SU649354A1 - Device for controlling sowing out for seeder - Google Patents

Description

sowing seeds, and the other to the first input of the element with L-stable states, and the output to the input of the memory element.

The drawing shows a schematic diagram of the device. It includes sensors 1 counting the number of seeds, each of which is installed at the output of the sowing apparatus 2, intended for sowing large-sized seeds 3. Each sensor

I contains an illuminator 5 n of a photoconverter 6 connected to the power source 4, installed in such a way that a cavity is formed between them, through which the sowing seed 3 traverses. The circuit breaker 7 is bridged by the switch 9 of the device health check mode.

Sensors 1 are connected to respective amplifiers 10, the outputs of which are connected to the inputs of multichannel circuit 11 are not converted. In this embodiment, the scheme

II contains three channels. The output of each amplifier 10 is connected to the reset input 12 of the corresponding element 13 with L-stable states. The counting outputs of the 14 elements 13 are combined with the first inputs of the elements 15 And through the switch

16 can be connected with sensor

17 of the seeding frequency, or with the power supply circuit of the illuminators 5. In each channel, the second inputs of the element 15 And the input of the memory element 18 are connected respectively to the nerve and / rm inputs of the element 13. The output of the element 15 AND is connected to the reset input of the element 18. The alarm unit 19 contains a sound emitter 20 connected to the output of the element 21 OR, the inputs of which, in turn, are connected to the outputs of the element 18 and the corresponding visual indicators 22.

The device works as follows.

In the working plant, the illuminators 5 of the photoelectric sensors 1 emit a light flux. When the seed device 2 leaves the seeding unit 2, the light flux is interrupted, as a result of which light flashes fall onto the photo-converter 6. As a result, the phototransducer 6 generates current pulses applied to the amplifier 10, which leads to the appearance of the signal I at the input 12 of the reset of the element 13 with L / -stable states. The sensor 17 density sowing generates current pulses, for example when passing through the cavity of each hole of the disc sowing apparatus. These pulses cause the appearance of signal I at the first input of element 15 I. At the second input of element 15, the signal will be absent (0), which is due to the presence of a signal from a FU 6 at the input 12 of the reset of element 13. Therefore, at the output of elements 15 and 18 will be O and

no information is sent to the alarm unit, i.e. there are no sound and light indications during the normal seeding process.

5 In the event that the flow of seeds coming from any sowing device 2 stops, the light flashes that feed to the photovoltaic converter 6 are stopped. Current pulses do not flow to amplifier 10,

 as a result, the input 12 of the element 13 will be 0. Pulses from the density sensor 17 of the seeding enter the element 13 and cause the appearance of signal I first on the first and then on the second input of element 15 And transmitting the signal I to the input of memory 18. When a pth pulse is detected from sensor 17 at the input of element 13, a signal I is also set at its lth output, which triggers the bath of memory element 18. Thus, a signal is generated at its output, which turns on the visual indicator 22 and, through the corresponding input of the element 21 OR the acoustic emitter 20. The display of seeding disturbances will continue until the seeding process is resumed. In the event of a termination of the flow of seeds coming from two or more sowing devices, the device works in the same way as

0 was described above, with the only difference being that the simultaneous activation of visual indicators of 22 corresponding channels and the sound emitter 20 occurs. In the event that during one split operation, several cavities between the illuminator and photoconverter are clogged with seeds, soil or some other objects, such as mezdovkina, as well as when the illuminator is damaged, the luminous flux does not flow to the phototransducer. At the same time, the latter does not generate current pulses and the device operates in the same way as in the case described above when the flow of seeds in one

5 or more sowing machines. In order to check the serviceability of the device, before the start of the operation of the spraying device in element 13, a pulse arrives from sensor 17 and from chopper 7

0 through the switch 9 test mode.

The application of the proposed invention allows to significantly reduce under-sowing, to increase the productivity of agricultural work by increasing the efficiency of technological operations during sowing and to reduce the time for elimination of the revealed violations.

Claims (2)

Invention Formula 0 A device for monitoring the seeding of seeds for seedlings, including sensors for counting the number of seeds, a sensor for seeding seeds, amplifiers of signals of these sensors, a multichannel sigpal conversion circuit with elements And, and memory and means Signaling sound and visual, characterized in that, in order to reduce the length of the screenings, regardless of the speed of movement of the crop, each channel of the multichannel conversion circuit is equipped with an element with L-stable states, the counting input of which is connected to the seeding density sensor, the reset input — to the output of the corresponding amplifier, and the output to one of the inputs of the memory element, the other input of which is connected to the density sensor of the seed, and the output to the corresponding input of the signaling means. 2. A device according to claim 1, characterized in that in each multichannel conversion scheme, one of the inputs of the element AND is connected to a seed density sensor and the other to the first input of the element with .V-stable states, and the output is to the input of the memory element. Sources of information taken into account in the examination 1. USSR author's certificate jYo 446249, cl. A 01C 7/00, 1974. 2. USSR Author's Certificate No. 584734, cl. A 01C 7/18, 10.24.74.