SU829009A1 - Device for monitoring operation of seeders with pneumatic feed - Google Patents

Description

(54) DEVICE FOR THE CONTROL OF WORK OF THE SEEDERS WITH A PNEUMATIC SEEDING DEVICE

one

The invention relates to a measurement technique and can be used, in particular, to control the operation of seedlings with pneumatic sowing devices.

Instruments and devices for controlling operation in shaving apparatus are known, the main elements of which are sensitive devices with piezoelectric and photoelectric sensors, amplification electrical circuits — signal shaping, visual signals Fl.

However, devices and devices that use piezoelectric sensors are reliable in operation due to the insufficient mechanical strength of piezocrystals, since in most cases they are affected by the flow of seeds, creating shock loads. In addition, sensors installed on the path of the seed movement negatively affect the uniform distribution of seeds. Photoelectric sensors mounted on pneumatic sowing devices, give false impulses during the passage of the not completely closed suction hole.

The purpose of the invention is to increase the reliability of the control.

Claims (1)

The goal is achieved by the fact that in the device for controlling the operation of a spout with a pneumatic sowing apparatus containing a piezoelectric sensor, the output of which is connected to the input of the amplifier, the output of which is connected to the input of the converter and the optical indicator, a pulse generator of a calibrated duration and a unit are entered. 1 impulse signals in duration, the inputs of which are connected to the outputs of the converter and a generator of impulses of a finite duration, the input of which is connected to the second output y silicon, and the output is with the input of the optical indicator, and the piezoelectric sensor is installed in the vacuum chamber of the pneumatic sowing unit opposite the suction hole at a distance of no more than the length of the airflow plume. 1 shows a block diagram of the device; in fig. 2 is a diagram of a pneumatic metering device with a piezoelectric sensor installed; in fig. 3 (a, b, c) - scheme of action of the air flow torch on the sensor. The device consists of a piezoelectric sensor 1 (representing a piezoelectric element installed inside the sowing unit 7 against suction; its holes 8 Fig. 2), amplifier 2 of the signal of sensor 1, converter 3, generator 4 pulses of a calibrated duration, comparison unit 5, optical indicator 6 " The piezoelectric sensor 1 is a piezoelectric element mounted in the vacuum chamber of the sowing unit 7 opposite the suction hole 8. The device operates in the following manner. In the absence of seed at the suction hole 8 (Fig. 3a), the airflow torch acts on sensor 1 for a certain time, depending on the diameter of hole 8 and the speed of rotation of the apparatus 7. Under the action of airflow, a pulse is generated in sensor 1, which goes to amplifier 2 the sensor signal 1, then neither the generator 4 pulses of a calibrated duration and to the comparison unit 5 through the conversion unit 3. Upon receipt of a pulse, the generator 4 generates a pulse of a given duration and transmits it to comparison unit 5, where it is compared with the pulse duration of sensor 1. If the pulse duration is the same, then comparison unit 5 transmits pulse of sensor 1 to indicator 6, where the light comes on, signaling a violation of the technological process. When the hole is fully closed (Fig. 3 b), the torch of the air flow does not act on the sensor I and there is no impulse in it. If the suction hole 8 is partially closed by one seed, or two or three seeds are sucked to the hole (Fig. 3c), then through the gap between the seeds, the airflow torch acts on a time smaller than in the first case. Under the influence of this flow in the sensor 1, a pulse arises with a shorter duration. As in the first case, this pulse arrives at comparison unit 5 and generator 4. Since the pulse duration of generator 4 is greater than the pulse width of sensor 1, comparison unit 5 does not transmit a sensor pulse to indicator 6 and the light does not turn on. In this way, false positives are eliminated. The pulse duration of the generator 4 is adjusted depending on the diameter of the suction hole 8 and the number of revolutions of the sowing apparatus 7. Installing the sensor in the vacuum chamber (inside the sowing apparatus) makes it possible to eliminate the mechanical effect on the piezoelectric element and thereby increase its durability. The device allows to improve the uniformity of sowing and increase the yield of agricultural crops. by 4%. Due to the elimination of false alarms, the number of stops of the unit is reduced, as a result of which labor productivity increases by 15%. Apparatus of the invention for monitoring the operation of a forger with a pneumatic sowing apparatus, comprising a piezoelectric sensor, the output of which is connected to the input of the amplifier, whose vodoside is connected to the input of the converter, and an optical indicator, characterized in that impulses of calibrated duration and a unit for comparing impulse signals by duration, the inputs of which are connected to the outputs of the converter and the generator of impulses of a calibrated duration awns.