DE1243443B - Device for determining the correct position of an object in a transport path - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

G07c

German class: 43 a - 42/20

Number:
File number:
Registration date:
Display day:

1 243 443
J 26599IX c / 43 a
September 25, 1964
June 29, 1967

Government property

The invention relates to a device for determining the correct position of a in the Conveyor track located with a physical that can be used to control the correct position Feature provided object.

There are many ways of transporting objects, either under human or automatic control, with either a sensor sensing object-fixed features or a machine making external changes to the object. Examples of the former would be a badge reader that determines the identity of a worker from a badge that he sticks into the badge reader or a timer used in conjunction with a time card. Examples of the latter type are all machines into which cards are inserted either manually or automatically, which are then stamped or embossed. In almost all of these cases it is essential that the object be precisely aligned when it reaches the sensing or punching station ^ao . If z. B. If a punch card is wrongly inserted into a punch card reader, the result is a wrong reading or no reading at all. It is the same with a card that is printed, stamped or embossed in an unaligned manner. The hole or stamp is in the wrong place and the card is worthless. Various electrical and electromechanical means have heretofore been used to determine whether an item is properly aligned before it reaches its processing station where it is punched, printed, read, etc. Although many of these devices are relatively simple, the mere fact that they operate electromechanically is sufficient to recognize their disadvantage; This is because they cause constant costs through the consumption of electrical energy and through the high wear and tear on the lightbulbs in light barriers as a result of their short service life. The construction costs of such systems are also high.

The object of the invention is to avoid the disadvantages of known transport monitoring devices to create a purely mechanical device that determines whether an object is correctly aligned on its transport path and prevents further transport as soon as an object is wrong.

The invention solves this problem in that a pivotably mounted member, which cooperates with the leading edge of the object and has an element for sensing the said physical feature on the object, which is designed in such a way, device for detection, protrudes into the transport path the right one
Location of one located in a transport path
Subject

Applicant:

International Business Machines Corporation,

Armonk, N. Y. (V. St. A.)

Representative:

Dipl.-Ing. H. E. Böhmer, patent attorney,

Boeblingen, Sindelfingerstr. 49

Named as inventor:
Wilbur Michel Davis,
Kings County, NY (V. St. A.)

Claimed priority:
V. St. v. America September 30, 1963
(312 512)

that if the said feature is not sensed, the sensing element prevents the link from pivoting the transport route under the influence of the leading edge of the object is not permitted.

Details of the invention are given below with reference to exemplary embodiments illustrated in the figures described. It shows

F i g. 1 a preferred exemplary embodiment in a diagrammatic representation,

Fig. 2 is a section along the line A-A in Fig. 1, in which an object is just passing the control device,

3 shows a section along the line AA in FIG. 1, in which an object is held up by the control device,

F i g. 4 shows the plan view of another embodiment and

F i g. 5 shows a third exemplary embodiment in a diagrammatic representation.

The flat object 10, such as a card or a price tag, pointing in the direction of the arrow is transported, is located in the transport channel 16. The object 10 has a cutout 18, which is on the leading edge when properly aligned. If this cutout is off-center, as in F i g. 1, the device can also be used to determine whether the object

709 608/211

has been inserted upside down; determining whether the correct edge has been inserted is also hit. The transport channel 16 has an opening 22 which is in a line with the cutout 18, when the object 10 is correctly inserted through the pin 26 (F i g. 2, 3) rotatably mounted lever 24 protrudes through the opening 22. The pin 26 is firmly connected to the Plate 28 which is firmly connected to the lower surface 20 of the transport channel. The torsion spring 30, whose one end on pin 32 of the. Plate 28 is applied, normally forces the lever 24 into the position shown in F i g. 3 is shown with the upper surface of the lever 24 lies firmly against the pin 36. The lever 24 protruding through the opening 22 in the normal position forms in FIG The direction of transport is at a stamping angle with the transport channel 16. The flank 40 is on the lever 24 attached, which runs above and parallel to the transport channel 16 when the lever 24 is in his normal position (Fig. 3) is located.

