UA80631C2 - Top harvester - Google Patents

Abstract

A top harvester has a rotor with blades fixed tangentially the ends of which are bent in the direction opposite to the direction of rotation of a rotor. The ends of blades have a bent arched shape and are mounted as rotary ones on axes which are arranged in the radial direction. The bent ends of the blades have a mechanism to change and to fix position thereof relative to the blade. The cylindrical body behind an unloading opening has an extension towards the external side. The use of the machine proposed allows increasing the productivity by 1.2-1.5 times.

Description

Description of the invention

The invention belongs to agricultural machine building, in particular to the transport and 2 loading working bodies of ghee harvesting machines.

There are various designs of transporting and loading working bodies of string harvesting machines: chain, rod and belt conveyors, string conveyors, screw conveyors, etc. | see the book: "Beet harvesting machines. Design and calculation", L.V. Pogorelii, N.V. Tatyanko, V.V. Brey. etc. Under the commune. ed. L.V. Burnt - K.: Technika, 1983. - p. 43, fig. 14-15). The well-known transporting and 70 loading working bodies work in such a way that the particles of gorse cut from the heads of root crops (gospel mass) are given translational or linear rotational speed and transported in the required direction, creating conditions for cleaning the gospel mass from soil impurities: due to their sifting through bars conveyors or created air jet.

The well-known "Gychkozbaralna machine" (patent of Ukraine Mo44825, АБ10О 23/06, АО10О 81/10, publ. in Bull. Mo3, 2002, 72 - prototype), which has a scoop in the form of a bladed rotor, installed in a cylindrical body, with this end blades are deviated from the radial position by some angle in the direction opposite to the direction of rotation of the rotor, and the cylindrical body in front of the discharge opening has an outward extension.

Loading of the spinner with a hook occurs from one side with the help of a feeding screw conveyor, which is installed coaxially with the blade rotor. This is the way the machine works. On the bladed rotor of the spinner, which rotates on the drive horizontal shaft, installed in a cylindrical housing with holes for receiving and spinning the spinner, the mass of spinner is fed by the screw conveyor, which falls on the blade. Then, due to centrifugal forces, it passes to the bent ends of the blades and, when the latter rotate in the lower part of the cylindrical body, it is fed upwards and then thrown into the guide trunk. At the same time, the jet is transported upwards not only due to its contact with the rotor blades (the bent ends of the blades), but also by the air stream formed by these blades.

The shortcoming of the prototype design is the low productivity due to clogging of the cylindrical body with a ghee, which does not have time in the upper part to descend from the bent ends of the blades into the unloading hole and further into the guide trunk, but is involved in repeated rotation down again inside the cylindrical body. As our experimental studies have shown, the loading auger conveyor throws the vast majority of the dough to the end wall of the cylindrical body, as a result of which only that part of the bent ends of the blades, which is located on this side, is loaded. In the gap between the end wall of the ee, the cylindrical body and the blades, a significant part of the mass of wet scum accumulates, which leads to the clogging of the squeegee and frequent failures in the operation of the scum harvesting machine. Therefore, the amount of scum that enters the blade is limited, significantly reducing the productivity of the machine. co

The invention sets the task of increasing the productivity of the sorghum harvesting machine.

The task set by the invention is achieved by the fact that the string harvesting machine, which consists of a loading device, which is made in the form of a feeding auger, a string thrower with a drive rotor, "8, with tangentially fixed blades, the ends of which are bent in the direction opposite to the direction of rotation Z 0 of the rotor, which installed in a cylindrical body with an unloading hole and a guide trunk, which, in front of the unloading hole, has an outward extension, according to the invention, the ends of the blades have a concave

It has an arc-shaped shape and is rotatable on axes that are located in the radial direction, while the ends of the blades have a mechanism for changing and fixing their position on the blade, and the cylindrical body behind the discharge opening has an outward extension.

