HU187087B - Auxiliary device for implanting circuit cards, mainly printed circuits in - Google Patents

Abstract

The invention relates to a device for freely programmable identification of the placement position of various components on circuit boards. The working aperture of the placement aid operating according to the incident light method has two disks arranged parallel to one another, perpendicular to the optical axis of the apparatus and rotatable independently of each other. The first disc has a helical aperture and the second a T-shaped aperture. By rotating both disks whose axis of rotation is the optical axis, a stationary light symbol is projected onto the circuit board according to any desired grid length and angular position of the components to be assembled. Field of application is the manufacturing technological device construction. Fig.2

Description

The apparatus according to the invention is provided with an electronically controlled work compartment and is freely programmable to indicate the position of the various components on the circuit board.

Various devices are known for marking the position of components on a printed circuit. In particular, devices known to employ illumination are known. DE-AS 27 16 548 is incorporated herein by reference. Auxiliary equipment is known from the German patent, in which, by moving the whole equipment, a light point, which is produced by means of a light compartment with only a circular aperture, moves continuously between the holes on the circuit board. This dynamic light point indication causes difficulty in assigning components to the holes in the printed circuit board and leads to unwanted scattered light phenomena when passing through the reflection wires and their base material. A further disadvantage of this device is that the timing of the point of light for marking the polarity of the parts to be implanted has a different duration, which results in significant fatigue of the workforce and incorrect implantation.

DE-OS 28 35 341 discloses an auxiliary device comprising two parallel openings with a plurality of slots as working compartments. Both pistons are moved against each other by a stepper motor and an electromagnet, and additionally they are moved in the direction of rotation of the working compartment. The light signal of the auxiliary device thus produced is a combination of different individual signals which makes it difficult to associate with the implantable component. In addition to the high cost of the device producing the light signal, the combination of the individual light signals requires extensive software to control the working compartment electronically. Furthermore, DE-OS 27 52 145 Auxiliary equipment is known from the German patent, which also includes a rotatable work compartment. In the center of the working compartment, there is a circular aperture for the beam of light and four slot compartments offset at an angle of 90 ° to each other. The four lifting members fixed on the projector housing cover these light compartments. They are rotated at a specific angle by means of levers and a stepper motor. The light signal produced by this device is also made up of several light signals, which makes it difficult to assign to the implantable component. In addition, the light signals are only designed for a hole raster spacing. To mark technically hypothesized holes with different pitches, it is necessary to move the respective light signal between the holes in order to place the components.

With this dynamic light point display, the psychological burden on the workforce is higher than the allowable, in addition to the resulting scattered light phenomena. SUMMARY OF THE INVENTION It is an object of the present invention to provide an auxiliary device for marking the implantation position of components on a circuit board that, with low device cost, provides high reliability during implantation and reduces the psychological workload of the workforce to an acceptable level.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an auxiliary device that includes an electronically controlled work compartment dependent on the implantation program, employing only a single resting light signal to mark component joints in any grid and at any angular position on the circuit board; indicates the polarity of the components on the circuit board.

The object is solved by providing the auxiliary device, which operates by means of the illumination method, with a working compartment, which comprises a plurality of discs, preferably two centrally parallel to each other, pivotally disposed perpendicular to the optical axis of the entire optical system of the auxiliary device. One of the discs has a light-transmitting aperture perpendicular to the optical axis and delimited by a pyramidal curve. The helical aperture is adjustable from 0 to 360 degrees and its radius of curvature is linearly φ νυλμσσζγγελ νω. The σπιράλ κεζδετε α τ ^ ρχσα φοργασποντηατωλ μεγθαταροζρττ ταΟολσαγβαν Οαν, αμελυνεκ ηρτηκε ελφνυσεν κισεββ α βελτετενδω αλκατρησζεκ? ^ Εγκισεββ ρασζτερτμθολσμγςινςιλ.

In the second disk, which is arranged parallel to the first disk and perpendicular to the optical axis, a T-shaped opening is formed such that the intersection of the center line of the two wings coincides with the point of rotation of the disk.

By rotating the first disc with the helical aperture while the second disc with the T-aperture is fixed, the light signal changes continuously according to the required pitch of the holes receiving the components.

The angular position of the components relative to the circuit board is determined by rotating both disks of the work compartment about the optical axis of the projection system.

To indicate the polarity of the components, an electromagnet is mounted on one of the disks of the working compartment, preferably a disc with a T-shaped aperture, on which a cover element is movably arranged on the apertures of the two discs. If it is necessary to mark the polarity of the component when inserting the circuit board, the cover element on one of the disks will alternately cover and release the disc through the light-transmitting apertures, interrupting the light beam and emitting a flashing light signal on the printed circuit. With the electronically controlled work compartment of the present invention, it is possible to create a light signal freely programmed from the visible light beam on the work compartment, which is then objectively assisted in a known manner. projected onto the underlying circuit board while the length and angular position of the light signal can be varied by rotating the dials of the working compartment and accordingly the raster and angular position of the implanted component can be clearly marked and, if necessary, the polarity of the component displayed.

The invention will be described in detail with reference to preferred embodiments, by way of a drawing, wherein:

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Fig. 1 shows the auxiliary equipment with the working compartment according to the invention, Fig. 2 the working compartment, Fig. 3 the assignment of the projected light signals, e.g.

for the following implantable parts:

a) resistance

b) transistor

(c) integrated circuits.

The auxiliary device (Fig. 1) comprises a light generating device 1, an electronically controlled work compartment 2 according to the invention, a projection lens 3 and a actuator 4, wherein the light generating device 1, the electronically controlled work compartment 2 and the projection lens 3 are housed in a common housing 26.