F i g. FIG. 2 shows how the device can further transport a correctly oriented object 10 in a processing station not shown (e.g. reading station) permitted. In the normal position of the lever 24, the flank 40 is above the plane of the Base 20, and its longitudinal center line coincides with that of the cutout 18. The object 10 moves along the transport channel 16 until its leading edge 42 against the beveled part of the lever 24 pushes. The flank 40 lies above the alignment cutout 18 further movement of the object 10 in the direction of arrow 12, causing the lever 24 to rotate clockwise is pivoted against the force of the spring 30. The spring force is very low to prevent damage the leading edge of the object 10 to prevent. As the lever 24 rotates, it moves the flank 40 down through the cutout 18 in the object 10 to a point below the Transport channel 16. The pivoting of the lever 24 is maintained until the object 10 over the outermost tip of the lever 24 is transported away.

The object 10 can therefore either move on through the channel 16 or it is through the same end of the channel 16 through which it was pushed in is withdrawn, if its leading edge could not pass lever 24. The latter type of function is then probably preferred if the facility z. B. is used to secure a precisely aligned position when a card is inserted into a card reader or a timer.

F i g. 3 shows how the device prevents an incorrectly aligned object 10 from passing through. Incorrect alignment may come from the fact that the object 10 either with its top is pushed down, but with the cutout 18 to the front in the channel 16 or that the unmarked Edge 44, seen in the transport direction, is at the front (Fig. 3). In both cases the moves Item 10 through channel 16 until its leading edge 42 or 44 against the beveled surface of the Lever 24 pushes. However, if this happens to a misaligned object, the Flank 40 over the solid material of the leading edge of the article 10 and not over the cutout 18. The flank 40 thus holds the front edge of the object 10 firmly and thereby prevents the Lever 24 turns clockwise out of the transport channel. Clamping the object 10 in the transport channel 16 indicates to the operator that the object 10 is incorrectly aligned is and that it must be removed in order to be properly reinserted.

In the embodiment of the invention, as shown in FIGS. 1 to 3, the article has 10 close to a right-angled incision, but

ίο not exactly in the middle of the leading edge. Type and location however, the incision is in no way intended to be a limitation of the invention. F i g. 4 now shows a device according to the invention, in which a punch card 10 is inserted with a beveled corner.

It is probably clear that the design of the device only needs to be changed over to the type of card needs, namely in such a way that the opening 22 and the lever 24 are offset to one side of the transport channel 16 so that the location of the flank 40 comes in line with the cut corner 50 when the object, that is to say the card 10, comes through the transport channel 16 in the correct orientation. In Fig. 4th the flank 40 is shown with an angled corner 52 making it the truncated Corner 50 is matched exactly. Whether or not the beveled corner 52 is necessary depends on the individual Shape of the flank 40 and the cut corner 50 from. The mode of action is the same as in the case of the FIG. 1 to 3 shown embodiments

example.

The in Fig. 5 shown embodiment of the invention has the lever 60, which compared to the Lever 24 has a different shape. The object 10 is in the transport channel 64 in the direction of arrow 62 out. The base area 65 and the frame 66 belong to the transport channel 64 Lever 60 is rotatably mounted above the transport channel 64 by a pin 68 of a Attachment 70 is received on the frame 66.

The lever 60 has a first flank 72 which protrudes into the transport channel 64 and in the direction of movement of the object 10 as seen, forms an obtuse angle with the base surface 65. The lever 60 also has a second flonke 74 protruding into the transport channel, which is in the direction of movement of the object 10 forms an acute angle with the base surface 65. The flanks 72, 74 are perpendicular to the direction of movement of the object on a line next to each other, so that a straight leading edge of an object 10 both touches at the same time (FIG. 5).

The function of the device according to FIG. 5 is almost the same as that of g in the i F. 1 to 3 shown device. The weight of the lever 60 is sufficient to bring it under the force of gravity into a position that its two flanks 72, 74 are in the transport channel 64. If the object 10 comes into the channel 64 in a precisely aligned manner, the flank 74 lies below the alignment cutout 18 when the leading edge 42 of the object 10 contacts the flank 72. The flank 72 is thus pushed up by the leading edge 42, and the entire lever 60 thus comes outside of the transport channel 64, since the flank 74 can pass through the alignment cutout 18 during this process. The object 10 can continue on its way into the processing station with the flanks 72, 74 of the lever 60 on its upper surface.

long shovel. Exactly as in the exemplary embodiment according to FIG. 1 can the item 10 after it has been used as long as the leading edge of the object cannot pass the flank 72 of taken from the same side of the transport channel 64 through which it came into the transport channel. in the otherwise, the object leaves the channel 64 at the end facing the processing station.

