DE1499455B2 - Step switch for payment devices - Google Patents

Description

The present invention relates to a stepping mechanism for electromagnetic counting devices with an electromagnet, which is excited by means of input pulses, with a ratchet wheel and an indexing pawl acting on the ratchet wheel, with a bracket that carries an armature, wherein the bracket by a leaf spring attached to it in its middle part against the pulling force of the Electromagnet is biased and linked to the indexing pawl by means of an anchor pin in such a way that that the anchor with the bracket can be pivoted around the anchor pin and counteracts the movement of the anchor or in the direction of the attraction force of the magnet transferred to the indexing pawl and the ratchet wheel is advanced according to the number of input pulses.

Such a stepping mechanism is known from the German Auslegeschrift 1150 828; the ends of the Anchors are carried here in guides that are designed as pockets in spacer blocks. if the Guides do not exert sufficient friction on the armature, occurs with an asymmetrical force distribution the electromagnet tilting the armature; otherwise they are overly powerful electrical Input pulses required to move the armature. These effects are disadvantageous in that as a result of uneven wear of the armature and the cores of the electromagnet or there is a reduction in the working speed of the anchor.

The object of the invention is to eliminate these disadvantages.

The object is achieved in that the leaf spring has end sections that are fixed on Supports are slidably mounted and angled so that in the rest position of the anchor the straight Meet extensions of the end sections at the location of the anchor pin.

This effectively prevents the armature from tilting without any undesirable friction. the The effect of the arrangement according to the invention is that in the case of an asymmetrical force distribution of the two electromagnets, the leaf spring exerts a compensating force that causes it to tilt of the anchor prevented. The asymmetrical force distribution of the electromagnets causes the one End of the anchor is being pulled at a faster rate than the other end. The leaf spring bends, and one end that is the end of the anchor with the greater speed corresponds, slides on the fixed support and exerts an increased force against tilting the anchor off, so that, as already mentioned above, tilting is effectively prevented. By aligning the Ends of the leaf spring so that their straight extensions meet at the location of the anchor pin, are the reaction forces at the points of contact between the end sections and their Supports occur perpendicular to the lines connecting these points with the pivot point, so that the a tilting of the armature counteracting forces exert a maximum effect.

The invention is intended below on the basis of an exemplary embodiment and with reference to the drawings are explained in more detail. It shows

F i g. 1 is a side view of the stepping mechanism, FIG. 2 a detailed view with the leaf spring,

F i g. 3 shows an illustration to explain the mode of operation of the leaf spring, the leaf spring is shown in an exaggeratedly shifted position. and

F i g. 4 is a perspective view of a number of counting devices assembled into a unit are.

The counting device shown has a housing 10, which consists of a rectangular frame 12 and Side plates 14 and 16 consists, the latter

ίο with each other and with the frame 12 by means of Screws 18 are detachably connected, which pass through one side plate and are in sleeves 20 engage with the internal thread on the other side plate. The frame 12 and side panels 14 and 16 provide an elongated self-contained housing that can be easily connected to others can, as can be seen from FIG. 4 can be seen in which the reading window 22 of the individual counting devices is close are close enough to make a multi-digit number easy to read.

The side plate 14 is made of anti-magnetic material and carries a stepping mechanism 23 and a Digit roller 24. The other side plate 16 is made of dielectric material and carries on it Inside surface a printed reset circuit that serves two purposes, namely, for resetting and the generation of an exit pulse, is used, and a printed readout circuit. The stepping mechanism is actuated by input pulses for the electromagnet 42 and moves one Ratchet wheel 40 and digit roller 24 continue after the voltage in the electromagnet has dropped to zero is. The electromagnet consists of a U-shaped layered core 44 and windings 46, which are connected in series and form a positive pole 48 and a negative pole 50 for connection to an external circuit (not shown) that generates the pulses to be counted. Thus becomes the electromagnet is energized during the reception of the input pulses, which drops to zero between the individual input pulses. The electromagnet is by means of screws 52 attached to the circuit board 14.

