DE3506804C2 - - Google Patents

Description

The invention relates to a device for the visual inspection of stamps, in particular special of stamps with watermarks, with a light source, one through visible disc, the stamp against the disc by means of an An Pressing device, which is a pressure part with a pressure pin and the on Press part over the pressure pin against the disc moving pressing device device, can be pressed, and a housing on which the disc is held is and that the pressure forces exerted on the disc by the pressing part receives, wherein the housing has a recess for introducing the stamp has and the light source, the disc parallel to the contact surface of the pressure partly illuminated on the pane.

Such a device that out as a handheld device with built-in voltage source is formed and in which the stamps for testing in one in the housing insertable slide can be inserted, the slide using Hinges connected to the clear pane is from the DE-PS 32 33 005 known.

Furthermore, DE-GM 74 08 026 is a payment plate arrangement for checking of banknotes, checks and bank cards. With this arrangement, that will Test material examined using the transmitted light method, optionally with a visible one or ultraviolet light.  

DE-AS 24 28 975 describes a device for visual inspection, in particular of Banknotes, known in which the token is used for checking against a term disc, which is transversely illuminated to the viewing direction, pressed will.

The present invention is based on the object of a device for to create visual inspection of stamps, especially for large ones format test material is suitable, which is also a functionally reliable method of working when working with high pressure, this is still easy is manageable and works from test to test with the same pressure.

This object is achieved in that the pressing device has an electric motor and that the electric motor for releasing the pressing part can be operated by the disk at least briefly without load. By the electric motor drive, which preferably a reduction gear is switched, high pressing forces can be achieved, so that large format test material can be pressed against the pane with sufficient force. In addition, the electric motor drive ensures that from test to test is operated with the same power, from test to test same pressure. To operate the device, it is only necessary that Introduce test material into the device that the place to be tested in the area of the contact part comes to rest. Then the electric motor drive set in motion or the pressure at the push of a button device with which the test material is pressed against the pane solves. In order to prevent the pressing part of the pressing device or the pressure pin in its guide is essential that the electrical motor for releasing the contact part starts up briefly without load, that is without to cause an initial loosening so as to provide sufficient torque to To get loosened the contact part. In this way it is reliable Operation of the device guaranteed.

An embodiment in which the electric motor holds the pressure bolt is advantageous drives via a coupling part that engages only after the electric motor started briefly without load. In a further design variant the clutch has a drive-side and an output-side clutch piece that is carried by an output shaft or drive shaft on with one cam each, which face each other, the drive side  Cam the output-side cam when starting to loosen the pressing part only takes after a partial revolution. If the Elek tromotores without load is desired or required between the two Coupling pieces a coupling intermediate piece with one on the drive side Coupling associated cam and a clutch on the output side piece assigned cams arranged, in such a way that in the pressing part loosening direction of rotation of the drive-side cams of the drive-side Coupling piece the drive-side cam of the coupling intermediate piece takes along and that the output-side cam of the coupling intermediate piece after Rotation of the coupling intermediate piece the cam of the output coupling takes along. With such an arrangement can be done without much effort depending on the positioning of the individual cams in relation to each other, an empty running of the drive motor can be achieved for about 1 ½ to 1 ¾ revolutions. If the device has a high voltage part for the electric motor and a Has low voltage part for the incandescent lamp, these two Voltage ranges with a coupling intermediate piece made of electrically insulating Material to be separated.  

The torque on the drive side can be increased by that the drive-side coupling piece out as a flywheel forms, for example as a metal disk with a large diameter knife.

An arrangement in which the pressure pin is used has proven successful has a fine thread and in a housing-fixed part can be screwed, at the free end of the pressure bolt, that is not in engagement with the pressing part, a helical gear is rotatably attached, by the electric motor via a Gear worm is driven. For pressing the contact part the gear worm is attached to the illuminated disk the electric motor driven accordingly, so that the Pressure bolt in the part firmly connected to the housing axially shifted by a few threads. Because the required Displacement is only a few millimeters to about 1 cm must, the helical wheel remains with the appropriate thickness after screwing / moving the pressure bolt in Engagement with the gear worm.

Another advantageous embodiment of the arrangement results itself, by pressing the pin, in turn in one with the housing firmly connected part arranged screwable over one place fixed gear is driven, the output side Gear shaft with the pressure pin rotatably in the axial direction of the bolt is slidably disposed. The gearbox-Ab drive shaft and pressure pin grip in the form of a guide profiles (e.g. square inside, outside square) with positive locking in the tangential direction and free mobility into each other in the axial direction.

Another design option for axial displacement Exercise of the pressure pin results from a pressure pin in the form of a rack arranged in a guide, the  via a gear meshing with the rack, the part of a gear is moved.

In advantageous configurations of the device, the through the disc either lit the recess firmly in the housing, over which the test material below the cross-illuminated pane can be inserted, limiting or at least partially arranged removably from the recess for inserting the test material. To insert the stamp easily and gently into the device and to be able to press against the illuminated pane a stamp admission between the pressing part and the disc expedient. Large format test items such as letters, bank notes, Checks and the like, however, can go directly into the device be introduced.

