RU42465U1 - BUNKER LOADING DEVICE - Google Patents

Abstract

The invention relates to machine tools, and in particular to devices for automatic loading of technological automatic machines and automatic lines by piece blanks. The invention solves the problem of increasing the efficiency of the bunker boot device. The hopper loading device consists of a hopper with a conical bottom, a drive, a rotating funnel with a receiving part, and a tedder mounted on the surface of the receiving part of the funnel. New in the device is that the surface of the receiving part is made convex along a continuous curvilinear generatrix defined by a standard mathematical function, for example, parabolic, hyperbolic, ellipse or radius, while the input diameter of the gate satisfies the inequality 1.5lуDul + 2kdsinα + 2klcosαl - length of the workpiece; d is the diameter of the workpiece; α is the angle of inclination of the curved generatrix surface of the receiving part of the funnel at the inlet; 0.4yku0.5; 0.5уkу1), diameter D at a distance L = kd from the entrance to the funnel (0.5 <k <1) is equal to or greater than the length of the workpiece l, diameter D at a distance L = 0.5l from the entrance to the funnel is less than two diameters of the workpiece d, the output diameter D at a distance L = (1.1-2) l from the entrance to the funnel is larger than the diameter of the workpiece d, but less than the value satisfying the inequality (μ is the coefficient of friction of the workpiece sliding against the surface of the funnel), the angle of inclination to the horizontal of the generatrix of the receiving part at the entrance of the funnel α is greater than the angle of friction ρ = arctgμ and does not exceed 45 °, the angle of inclination to the horizontal of the generatrix of the receiving part is in During funnel αbolshe 80 °. When the funnel rotates as a result of intensive tedding under the action of the agitator, the workpieces move along the conical bottom of the hopper and further along the convex surface

Description

The invention relates to machine tools, and in particular to devices for automatic loading of technological automatic machines and automatic lines by piece blanks.

A device for loading parts such as balls, containing a drive (feeder), a hopper and a rotating funnel that acts as a tedder, the entry conical surface of which is part of the bottom of the hopper and profiled in the shape of a sinusoid (ed. Certificate. USSR No. 1710278, 23 Q 7 / 00, published 07.02.92).

The disadvantage of this device is its low efficiency when loading massive (weighing up to 0.1 kg) piece blanks with a aspect ratio of 1.1 <l / d <1.3 (l is the length, d is the diameter of the workpiece), which is expressed not only by a decrease the average value of the minute productivity of the device, but also an increase in the variance of the average, i.e. the range of random fluctuations in minute productivity relative to the average value, which leads to an increase in the length (capacity) of the drive.

A device for loading piece blanks of the shape of bodies of revolution, comprising a hopper with a conical bottom, a drive and a rotating funnel with a receiving conical part,

composed of two conjugated truncated cones, and agitator mounted on the surface of the receiving part of the funnel (ed. certificate of the USSR No. 666039, 23 Q 7/02, publ. 28.02.79).

The disadvantage of this device is its low efficiency when loading massive (weighing up to 0.1 kg) piece blanks with a aspect ratio of 1.1 <l / d <1.3.

The invention solves the problem of increasing the efficiency of the bunker boot device, namely increasing the average value of the minute productivity of the boot device and reducing the magnitude of random fluctuations in performance relative to the average value.

The specified technical problem is solved due to the fact that the hopper loading device containing a hopper with a conical bottom, a drive and a rotating funnel with a receiving part and agitator mounted on the surface of the receiving part of the funnel. New according to the invention, is that the surface of the receiving part of the funnel is convex along a continuous curvilinear generatrix defined by a standard mathematical function, for example, parabolic, hyperbolic, ellipse or radial, while

funnel inlet diameter D _BX satisfies the inequality

1,5lуD _BX <l + 2k ₃ dsinα _BX + 2k ₂ lcosα _BX , where

l is the length of the workpiece,

d is the diameter of the workpiece,

α _BX - the angle of inclination of the curved generatrix surface of the receiving part of the funnel at the inlet,

0.4yk ₂ y0.5, 0.5yk ₃ <1 - constant coefficients,

the intermediate diameter D ₁ at a distance L ₁ = k ₁ d from the entrance to the funnel, where 0.5 <k ₁ <1, satisfies the inequality D ₁ t1,

the intermediate diameter D ₂ at a distance L ₂ = 0.5l from the entrance to the funnel satisfies the inequality D ₂ <2d,

the output diameter D _o at a distance L = (1.1-2) l from the entrance to the funnel satisfies the inequality

μ _Tr - the coefficient of friction of the sliding of the workpiece on the surface of the funnel,

the angle α _{ВХ of the} inclination to the horizontal of the generatrix of the receiving part at the inlet of the funnel satisfies the inequality

45 °> α _BX> arctgμ _Tp

the angle α _{o of} inclination to the horizontal of the generatrix of the receiving part at the outlet of the funnel satisfies the inequality

_O α> 80 °.

The invention is illustrated by drawings, where:

figure 1 shows a diagram of a hopper loading device in the context of the axis of rotation of the funnel;

figure 2 shows a diagram of a rotating funnel in section along the axis of rotation, indicating its characteristic geometric dimensions and the position of the workpieces on the surface of its receiving part with a curved generatrix defined by the standard mathematical function y = f (x).

