CS212601B1 - Device to determine the exact number of pieces in a particular file - Google Patents

Abstract

The device according to the invention allows to determine the exact number of pieces in a certain set, for example sheets of paper, banknotes, number of threads, grooves and similar formations, the essence of which lies in the fact that the sensing tip, which is firmly connected to the mechanical-electrical converter, is moved manually or by a mechanical device over the set of counted objects during measurement. The mechanical-electrical converter is connected by its output to the shaping circuit through its first input, while its output is connected to the first input of the reset circuit of the pulse counter. The third and fourth inputs of this pulse counter are connected to the reset button, while the second, third, fourth and fifth outputs of the pulse counter are connected successively to the first, second, third and fourth inputs of the decoder. The first, second, third and fourth outputs of this decoder are connected successively to the first, second, third and fourth inputs of the display unit, to the fifth input of which the output of a common voltage source is connected, which is further connected to the second input of the shaping circuit 3, further to the second input of the pulse counter, further to the fourth input of the zeroing circuits, and further to the fifth input of the decoder, all of the aforementioned parts being placed in a common housing. This forms a portable unit independent of external power supply.

Description

The invention relates to a device for detecting the exact number of pieces in a particular set, for example for counting sheets of paper, banknotes, number of turns, grooves and the like.

For piece counting in routine work, eg for sheet counting in printers, for piece counting in the production of miniature parts and in other cases, there is no aid, simple enough and cheap, easily portable to remove manual tedious counting, eye strain.

The systems used so far, whether mechanical or optical, are so designed that they are stationary and the material to be counted must be brought or otherwise transported to the counting point.

They also require a connection and a power source, which often complicates the work.

For a smaller number of pieces, such devices are disproportionate.

The above-mentioned drawbacks are solved by the device according to the invention for detecting the exact number of pieces in a particular set, for example for counting sheets of paper, banknotes, number of threads, grooves and the like. with a mechaniocelectric transducer connected to a forming circuit via its first input, the output of which is connected to a first pulse counter input, the first output of which is connected to a first input of the counter zero circuit, whose third input and fourth input are connected to a reset button, while the second, third, fourth and fifth outputs of the pulse counter are sequentially connected to the first, second, third and fourth inputs of the decoder, whose first, second, third and fourth outputs are connected sequentially to the first, second, third and fourth inputs of the display unit , whose fifth in up, the output of the common voltage source is connected, which is longer connected to the second input of the shaping circuit, the data to the second input of the pulse counter, the longer to the second input of the reset circuits, longer to the fifth input of the decoder.

The advantage of the new device is that it allows the number of parts to be counted in a simple manner in a very short time by simply moving the stylus over a set of parts to be counted.

The counted pieces are grouped for counting purposes so that the stylus that moves over them is alternately loaded by a variable force during its movement, which always has its maximum value at a certain point in each individual counted piece.

The circuit according to the invention will be described in more detail below with reference to the accompanying drawing, in which Fig. 1 shows the arrangement of parts of the apparatus. Fig. 2 shows some electrical voltage waveforms which occur at certain locations of the apparatus during this operation.

The device for detecting the exact number of pieces in a certain housing according to the invention consists of a mechanical-electric transducer 2, which is mechanically fixedly connected to the sensing tip 6 and electrically connected via its output 2a to the first inlet 3a of the forming circuit. pulse counter input 4a. The first pulse counter output 4b is connected to the first input 5a of its reset circuit g, the second input 5b of which is connected to the output 1a of the voltage source 6. Also connected to the output 1a is the second input 3b of the shaping circuit 6 and the expensive input 4o of the pulse counter 6.

The third input 5c and the fourth input 5d of the reset circuit g are connected to the reset button T. Expensive, third, fourth and fifth outputs 4d. The pulse counter 4, 4f, 8g is connected sequentially to the first, second, third and fourth inputs 8a, 8b. 84, 8g of a decoder 8 whose first, second, third and fourth outputs 8f. 8g. 8h. 8i, the first, second, third and fourth inputs 9a are connected sequentially. 9b. The fifth input 9e of this display unit g, together with the fifth input 8e of the decoder, is connected to a voltage source 8. All the aforementioned parts indicated by the individual blocks are housed in a common housing 10.

Due to the vibration of the stylus 6 caused by the movement of the surface of, for example, a set of blades 2, a voltage waveform is generated at the output of the mecho-electric sensor 2.

A typical waveform at the output 2a of the transducer 2 is shown in FIG. 2 in position a. This voltage is amplified and shaped in the shaping circuit X to which it is fed by its first input ja. The course of the electric voltage at the output 3c of the forming circuit 3 is shown in FIG. 2 in position i. The course of the counted pulses is shown in position 6 in FIG. 2.

The individual pulses of the shaping electrical voltage are applied to the first input J of the pulse counter χ, which adds the pulses. From the second, third, fourth, fifth exit 4d, 4e. 4f,

4g of the pulse counter X are pulsed to the decoder 8 via its first, second, third and fourth inputs 8a, 8b, 8c. 8d. The display unit 2 is then connected by its first, second, third and fourth inputs 9a. 9b. 9c. 9d to the first, second, third and fourth outlets 8f, 8g. 8k. 8i of the decoder 8 and shows the current state of the counter X as a decimal number. The number of decimal places of pulse registration and display can be extended.

The voltage source i is connected via its output 1a to the second input 3b. 4c. 5b of the pulse counter shaping circuit X and its reset circuit ²⁸ at the same time to the fifth input 8e of the decoder 8 and the fifth input 9e of the display unit 2. The reset button T is used to reset the contents of the pulse counter X after the counting is completed.

Claims (1)

SUBJECT OF THE INVENTION A device for detecting the exact number of pieces in a set, for example, for counting sheets of paper, banknotes, number of coil windings, holders and the like, characterized in that the picking tip (6) for moving the set of counted objects during measurement is fixedly connected by 8 mechanical-electric transducers (2), which by its output (2a) is connected to the forming circuit (3) via its first input (3a), its output (3c) being connected to the first input (♦ a) of the pulse counter (4), whose first output (4b) is connected to the first input (5a) of the reset circuit (5) of the counter whose third input (5c) and the fourth input (5d) are connected to the reset button (T), while the second, third, fourth and fifth outputs (4d) 4e, 4f, 4g) of the pulse counter (4) is successively connected to the first, second, third and fourth inputs (8a, 8b, 8c, 8d) of the decoder (8), the first, second, third and fourth outputs (8f, 8g, 8h, 8i) is attached to the post at first, second, third and fourth inputs (9a, 9b, 9c, 9d) of the display unit (9), to which the fifth input (9e) is connected the output (1a) of the common voltage source (1), a second input (3b) of the forming circuit (3), longer to the second input (4c) of the pulse counter (4), longer to the second input (5b) of the reset circuits (5), to the fifth input (8e) of the decoder (8); all parts are housed in a common housing (10).