Further advantages and features of the invention result from the following description of an embodiment based on the drawing. In the drawing shows

Fig. 1 is a perspective view of an apparatus for checking value sign,

Fig. 2 is a sectional view of the apparatus of Fig. 1 in the region of the pressing device,

Fig. 3 is a sectional view taken along the section line III-III in Fig. 2,

Fig. 4 is a sectional view of a three coupling pieces having coupling part,

Figure is a perspective view of the coupling part shown in Fig. 4 in cross-section. 5,

Fig. 6 is a perspective view of a coupling piece having two coupling parts and

Fig. 7a, 7b and 7c an arrangement for screwing the pressure pin in different positions.

As can be seen from FIGS. 2, 3 and in particular 1, the device for checking the authenticity of the token is divided into a lower housing part 1 and an upper housing part 2 with an inspection shaft 3 . The inspection shaft 3 is arranged at a distance above a pressure plate 4 . In the lower region of the inspection shaft 3 , a transparent pane 5 , for example made of glass or plastic, is arranged such that it protrudes slightly beyond the housing edge of the inspection shaft 3 . The test material can be introduced into the recess, which is easily accessible from three sides and delimited by the transparent plate 5 and the pressure plate 4 , for example with an auxiliary device 6 for better handling with small-sized test material in the direction of arrow 7 . The transparent pane 5 is illuminated by an incandescent lamp 8 as a light source, which is positioned in the region of the rear end face of the pane 5 , parallel to the contact surface of a pressing part 9 , to which the pressing plate 4 is fastened via an intermediate layer 43 , for example a felt layer. The transversely illuminated pane 5 lies in the inspection shaft 3 against an edge 10 protruding from the housing wall, so that the pressing forces can be absorbed by the housing.

The pressing device has in addition to the pressure part 9 and the pressure plate 4, a pressure pin 11 , which can be rotated with a fine thread 12 in a part 13 fixed to the housing in the direction of arrow 14 . The pressure pin 11 engages with its end 15 designed as a spherical bearing in a central recess 16 of the pressure part 9 . On the lower end 17 of the pressure pin 11 , a screw wheel 18 is rotatably mounted, in which a drive worm 19 engages with a horizontal axis of rotation 20 . As can be seen from FIG. 3, the drive worm 19 is driven by an electric motor 22 via a coupling part 21 . The coupling part 21 has in the two-part construction shown in FIG. 3, a drive-side coupling piece 23 and an output-side coupling piece 24 , each with a cam 25, 26 which engage with one another. The coupling pieces 23, 24 are, as can be seen from FIG. 6, cylinder sections each with a central bore 27, 28 , around them on the drive shaft 29 of the electric motor 22 or a shaft 30 mounted in the housing Drive screw 19 is rotatably attached to put on. The cams 25 and 26 are cylinder segments projecting from the mutually facing end faces of the coupling pieces. The drive-side clutch piece 23 is operation when Anpreß rotated by the electric motor 22 in the direction of the rotational arrow 31, with the abutment surface 32 of the cam 25 against the bearing surface 33 of the cam 26 applies and thus the coupling member 24 takes along, so that the screw 19 in rotation is moved. When loosening, in which the drive shaft 29 rotates counter to the direction of rotation indicated by the arrow 31 , the electric motor 22 first runs in the present example by a ¾ revolution without load until the other contact surface 34 of the drive-side coupling piece 23 on the other contact surface 35 of the Cam 26 comes to rest and only then drives the shaft 30 and causes the pressure bolt to be released. In order to increase the drive-side torque, the drive-side coupling part 23 can be designed as a flywheel.

In Fig. 5 a coupling member is shown, in which the rotational movement of the drive side clutch piece 23 is transferred via a tee coupling intermediate piece 36 on the driven side clutch. This coupling intermediate piece 36 has a further cam 37 assigned to the cam 25 of the drive-side coupling piece 23 and a further cam 38 assigned to the cam 26 of the driven-side coupling piece. The levels of the contact surfaces of the two further cams, which come into effect during the pressing process, match; however, they are offset from each other by 180 °. The planes of the contact surfaces, which come into effect during the release process, also match, but here the one contact surface is exactly opposite the other contact surface, but with opposite surface normals. With such a three-part coupling structure, a longer start-up of the electric motor is easily achieved when releasing without load. When the pressure bolt is loosened, the drive-side coupling part 23 starting from the position shown in FIG. 5 and counter to the direction of the rotating arrow 31 , the cam 25 takes the other cams 37 of the coupling intermediate piece 36 with it after ¾ rotation, and then after A ¾ rotation of the coupling intermediate piece takes the further cam 38, the cam 26 of the output-side coupling piece 24 . The coupling part 23 or the drive shaft 29 of the electric motor 22 thus initially starts with a 1½ turn without load until the shaft 30 is set in rotation with the helical gear 19 . When the cams are carried along / engaged, a jerky effect occurs which practically results in a stuck contact part 9 being knocked off.

