RU2650077C1 - Dispenser of scrap-and-air mixture - Google Patents

Abstract

FIELD: dosing devices.

SUBSTANCE: invention relates to dosing devices and can be used for dispensing a scrap-and-air mixture. Dispenser comprises hopper (1) tapered downwards with a discharge hole. On the bottom of hopper (1) there is shaft (4) with a transporting spiral made in the form of screw (2) and a drive. Screw (2) is arranged in casing (3). Above screw (2) an adjusting flap is mounted in order to change the amount of fed scraps having a graduation corresponding to a set flow rate of the scraps. Flap has an adjusting screw mechanism for changing the size of a window above screw (2). In the lower part of casing (3) of screw (2) sieving window (8) is made. Sieving window (8) is connected to inclined pipeline (9) and is hermetically connected to pressure pipeline (10) of high-pressure fan (11) in order to form mixing chamber (12). Behind mixing chamber (12) there is screw swirler (13) of the flow connected by scraps pipeline (17) with a plant for the subsurface intrusion of fertilizers or meliorants.

EFFECT: increasing the accuracy of dosing, providing the possibility of changing the value of feeding the scrap-and-air mixture.

1 cl, 2 dwg

Description

The invention relates to agricultural machinery, in particular to fertilizer machines for feeding fertilizers into the root layer of the soil.

ATP-2 fertilizer sowing apparatus is known, consisting of a hopper, sowing mechanism, funnels equipped with diffusers and a drive mechanism, while the sowing mechanism is a shaft on which two spiral springs with left and right coils are worn, as well as bushings for installing diffusers (Khalainsky V.M., Gorbachev I.V. Agricultural Machines .-- M .: Kolos S, 2004 .-- 624 p.: Ill. - p. 143).

The disadvantages of this fertilizer sowing apparatus include the low accuracy of fertilizer dosing, the inability to supply fertilizers to the soil with increased pressure for their distribution in the root layer of the soil.

Known spiral feeder-dispenser, including a tubular housing with loading and unloading necks and a conveying spiral located in it, a drive and a rod, the rod being placed in the cavity of the conveying spiral from the opposite side of the drive with axial movement to the required depth (Patent RU No. 20152527 IPC B65G 33/24).

The disadvantage of this metering feeder is the discrete nature of dose control, since when the rod is introduced to any depth in the cavity of the conveying spiral, the cross-sectional area of the transported flow of bulk material in the tubular body decreases by a constant value equal to the cross-sectional area of the rod. In addition, the scope of use of this type of feeder-dispenser is limited, in particular when placing the conveying spiral directly in the bunkers at high pressure of the overlying bulk material.

Known batcher of bulk materials of continuous action (USSR Author's Certificate No. 222781, class A01C 15/16) containing a tapering hopper with an unloading hole, a shaft with a transporting spiral and a drive located on the bottom of the hopper, while the transporting spiral is located on the shaft with the possibility of changing the pitch turns and its ends connected with the shaft by means of bushings with a retainer.

A dispenser of this type with a variable pitch of the turns of the conveying spiral, in comparison with the previously described, makes it possible to smoothly dispense bulk material. However, in the design of this dispenser, the necessary change in the pitch of the turns of the spiral along the length of its working part located in the area of the discharge opening is due to axial tension or compression of the entire length of the spiral, which is associated with the cumbersome design of the dispenser. So, for example, if you want to change the pitch of the spiral from 40 to 10 mm along the length of its working part with the number of turns equal to 20, then the margin of the length of the free part of the spiral should be 600 mm. For this reason, the dispensers in question are suitable for use in feed bins of low capacity or high height with a small area of the discharge neck.

Known feeder-dispenser of bulk solids of continuous action, containing a downwardly narrowing hopper with an unloading hole, a shaft with a transporting spiral located on the bottom of the hopper and a drive, the spiral being located on the shaft with the possibility of changing the pitch of the turns and connected to the shaft by means of bushings with a clamp, while it contains a mechanism for changing the pitch of the turns of the spiral, which is made in the form of a two shoulders lever, is located on the shaft from the side of the discharge hole and divides the spiral into a transporting and dosing part, the two-arm lever is placed in the through groove of the shaft on the axis with the possibility of limited rotation in the groove plane, and the shoulders of the said lever are provided at the ends with rollers with a radial groove interacting with the spiral coil, and the free end of the shaft is made in the form of an axle for rotating the shaft relative to fixed on the spiral bushes with adjusting changes in the pitch of the turns of the conveying and metering parts of the spiral (RU, patent for invention No. 2406978 C1, IPC G01F 13/00, A01C 15/16).

