RU2415615C1 - Vibration mixer of loose fodders - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agricultural machines to prepare fodders. Vibration mixer of loose fodders comprises longitudinal beams, rigidly joined to each other by means of crosspieces, where gussets are installed, front and back stands, longitudinal angles, links, springs fixed on them with the help of brackets, which connect rotary frame to a vibration chute body, which comprises mixing elements, rods and adjustment plates, over which hopper feeders are arranged, equipped with control mechanisms for fodder feed and installed on the frame, and an electric motor. The electric motor is arranged under the bottom of the vibration chute and is fixed on a fixed support. The mixer is equipped with a spring, one end of which is connected to the vibration chute body, and the second end is fixed on a fixed support, and the system of the motor control, inlet of which is connected to three-phase AC circuit. The electric motor makes linear reciprocal motion and is arranged in the form of a linear induction motor, the secondary element of the three-phase linear induction motor is directly the vibration chute body. The winding of the three-phase linear induction motor is connected to outlet of the motor control system.

EFFECT: invention application will make it possible to increase reliability and efficiency of operation of vibration fodder mixer.

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Description

The invention relates to agricultural machinery for the preparation of feed and is intended to obtain a homogeneous feed mixture from different types of feed.

Known vibration mixer of bulk feed, comprising a support frame consisting of lower longitudinal beams rigidly interconnected by crossbars on which are installed scarves, front and rear racks; a rotary frame, which consists of longitudinal angles, to the end part of which the base plate of the eccentric mechanism is rigidly fixed, and springs are attached to the jumpers with brackets, connecting the rotary frame with a vibratory gutter, in which there are mixing elements, rods and adjustment plates, over which the hoppers are mounted -dosers equipped with feed adjusting mechanisms mounted on the frame. An electric motor is a direct current rotational motor through a belt drive connected to a mechanism for converting rotational motion into reciprocating, connected to the vibratory groove with the help of traction rigidly connected to the vibratory groove.

The disadvantages of the known vibratory mixer of bulk feeds are reduced technical and economic indicators due to the increased weight and size characteristics of the drive (Sabiev UK, Keruchenko LS, Chernyakov AV, Yatsunov AN Justification of the main parameters of the vibration mixer bulk feed // Technique in agriculture, 2008, No. 4 - 47 pp., Ill .; Sabiev UK, Yatsunov AN Vibratory mixer for bulk feeds // Selsky machine operator, 2007, No. 1 - 21 pp .: ill.).

The aim of the invention is to improve technical and economic indicators (reducing the cost, overall dimensions and mass of the drive, increasing the efficiency, reliability and performance of the vibratory mixer of bulk feed).

This goal is achieved by the fact that the vibratory mixer of bulk feed containing longitudinal beams, rigidly interconnected by crossbars on which kerchiefs, front and rear racks, longitudinal corners, lintels, with brackets mounted on them springs connecting the rotary frame with the vibratory chute, are installed, which consists of mixing elements, rods and adjusting plates, over which metering hoppers are installed, equipped with feed adjusting mechanisms mounted on the frame , the electric motor, according to the invention, is equipped with a spring, one end of which is connected to the body of the vibratory chute, and the second end is fixed to a fixed support, the engine control system, the input of which is connected to a three-phase AC network, and the electric motor performs linear translational motion and is made in the form of a three-phase linear asynchronous engine, and the secondary element of a three-phase linear induction motor is directly the body of the vibratory chute, the electric motor is located under the bottom of the rozheloba and fixed to a fixed support, vibration gutter body is made of galvanized steel, wherein the winding is a three phase linear induction motor is connected to the output of the engine control system.

Due to the fact that the vibratory mixer of bulk feeds is equipped with a spring, one end of which is connected to the body of the vibratory chute, and the second end is fixed to a fixed support, the engine control system, the input of which is connected to a three-phase AC network, and the electric motor performs linear translational motion and is made in the form of a three-phase a linear asynchronous motor, the secondary element of a three-phase linear asynchronous motor is the body of the vibratory chute, and the electric motor is located under its bottom ohm and mounted on a fixed support, while the winding of a three-phase linear induction motor is connected to the output of the engine control system, technical and economic indicators are improved (weight and dimensions are reduced, the drive is cheaper, the reliability and performance of the vibratory mixer of bulk feeds are increased).

The drawing shows a diagram of a vibratory mixer bulk feed. The invention is illustrated by the diagram shown in the drawing.

The vibrating mixer of bulk feed contains longitudinal beams 7, rigidly interconnected by crossbars, on which kerchiefs 9 are installed, front struts 4 and rear racks 1, longitudinal corners 3, jumpers 8, springs 10 attached to them by brackets 19 connecting the rotary frame 5 with a vibratory chute 11, which includes mixing elements 12, rods 13 and adjustment plates 14, over which metering hoppers 17 are installed, equipped with feed control mechanisms 18, mounted on the frame 6, spring 2, od the other end of which is connected to the housing of the vibratory gutter 11, and the second end is mounted on a fixed support, the engine control system 16, the input of which is connected to a three-phase AC network, a three-phase linear induction motor 15. The secondary element of the three-phase linear asynchronous motor is the vibratory gutter 11, under the bottom which is the motor mounted on a fixed support. The winding of a three-phase linear induction motor 15 is connected to the output of the motor control system 16.

