DE339934C - Ten circuit for adding machines - Google Patents

Description

Ten circuit for adding machines. The invention relates to a ten circuit for adding machines in which the tens transfer takes place in that the for the operation of the ten switching device necessary control movements of the drive racks controlled by the drive crank and oscillating in a straight line can be derived.

The subject of the invention is linked in the accompanying drawing illustrated with an adder in an exemplary embodiment; certain parts that are not directly related to the invention are omitted been.

Fig. X is a side view of the partial machine with the built-in. Ten switching device.

Fig. 2 is a plan view of the switching organism.

Figures 3 to 6 illustrate details, and these are in the description Specified in more detail, Upright side walls are arranged on a suitable base plate, and these are used to carry the shafts and the associated sliding and switching elements. The usual columns of keys are located on the upper surface of the machine. These Keys are mounted in special key bodies, and the keys are in columns arranged with nine keys each for the digits from o to 9. To drive the counter 15, -16, 17, 34 serve the straight lines. driving racks moving forward and backward i2. After setting the item through the buttons, the hand crank will move forward and pulled backwards. When moving forward, the drive racks 12 move in engagement with the wheels 15 forward and transfer the item to the counter. The preparation of the numeric circuit also takes place here. When flipping backwards the hand crank move the racks out of engagement with the counter wheels empty back. Here, the completion of the ten circuit takes place.

The ten circuit initially consists of a slide rail i, an "which the most essential parts of the switching organism are arranged. On the cranked one Tab 3 of the slide rail i, the switching tooth 2 can be rotated by means of a shoulder screw 4 arranged; a guide pin 5 is riveted into the lower end of the switching tooth 2 and moves in the slot guide 6. Using the shoulder screw 7, the sliding piece 8 movably connected to the slide rail i; the slider 8 is bent at an angle. The bent flap forms a sliding surface and is in relation to the longitudinal axis of the sliding piece at a certain acute angle. A spring pin arranged on the slide rail 9 takes up the spirally wound tension spring io and becomes the latter with the other End attached to the spring pin ii of the slider 8. The . Tension spring causes that the slider 8 always up to a certain stop A (Fig. 5 and 6) after is pulled up, so that when the rack 12 goes back, the one sitting on it Stop cam 13 under the sliding surface of the sliding piece when the ten circuit has been prepared 8 can grip, thereby the slide rail i with the switching tooth arranged on this 2 upwards, the ratchet wheel 14 shifted by one tooth will. Since the ratchet 14 is firmly connected to the drive gear 15 of the counter is, then this also rotates one tooth further and thereby takes the Intermediate wheel 16 and the one in engagement with this and coupled to the counting wheel 34 Gear 17 rotates with it and thereby the counting wheel 3 ¢ is advanced by one unit. In order to prevent the slide rail i from automatically sliding downwards, these tooth-shaped incisions 18 incorporated and engages in this one laterally attached Leaf spring rg. On the slide rail i is another one that moves vertically on it Arranged slide 2o, which is located in the slot 21 between the shoulder screws 22-23 leads. The slide is used to disengage the shift tooth 2 from the ratchet wheel 14 when the machine is to be zeroed. This effect will achieved in that a cross piece connected to the zeroing lever upwards is moved and thereby engages under the slide 2o, pushing it upwards. The guide pin slides on the inclined surface 24 of the slot 32 on the slide 2o 5. This is firmly connected to the switching tooth 2, and the switching tooth: z is oscillating arranged on the tab 3 by means of shoulder screw 4. Thus, when you push it up of the slide 2o of the switching tooth 2 rotated about its axis and thereby comes out of the way The ratchet wheel 14 engages. At the same time, the slide is pushed up 2o also the slide rail i taken upwards, whereby the ten switching mechanism is returned to the preparatory position.

The ten circuit is engaged with the during rotation of the Drive rack 12 located counting wheel 15 prepared. Completing the However, the numeric switching is not yet carried out during this drive movement. Only when the drive crank is moved backwards and after the racks 12 have come out of engagement with the counting wheels 15, takes place during the backward movement of the drive racks i2 the completion of the ten circuit. Every counting wheel has a thumb 25, which when turning the counting wheel in the direction of the arrow on the upper Edge of slide i hits as soon as the number g of the counting wheel is in the peephole appears; if another number is now added, the thumb 25 presses the Slide i, downward as can be seen from Fig. 6, and is with this process the ten circuit prepared. The completion of the ten circuit is thereby causes the disengaged rack when moving backwards 12 of the stop cam 13 arranged on this to the inner inclined surface of the Slider $ hits and when the rack i2 moves further, the slide rail i with the switching mechanism located on it in the direction of the counting wheels pushes up, whereby the shift tooth 2, which is in engagement with the ratchet wheel 14 this advances by one tooth and thus also the next following counting wheel a number is placed in front of it.

The slide rail i is on the extended axis 26 on which the ratchet 14 is rotatably arranged by means of the located in the sliding rail Longitudinal slot 2g out; in addition, the slide rail i moves with the lower one End on which the slide 2o is arranged, between the two across the Machine running guide rods 30, 31, it is through this arrangement a lateral Moving the ten switching elements effectively prevented because of the inevitable Leadership the advancement is secured.

The slider 8 is made up of the following. Reasons rotatable and under spring action arranged upright so that during the forward movement of the rack 12 on this arranged stop cams 13 over the outer inclined surface of the at an acute angle bent slider 8 can slide away; when pushing the stop cam 13 on the inclined surface, the rotatably arranged slider 8 is rotated downwards, thereby clearing the way for the stop cam; the tension spring io then pulls the slider 8 back to the original position, where it is limited by a stop.

Claims (3)

PATENT CLAIMS: i. Ten circuit for adding machines with a Ten ratchet pawl mounted on a shift rail, characterized in that; that each of the racks controlled by the drive crank and driving the adder (12) carries a stop cam (13) which during the backward movement of the rack engages under a slider (8) and thereby makes one of this slider resilient and swingable load-bearing, vertically movable to and fro and thereby positively guided shift rail (i) lifts which apart from the ten ratchet (2), which is connected to the ratchet wheel (iq) is engaged and as a result, when the shift rail (i) moves upwards this ratchet advances by one tooth, another slidable in the vertical direction Slider (2o) contributes, which is intended to the switching pawl (2). the zero position to bring out of engagement with the ratchet wheel (14). 2. Ten circuit according to claim i, thereby characterized in that the swingable on the shift rail (i) mounted slider (8) under the action of a tension spring (io) arranged in this way is that it is pulled back into its starting position by the tension spring, after the stop cam (i3) over during the forward movement of the rack (i2) the outer inclined surface of the slider (8) has slipped away. 3. Ten circuit according to claim i, characterized in that the Zebn ratchet (2) which is mounted to swing on the shift rail (i) and not. is under spring action, is thereby brought into engagement with the ratchet wheel (i4) that the one with the rack (i2) vertically slidably connected, downwardly hanging slide (2o) by action the upper part of its side slot (32) onto the side pin (5) of the pawl (2) and, due to its own gravity, keeps the pawl (2) in engagement, while, to bring the pawl (2) out of engagement with the ratchet wheel (i4), the slide (2o) is moved upwards and thereby by the action of the lower bevel (24) its - slot (32) on the pin (5) the pawl (2) in the zero position except Bringing engagement with the ratchet wheel (i4).