SU1160960A1 - Apparatus for determining vitality of seeds - Google Patents

Abstract

1. A DEVICE TO DETERMINE THE VIABILITY OF SEEDS, containing a series-connected current source, measuring circuit and two different-sized electrodes arranged with a gap one above the other, with the surface of the upper electrode facing the lower one made of an elastic material, characterized in that increasing productivity by automating the processes of feeding seeds one by one into the zone for determining and separating non-viable seeds from viable seeds, it is equipped with a mechanism installed under the electrodes The separation path of the seeds with its means of rotation, connected to the measuring device, and the electrodes are made as installed with the possibility of counter-rotation and facing each other with the side surfaces of the disks, with cells on the side surface of the lower electrode. 2. A device according to claim 1, characterized in that the separation mechanism of the seeds is made in the form of plates, and the means for turning it - in the form of an electromagnetic relay, the measles of which is connected to the plate, and the winding is connected to the measuring device.

Description

The invention relates to agriculture, in particular to devices for determining the viability of the seeds, and can be used to separate non-viable seeds before sowing. A device is known for determining the viability of seeds, containing a series-connected current source, a measuring instrument, a vessel with a liquid, and two electrodes. The electrodes are made flat or needle-shaped and are located in a vessel with liquid. The electrolyte solution obtained when the seeds are placed for 24 hours in a vessel with a liquid between electrodes 1 is checked for electrical conductivity. A disadvantage of the known device is the low productivity of seed testing due to the need for a certain period of time for preparing the solution to be tested. In addition, the device does not allow separate non-viable seeds to be isolated (making a measurement of electrical conductivity for a group of seeds), as a result of the test, the seeds are destroyed and cannot be used for sowing. The closest to the present invention is a device for determining the viability of seeds, containing connected in series adjustable current source, measuring device and two electrodes arranged one above the other with a gap, with the surface of the upper electrode facing the bottom one made of elastic material. The device allows separate non-viable seeds to be isolated, and the seeds are not destroyed when tested more viable and can be used for sowing 2. The disadvantage of this device is the low productivity due to the fact that the electrodes are made in the form of different-sized cylinders facing one another. sides, allows the seed to be fed by hand only manually. The purpose of the invention is to increase productivity by automating the processes of feeding seeds one by one into the detection zone and separating non-viable seeds from viable seeds. The goal is achieved by the fact that a device for determining the viability of seeds, containing a series-connected current source, a measuring device and two different-sized electrodes arranged with a gap one above the other, with the surface of the upper electrode facing the lower one made of an elastic material equipped with electrodes the seed separation mechanism with its turning means connected to the measuring device, and the electrodes made in the form of installed with the possibility of of rotation and facing each other side surfaces of the disc, wherein on the lateral surface of the lower electrode formed cell. The mechanism of separation of seeds is made in the form of plates, and the means of its rotation - in the form of an electromagnetic relay, the measles of which is connected to the plate, and the winding is connected to the measuring device. The drawing shows a device for determining the viability of seeds. A device for determining the viability of seeds contains a current source 1, a measuring device 2, two electrodes 3 and 4 arranged one above the other, a hopper 5, turning means 6, a seed separation mechanism in the form of a plate 7 and a receiver 8 for seeds divided by two compartments 9 and 10 (compartment 9 is for receiving nonviable seeds, compartment 10 for viable seeds). Current source i, meter 2 and electrodes 3 and 4 are connected in series. Electrodes 3 and 4 are made in the form of disks of different sizes, face each other by side surfaces, and are fixed on axes 11 and 12, respectively, one above the other with a gap 13 with the possibility of counter-rotation. The lateral surface of the electrode 3 is made of an elastic material, such as wool felt, and on the side surface of the lower electrode 4 there are cells 14 for accommodating the seeds 15. Above the electrode 4 is located. the hopper 5, at the base of which there is a slot (not shown). The tool 6 of rotation is connected to the output of the measuring device 2 and is made in the form of an electromagnetic relay, the measles 16 of which is connected to the plate 7 attached to the axis 17 with the possibility of rotation around it. The plate 7 and the seed receiver 8 located under it are placed under the electrodes 3 and 4 on the side opposite to the hopper 5. Thermometer containing current source 1 is used as measuring instrument 2. The size of the gap 13 between the electrodes 3 and 4 is 0.5 mm. On the side surface of the lower electrode 4, cells 14 are made uniformly over the surface, the dimensions of which correspond to the sizes of seeds 15 and equal to 6.5 mm. The diameter of the upper electrode 3 is 20 mm, the diameter of the lower electrode 4 is 120 mm. The dimensions of the slit in the base of the loading hopper 5 correspond to the sizes of the seeds and are 2.5-3 mm. The device works as follows. Before the testing of the seeds, the electrodes 3 and 4 do not rotate and the seeds from the hopper 5 do not enter the gap 13 between the electrodes 3 and 4. The resistance Re of the air gap 13 between the electrodes 3 and 4 in the absence of seeds is large and the current T flowing through the circuit 1 current source - measuring device