Vibratory mixer bulk feed works as follows.

The original bulk feed is fed through the hoppers of the dispensers 17 into the vibratory chute 11. The vibratory chute 11 is equipped with mixing elements 12, rods 13 and adjusting plates 14. The vibratory chute 11 is driven by a three-phase linear induction motor 15, while the housing of the vibratory chute 11 itself is a secondary element of a three-phase linear asynchronous motor 15. The operation of a three-phase linear induction motor is controlled by the motor control system 16, periodically supplying and disconnecting power to its winding by a sensor signal the position of the housing of the vibratory chute 11. Under the action of vibration, the bulk feed moves in the vibratory chute 11 to the first mixing element, on which, due to the conical surfaces, loosening and primary mixing takes place. Further, the particles of granular mass entering the conical surface at different distances from the axes of their bases, which are parallel to the longitudinal axes of the trench, as a result of contact with the cones are reflected at different speeds and in different directions, which contributes to the intensification of mixing. After this, the feed falls from the gear component of the mixing element on the bottom of the vibratory gutter and moves along the conical surfaces, but of the second and subsequent mixing elements. The mixed mass leaves the discharge chute.

According to the theory of linear induction motors (Fridkin P.A. Gearless arc-controlled electric drive. - L.: Energy, 1970; Veselovsky ON, Konyaev A.Yu., Sarapulov F.N. Linear induction motors. - M.: Energoatomizdat, 1991. - 256 p.: Ill.) The speed of the secondary element is determined by the expression:

where τ is the pole division of the motor, m; f ₁ - the frequency of the AC voltage, Hz.

From (1) it follows that, due to the correct choice of the pole division value τ of a three-phase linear induction motor, corresponding to that required for a given process of mixing bulk feeds, the speed of the secondary element of a three-phase linear asynchronous motor, an increase in the quality of mixing and an increase in the productivity of the vibratory bulk mixer feed.

To convert the translational motion of a three-phase linear induction motor into the oscillatory motion of the vibratory chute of the vibratory bulk feed mixer, the winding of the three-phase linear asynchronous motor is connected to the mains through the engine control system, and a spring fixed to the fixed support is connected to the body of the vibratory chute of the vibratory mixer of bulk feeds. When power is applied to the winding of a three-phase linear induction motor, it moves the body of the vibratory chute of the vibratory mixer of bulk feeds, stretching the spring fixed to the body. When the housing of the vibratory gutter is set by the position control system according to the signal of the position sensor, the control system disconnects the winding of the three-phase linear induction motor from the network. Due to the potential energy stored by the spring when moving the body of the vibratory chute of the vibratory mixer of bulk feed, it returns to its original position, while the signal from the engine control system sends a signal to turn on the power to the winding of a three-phase linear induction motor. Further, the specified cycle of work is repeated (Aipov RS, Oscillating linear electric drive of machines in agricultural production. // Mechanization and electrification of agriculture. - 2005. No. 11). Thus, the control system makes it possible to change the amplitude and frequency of oscillation, by adjusting the moment of switching on and off the three-phase linear induction motor.

From this it follows that there is the possibility of regulating the vibration frequency of the vibratory chute of the vibration mixer of bulk feeds and to obtain such values of vibration frequencies at which the most intensive mixing of bulk feeds is achieved, which, in turn, can significantly improve the quality of preparation of feeds and the throughput of the vibration mixer of bulk feeds . The need to change the vibration frequency of the vibratory chute of the vibratory bulk mixer arises depending on the type, grade, moisture content of the bulk feed.

The presence in the kinematic diagram of the spring drive, one end of which is connected to the body of the vibratory chute of the vibratory loose mixer, and the second end is fixed on a fixed support, can reduce the energy consumed from the network by returning the body of the vibratory chute to its original position under the action of the potential energy of the spring accumulated during movement, which improves the efficiency.

Thanks to the use of a three-phase linear asynchronous motor in the drive of the vibratory mixer of bulk feed, the secondary element of which is the body of the vibratory chute directly, the direct drive of the vibration mixer of bulk feed is carried out. This simplifies the kinematic scheme of the drive, increases reliability and efficiency, reduces the weight, dimensions and cost of the vibratory mixer of bulk feed.

With this design of the vibratory mixer of bulk feeds, its kinematic drive scheme is simplified, weight, dimensions and cost are reduced, reliability, efficiency and productivity are increased.

Claims (1)

A vibratory bulk feed mixer containing longitudinal beams rigidly interconnected by crossbars, on which kerchiefs, front and rear racks, longitudinal angles, lintels are installed, springs are attached to them by brackets, connecting the rotary frame to the vibratory chute body, which includes mixing elements, rods and adjusting plates, over which dispenser hoppers are placed, equipped with adjusting feed feeding mechanisms and mounted on the frame, and an electric motor, distinguishing the fact that the electric motor is located under the bottom of the vibro-chute housing and is fixed on a fixed support, as well as the fact that the mixer is equipped with a spring, one end of which is connected to the vibro-chute case, and the second end is fixed on a fixed support, and the engine control system, the input of which is connected to a three-phase AC network, while the electric motor performs linear translational motion and is made in the form of a three-phase linear induction motor, a secondary element of a three-phase linear asynchronous motor S THE vibration gutter body itself and winding three-phase linear induction motor is connected to the output of the engine control system.