The coupling intermediate piece 36 is overhung both on the drive shaft 29 and on the shaft 30 , ie the coupling intermediate piece 36 can be freely rotated on the two shafts, while the two coupling pieces 23 and 24 on the shafts 29 and 30 via screws 39 can be screwed non-rotatably.

In Fig. 7, three different positions of the pin 11 rotatably arranged in the housing-fixed part 13 are shown. While the worm 19 , which is mounted on the shaft 30 , is arranged in a stationary manner in the housing, the helical gear 18 together with the pressure pin 11 is moved from a lower position shown in FIG. 7, in which the test material can be inserted into the central recess 16 an upper position shown in FIG. 7a, in which the test material is pressed against the underside of the transversely illuminated pane 5 via the pressing part 9 . In Fig. 7b an intermediate position is shown. The helical gear 18 is dimensioned in its thickness so that it is both in the lower, unlocked position of the bolt (Fig. 7c) and in the upper nip loading position (FIG. 7a), nor sufficient in engagement with the drive screw 19. The lower position of the drive pin 11 is limited by a lower limiting part against which the end face of the contact pin comes to rest. This limiting part 40 is a Ge housing projection.

In order to be able to operate the device easily, a reversal for the direction of rotation of the electric motor 22 is provided; to operate the device on the top of the lower Ge housing part 1 , a button 41 and 42 for the upward movement and the downward movement of the pressure bolt are visible. If the device is to be used, for example, to check banknotes, a timing element is advantageous which reverses the direction of rotation of the electric motor after the pressing process and a short dwell time in order to release the pressing part.

Claims (10)

1. Apparatus for the visual inspection of stamps, in particular stamps with watermarks, with a light source, a transparent pane, the stamp against the pane by means of a pressing device, which a pressing part with a pressing bolt and a pressing part against the pressing plate against the pane Has pressing device, can be pressed, and a housing on which the disc is held and which takes up the pressing forces exerted on the disc by the pressing part, the housing having a recess for introducing the stamp and the light source, the disc parallel to the contact surface of the pressing part x-rayed on the pane, characterized in that the pressing device has an electric motor ( 22 ) and that the electric motor ( 22 ) for releasing the pressing part ( 9 ) from the pane ( 5 ) can be operated at least briefly without load. 2. Apparatus according to claim 1, characterized in that the electric motor ( 22 ) drives the pressure pin ( 11 ) via a clutch ( 21 ). 3. Apparatus according to claim 2, characterized in that the coupling ( 21 ) has a drive-side ( 23 ) and an output-side ( 24 ) coupling piece, which is carried by an input shaft ( 29 ) and an output shaft ( 30 ), each with one Cams facing each other, the drive-side cam ( 25 ) taking the output-side cam ( 26 ) only after a partial rotation when starting to release the pressing part ( 9 ) from the disk ( 5 ). 4. Apparatus according to claim 3, characterized in that between the two coupling pieces ( 23, 24 ) a coupling intermediate piece ( 36 ) is arranged, each one of the cams ( 25 ) of the drive-side coupling piece ( 23 ) associated and one of the output side Coupling piece ( 24 ) has associated further cams ( 37, 38 ), such that when the pressing part ( 9 ) loosens the direction of rotation of the drive-side cams ( 25 ) of the drive-side coupling piece ( 23 ), the drive-side further cams ( 37 ) of the coupling intermediate piece ( 36 ) takes along, and that the drive-side further cam ( 38 ) of the coupling intermediate piece ( 36 ) after rotation of the coupling intermediate piece ( 36 ) takes the output-side cam ( 26 ) of the output-side coupling piece ( 24 ). 5. Apparatus according to claim 4, characterized in that the coupling intermediate piece ( 36 ) consists of electrically insulating material. 6. Apparatus according to claim 4, characterized in that the coupling intermediate piece ( 36 ) overhung on the drive-side coupling piece ( 23 ) tra ing drive shaft ( 29 ) and / or on the output-side coupling piece ( 24 ) carrying output shaft ( 30 ) is stored. 7. Device according to one of claims 2 to 6, characterized in that the drive-side coupling piece ( 23 ) is designed as a flywheel. 8. Apparatus according to claim 1, characterized in that on the contact bolt ( 11 ), which is arranged in a screw-fastened part ( 13 ) ver, a screw wheel ( 18 ) is rotatably mounted on the electric motor ( 22 ) is driven via a gear worm ( 19 ). 9. Apparatus according to claim 1, characterized in that the pressure pin ( 11 ), which is screwed in a part firmly connected to the housing angeord net, can be driven via a fixed gear, the drive shaft from the drive shaft with the pressure pin ( 11 ) rotatably in the axial direction of the pressure pin ( 11 ) is arranged displaceably. 10. Apparatus according to claim 1, characterized in that the pressure pin ( 11 ) is a rack arranged in a guide, which is displaceable via a toothed gear which is part of a transmission.