DE3130034A1 - Capacitive control and evaluation device on book-binding and printing machines - Google Patents

Abstract

The invention relates to a capacitive control and evaluation device for controlling faulty and/or multiple sheets in book-binding and printing machines according to the Patent Application WP B 65 H/218913. The aim of the invention is to increase the accuracy of such devices. The technical object of the invention, to completely isolate the shaking leading to vibrations along the base body arranged above the path of the printing carrier, is achieved in that two magnets are formed as a magnet unit on one of the two base bodies for the purpose of maintaining an automatically self-regulating parallel position relative to one another. In this case, the magnetic forces maintaining the spacing act equally on all surface points of the mutually facing sides of the base bodies. The lateral fixing of the base body is effected by U-shaped magnets. Falsification of the measurements due to mechanical vibrations is thus ruled out. <IMAGE>

Description

Capacitive control and evaluation device at bookbinding

and printing machines The invention relates to a capacitive Wontroll- and evaluation device for checking missing and / or multiple sheets in bookbinding and printing machines.

It was already in the invention application is D 65 H / 218 913 a capacitive control and evaluation device for the control of multiple and / or multiple sheets proposed whose one capacitor plate of the capacitive transducer to two Place on is separated and the two capacitor plates are each on one The base body and the mounting of the base body are elastic on both sides he follows. The sheet material to be checked passes through during transport through the machine the dielectric between the middle part of the disconnected Capacitor plate and the second capacitor plate. This is called the measuring capacitor capacitive arrangement is arranged in a branch of a measuring bridge circuit. In one after the measuring bridge branch are the two capacitive arrangements, consisting from the two side parts of the separated and the second capacitor plate of the transducer, in the form of a parallel connection with the comparison capacitor arranged. For evaluating the measurement values according to Pehl, normal or multiple sheets an evaluation circuit is arranged downstream of the output of the measuring bridge lit With the help of this control and evaluation device, mechanical influences such as Vibrations of the capacitor plates parallel to each other, inclinations that occur of the capacitor plates by replacing them underneath and> j Vibrations in the lateral bearings of the capacitor plates as well as warping the bow compensates.

The disadvantage, however, is that vibrations are dampened in the event of strong vibrations occur along the longitudinal axis of the capacitor plates.

The aim of the invention is to provide a capacitive control and evaluation device to create that has a higher accuracy.

The object of the invention is to provide the elastic storage of the over to design the capacitor plate arranged along the path of the printing material in such a way that that the shocks leading to vibrations along the longitudinal axis of the base body be completely isolated.

The problem is solved by the fact that there are two to prevent vibrations Along the base body serving magnets on one of the two base bodies laterally are arranged as a bearing, and that the base body for the purpose of a self regulating parallel position to each other are designed as magnets.

An advantageous design of the magnetic bearings is achieved by that the two magnotes, which are used for lateral storage, are U-shaped permanent magnets are formed, whose respective magnetic pole assigned to the base body with has the same name as the opposite pole of the base body.

The arrangement of the capacitor plates is favorably designed by that the base body with the capacitor plate separated in two places in the two magnetic bearings is mounted. The solution according to the invention is effective in that that the base body with the continuous capacitor plate in the two magnetic bearings is stored.

To compensate for horizontal changes in bearings, it is advantageous to that the areas of the two capacitor plates of the capacitive transducer are different are great. The technical solution is effective because the magnetic bearings The stored capacitor plate is smaller than the capacitor plate on the opposite side is trained. The design of the solution is also advantageous in that the in the The capacitor plate mounted on magnetic bearings is larger than the capacitor plate on the opposite side is trained.

The solution according to the invention has the effect that any shock shocks and / or vibrations caused by the machine, not vibrations can generate along the base body and thus any falsification of measured values is excluded will.

In the following, the invention is intended to be closer to an exemplary embodiment stated; will. The drawing shows: FIG. 1: the oChlitt through the sensor arrangement with bearing elements according to variant 1, Pig. 2: the section through the transducer arrangement with bearing elements according to variant 2, Fig. 3: the longitudinal and cross-section of the lateral Bearings, 4 / the top view of the transducer arrangement with the assignment of the magnetic poles, i41ig 5: the side view of the transducer arrangement with the assignment of the magnetic poles.

