RU44449U1 - FILLING UNIT - Google Patents

Abstract

The invention can be used in agricultural production and relates, in particular, to fertilizer machines. A fertilizer metering device for row fertilizer application includes a hopper, a spiral-screw type metering device, protective visors above the outlet windows, the number of which is determined by the choice of the width of the fertilizer meter and the number of rows of fertilizers. The sowing mechanism is installed in the lower part of the hopper and is made of springs mounted on a common shaft and located with right and left winding on different sides of the hopper outlet windows for transporting fertilizer to the window from two sides. The protective visor, made of two plates with a variable distance between their lower edges, has devices for fixing the position of the lower edges along the length and height of the hopper. The fertilizer application rate, in addition to the gear ratio to the metering shaft, is regulated by compressing or unclenching the springs, while ensuring a more even flow of fertilizer into rows. The visor has devices for fixing the lower edges in a predetermined position for stable operation of the sowing devices at different moisture levels of fertilizers or angles of repose. 1 s P. f-ly, 2 ill.

Description

The invention relates to agricultural machinery, in particular to fertilizer machines.

Known fertilizer apparatus (AS USSR No. 1692329, MKI5 A 01 C 7/00, 15/08) containing a hopper with inclined walls and exhaust windows in its lower part, against which a semicircular casing with outlet openings located on its sidewall is installed , sowing mechanism of a spiral-screw type of one-sided winding over the entire width of the casing and funnel under the outlet openings of the casing. The disadvantage of this fertilizer metering device is that the outlet openings of the casing are not in the very lower part of the casing, the spiral-screw sowing mechanism has one-sided winding, there is no adjustment for the introduction of fertilizers in rows, therefore, especially when working with low-flowing fertilizers or their high humidity, the quality decreases fertilizer application.

The closest in technical essence and the totality of essential features to the claimed device is a spring fertilizer apparatus ATP-2 (A. A. Mordukhovich. ATP fertilizer apparatus // Engineering in agriculture. - 1984. - No. 5. - P. 31 ... 32 ) The ATP-2 fertilizer metering device includes a hopper, in the lower part of which exhaust windows are made on the side walls, funnels located at the ends of the hopper, a spiral-screw type metering device, made in the form

two springs with right and left windings mounted on a common shaft, protective visors over the exhaust windows and sowing mechanism. The disadvantage of the ATP-2 fertilizer sowing device is the presence of only two exhaust windows, therefore, for introducing fertilizers in more than two rows, it is necessary to use several ATP-2 devices, which complicates the design of the unit and increases its metal consumption, the fertilizer application rate is regulated by changing the gear ratio of the drive mechanism, that provides a stepwise change in the application rate of fat, and the protective visors occupy only one position, which when working with low-flowing fat or high humidity deteriorate the quality of the fertilizer application.

The problem that needs to be solved is to improve the quality of making fertilizers, reduce the metal consumption and simplify the design of the drive of the sowing mechanism.

The problem is solved due to the fact that the fertilizer metering device, including a hopper, in the lower part of which there are exhaust windows, a spiral-screw type sowing mechanism made of springs with right and left windings mounted on a common shaft, protective visors above the exhaust windows and sowing mechanism, has a device for changing the pitch of the springs of the sowing mechanism, and the springs with right and left winding are located on opposite sides of the outlet windows of the hopper, and each protective visor has devices for and Changing the position of the lower edges along the length and height of the hopper.

Improving the quality of making fertilizers, reducing the metal consumption and simplifying the design of the drive of the sowing mechanism is ensured by the fact that the number of outlet windows of the hopper is determined by the choice of the number of rows of fertilizers, the sowing mechanism of the fertilizer apparatus, including springs with right and left windings located on opposite sides of the outlet windows of the hopper, provides forward movement of fertilizer to each exhaust window from two sides, while the fertilizer application rate is regulated not only stepwise the rotation speed of the seed metering shaft, but also by changing the spacing of the springs, whereby the fertilizer application rate can be adjusted in each row, the protective visors located above the metering device and the hopper outlet windows prevent spontaneous outflow of fertilizers through the outlet windows due to the angle of repose of the fertilizer applied, moreover, when working with tufts of high humidity or various angles of repose, it is possible to change the position of the lower edges along the length and height of the hopper.

Figure 1 shows a diagram of a fertilizer meter, front view.

Figure 2 shows a section aa of the proposed fertilizer apparatus.

A fertilizer metering device for row fertilizer application includes a hopper 1, in the lower part of which a spiral-screw type metering device is installed, made of springs 2 and 3 with right and left windings mounted on a common shaft 4, protective visors 5 above the exhaust

windows 6 and sowing mechanism. The springs 2 with the left winding are located relative to the outlet windows 6 of the hopper 1 on one side, the springs 3 with the right winding on the other. Each of the springs 2 and 3 of the sowing mechanism has devices 7 and 8 for changing its pitch. Each protective visor 5 made of plates 9 and 10 has devices 11 for fixing the position of the lower edges along the length and height of the hopper 1 and is configured to change its shape by changing the distance between the lower edges of the plates 9 and 10.

A fertilizer meter operates as follows.

Fertilizers, filled in hopper 1, with a spiral-type fertilizer metering device made of springs 2 and 3 with right and left windings and mounted on a common shaft 4, which is rotated by the transmission mechanism, are fed to the exhaust windows 6. Number of exhaust windows 6 determined by the choice of the width of the machine for making fertilizer and the number of rows of fertilizers. At the same time, for each outlet window 6, two springs 2 and 3 with different windings transport the fat on both sides. The fertilizer application rate is stepwise regulated in all the outlet windows 6 by the rotation speed of the metering shaft 4 and, more precisely, by changing the spacing of the springs 2 and 3. More precise stepless adjustment of the fertilizer application rate through each of the outlet windows 6 is provided by different compression forces of the springs 2 and 3 by devices 7 and 8, while it is possible to adjust the uniformity of the arrival of fats in each of the outlet windows 6. Protective visors 5 prevent spontaneous outflow

fertilizers through the exhaust windows 6. The fertilizer sowing device can operate on the application of fertilizers of various flowability and humidity. In order to avoid spontaneous outflow through the outlet windows 6 of free-flowing fertilizers, the lower edges of the plates 9 and 10 occupy the positions farthest from the outlet window 6, and to ensure the required rate of low-flow fertilizer application, they are closest to the window 6. For this, the plates 9 and 10 of the protective peak 5 can be connected using a hinge or flexible material, the device 11 is made in the form of a bolted connection, and holes are provided in the hopper 1 for fixing the position of the lower edges of the plates 9 and 10.

Thus, the fertilizer metering device has high quality fertilizer application, low metal consumption and a simplified design of the drive of the metering mechanism.

Claims (2)

1. A fertilizer metering device, including a hopper, in the lower part of which there are outlet windows, a spiral-screw type metering device made of springs with right and left windings mounted on a common shaft, protective visors above the outlet windows and the metering mechanism, characterized in that the springs of the sowing mechanism have devices for changing their pitch, and the springs with right and left windings are located on opposite sides of the outlet windows of the hopper. 2. The fertilizer metering device according to claim 1, characterized in that each protective visor has devices for changing the position of the lower edges along the length and height of the hopper.