SU1291045A1 - Pneumatic sowing system - Google Patents

Abstract

The invention relates to the field of agricultural engineering. The purpose of the invention is to improve the quality of single-grain seeding over the entire range of speeds of movement of the crop. Pneumatic sowing: the system contains a vortex metering device 1 seed with a power nozzle 2 and a sem wire 3, an inkjet generator 4 pneumatic signals with power nozzles 5 and control 6 and output channels 7 and 8. In addition, it additionally contains a single grain selection device This device is made in the form of a control nozzle 11 and a device 12 that overlaps this wire 3. The device 12 is made in the form of two intersecting air nozzles 14 and 15 installed on the initial section of this wire and alternately overlapping this wire due to the presence of feedback 16 connecting the control channel 17 of the bistable inkjet element 13 with the control nozzle 11. 1 Cp. f-ly, 1 ill. W kg about 4ib SL 3J2

Description

The invention relates to the field of agricultural engineering, in particular to pneumatic seals.

The purpose of the invention is to improve the quality of single-grain seeding over the entire range of speeds of movement of the crop.

The drawing shows a diagram of the sowing system.

The pneumatic seeding system includes a vortex chamber metering device 1 for seeds with a power nozzle 2 and a sem wire 3, a jet heater 4 pneumatic signals with power nozzles 5 and control 6 and output channels 7 and 8, the vortex chamber control system with feedback 9 and adjustable capacitance 10 and a device for single grain selection of seeds.

A feedback 9 with a capacitance 10 connects the output channel 8 of the jet generator 4 to the control nozzle 6 and to the power supply nozzle 2 of the vortex chamber 1. The device of single-grain seed selection is made in the form of a pneumatic grip combined with the control of the vortex chamber 12, and the overlapping seed device 12 wire 3. This overlapping wire device 12 is made in the form of a bistable jet element 13 with intersecting nozzles 14 and 15 for controlling the vortex chamber 1 located on the initial portion in the wall of the wire and feedback 16, connected boiling control channel 17 of the bistable element 13 with jet nozzle 11 control the swirl chamber 1. The system 18 is installed stream synchronizer seed allowing the air pressure is varied depending on the moving speed se LCI "Vysevayuscha shlaets system from a source 19 of compressed air.

The system works as follows.

The air flow from the synchronizer 18 through the channel is supplied to the nozzle 5 of the power supply of the jet generator 4 and through the output channel 8 and the nozzle 2 of the vortex chamber 1 feeds the seed flow.

The air-seminal flow moving in the vortex chamber due to the straight-line portion of the escaping part of the chamber is directed into the zone of action of the control nozzle 11.

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The seed flow through the seed wire 3 is obstructed by the air flow exiting the control nozzle 15. In it. time in the output channel 7, the connection of the NOM with the SOPLA 11 of the control of the vortex chamber 1 creates a vacuum that can hold a single sem coming from the moving air-seed flow.

10 After the seed is sucked to the pneumatic gripper, the vacuum in it increases, which is transmitted via the feedback channel 16 to the control channel 17 of the bistable jet element 0.

five

0

5 ment 13, allowing the air stream to be switched, flowing into the output channel of the jet element 13 connected to the control nozzle 15, to another output channel connected to the control nozzle 14.

The air flow5 flowing out of the control nozzle 14 prevents seeds from getting into the zone of action of the control nozzle 11, moving away the seeds from the single seed adhered to the nozzle 11.

At the same time, a portion of the air flow from the channel 8 of the jet generator through the feedback channel 9 enters the regulated tank 10, after. filling the air flow into the control channel 6 and switches the air stream flowing from the power nozzle 5 to the output

5, the channel 7, which falls into the control nozzle 11 and pneumatic grip, causes a single sem-to-sem wire to overcome the air flow of the control nozzle 14. When a single seed is sucked through the sem wire in the control nozzle 11, the pressure is transferred, which is transmitted through the feedback channel 16 and the control channel 17 of the bistable jet element 13 and switches the jet from the control nozzle 14 to the nozzle 15. Bistable jet element 13 of the overlapping wire 12 is adjusted so that the vacuum in the nozzle 11

0 control in the absence of a single semen is not able to switch the air flow of the element, and only in the presence of semen does the higher negative pressure switch the air flow.

0

five

Switching the jet generator 4 to the initial position; fe occurs due to the outflow jet from the power nozzle 5

3 12 strives to maintain a stable position.

The flow synchronizer 18 changes the supply pressure of the jet generator 4 depending on the speed of movement of the crop, the frequency of generation of the generator varies synchronously with the speed of movement and depends on the value of the volume of the tank 10, by varying the volume of which the seeding rate is regulated.

Such a design of a single sampling device, consisting of a control nozzle 11 and a device 12 that overlaps this wire 3, allows for hundredths of a second (switching time of element 13) to take a single seed from a moving seed stream and sow the seeds one by one with different norm (frequency) and speed of movement of the crop.

Claims (2)

Invention Formula one . A pneumatic seeding system, containing a source of compressed air, a metering device in the form of a vortex chamber with power and control nozzles. Or A.Petrov 7922/1 Compiled by V.Golenischev Tehred Iopopnovch Corr Sub Circulation 638 VNIIPI USSR State Committee for inventions and discoveries 113035, MocKBk, Ж-35, 4/5 Raushska nab. / Production and printing company, Uzhgorod, st. Project, 4 045 adjacent to this sem wire with a device for its blocking, jet generator of pneumatic signals and synchronizer of seed flow, g characterized in that o five 0 the purpose of increasing the quality of single grain seeding over the entire range of speed of movement of the crop, it is additionally equipped with a device for single grain selection of seeds, which is made in the form of a pneumatic swirl chamber control combined with a nozzle, and a bistable jet element whose control channel is connected in connection with the control nozzle of the vortex chamber, and the device for blocking this wire is made in the form of two intersecting air nozzles installed on the initial section in the wall of the wire, at. In this way, the nozzles are pneumatically connected to the output channels of the bi-stable jet element. 25 2. The system of p. T, tl and In the final section of the acceleration of seeds, the vortex chamber was made straight. Proofreader S.Shekmar Subscription