 and braked again.

According to a further embodiment, the linear actuator 25 can also be formed by a pneumatically or hydraulically actuated piston-cylinder unit, the piston rod end of which is guided on the beam 13 and its cylinder, for example on the cross member 31 of the frame 12 .

Furthermore, the linear actuator 25 can be formed by a threaded spindle which can be driven by a motor, not shown, which engages through a fixed internal thread with a corresponding pitch in the beam 13 .

Furthermore, the linear actuator 25 can consist of a Kugelge wind transmission, the vertically arranged in the frame 12 , rotated by a motor, not shown Ge threaded spindle, a nut arranged in the bar 13 with Ku gelsatz passes through.

For tilt-free guidance of the beam 13 , this is hen at its two ends 13 a, 13 b, each with one with the other synchronized lifting drive 25 verses.

As can be seen most clearly from FIGS . 4 to 6 ent, the guide 28 consists of both ends 13 a, 13 b of the beam 13 from double rollers 32 , the corresponding conditions treads 33 of the vertical supports 26 , 27 of the frame 12 are supported and guided.

As can be seen from FIGS. 2 to 6, only one lifting drive 25 acts on the beam 13 . In order to ensure a tilt-free and ra cal traversability of the beam 13 in both directions of the double arrow 29 despite this only one lifting drive 25 , the guide of the beam 13 comprises, in addition to the roller guide 28 already described, two at its two ends 13 a, 13 b via coupling lungs 25 b, 25 c attacking, in or next to vertical supports 26 , 27 of the frame 12 endless chains 34 , which can also be replaced by toothed belts. This Ket th 34 are positively coupled to each other via rotatably arranged on a shaft 36 gears 35 , the shaft 36 is supported at its two ends 36 a, 36 b in a bearing 37 of the cross member 31 . In the vicinity of the roller frame 23 , the endless chains 34 are guided by two further gears 38 on two shafts 39 mounted on both sides. When only one of the two chains 34 is moved by means of a lifting drive 25 , the bar 13 is moved without tilting in both directions of the double arrow 29 by the forced coupling of the couplings 25 b, 25 c via the shaft 36 and the gears 35 , 38 . In this case, a second lifting drive 25 is unnecessary for synchronization. On the side of the couplings 25 b, 25 c facing away from the two chains 34 , these are each provided with a counterweight 25 d, in each case half of the weights to be raised or lowered and the associated mass inertia of beams 13 , board suction device 11 and board 21 in order to accelerate or slow down quickly with the lowest possible energy consumption. Furthermore, this coupling of movement of the two ends 13 a, 13 b of the bar 13 according to FIG. 6 also opens up the possibility, as a further embodiment of a linear actuator, to provide an electric motor (not shown) on the Rollege 23 , the drive pinion of which is one of the chains 34 or drives one of the timing belts.

Due to the separation of the feed drive 14 of the sinker suction device 11 from the linear actuator 25 of the ball 13 , the sinkers 21 picked up by the sinker suction device 11 from the stack 22 can not only be relatively quickly but also largely free of vibrations in the direction of the double arrow 29 to the desired height and by means of the Feed drive 14 along the bar 13 in the direction of the double arrow 20 in the direction of the transition device 16 in front of the work station 15 who promoted. These two movements can also overlap. Nonetheless, the lifting movement provided with the heavy masses of the board suction device 11 with the bar 13 and the feed drive 14 in the direction of the double arrow 29 is braked very quickly and without vibrations, for example by a rodless cylinder or a similarly pneumatically or hydraulically actuatable piston-cylinder unit. Since the mass of the board suction device 11 with its feed drive 14, on the other hand, is considerably lower, the boards 21 can be placed on the transfer device 16 accordingly with little vibration or vibration, which can be moved in both directions of the double arrow 40 ver.

Claims (9)

1. Transfer device with a Platinenansaugein direction, which can be moved by means of a feed drive on a beam on a frame in the direction of a work station and away from it, and can be raised and lowered by means of a linear drive, characterized in that the linear drive is fixed to the frame and by Before the feed drive ( 14 ) of the board suction device ( 11 ) is spatially separated, that the bar ( 13 ) at its ends ( 13 a, 13 b) on the frame ( 12 ) via a guide ( 28 , 33 ) by means of only one engaging on it stroke drive ( 25 ) vertically (arrow 29 ) can be moved that for tilt-free guidance of the beam ( 13 ) two at its two ends ( 13 a, 13 b) by means of couplings ( 25 b, 25 c) engaging in Vertical supports ( 26 , 27 ) of the frame ( 12 ) endless chains ( 34 ) or toothed belts are provided, which are mounted on one of their two ends ( 36 a, 36 b) and are connected to non-rotatable gears ( 35 , 38 ) provided shaft ( 36 , 39 ) are positively coupled with each other, and that on the side of the chain ( 34 ) or toothed belt facing away from the couplings ( 25 b, 25 c) with the beam 13 , a mass balance weight ( 25 d ) is arranged. 2. Transfer device according to claim 1, characterized in that the lifting drive ( 25 ) consists of a vertically in the frame ( 12 ) arranged rodless cylinder ( 30 ), the piston on both sides of which is positively coupled to the bar ( 13 ). 3. Transfer device according to claim 1, characterized in that the lifting drive ( 25 ) is formed by a pneumatically table or hydraulically actuated Kol ben-cylinder unit, the piston rod end of the beam ( 13 ) and its cylinder on the frame men ( 12 ) is articulated. 4. Transfer device according to claim 1, characterized in that the linear drive ( 25 ) consists of an electric motor, the drive pinion via a chain ( 34 ) or a toothed belt and a coupling to be connected ( 25 b, 25 c) on the beam ( 13 ) this height-adjusted in the frame ( 12 ). 5. Transfer device according to claim 1, characterized in that the lifting drive ( 25 ) is formed by a threaded spindle which can be driven by a motor and which engages through an internal thread with a corresponding pitch in the beam ( 13 ). 6. Transfer device according to claim 1, characterized in that the lifting drive ( 25 ) consists of a Kugelge wind transmission, the vertically arranged in the frame ( 12 ), rotated by a motor threaded spindle engages in the bar ( 13 ) arranged nut with a set of balls. 7. Transfer device according to one of claims 1 to 6, characterized in that the guide ( 28 ) of the beam ( 13 ) from rollers ( 32 ), wheels, bearings or the like is formed, the surfaces against corresponding Laufflä ( 33 ) of vertical supports ( 26 , 27 ) of the frame ( 12 ) are supported. 8. Transfer device according to one of claims 1 to 7, characterized in that one of the chains ( 34 ) or one of the toothed belts with an electric motor as a stroke drive ( 25 ) is coupled. 9. Transfer device according to one or more of claims 1 to 8, characterized in that the frame men ( 12 ) arranged on a roller frame ( 23 ) and can be moved with this on lockable rollers ( 24 ).