RU2749367C1 - Device for feeding bulk material - Google Patents

Abstract

FIELD: dosing equipment.
SUBSTANCE: proposed invention relates to dosing equipment, it can be used for feeding various bulk materials in agricultural, forestry, seed processing equipment in order to divide them into fractions. The device for feeding bulk material contains a triangular hopper, made with the possibility to adjust the angle of its inclination, rotating rollers mounted on the case, a feeding flap, made with the possibility to adjust the angle of its inclination, 3 pairs of flaps regulating the flow of bulk material, the gaps between which determine the feed of bulk material to the rotating rollers of the device. The degree of opening of the feed flap provides a certain gap between the feed flap and the bottom of the triangular hopper, which creates a flow of bulk material. Three pairs of flaps regulating the flow of bulk material are self-regulated with the possibility of changing the angle of their convergence-divergence with the help of calibrated springs having different elastic coefficients, and therefore different tensile forces. The calibrated springs of the middle self-regulating flaps have a lower tensile force compared to the calibrated springs of the upper self-regulated flaps and a larger one compared to the calibrated springs of the lower self-regulated flaps, as a result of which the largest mass of bulk material is accumulated in front of the upper self-regulated flaps, and the smallest mass is accumulated in front of the lower self-regulated flaps, which ensures self-regulation and even flow of bulk material.

EFFECT: an increase in the evenness of the feed of bulk material to the working bodies.

1 cl, 1 dwg

Description

The invention relates to metering equipment and can be used for supplying various bulk materials in agricultural, forestry, seed-processing equipment in order to separate them into fractions.

Known separator of bulk materials (US Pat. RF No. 2471572; IPC В07В 1/04, В07 / В 1/46; publ. 01/10/2013), including installed zigzag in a vertical channel sifting devices, forming a central and two lateral zigzag channels parallel to the central , a loading hopper, branch pipes for the output of separated fractions, pitched boards located above the screening devices. Sifting devices are made in the form of combs, which are a set of fingers. At the beginning of the combs, L-shaped drives in the form of solid boards are installed. On sloping boards and L-shaped storage devices, rods are fixed, oriented in the direction of movement of bulk material and having a circular cross-section.

The disadvantages of this separator are its structural complexity, high metal consumption, as well as the complexity of adjustment for the separated fraction of bulk materials.

Known separator of bulk materials (US Pat. RF No. 2148439; IPC В07В 1/04, В07 / В 1/46; publ. 05/10/2000), including sifting devices installed in a zigzag manner in a vertical channel, located under screening devices with a gap of deflectors, a loading device and branch pipes for the output of the separated fractions. Above the screening devices, reflectors are installed in the form of solid pitched boards, cantilevered in rollers, which, in turn, are fixed with brackets on the collectors of the screening devices. Reflectors in the form of solid pitched boards have triangular recesses, which are directed along the direction of movement of the bulk material. The sifting devices are equipped with a mechanism for turning at a certain angle to the horizon.

The disadvantages of this separator are the low nomenclature of the separated material, as well as the need for a cleaning mechanism to remove seeds stuck between the screening devices, which complicates the design.

Known device for feeding bulk material (US Pat. RF No. 2725195; IPC В07В 1/46, В07В 1/14; publ. 06/30/2020), containing a triangular hopper made with the ability to adjust the angle of its inclination, rotating rollers mounted on the body, a supply flap, made with the possibility of adjusting its angle of inclination, while the degree of opening of the supply flap provides a certain gap between the supply flap and the bottom of the triangular hopper, which creates a flow of bulk material, 3 pairs of valves regulating the flow of bulk material, the gaps between which determine the supply of bulk material to rotating rollers of the device. In each of the pairs of dampers regulating the flow of bulk material, one damper is made stationary, and the other is adjustable, with the possibility of changing its angle of inclination. Taken as a prototype.

The disadvantage of this device for feeding bulk material is that when using a rigid fixation of the shutters, it becomes more difficult to adjust the gap between the shutters, which leads to the accumulation of a mass of the flow of bulk material in front of them and, as a consequence, to uneven feeding.

The main task to be solved by the invention is to create a device that makes it possible to increase the uniformity of the supply of bulk material to the working bodies due to the uniform distribution of the mass of the flow of bulk material on the adjustable flaps.