The number roller 24 is rotatably mounted on an axle stub 54 by means of a hub 56.

The digit roller 24 is rotatably connected to the ratchet wheel 40 via two intermeshing pinions 62 and 64, each of the pinions and the associated wheel consisting of one piece. The number roller 24 is translated with the ratchet wheel 40 in a ratio of 2: 1, so that with half a revolution of the ratchet wheel 40 the number wheel 24 rotates completely once. The ratchet wheel 40 is rotatably mounted on an axle stub 66 by means of a hub 68.

A drive pawl 16 is in engagement with the ratchet wheel teeth 74 and is pivotably connected to a drive arm 78 by means of a pin 80 and is pressed against the ratchet wheel by means of a spring 82. The drive arm is pivotably connected to the board via a pivot point 84. The plate-shaped armature 86 of the electromagnet 42 is pivotably connected to the drive arm 78 via a bracket 88 and an armature pin 90. The lower surface of the armature is provided with a film 87, which ensures a minimal distance between the armature 86 and the cores 44 in order to keep the residual magnetism away from the armature.

3 4

As a result, as already mentioned, an input pulse arrives at winding 46, leaf spring 96 les counting device, whereby the armature 86 can be carried out in the direction of easier.

For the magnetic cores 44 of the electromagnet. The leaf spring 96 is shaped so that it is attracted to one another. The tightening of the armature causes parallel movement with respect to the end face of the cores 44; a pivoting of the drive arm 78 is ensured in the opposite movement of the armature 86 when it is turned counterclockwise (FIG. 1) around the hinge point 84 Cores 44 of the electromagnet is attracted, being forced by a tooth 92 of the drive pawl 76. Such movement is required as a tilt will slide backward over the ratchet tooth 74 of the armature to one and the other core. During this movement of the pawl, considerable abrasion on the contact surface would cause backward movement of the ratchet wheel through the armature, which prevents a leaf spring 94 from premature. The stepping mechanism would result in wear. Although when the electromagnet 42 is kept together, the cores 44 of counting devices of this type remain in! in this withdrawn position. When the voltage equidistant from the armature 86 arranged lim electromagnet drops to zero (at the end of the are magnetic forces caused by normal entry pulse), the armature 86 is released, 15 deviations of the winding or the air gap I after which the drive arm 78 below caused by the influence of one cause one side of the leaf spring 96 to be drawn in front of the other about the hinge point 84 in the clockwise armature. Is pivoted by the {sinn. The middle part of the leaf spring special shape of the leaf spring 96 is this Un-1 96 is in engagement with the bracket 88, whereas the equality of the forces is largely balanced. Like j end sections 110 rest on two supports 98. 20 best from FIG. 2, the blade has During this movement the tooth 92 engages in the spring 96 in the form of a yoke with two parts 108 inclined towards the ' ratchet wheel 74' and rotates the ratchet wheel 40 upwardly inclined parts 108, which with the bracket 88 to 18 ° further , whereby the number roller 24 to work together, and two downward sloping, an angle of 36 ° is rotated. These shorter end portions 110 which rotate on supports naturally cause that on the reading window 25 98 to support. Each end portion 110 essentially runs the next higher digit appears. borrowed on a straight line that intersects the axis of the armature - the drive pawl has two teeth 92 and 100 pin 90. In this way it is prevented that the ratchet wheel teeth 74 so that one end of the armature interacts faster against the, that a forward movement of the electromagnet moves than the other end. The ratchet wheel, caused by inertial forces or outer leaf spring 96, is designed so that any pivoting forces could arise is prevented. Movement of the armature 86 around the armature pin 90 an important part of the construction of the step-by-step reduction of the spring tension on the slower work are the spring means contained therein. The moving side of the armature and an elevation of the spring means consist of the leaf spring 96 and a spring tensioner on the leaf spring 102 pretensioned on the faster moving side, both springs 35 causing. The reduction of the spring tension on the act in such a way that they the tightening movement of the slower side has the consequence that corresponding armature 86 when a voltage is applied to the less force is necessary to counteract this side of the armature winding of the electromagnet and against the relevant core of the Electromagnets are of course also able to move the armature from the; this allows the weaker core to move cores 44 away in order to actuate the drive arm and the armature 40 of the electromagnet with the same pawl and thus to attract the ratchet wheel to speed as the stronger core. Turn this one. The leaf spring 102 is on the drive arm 78. The principle is shown in one example in FIG. 3 shown exaggerated fastened and relies on a rotatable cam. In this example, the right 104 is practicing. The latter and the supports 98 are mounted eccentrically winding a smaller magnetic force of attraction and can be twisted around the preload 45 out than the left winding, and therefore will adjust the left tension of the corresponding springs. Side of the armature faster against the left winding The preload on the armature is pulled through the. The inequality of movements results in a position of the supports 98 with respect to the leaf spring 96 pivoting movement of the anchor bracket 88 about and through the position of the cam 104 with respect to the anchor pin 90, whereby the right end of the loading spring 102 determines. The supports 98, 50 section 110 'of the leaf spring 96 from the associated allow a rough adjustment and the cam 104 support 98 is lifted off and thus a fine adjustment is necessary. The use of the leaf spring to provide less resistance to the armature movement has two advantages: than the left end section 110 ". On the other hand, ..., ._ ..",. ,, the left end section of the spring against the left first requires fine adjustment only the _{brace 98 is pressed, causing} a corresponding rotation of a single eccentrically mounted increase in the resistance to the movement of the cap, and - "",. ,, left side of the armature and thus the second allows the leaf spring 102 Per Ver - movement of this side of the armature is delayed application of a lighter and thus more manageable _{the end portions of the} leaf spring 96 stand nortflattreder J6 _{6o ma} i _erwe j _{s n} i _c i _{lt of the} eccentrics 98 from, but the latter advantage is achieved. that automatically set themselves up only in such a way that the actuation of the electromagnet of the armature 86 is pulled towards the armature on the side with the stronger one and the pivotable on the bow In the counterclockwise direction, the drive arm 78, which is secured by an increase in the spring tension, is delayed by the magnet train, and the movement on the side with its pivot point 84 is pivoted. This movement to the weaker magnet pull due to a decrease in movement bends the leaf spring 102, which thus accelerates one of the spring tension, whereby a force is exerted against the movement of the armature and both sides of the armature support the spring force of the leaf spring 96 at the same speed. The speed against the nucleus of the electromagnet,

