DE7105738U - Device for checking test marks by means of a scanner - Google Patents

Description

Patent attorney β

Dr. C '.--! - k

15/3

Karl-Heinz Honsei, 48 Bielefeld, Heidelberger Weg 15

Device for checking test marks by means of a scanner

j The innovation relates to a device for checking valve inserts, Bottom cover sheets or the like with a test mark applied during the sack or pouch production Scanner emitting test beam.

"• \ In the devices of this type known up to now, the

Scanners, for example reflective photo sensors, are permanently attached / attached and a are briefly switched on when the test mark on the respective valve insert, the bottom cover sheet or the like passes through the machine, so that the correct position of the valve inserts is ensured by scanning the test mark. Being able to check cover sheets and the like, if the emitted light beam falls on the test mark in the case of the reflection photo sensors, it is reflected by it, which serves as a signal for a perfect workpiece. If there is no reflection of the light beam a, the resulting signal is evaluated as an error pulse, for example in order to remove the workpiece from the further production process.

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Due to the high machine speeds that can be achieved today is dependent on the test mark for a given size the test time is very short due to the tolerance to be observed. The scanner must not be turned on until the the emitted test beam can fall on the test mark, and it must already be switched off again when the test beam reaches the rear edge in the direction of the workpiece has reached the test mark, otherwise an error signal will be falsely generated «

A major disadvantage of the previously known devices is that, given the very short test time, an extraordinary one exact setting of the scanner is required, which is very time-consuming and high idle times for the respective machine changes brings with it.

The present innovation is based on the task of a To create a device of the type mentioned, in which such a particularly exact setting of the scanner with respect to switching it on and off is no longer necessary.

The solution according to the innovation consists in a device of the type mentioned at the outset in that the scanner can be moved in such a way is arranged and driven that the test beam on a test track as a predetermined part of the path the test mark moves with it. Through the so educated A sufficient test period is available for the test section, so that even at high machine speeds the The time at which the scanner is switched on and off is still variable within certain limits, and thus the setting work no longer need to be carried out so precisely without fear of incorrect results.

According to a preferred embodiment of the subject matter of As an innovation, the scanner is arranged to rotate and can be driven. The power supply to the scanner is expedient about slip rings.

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According to a further preferred embodiment of the object The innovation is the scanner is arranged to be movable to and fro, where it is either a reciprocating Performs swaying movement, but can also temporarily run parallel to the workpiece with this. The floating one The scanner has the advantage that the current-carrying lines of the scanner are not connected to slip rings have to.

According to a further preferred embodiment, the scanner is arranged in a stationary housing which has a slot-shaped exit opening for the test beam. This protects the scanner from external radiation and dirt, and the associated Auxiliary elements are accommodated, so that a self-contained structural unit is given.

According to a further preferred embodiment of the object of the innovation, the inner wall of this is stationary Housing designed to be reflective. This has the advantage that the scanner is no longer switched on and off in a timed manner needs to become. Rather, it can be switched on all the time, since the test beams do not pass through enter the slot, are reflected from the reflective inner wall of the housing onto the scanner. Kick it against it accordingly the function sequence through the slot-like outlet opening, they are reflected by the test mark. If this does not happen due to a workpiece defect, the error pulse is then generated in the usual way.

Preferred embodiment of the subject of the innovation is explained in more detail below with reference to the accompanying drawings.
Ss show:

Fig. 1 shows a device according to the innovation in longitudinal section,

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FIG. 2 shows a sectional view according to II - II of FIG. 1,

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3 shows a sectional view according to section III-III of FIG. 2-

In the illustrated embodiment, the starting point is the testing of a sack 1 which is guided through the sacking machine in the direction of the arrow in FIG. 2 and thereby passes under the testing device. The bottom of the bag 1 is provided with a valve insert 2 as well as with a bottom cover sheet 3, the valve 2, a check mark 4 and odendeckblatt ^ 3 a test mark wear 5, as shown in FIG 3 ~ "&". -

Above the passage of the sack 1 there is an at. v "dter 6 arranged, which is attached to a rotatably mounted shaft 7 in the machine frame. Oer scanner 6 is shown in FIG Exemplary embodiment, a reflection photo sensor which emits a test beam 8, as shown in FIGS. 1 and 2. the Shaft 7 can be driven in rotation via a gear wheel 9, the rotational speed being designed so that the shaft 7 and so that the scanner 6 complete one revolution per pass of a workpiece. As from the direction arrows in Fig. 2 it can be seen that the test beam 8 runs when the scanner rotates 6 on a test track as a predetermined part of the path of the test marks 4 and 5 with these, so that if the workpiece is free of defects on this test section, the test marks 4 and 5 reflect the test beam 8. Have the valve core 2 or the cover sheet 3 has a defective position, the test beam is reflected, so that an error signal is triggered.

In the scanner 6 there is an amplifier and a control output for controlling a relay ¹ for the further processing of the generated signals. The power supply to the scanner 6 and the derivation of the signals take place via slip rings 10, which are arranged on the shaft 7 in a rotationally fixed manner

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are fed via carbon brushes 12 arranged in a holder 11.

The above-described arrangement is of a precise nature 13, which is attached to the machine frame and the a slot-like exit opening 14- for the test beam 8 having. During the period in which the test beam 8 irradiated by the scanner 6 passes through the outlet opening 14 can fall on one of the test marks 4 or 5 during the scanner rotation, the scanner must be switched on, i.e. the the circuit assigned to it must be closed.

In order to be able to guide the bottom of the sack 1 well during the testing process, are in the area of the scanner above the path the bottom guide rods 15 and 16 are arranged.

The inner wall of the housing 13 can be designed to be reflective be, so that in this Pail the scanner 6 is not clockwise needs to be turned on and off.

It is also possible to drive the shaft 7 via a non-uniformity drive to drive so that the scanner 6 performs a reciprocating movement. In this case it is Use of slip rings for power supply and signal removal is not required.

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Claims (8)

Protection claims 1. Device for testing valve inserts, bottom cover sheets or the like. Test marks applied during the production of sacks and bags, with a scanner that emits a test beam, thereby. characterized in that the scanner (6) is movably arranged and driven in such a way that the test beam (8) moves on a test track as vorbe true em part of the path of the test mark (4,5) {} moves with this. O 2. Device according to claim 1, characterized by a rotating driven scanner (6). 3. Device according to claim 1, characterized by a scanner (6) which is driven to move back and forth. 4. Apparatus according to claim 1, characterized in that the scanner (6) in a stationary, a slot-shaped outlet opening (14) having housing (13) is arranged. ., -. 5. Apparatus according to claim 4, characterized in that the inner wall of the housing (13) is reflective. C) 6. Apparatus according to claim 2, characterized in that the The scanner (6) is arranged on a shaft (7) that can be driven in rotation is. 7. Apparatus according to claim 6, characterized in that slip rings (10) are arranged on the shaft (7). 8. Apparatus according to claim 3 »characterized in that the The scanner is arranged on a shaft which is connected to a nonuniformity drive. 71057 * 828.10.71