If the article 10 is misaligned when it enters the channel 64, it will reach the leading edge 44 of the object 10, the two flanks 72, 74 at the same time (FIG. 5) and the part of the object 10 above the flank 74 prevents the flank 72 from resting on the leading edge 44 pushes the lever 60 up out of the transport channel 64.

While in Fig.] The lever is shown, that it protrudes into the transport channel under spring pressure, the same is shown in FIG. 5 by gravity in the channel. In addition, there are other ways, e.g. B. the lever itself can be designed as a spring be.

Although in FIG. 4 the embodiment of FIGS. 1 to 3 is shown so that there is a card with truncated corner, it is clear that the embodiment of the invention disclosed in F i g. 5 can also be modified to control such a card. That could be the result happen that the movement flank 74 is brought into a position that is in line with the cut Corner and that, if necessary, a corner of the flank is removed.

The embodiments of the invention shown in FIGS. 1 to 5 shown can be used without change be used not only to transport any recording media, such as punch cards, ID cards, Embossed press cards or the like. To control, but can also be used for the transport control of any flat objects of any shape made of paper, wood, Metal or other materials, if these objects can be used to check the correct position have physical trait. Examples of such objects are punched paper parts mentioned that for the purpose of further processing or processing, such as punching, printing, folding or the like., In must be supplied to the respective processing machines in a very specific position, or it Metal plates can also be used, the different sides of which have a different surface treatment should be experienced, or are to be further processed in bending presses to form spatial structures.

It is also possible to use the device of the invention either in unchanged form or by replacing the flanks 40 or 74 with wedges thicker also for the transport control, i. H. So not only to use two-dimensional bodies if they have alignment features on their front surface exhibit.

Claims (6)

Patent claims: 1. Device for determining the correct position of a conveyor belt provided with a physical characteristic that can be used to check the correct position Object, characterized in that a pivotable in the transport path (16) mounted, with the leading edge (42) of the object (10) cooperating member (24) protrudes, the an element (40) for sensing said physical on the object (10) Has feature (18) which is designed such that when not sensing said Feature (18) the sensing element (40) pivoting the member (24) out of the transport path not permitted under the influence of the leading edge (42) of the object (10). 2. Device according to claim 1 for an object with a cutout in the leading edge, characterized in that the pivotable member is inserted into the by the force of a spring (30) Movement path of the object (10) held against a stop (36) abutting lever (24) represents which, seen in the transport direction, forms an obtuse angle with the transport path (16) forms and has a leg (40), the longitudinal center line of which with that of the cutout (18) of the object (10) correctly inserted into the transport channel (16) collapses, the Leg (40) is bent in such a way that its surface facing the transport path (16) in said Position of the lever (24) is above the plane in which the upper surface of the object (10) extends. 3. Apparatus according to claim 2, characterized in that the in the leading edge (42) of the Object (10) provided cutout (18) is not arranged in the center of the leading edge (42) is. 4. Apparatus according to claim 2, characterized in that the transport of punch cards with a beveled corner (50) as a cutout of the legs (40) of the lever (24) to the bevel (50) of the leading edge (42) adapted bevel (52). 5. Apparatus according to claim 1 for an object with a cutout in the leading edge, characterized in that the pivotable member is pivotable about a pin (68) arranged above the transport path The lever (60) extending from the bolt (68) in the transport direction (62) represents two at its free end has legs (72, 74) protruding below the transport plane, of which, in the transport direction (62) seen, the one (72) with the transport plane an obtuse angle and the other (74), whose longitudinal center line with that of the cutout (18) of the correctly in the transport channel inserted object (10) coincides, includes an acute angle. 6. Apparatus according to claim 5 for the transport of flat objects, characterized in that that the flat object (10) only at its extending in the transport direction (62) Edges of guide strips (66) is added, which on a base plate (65) are arranged on which the lever (60) with its free end when uninfluenced by an object (10) to be guided rests on it. 1 sheet of drawings 709 608/211 6.67 © Bundesdruckerei Berlin