Fig. 1 shows a schematic diagram of a string harvesting machine (general view from the side). Fig. 2 shows a cross-section A-A of Fig. 1. av | The string harvesting machine has a rotor 1 with tangentially fixed blades 2, the ends of which are bent in the direction opposite to the direction of rotation of the rotor 1. At the same time, the ends of the blades 2 have a concave arc-shaped shape and are mounted on axes 4, which are located in the radial direction. The bent ends of each blade 2 and 20 also have mechanisms 5 for changing and fixing their position relative to the blades 2. The rotor 1 together with the blades 2 is placed inside the cylindrical body b, which has a loading port 7 on one side, and on top

With unloading 8 holes. On the side of the loading hole 7, coaxially with the rotor 1, there is a feeding screw conveyor 9. In front of the unloading hole 8, the cylindrical body 6 has an extension 10 outwards, and behind the unloading opening 8 there is also an extension 11 also directed outwards. 29 Above the external extensions 10 and 11, the guide trunk 12 is attached to the cylindrical body 6.

GF) The string harvesting machine works as follows. The sugar beet husk, which is pre-cut by the sugar beet cutter, is fed by the screw conveyor 9 through the loading hole 7 into the cylindrical body 6, where it is captured by the blades 2 of the rotor 1. Due to the centrifugal forces, the husk particles slide along the surfaces of the blades 2 and fall on their bent ends 3. At the same time, since the bent ends C 60 of the blades 2 have a bent arc-shaped shape, this contributes to the guaranteed capture by the ends C of a compact pile of cottonwood, even the one that is very wet, and its transportation to the discharge opening 8. At the same time, the bent ends C are mounted on the blades 2 in a rotatable manner on the axes 4, which are installed on the blades 2 radially, which makes it possible to turn their concave arc-shaped surfaces (at different angles) in the direction that is located opposite the loading hole 7. This will contribute to the fact that the main mass of the hook fed by the screw conveyor 9 , will fall not on the end wall of the cylindrical body 6, but directly inside the arcuate their planes of the bent ends 3. With the help of mechanisms 5, changing and fixing the position of the bent ends З, they can be turned on the axes 4 relative to the blades 2 to the required angle and fixed in this position. Further, during the rotation of the rotor 1, the bent ends Z with the masses of the captured swag move below the cylindrical body 6, but in front of the discharge hole 8 of the cylindrical body 6, thanks to the expansion to the outside, free space is provided for the swag to descend from the ends C of the blades 2 of the rotor 1 and not clogging of the cylindrical body 6 occurs. In addition, for a guaranteed descent of the hook from the bent ends of the blades 2 of the rotor 1, in addition, on the cylindrical body 6 behind the discharge opening 8, there is also an extension 11 to the outside, which helps to increase the time during which the arc-shaped surfaces of the bent ends C 7/o are freed from gibberish In addition, inside the space of the cylindrical body 6 on the side of the unloading opening 8, the mass of the slag is additionally picked up by the air jet created by the blades 2, which additionally creates conditions for its complete unloading into the guide trunk 12 and further into the bunker or the vehicle moving nearby.

The use of the proposed weed harvesting machine will increase productivity by 1.2... 1.5 times.

Claims (1)

19 The formula of the invention A string picking machine, consisting of a loading device, which is made in the form of a feeding auger, a string thrower with a drive rotor, with tangentially fixed blades, the ends of which are bent in the direction opposite to the direction of rotation of the rotor, which is installed in a cylindrical body with an unloading hole and a guide trunk, which in front of the unloading opening has an outward expansion, which is distinguished by the fact that the ends of the blades have a concave arc-shaped shape and are installed rotatable on axes that are located in the radial direction, while the ends of the blades have a mechanism for changing and fixing their position on the blade, and the cylindrical body behind the discharge opening has an extension in the outer side. Shchi 6) "- so (Se) "c) d) - and? (ee) («c) (22) (95) - name) 60 b5