RU2682899C1 - Screw conveyor for viscous substances - Google Patents

Abstract

FIELD: transportation.SUBSTANCE: back side of the blade of the dynamic shaft of the screw conveyor is protected by an air cushion, which makes it possible to practically reduce the flow of fluid during the application of a pulse and organize the direction of the pulse in the necessary technological need.EFFECT: possibility of organizing the direction of the action of a pulse of force increases the efficiency and quality of the dynamic effect, durability and reliability by reducing loads in kinematic pairs, reducing energy losses, turbulence of substances behind the back of the blade when the blade is idling.1 cl, 3 dwg

Description

FIELD OF THE INVENTION

The invention relates to mechanical engineering and can be used for transporting, washing and mixing liquid, bulk, fractional and other materials in the chemical, pharmaceutical, perfumery, construction, mining, food and other industries.

The problems of transporting materials and often with simultaneous mixing with increased intensity are present in many technological processes in various industries. To solve this problem, various screw conveyors have been created with a special screw shape, static and dynamic rotation of the shaft.

Torsional vibration conveyors have significant advantages in terms of energy consumption, process quality, and productivity.

State of the art

Known conveyor for bulk and dusty materials (AS USSR No. 339474, class 65 G 33/38 G, published 01.24.1972, Bull. No. 17), comprising a housing with a screw installed therein and a gear transmission connected to an electric motor.

The disadvantage of this device is the increased energy consumption for oscillations of the entire shaft speck, the kinematic dependence of the parameters of uniform and impulse rotation, loss of exposure to a single pulse in the direction of its action and the size of the perception surface.

Known pulse rotator screw mixer (AS USSR No. 1593694 A1, class B01F 7/08 G, published 09/23/1990, Bull. No. 35) containing a motor, gearbox, exciter, solar wheel with clearance and internal surfaces, equidistant surfaces auger.

The disadvantage of this device is low productivity and a small area of dynamic impact, specialized application, significant dynamic energy consumption per unit of production, increased wear of the impact surfaces.

Known conveyor for transporting materials, containing a housing with a loading hatch and a discharge window, a screw made in the form of individual shaped-shaped blades (Spivanovsky A.O. Dyachkov V.K. Transporting machines - M. Mechanical Engineering, 1983, pp. 351-353 ). The conveyor is designed for mixing caked materials with an additional mixing operation.

The disadvantage of this conveyor is its low productivity due to the limited fill factor and periodic transportation of each blade.

Also known is a conveyor for transporting materials (utility model patent No. 141931, class 65 G 33/34 G, published on 06/20/2014, Bull. No. 17) selected as a prototype, comprising a housing, loading and unloading devices, a screw conveyor, a shaft hollow with windows, internal shaft with dynamic impact blades installed in the windows of the hollow shaft.

The disadvantage of this conveyor is the loss of pulse energy, especially in viscous media, due to the flow of viscous media around the blades and the filling of the resulting void behind the surface of the shovel when it moves under the influence of a pulse. Due to this, the effectiveness of vibration exposure and the flow of viscous material into the space behind the blade is lost.

Disclosure of invention

The claimed device is based on the task of reducing pulse energy loss by implementing a device for filling voids behind the blade. It was experimentally established that the resulting negative impulse absorbs a significant part of the supplied energy. In the experimental setup, the energy of the input pulse was determined by the value of the mass incident from a given height. The perception of energy supplied by a viscous liquid (in particular water) was determined by the displacement of the measuring plate immersed in the liquid. When changing the distance from the working surfaces of the blades to the surface of the measuring plate, the supplied energy of a single pulse caused the measuring plate to move in the opposite direction of application of the pulse, i.e. the force applied to the surface of the blade does a negative job. The effectiveness of such a device using a pulse of a given direction can approach zero and even be negative.

The technical result achieved in the process of implementing the proposed device is that the use of the proposed device reduces the negative effect of the pulse, eliminates the effort to create voids behind the blade, increases the efficiency, durability and operational reliability of the conveyor due to artificial filling of the empty space.

The specified technical result is achieved in that a screw conveyor of viscous substances containing a drive, a housing, loading and unloading devices, a screw and blades of a dynamic shaft, while according to the invention, the back side of the blade is made with a protective device that is mounted on elastic, corrugated seals and forms between the back of the blade and the front surface of the protective device is a closed volume of air space connected by the duct with the atmosphere.

The torsional vibration impulse reports the movement of the working surface of the auger blades according to technologically justified laws, and the rear movable part of the blade reduces the movement by changing its position relative to the main second part. The rear part of the auger blade is located in the air space connected to the atmosphere. Given the strength of the interaction of the viscous fluid and the moving part of the blade, it is reasonable to assume that they move together, and the oscillation of the moving part of the blade will take place with a reduced force of interaction between the back of the main part of the blade and the material being processed through the air gap.