The hopper loading device consists of a hopper 1 with a conical bottom 2, a drive 3, a rotating funnel 4 with a receiving part and a agitator 5 mounted on the surface 6 of the receiving part of the funnel. The surface of the receiving part is made convex along a continuous curvilinear generator defined by the standard mathematical function y = f (x), for example, parabolic, hyperbolic, ellipse or radius.

The input diameter D _{inx of the} funnel satisfies the inequality 1.5lуD _inxl + 2k ₃ dsinα _in + 2k ₂ lcosα _in , where l is the length of the workpiece, d is the diameter of the workpiece, “their is the angle of inclination of the curved generatrix surface

the receiving part of the funnel at the inlet, 0.4yk ₂ y0.5, 0.5yk ₃ y1 - constant coefficients. The fulfillment of this inequality provides conditions for intensive tedding of the workpieces 7 in the capture zone and the transfer of the workpiece lying across the receiving part of the funnel 4 into a position along the curved generatrix of the receiving part, favorable for capture,

since the workpiece lying across the inlet of the funnel will interact with the workpiece located simultaneously on the surface 6 of the receiving part of the rotating funnel 4 and on the surface of the conical bottom 2 of the hopper, at a point not lower than its longitudinal axis of symmetry. At the same time, this preform will interact with the mass of preforms located on the surface of the conical bottom of the hopper, at least half of its longitudinal section.

The intermediate diameter D ₁ at a distance L ₁ = k ₁ d from the entrance to the funnel, where 0.5 <k ₁ <1, satisfies the inequality D ₁ tl. It boosts

the probability of transferring the workpiece lying across the receiving part of the funnel to a position along the curved generatrix of the receiving part, which is favorable for gripping.

The intermediate diameter D ₂ at a distance L ₂ = 0.5l from the entrance to the funnel satisfies the inequality D ₂ <2d. This eliminates the possibility of jamming simultaneously of two workpieces in the receiving part of the funnel.

The output diameter D _o at a distance L = (1,1-2) l from the entrance to the funnel satisfies the inequality where μ _Tr - the coefficient of friction of the sliding of the workpiece on the surface of the funnel. This eliminates the possibility of jamming of the workpieces at the outlet of the funnel and ensures the unhindered delivery of the workpieces from the funnel to the drive.

The angle α _in inclined to the horizontal of the generatrix of the receiving part at the inlet of the funnel satisfies the inequality 45 °> α in _x > arctanμ _TP . The fulfillment of these conditions ensures the movement of the workpieces along the curvilinear generatrix of the receiving part of the funnel and eliminates the likelihood of arch formation in the mass of workpieces located in the hopper.

The angle α of inclination _O to the horizontal generatrix of the receiving portion at the outlet funnel _O satisfies α> 80 °, which ensures the receiving portion blending hopper with buffer and no jamming preforms at the outlet of the funnel at the transition into the drive.

The described hopper boot device operates as follows. The workpieces 7 are poured into the hopper 1. When the funnel 4 is rotated from the drive of the device (not shown) as a result of intensive tedding under the action of the agitator 5, the workpieces move along the conical bottom 2 of the hopper and then fall along the convex surface of the receiving part 6 of the funnel into the funnel and are delivered to the drive 3 hopper boot device. The workpiece lying across the inlet of the funnel interacts with the workpiece located simultaneously on the surface of the receiving part of the rotating funnel and on the surface of the conical bottom of the hopper in the area of the agitator. At the same time, this workpiece interacts with the mass of workpieces located on the surface of the conical bottom of the hopper, at least half of its

longitudinal section. The unstable position of the workpiece on the convex surface of the receiving part of the funnel, made along a curvilinear generatrix, and interaction with other workpieces ensures its transfer from a position across the inlet of the funnel to a position along the curved generatrix of the receiving part of the funnel, which is favorable for gripping. The result is an increase in the efficiency of the bunker loading device when feeding blanks with a aspect ratio of 1.1 <l / d <1.3.

Claims (1)

1. A hopper loading device for feeding blanks of the shape of bodies of revolution, comprising a hopper with a conical bottom, a drive and a rotating funnel with a receiving part and a tedder mounted on the surface of the receiving part of the funnel, characterized in that the surface of the receiving part of the funnel is convex along a continuous curvilinear generatrix, wherein the input diameter D _{inx of the} funnel satisfies the inequality 1,5l≤ D _inx ≤ l + 2k ₃ d sin α _in + 2k ₂ lcos α _in , l is the length of the workpiece; d is the diameter of the workpiece; α _I - the angle of inclination of the curved forming surface of the receiving part of the funnel at the inlet, 0.4 ≤ k ₂ ≤ 0.5, 0,5 ≤ k ₃ ≤ 1, intermediate diameter D ₁ at a distance L ₁ = k ₁ d from the entrance to the funnel, where 0.5 <k ₁ <1, satisfies the inequality D ₁ ≥ l, intermediate diameter D ₂ at a distance L ₂ = 0.5 l from the entrance to the funnel satisfies the inequality D ₂ <2d, the output diameter D _ox at a distance L = (1.1-2) l from the entrance to the funnel satisfies the inequality

μ _Tr - the coefficient of friction of the sliding of the workpiece on the surface of the funnel, the angle α _{I of the} inclination to the horizontal of the generatrix of the receiving part at the inlet of the funnel satisfies the inequality 45 °> α _in > _arctan μ _tp , the angle α _{o of} inclination to the horizontal of the generatrix of the receiving part at the outlet of the funnel satisfies the inequality α _out > 80 °