DQe already proposed in the application WP B 65 H / 218 913 capacitive Control and evaluation device -an bookbinding and printing machines provides for the prevention of vibrations along the longitudinal axis of the base bodies Capacitor plates of the transducer have elastic bearings in front of a corresponding elaborate strong dimensioning of the Gruiidkörper and a certain around their Longitudinal axis rotated and the direction of oscillation inclined storage is the protection threshold against occurring vibrations is increased. However when occurring from strong shocks and vibrations these are dampened in the form of a Vibration transmitted to the base body. It has the consequence that incorrect measurements Auftre-A first variant of the solution according to the invention is shown in FIG. ii after this we-denied as the measuring capacitor plate 1 in the middle part of the separated capacitor plate, the capacitor plate 2 as well as the comparison capacitor plates 5, 6 designated outer parts of the separated capacitor plate on magnetic plates 3, which serve as the base body, attached. The capacitor plate separated in two places is attached to this variant on a magnetic plate 3, which is to be controlled Sheet 4 is arranged. The mounting of the magnetic disk 3 serving as the base body takes place in two laterally arranged magnetic bearings 7 the capacitor plate 2 attached to a further magnetic plate 3 is arranged. The parallel central position (target position of the two main bodies to one another is determined by their Magnetic field fixed. The spacing forces act on all points of the surface facing sides of the base body equally. The for vibrations along the Reason, body-causative forces in the previous supernatural bearings can only because of this does not occur. Serve for lateral fixation of the base body the magnetic bearing 7. In this fixation of the position of the base body by the U-shaped Permanent magnets cause momentary horizontal shifts in position compared to the opposite body. In order to prevent the resulting changes in capacity, one of the two capacitor plates of the transducer is made larger0 The variant 2 shown in Figure 2 sees the arrangement of the continuous Capacitor plate 2 over the arc 4 to be measured. Storage takes place in the Magnetic bearings 7. Tn sheet feed table 8 is the capacitor plate separated in two places arranged. The storage of the condensate arranged in the sheet feed table 3 åevJeils orplat -L e can be achieved by a further capacitor plate arranged under the base body as well as lateral magnetic bearings. Possibly on L-saving side Vibrations in the sheet feed table 8 can be compensated for. In the however, in most cases this will not be required no.

The sectional views A-A and B-S in Figure 3 show the magnetic Storage of the continuous capacitor plate 2 according to variant 2 in the U-shaped Magnetic bearings 7 formed by permanent magnets.

In the figure 4 is the plan view of the schematic arrangement of the magnetic poles shown. The poles are arranged in such a way that to both Sides of the base body designed as a magnetic plate 3 onto the magnetic bearings 7 repulsive forces act.

The side view shown in Figure 5 of the schematic; disorder of the magnetic poles of the magnetic disks 3 can be seen that each is opposite located poles of the same name also generate repulsive forces.

Reference number 1 measuring capacitor plate 2 capacitor plate 3 magnetic plate 4 sheets 5 comparison capacitor plate 6 pre-comparison capacitor plate 7 magnetic bearings 8 sheet feed table

Claims (8)

P a t e n t a n s p r u c h 1. Capacitive control and evaluation device for multiple and / or multiple sheets on bookbinding and printing machines with a capacitive measuring bridge, consisting of a capacitive measured value gel and a comparison sensor, its filler is a continuous condensate and a condensate that is burned open in two places Has gate plate and both capacitor plates are each arranged on a base body and the base bodies are each elastically mounted on both sides, to which in the measuring bridge circuit of the measuring capacitor, consisting of the middle part of the separated capacitor plate and the second capacitor plate, in one Measuring bridge branch and in a subsequent measuring bridge branch in the form of a parallel connection with the comparator two capacitors, consisting of the two on the side Parts of the separated and the second capacitor plate of the transducer, switched as well as with an evaluation circuit downstream of the measuring bridge circuit, characterized in that two to prevent vibrations along the base body Serving magnets on one of the two base bodies are disorganized as bearings are, and that the base body for the purpose of an independently regulating parallel Position to each other are designed as magnets. 2, capacitive control and evaluation device according to claim 1, characterized in that the two magnets used for lateral storage are U-shaped Pernanentmagne-th are formed, whose j is assigned to the base body magnetic pole with the same name as the opposite pole of the base body is. 3. Capacitive control and evaluation device according to claim 1, characterized in that the base body with the capacitor plate, which is separated in many places is mounted in the two magnetic bearings (7). 4. Capacitive control and evaluation device according to claim 1, characterized in that the base bodies are designed as magnetic plates (3), which are opposing magnetic poles are of the same name. 5. Capacitive control and evaluation device according to claim 1, characterized in that the round body with the continuous capacitor plate (2) is mounted in the two magnetic bearings (7). 6. Capacitive control and evaluation device according to claim 1, characterized in that the surfaces of the two capacitor plates of the capacitive transducer are of different sizes. 7. Capacitive control and evaluation device according to claim 1, and b, characterized in that the capacitor plate mounted in the magnetic bearings is made smaller than the opposite capacitor plate. 8. Kapaziti-ve control and evaluation device according to claim 1 and 6, characterized in that the capacitor plate mounted in the magnetic bearings is made larger than the opposite capacitor plate.