The disadvantages of this metering feeder include the inability to supply a given flow rate of bulk materials, as well as their pressure introduction into the root layer of the soil. This dosing feeder is accepted by us as the closest analogue.

The essence of the claimed invention is as follows.

The problem to which the invention is directed is to increase the accuracy of dosing with the possibility of changing its pressure head to supply the air-fluid mixture to the root layer of the soil.

EFFECT: supply of a precisely prescribed amount of fertilizer to a fertilizer pipeline, communication of a fertilizer mixture of rotational motion, pressure feed of a fertilizer mixture into an intrasoil fertilizer plant.

The specified technical result is achieved in that the air-fuel metering device contains a hopper tapering to the bottom with an unloading hole, a shaft with a transporting spiral located on the bottom of the hopper and a drive, according to the invention, the conveying spiral is made in the form of a screw placed in a casing, an adjustment flap is mounted above the screw for changing feed values, the damper has an adjusting screw mechanism for changing the size of the window above the screw, the adjusting damper has divisions corresponding to the given At the bottom of the screw casing, a sowing window is made in the lower part of the auger casing.

The analysis of the prior art by the applicant, including a search by patents and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by all the features of the claimed invention. Therefore, the claimed invention meets the requirement of "novelty" under the current law.

The invention is illustrated by drawings.

In FIG. 1 shows a metering device of airborne mixture, a cross section.

In FIG. 2 is a view A in FIG. one.

Information confirming the possibility of implementing the claimed invention is as follows.

The fertilizer-air dispenser contains a hopper 1 tapering towards the bottom, in the lower part of which a screw 2 is mounted, located in the casing 3, a shaft 4, and the screw 2 is supported by sliding bearings 5 located in the sidewalls 6 and has a chain drive through an asterisk 7.

In the lower part of the casing 3 of the screw there is a sowing window 8, coupled with an inclined pipe 9, hermetically connected to the pressure pipe 10 of the high-pressure fan 11. A mixing chamber 12 is formed at the junction of the inclined pipe 9 with the pressure pipe 10. A screw swirl 13 is provided behind the mixing chamber 12. flow. An adjustment flap 14 is mounted above the screw, provided with a screw mechanism 15 for changing the size of the inlet window above the screw. To set a predetermined dosing quantity, a dial 16 is provided on the adjusting flap 14. A piping 17 is mounted behind the swirler 13. Before starting work, the adjustment flap 14 is set to the required flow rate using the screw mechanism 15. The hopper 1 is filled with granular fertilizers and sowing begins. When the screw 2 rotates, its screws capture the fertilizers coming from the inclined adjusting flap 14 and move it to the sowing window 8. From the sowing window 8, the fertilizers pass through the inclined pipe 9 into the mixing chamber 12, into which air is supplied under pressure from the fan 11 through the pipe 10 .

In the mixing chamber, the air-fluid mixture is formed, which enters the screw swirler 13, which ensures the flow of the air-air mixture is twisted. Rotating air-fluid mixture enters the installation for subsoil fertilizer through the duct 17.

Claims (1)

Fertilizer dispenser, comprising a hopper tapering downward with an unloading hole, a shaft with a transporting spiral located on the bottom of the hopper and a drive, characterized in that the conveying spiral is made in the form of a screw located in the casing, an adjustment flap is mounted above the screw to change the feed rate, the flap has an adjusting screw mechanism for changing the size of the window above the screw; the adjusting flap has divisions corresponding to a given flow rate of fertilizers; in the lower part of the screw casing A sowing window is connected, connected by an inclined pipe and hermetically connected to the pressure pipe of a high-pressure fan with the formation of a mixing chamber; behind the mixing chamber, a screw flow swirl is mounted, connected by a piping to a plant for the introduction of soil fertilizers or land reclamants.

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