In addition, the flow of viscous material to the eliminated void from the back of the blade is excluded, and the pulse energy will be mainly directed towards the needs of the material being processed and the improvement of the technological process.

Thus, when applying a torque impulse, the back side of the main part of the blade moves in the air space formed by a protective element connected to the atmosphere through special air ducts. This eliminates the loss of energy on the movement of the viscous substance of the back of the blade and the formation of a void into which the substance enters from the front of the blade. The energy of the applied pulse, in this case, is spent in the intended direction and the efficiency of the dynamic load is increased.

In motion, the protective device, when imposing an impulse, is stationary relative to the transported substance, and the blade vibrates according to a given amplitude-frequency characteristic. The torsional momentum in the working direction moves the mass only in the front part, in the opposite direction the speed of the blade protector approaches the speed of the material being processed. The back side of the main part of the blade moves in midair. A relatively motionless protective device saves the energy of the pulse and eliminates the formation of voids in a viscous substance and does not allow its flow.

This allows you to direct the energy of a single pulse in the necessary direction with minimal losses and get the maximum efficiency of a high-quality technological process in viscous substances at a minimum cost per unit of production.

A comparative analysis with the prototype shows that the declared screw conveyor of viscous substances is characterized in that the dynamic action of the blades is organized in the direction of the optimal direction while eliminating the inefficient viscous fluid flow around the blades and eliminating dynamic resistance on the back of the blade by installing a protective device and communication with the atmosphere of the air space between the back of the blade and the front wall of the device.

In the proposed device for the first time the task of protecting the developed technical solution of the rear part of the blade from negative loads by creating an air gap, which allows us to conclude that the device meets the patentability condition "Inventive step".

Brief Description of the Drawing

In FIG. 1 shows a General view of a screw conveyor of viscous substances; in FIG. 2 - auger conveyor blade side view with section; in FIG. 3 is a front view of a screw conveyor blade with a tear and a partially removed protective device.

Device description

The device is illustrated by a drawing (see Fig. 1) of a general view, the blades (see Fig. 2) side view and the blades (see Fig. 3) front view with a tear and partially removed protective device containing the drive 1, the body 2 of the conveyor, loading 3 and unloading 4 devices, dynamic drive shaft 5, static drive shaft 6, blades 7, oscillating part 9, static drive auger 8, protective device 10, corrugated seal 11 and air duct 12.

The device operates as follows.

When you turn on the drive 1 in the housing 2 starts to rotate the auger 8 of the static drive and make an oscillatory movement of the shaft 5 of the dynamic drive with blades 7. The housing 2 of the conveyor is filled through the boot 3 device. The oscillating part 9 of the blade 7 performs torsional vibrations together with the shaft 5 and periodically acts on the processed material. To reduce the vacuum behind the blade 7, a protective device 10 is made with a corrugated seal 11 and an air duct 12 connected to the atmosphere. The independent movement of the protective device 10 when applying a pulse excludes the force interaction of the rear part of the blade 7 with the material being processed due to the low resistance to vibrations in the air of the rear part 9 and the constant contact of the protective device 10 with the material in the screw conveyor, all pulse energy is perceived by the working surface of the blade.

During the uniform movement of the screw, viscous substance and the protective device, the oscillation of part 9 of the blade 7 occurs with minimal losses and a maximum value of the dynamic impact, without unnecessary flow of the transported viscous substance and loss of energy of the directed pulse.

This design of a screw conveyor of viscous substances allows you to transport material with maximum productivity, active mixing with a directed pulse, rational use of the selected direction of the pulse, reducing the loads of the negative pulse and uncontrolled flow of viscous substances over the blade.

The use of the described device can reduce the load of kinematic pairs, energy consumption per unit of production, increase productivity, durability and reliability of the device, eliminate additional energy consumption for the flow of substances when filling voids from the back of the blade.

A comparative analysis of the claimed device shows that the set of essential features of the claimed conveyor for transporting materials is not known from the prior art and, therefore, meets the condition of patentability “Novelty”.

The above information confirms the possibility of using the claimed conveyor for transporting viscous substances with the active use of directional pulse energy and therefore comply with the patentability condition "Industrial Applicability".

Claims (1)

A screw conveyor of viscous substances containing a drive, a housing, loading and unloading devices, a screw and blades of a dynamic shaft, characterized in that the back side of the blade is made with a protective device that is mounted on elastic, corrugated seals and forms between the back of the blade and the front surface of the protective devices closed volume of air space associated with the duct with the atmosphere.

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