In the light generator 1, a concave mirror 6, a halogen lamp 7 and two collecting lenses 8, 9 are arranged one after the other. In the electronically controlled working compartment 2, in accordance with the invention, the disc 10 is centrally secured to the first inner ring 12 of the first bearing 14.

The inner ring 12 of the bearing 14 holds the first gear 16, which is moved by the stepper motor 18 arranged outside the housing 26 through a small gear. Underneath and parallel to the disk 10, a second disk 11 is provided which is also centrally secured to the second inner ring of the second bearing 15. The second inner ring 13 of the second bearing 15 holds a second gear 17 which is moved by the second stepping motor 19 secured from the outside of the housing 26 through the second small gear. The bearing 14 and the second bearing 15 are secured to the inner wall of the housing 26 by outer rings 22 and 23 such that the optical axis of the light generating device 1 is perpendicular to its rotation planes. An electromagnet 24 is mounted on the second gear 17, on which a bent cover member 25 is movably disposed.

The curved portion of the cover member 25 is disposed parallel to its plane at a short distance from the lower surface of the second disc 11.

According to the invention (Fig. 2), the disc 10 is formed with a light-transmitting aperture 27 defined by a spiral curve having an opening angle φ varying from 0 ° to 360 ° and whose radius of curvature increases linearly with the angle. The distance between the center of the dial 10 and the start of the spiral curve at φ = 0 is less than the smallest raster length. The second disc 11 has a T-shaped opening 28 in which the intersection of the two wings of the T coincides with the center of the disc.

The curved plane of the cover member 25 is disposed adjacent the T-shaped aperture 28 of the second disc 11 and engages the T-shaped aperture 28 when current is applied to the electromagnet 24.

Below the electronically controlled work compartment 2, the projection lens 3 is arranged in a known manner. The known actuator 4 is implemented in such a way that above the electronically controlled working compartment 2 the housing 26 is suspended by a universal joint. Beneath the electronically controlled work compartment 2, the housing 26 has two surfaces at right angles to one another. Both surfaces collide with one stop and can be moved with the help of a stepper motor.

The auxiliary device according to the invention operates as follows.

The light coming from the light generator 1 falls on the electronically controlled work compartment 2. Meanwhile, the second dial 11 generates a T-shaped light 34. The position of the aperture 27 of the disc 10 located above it determines the length of the T-shaped light signal 34. The projector lens 3 projects the light signal 34 onto a printed circuit 5.

By rotating the dial 10 and the second dial 11, the light signal 34 can be projected onto the printed circuit 5 at all angular positions. By rotating the dial 10 relative to the second dial 11, the length of the light signal 34 can be arbitrarily varied between a minimum and a maximum value that is constructively determined.

The resistors 29, the transistor 30 and the integrated circuit 31 must be connected in series to the printed circuit 5 (Fig. 3). The respective connections 32 of the resistor 29, the transistor 30 and the integrated circuit 31 are passed through the holes 33 of the printed circuit 5. The points where the connections 32 of the resistor 29, the transistor 30 and the integrated circuit 31 are to be inserted into the holes 33 are to be marked. To indicate the position of the resistor 29, the housing 26 is moved by the actuator 4 in the X and Y directions until the optical axis of the auxiliary device is at the insertion position of the resistor 29. Simultaneously with this movement, the reel 10 and the second reel 11 are rotated by a control program such that the intersection of the center lines of the two wings T of the light signal 34 with the first hole 33 and the end region of the longer wings T with the second hole 33 are located on the printed circuit. . To display the insertion site of transistor 30 (Fig. 3b), the housing 26 is moved as in resistor 29 to the insertion site of transistor 30. At the same time, the reel 10 and the second reel 11 are rotated by means of a control program such that the center lines of the two wings T of the light signal 34 intersect the transistor 30 e.g. and the longitudinal wing T of the light signal 34 extends between the holes 33 for emitter and collector coupling.

If the transistor 30 has four connections 32, the end region of the longer wing T of the light signal 34 also falls into the hole 33 provided for the earthing connection.

To indicate the location of the integrated circuit 31, the housing 26 is moved over the integrated circuit 31 as is the case with the resistor 29. Simultaneously, the dial 10 and the second dial 11 are rotated by means of a further control program such that the light signal 34 is inserted between the two rows of holes 33. The shorter wing T of light signal 34 (Fig. C) denotes the insertion location of the integrated circuit 31.

Claims (2)

Patent claims 1. Auxiliary device for inserting components into circuit boards, preferably printed circuits, operating by illumination3 -3 ' 187 087 and comprising a light generating device, freely programmable electronically controlled work compartment and lens, arranged vertically above the circuit board by means of a control actuator and movable over the circuit board, characterized in that two discs (2) are disposed in the work compartment (2). 10, 11) are disposed centrally and parallel to each other and movable perpendicular to the optical axis of the auxiliary device and their rotary axis ¹ θ is in the optical axis of the auxiliary device and the first disc (10) having a helical opening up to 360 ° adjustable aperture angle (φ) and the radius of curvature of the linear opening angle (φ) formed on the rise and the start of the spiral ¹⁵ is spaced from the disc forgáspontjáíól, which distance is preferably less than the implanted components b The second disk (11) has a transmissive T-shaped opening (28) and a pivot point at the intersection of the center lines of the two wings of the T-shaped opening (28). An embodiment of the auxiliary device according to claim 1, characterized in that an electromagnet (24) is connected to a cover element (25) on one of the disks of the working compartment, wherein the cover element (25) is arranged alternately or near the aperture of the disk .