The technical result is achieved by the fact that in a device for feeding bulk material containing a triangular hopper made with the possibility of adjusting the angle of its inclination, rotating rollers mounted on the body, a feeding flap made with the possibility of adjusting its angle of inclination, while the degree of opening of the feeding flap provides a certain gap between the supply gate and the bottom of the triangular hopper, which creates a flow of bulk material, 3 pairs of valves regulating the flow of bulk material, the gaps between which determine the supply of bulk material to the rotating rollers of the device, according to the invention, 3 pairs of valves regulating the flow of bulk material are made self-adjusting with the possibility changes in the angle of their convergence-divergence with the help of calibrated springs having different coefficients of elasticity, and, consequently, different tensile forces, namely: calibrated springs of medium self-adjusting flaps have a lower tensile force compared to with the calibrated springs of the upper self-regulating dampers and more than the calibrated springs of the lower self-regulating dampers, as a result of which the largest mass of bulk material accumulates in front of the upper self-regulating dampers, and the least uniform in front of the lower self-regulating dampers, which ensures self-regulation and flow

FIG. 1 shows a diagram of a device for feeding bulk material.

The device for feeding bulk material contains a triangular hopper 4, made with the possibility of adjusting the angle of its inclination, rotating rollers 2 mounted on the body 3, and two types of dampers - a feed 5 and three pairs of self-adjusting 1, and the feed shutter 5 is made with the ability to adjust its angle tilt, and self-adjusting dampers 1 are made with the possibility of changing the angle of their convergence-divergence using tared springs 6 having different coefficients of elasticity, and, therefore, different tensile forces: tared springs of middle self-adjusting dampers have a lower tensile force compared to tared springs of the upper self-regulating dampers and more compared to the calibrated springs of the lower self-regulating dampers.

The work of the device for feeding bulk material is as follows.

Bulk material (for example, seeds) is poured into the triangular hopper 4. The triangular hopper 4 is set to the required angle. The supply flap 5 is set at the desired angle, which makes it possible to provide a certain gap between the supply flap 5 and the bottom of the triangular hopper 4. The maintained gap creates a flow of bulk material, after which the supply flap 5 is rigidly fixed.

The bulk material begins to fall down under gravity and rests against the upper self-adjusting dampers, the gap a ₁ (Fig. 1) between which is provided by the stretching force of the calibrated springs 6. When a certain accumulated mass of bulk material is reached, the upper self-adjusting dampers open, and the bulk material is poured to the middle self-regulating dampers. The passage of bulk material through the middle and lower self-adjusting valves is similar to the passage through the upper self-adjusting valves, with the only difference that, due to the difference in the required stretching forces of the calibrated springs 6, a different mass of bulk material accumulates in front of the upper pair, in front of the lower - the smallest. In this case, the gaps a ₁ , a ₂ , a ₃ (Fig. 1) between the self-adjusting flaps 1, when the bulk material passes through them, determine the shape and speed of its supply to the rotating rollers 2.

Thus, self-regulation and uniform flow of bulk material is ensured. Having passed all the dampers, the bulk material is fed to the rotating rollers 2, where it is further calibrated by size into fractions.

Such an embodiment of the device for feeding bulk material makes it possible to increase the uniformity of the supply of bulk material to the rotating rollers of the device due to the automatic formation of a gap between self-regulating dampers and redistribution of the mass of the flow of granular material to these dampers.

Claims (1)

A device for feeding bulk material, containing a triangular hopper made with the possibility of adjusting the angle of its inclination, rotating rollers mounted on the body, a feeding flap made with the possibility of adjusting its angle of inclination, while the degree of opening of the feeding flap provides a certain gap between the feeding flap and the bottom a triangular hopper that creates a flow of bulk material, 3 pairs of valves regulating the flow of bulk material, the gaps between which determine the supply of bulk material to the rotating rollers of the device, characterized in that 3 pairs of valves regulating the flow of bulk material are self-adjusting with the ability to change the angle of their convergence-divergence with the help of calibrated springs with different coefficients of elasticity, and, consequently, different tensile forces, namely: the calibrated springs of the middle self-adjusting dampers have a lower tensile force compared to the calibrated springs of the upper self-adjusting valves adjustable dampers and more than the calibrated springs of the lower self-adjusting dampers, as a result of which the largest mass of bulk material accumulates in front of the upper self-adjusting valves, and the smallest mass in front of the lower self-adjusting valves, which ensures self-regulation and uniform passage of the flow of bulk material.

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