RU2759337C1 - Clover huller - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to agriculture. The clover huller contains a receiving hopper (1) with an inclined bottom (2) and an outlet window (3) equipped with a damper (4) for regulating the feeding of the clover hulls, a pneumatic transport channel (5) with a loading window (6), an inertial separator (7), a grating device (8), an aspiration channel (9) a fan (10), an air outlet channel (11), dampers (12 and 13) for regulating the air flow rate in the aspiration and transport channels (9 and 10). The pneumatic transport channel (5) is equipped with a triangular insert (19), the top of which is located at the level of the lower edge of the loading window (6), and the base is installed with a gap (S) relative to the inner wall of the channel (5). The outlet window (3) with a flap (4) for regulating the feeding of the clover hulls is located in the inclined bottom (2) of the receiving hopper (1) and adjoins the upper edge of the loading window (6) of the pneumatic transport channel (5), on the lower edge of which it is installed with a gap relative to bottom (2) pitched plane (21) with rotary valve (22).EFFECT: improvement of the quality of wiping the seeds is ensured due to the uniformity of feeding the clover hulls into the grating device at all operating modes of the clover huller.1 cl, 1 dwg

Description

The invention relates to agricultural engineering, in particular to devices for wiping seeds of perennial grasses and other crops.

Known clover grater K-310A, containing a conical body, lined from the inside with corrugated cast iron segments, a closed-type grating drum in the form of a truncated cone with whips and a horizontal axis of rotation, a loading neck with an axial material feed, an outlet pipe, drive mechanisms and adjusting the threshing gap and rotation frequency drum (Burkov A.I., Konyshev N.L., Roshchin OP Machines for post-harvest processing of grass seeds. Kirov: Research Institute of Agriculture of the North-East, 2003. - S. 142-145). This clover grater has a high productivity, but it has high energy consumption for the wiping process due to the large contact area of the wiping surfaces, as well as a complex technology for manufacturing the corrugated surface of the conical body. In addition, the clover grater does not have a device for cleaning seeds from light impurities after wiping, which complicate the technology of their subsequent sorting.

There is also known a clover grater containing a body, a cylindrical drum with a horizontal axis of rotation and an outer solid grating surface made of hexagonal rolled steel bars, a deck with a blank grating surface consisting of round steel bars, a tangentially installed loading 1 neck, an outlet pipe (RF patent No. 2549929 IPC A01F 11/04, bul. No. 13, 2015). This device has a simplified technology for manufacturing the grating surfaces of the drum and deck. Due to the smaller area of the grating surface of the deck and the direct-flow tangential feeding of the material into the grating device, a decrease in energy consumption for the wiping process and high productivity are provided. The disadvantage of the clover grater is the lack of a device for cleaning seeds from light impurities after wiping, which complicates its further processing. In addition, the clover grater is not protected from getting into the threshing gap together with the initial material of hard materials (metal objects, stones and other heavy impurities), which reduces its reliability.

The closest in technical essence and the achieved result to the proposed invention is a clover grater containing a receiving hopper with an inclined bottom and an outlet window located on its front wall and equipped with a flap for regulating the feeding of the pyzhina, a pneumatic transport channel with a loading window adjacent to the outlet window of the receiving hopper, an inertial separator, a grating device, an aspiration channel, a fan, an air outlet channel, dampers for regulating the air flow rate in the aspiration and transport channels (RF Patent No. 2722099 IPC A01F 11/04, bull. No. 15, 2020 - prototype). Pneumatic loading of the starting material with an air stream excludes the ingress of metal materials, stones and other heavy impurities into the grating device. The suction channel cleans the wiped seeds from light impurities.

However, at low and high feed rates, this clover grater has a low quality of wiping the seeds due to poor wiping out at a low height of the loading window (low feed) until the feed is stopped and the material is not fed evenly when the loading window is opened to a large value.

The task that needs to be solved is to improve the quality of wiping the seeds due to the uniformity of feeding the pyzhin into the grating device at all operating modes of the clover grater.

The problem is solved with the help of the proposed clover grater containing a receiving hopper with an inclined bottom and an outlet window equipped with a flap for regulating the feeding of the wad, a pneumatic transport channel with a loading window, an inertial separator, a grating device, an aspiration channel, a fan, an air outlet channel, and air flow rate control valves in the aspiration and transport channels, and the pneumatic transport channel is equipped with a triangular insert, the apex of which is located at the level of the lower edge of the loading window, and the base of the insert is installed with a gap relative to the inner wall of the channel, while the outlet window with a flap for regulating the pyzhin supply is located in the inclined bottom of the receiving hopper and adjoins the upper edge of the loading window, on the lower edge of which a pitched plane with a rotary valve is installed with a gap relative to the bottom.

As a result of the analysis of literary sources, no identical implementation of the proposed device was found. At the same time, distinctive features from the prototype impart new properties to the claimed combination, which are manifested in a positive effect.

The figure shows a diagram of a clover grater.