2 - electrodes 3 and 4, is small, and the current value is less than the response threshold tJnop of electromagnetic relay 6 (). Consequently, the contacts of the relay 6 are open and the plate 7 connected to the bark of the relay 6 is installed in a position in which its upper part is located near the electrode 4 and the lower part above the compartment 10 for viable seeds 15 of the receiver 8. The elastic material covering the lateral the surface of the electrode 3 is wetted to eliminate the effect of the moisture of the seeds 15 when checking for the magnitude of their resistance.

When an electric motor (not shown) is turned on, electrode 4 rotates around axis 12 clockwise, and electrode 3 rotates counterclockwise around axis II. From the loading hopper 5, the seeds 15 flow through the slot at the base into the gap 13 between the electrodes 3 and 4 and are placed piecemeal in cells 14 on the lateral surface of the lower electrode 4.

By placing a viable seed between the electrodes 3 and 4, the resistance of the air gap 13 decreases, and the current Y in the circuit increases. Since the viable sem has a large resistance, the current 3 in the circuit remains less than the threshold of operation of the Elor relay 6, while the contacts of the relay 6 remain open and the plate 7 is inclined towards the compartment 10 for the viable seeds. The seed, when rotating the electrode 4, falls onto the plate 7 and enters the compartment 10 for viable seeds of the receiver 8.

When a non-viable seed 15 with low resistance arrives between electrodes 3 and 4, the resistance Ra of the air gap 13 decreases, and the current i in the circuit increases, and its value becomes greater than the threshold of operation (Epor relay 6 (3 3)). As a result, relay 6 contacts closed, the bark 16 moves back and forth, turning the plate 7 around the axis to a position in which its upper part is separated from the electrode 4, and the lower part is located above the compartment 9 for non-viable seeds 15. Sem while turning Electrode 4 falls and enters compartment 9 for non-viable seeds. After removal of the non-viable seed from the gap 13 between the electrodes 3 and 4, the resistance R of the air gap 13 increases, the current i in the circuit decreases and again becomes less than the current E & op of the trigger threshold of the relay 6, while the contacts of the relay 6 open and the plate 7 turns around axis 17 in the tilt position towards the compartment 10 for viable seeds. The device is ready to check the next seed 15. The proposed device (compared

5 with known) increases the productivity of seed testing by 6 times (by automating the processes of seed feeding by the piece into the zone of identification and separation of non-viable seeds from viable ones). In addition, the seeds tested by the proposed device are not destroyed as a result of the test and can be used for sowing.

Claims (2)

1. DEVICE FOR DETERMINING VITALITY OF SEEDS, containing a current source connected in series, a measuring device and two different-sized electrodes located one above the other, with the surface of the upper electrode facing the lower one made of an elastic material, characterized in that, in order to increase productivity by automating the processes of supplying seeds piece by piece to the zone of determination and separation of non-viable seeds from viable seeds, it is equipped with a mechanism p separation of seeds with the means of its rotation connected to the measuring device, and the electrodes are made in the form of installed counter-rotating and facing each other by the side surfaces of the disks, and on the side surface of the lower electrode made cells. 2. The device according to π. 1, characterized in that the mechanism for separating seeds is made in the form of plates, and the means of rotation is in the form of an electromagnetic relay, the anchor of which is connected to the plate, and the winding is connected to the measuring device.