even if there should be a difference between the magnetic forces. By the inclination of the end sections 110 in a direction directed towards the anchor pin 90 causes a pivoting movement of the armature also an equal angular movement of the spring ends with respect to the armature, so that a maximum compensation is guaranteed in the event of a difference in the magnetic forces.

Claims (3)

Patent claims: 1. Step-by-step mechanism for electromagnetic counting devices with an electromagnet that is excited by input pulses, with a ratchet wheel and an indexing pawl acting on the ratchet wheel, with a bracket that carries an armature, the bracket against the by a leaf spring attached to it in its central part The attraction force of the electromagnet is biased and hinged to the indexing pawl by means of an anchor pin such that the armature with the bracket can be pivoted around the armature pin and the movement of the armature against or in the direction of the attraction force of the magnet is transmitted to the indexing pawl and the ratchet wheel according to the number the input pulse is advanced, characterized in that the leaf spring (96) has end sections (lloj, which are slidably mounted on fixed supports (98) and angled so that the straight ^ extensions of the end sections are in the rest position of the armature (86) (110) at the location of the anchor pin (90) n. 1 2. Stepping mechanism according to claim 1, characterized in that the supports (98) as rotatable Cams are formed. ; | 3. Stepping mechanism according to claim 1 or 2, characterized in that a prestressed 'leaf spring (102) with one end at the one! Side of a drive arm (78) with respect to it! Pivot point (84) is attached and the! drive arm (78) on its other side with respect to the joint-1 point (84) pivotable with the; Bracket (88) is connected and the other end \ of the pretensioned leaf spring (102) is supported against a rotatable cam (104). | 1 sheet of drawings