The clover grater contains a receiving hopper 1 with an inclined bottom 2 and an outlet window 3, equipped with a flap 4 for regulating the feeding of pyzhina, a pneumatic transport channel 5 with a loading window 6, an inertial separator 7, a grating device 8, an aspiration channel 9, a fan 10, an air outlet channel 11, dampers 12 and 13 regulation of the air flow rate in the aspiration 9 and transport 5 channels. The grating device'8 includes a body 14 with a loading mouth 15 and an outlet pipe 16. Inside the body 14 there is a cylindrical drum 17 with a horizontal axis of rotation and an outer solid grating surface and a deck 18 with a blank grating surface. Pneumatic transport channel 5 - equipped with a triangular insert 19. The top of the insert (triangle) is located at the level of the lower edge of the loading window 6, and the base is installed with a gap S relative to the inner wall of the transport channel 5. The receiving hopper 1 is equipped with a tedder 20. Its outlet window 3 is made in an inclined bottom 2 and adjoins the upper edge of the loading window 6, located on the side wall of the pneumatic transport channel 5. At the lower edge of the loading window 6, a pitched plane 21 with a rotary valve 22 is installed with a gap relative to the bottom 2. The inertial separator 7 is a sediment chamber, inside which there is a louvered grill 23. An inertial separator is installed on the loading neck 15 of the grating device and communicated by means of a pneumatic transport channel 5 with a receiving hopper 1 and an air outlet channel 11 - with a fan 10. The suction channel 9 is rectangular transverse section with a developed lower part at one end - outlet 24 is connected to the air outlet channel 11, the second end is in communication with the atmosphere, its inlet window 25 is adjacent to the outlet 16 of the grating device. The damper 12 for regulating the air flow rate in the aspiration channel 9 is installed in the branch 24. The damper 13 for regulating the air flow rate in the transport channel 5 is located in the air outlet channel 11 in the area between the inertial separator 7 and the outlet 24 of the aspiration channel.

The clover grater works as follows.

Clover pyzhin is fed into the receiving hopper 1 manually or by a lifting and transport mechanism, from where it falls under the action of gravity and the agitator 20 with the shutter 4 open through the outlet window 3 onto the sloping plane 21. When the fan 10 is running, a vacuum is created in the entire air system of the clover grater. Due to the presence in the pneumatic transport channel 5 of the triangular shape of the insert 19, the apex of which is located at the level of the lower edge of the loading window 6, when the valve 22 is open, the inflow of air from the atmosphere through the gap between the bottom 2 and the sloping plane 21 into the zone where the wad falls. Under the action of the lateral air flow, the pyzhin is loosened and moves along the sloping plane 21 through the loading window 6 into the pneumatic transport channel 5. By the air flow, the pyzhin, together with light impurities, rises up the transport channel 5 into the inertial separator 7, and heavy impurities, including stones and metal objects fall down and are taken out of the machine into the receiver 26. The air flow passing through the gap S between the base of the insert 19 and the wall of the channel 5 reduces the wall effect and contributes to the reliable transportation of the wad upward. In the inertial separator 7, under the action of inertial forces and gravity, the pyzhin is deposited and enters the loading neck 15 of the grating device, and light impurities, together with the air flow through the air outlet channel 11, are sucked off by the fan 10 and sent to a special dust-collecting device (not shown in the figure). From the loading neck 15, the pyzhin falls under the action of gravity into the gap between the drum 17 and the deck 18. When the drum 17 rotates, its grating surface captures the clover pyzhin and drags it along the grating surface of the deck 18. The normal pressure and force arising from the rotation of the drum in the compressed layer of material friction causes its intensive grinding with a slight crushing of seeds. The rubbed pyzhin through the outlet 16 and then through the inlet 25 is introduced into the aspiration channel 9, where it is cleaned by the air flow coming from the atmosphere • from light impurities (small strawy impurities, destroyed casings of bobiks, weed seeds). The cleaned seeds are removed from the clover grater into the receiver 27, and the air flow with light impurities through the air outlet channel 11 by the fan 10 is removed from the machine into a special dust collecting device.

The air flow rate in the pneumatic conveying channel 5 is regulated by a flap 13, and in the aspiration channel 9 - by a flap 12. The change in the supply of the processed material to the conveying channel 5 is carried out by a flap 4. The uniformity of the feeding of pyzhin into the grating device 8 under different operating modes of the clover grater and the fluidity of the heap is achieved by turning the valve 22 - by changing the speed of the lateral air flow and due to the presence of a gap S between the base of the insert 19 and the wall of the channel 5.

Improving the quality of wiping the seeds is achieved due to the uniformity of feeding the pyzhin into the grating device at all operating modes of the clover grater.

Claims (1)

Clover grater containing a receiving hopper with an inclined bottom and an outlet window equipped with a flap for adjusting the feeding of the wad, a pneumatic transport channel with a loading window, an inertial separator, a grater device, an aspiration channel, a fan, an air outlet channel, air flow rate control valves in the aspiration and transport channels, characterized in that the pneumatic transport channel is equipped with a triangular insert, the apex of which is located at the level of the lower edge of the loading window, and the base is installed with a gap relative to the inner wall of the channel, while the outlet window with a flap for adjusting the supply of pygmy is located in the inclined bottom of the receiving hopper and adjoins the upper edge of the loading window of the pneumatic transport channel, on the lower edge of which a pitched plane with a rotary valve is installed with a gap relative to the bottom.

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