RU2187054C1 - Dryer with friction drive of drum - Google Patents

Abstract

FIELD: chemical, food and other industries; treatment of loose materials. SUBSTANCE: according to invention, dryer with friction drive of drum has drum housing on which two support bandages are secured which rest on four rollers, and shaped blades are installed on inner surface over entire perimeter of drum housing. Drum is installed for rotation under action of two support rollers connected with drive and arranged at left side relative to axis of drum rotation when drum is rotated clockwise, or at right side, in case of counter-clockwise rotation. EFFECT: reduced load on support rollers, power output of drive motor and coefficient of friction. 2 dwg

Description

 The present invention relates to techniques for processing bulk materials in a rotating drum and can be used in food, chemical and other industries.

 The closest in technical essence and the achieved effect is a drum-layer drying and cooling apparatus (Grebenyuk S.M. Technological equipment of sugar plants. - M.: Light and food industry, 1983.-530 p.), Containing a perforated drum on which two supporting braces are mounted, supported by four rollers, two of which being leading, are interconnected by a shaft receiving rotation from an electric motor, and are placed on the right side relative to the axis of rotation of the drum (when determining ron drum viewed from the end where its rotation is clockwise). On the inner surface of the drum, curly blades are installed around the entire perimeter, overlapping one another.

 A disadvantage of the drum-layer drying and cooling apparatus is that the friction drive of the drum is characterized by a high and uneven load on the support rollers, has an increased power of the drive electric motor and requires the creation of large values of the sliding friction coefficient.

 An object of the invention is to reduce the load on the support rollers, reducing the power of the drive motor and the values of the coefficient of sliding friction.

 The technical problem is achieved by the fact that in the dryer with a friction drive of the drum containing the drum body, on which two supporting brackets are mounted, supported on four rollers, curly blades are installed on the inner surface of the housing around the perimeter, the new one is that the drum is installed with the possibility rotation from two support rollers connected to the drive and located on the left side relative to the axis of rotation of the drum when rotating it clockwise or on the right side when rotating it against clockwise.

 The technical result consists in reducing the load on the support rollers, reducing the power of the drive motor and the values of the coefficient of sliding friction.

 In FIG. 1 shows a longitudinal and cross section of a drum with a peripheral blade nozzle and power circuits; figure 2 shows four possible schemes of the friction drive: a - the rotation of the drum is transmitted from one roller located on the left side of the axis of rotation; b - rotation of the drum is transmitted from one roller located on the right side of the axis of rotation; c - rotation of the drum is transmitted from two rollers located on the left side of the axis of rotation; g - rotation of the drum is transmitted from two rollers located on the right side of the axis of rotation.

 The dryer with a friction drive of the drum (Fig. 1) contains a drum casing 1 on which two supporting braces 2 are mounted, supported by four rollers 3, 4, 5 and 6, and figured vanes (not shown).

 The drum is mounted rotatably from two support rollers 3 and 4, connected to the drive and located on the left side relative to the axis of rotation of the drum mounted rotatably clockwise or on the right side when rotating it counterclockwise.

 The rational placement of the drive support rollers follows from the consideration of four different power schemes of the friction transmission of the drum.

 In the first diagram (Fig. 2, a), the drum is driven into rotation by one support roller located on the left side relative to the axis of rotation of the drum (in this case, when determining the sides, the drum is viewed from the end where it is rotated clockwise). At the same time, on the left side during rotation of the drum, the bulk of the bulk product is concentrated, which is shaded in all schemes.

где Φ - угол наклона барабана, рад.To illustrate the static equilibrium of the drum according to the first scheme, we use FIG. 1, which shows the static equilibrium of the drum, to which the following forces are applied:
- external driving forces of the friction drive F 'and F "applied at the contact points of the tires and drive rollers, directed tangentially in the direction of rotation of the drum;
- the gravity of the product and the drum G _n and G _b directed vertically downward. The application of forces G _n and G _b along the axis of the drum is determined by the dimensions a, b, c, d, which depend on the design of the drum and the nature of filling it with a bulk product. In a drum dryer with a lifting paddle nozzle, provided the drum is uniformly filled with a bulk product, the forces C _n and G _b are located at half the length of the drum. In this case

where Φ is the angle of the drum, rad.

где R - внутренний радиус барабана; r - размер лопатки; z - количество лопаток, на которых находится сыпучий продукт; S - площадь поперечного сечения слоя продукта, захватываемого одной лопаткой; L - длина барабана; γ - насыпная масса сыпучего материала; g - ускорение частицы продукта при свободном падении;

где M₁ - статический момент, который необходимо приложить к барабану для перемешивания в нем продукта; Θ - угол естественного откоса продукта.In normal sections, the forces G ' _b and G " _{b are} applied at points O; the magnitude of the force G _n and the position (shoulder l of the product’s gravity) are calculated by the equations

where R is the inner radius of the drum; r is the size of the scapula; z is the number of blades on which the bulk product is located; S is the cross-sectional area of the product layer captured by one blade; L is the length of the drum; γ is the bulk mass of the bulk material; g is the acceleration of the product particle in a free fall;

where M ₁ is the static moment that must be applied to the drum to mix the product in it; Θ is the angle of repose of the product.

The forces G _n and G _{b are} decomposed into the normal and axial components G _n sinΦ, G _n cosΦ, G _b sinΦ, G _b cosΦ.
The normal components are again decomposed into the forces G ' _b , G " _b , G' _n , G" _n , acting in sections A-A and B-B;
- reactions of the support rollers T ₁ , T ₂ , T ₃ , T ₄ applied to the drum at the points of contact with the bandages and directed along the radii to the axis of rotation;
- friction forces between the bandages and the support rollers, the thrust roller F ₁ , F ₂ , F ₃ , F ₄ , F ₅ ;
These forces act in the planes of normal sections A-A and B-B, are applied at the points of contact of the rollers with the bandages, are directed along the tangents to the circles in the direction opposite to the peripheral speed of the drum and these points.

где r - радиус опорного ролика; r₁ - радиус цапфы опорного ролика; r₁ - радиус бандажа; k - коэффициент трения качения; f - коэффициент трения скольжения по цапфе.For the first scheme of the friction drive (figure 2, a), sliding friction in the pins is taken into account for the three support rollers. In section AA reaction of the support rollers T ₁ , T _{2 the} magnitude of the external driving force F 'is determined by the equations

where r is the radius of the support roller; r ₁ is the radius of the journal of the support roller; r ₁ is the radius of the bandage; k is the coefficient of rolling friction; f is the coefficient of sliding friction on the axle.

где r₂ - радиус упорного ролика; r₃ - радиус цапфы упорного ролика, которые при F₃ = T₃(k + r₁f)/r принимают вид

где l - расстояние от линии центра тяжести слоя продукта до оси вращения барабана, м.To determine the reactions of the support rollers T ₃ , T ₄ and the external driving force F "are used equations (4) - (6)

where r ₂ is the radius of the thrust roller; r ₃ is the radius of the axle of the thrust roller, which at F ₃ = T ₃ (k + r ₁ f) / r take the form

where l is the distance from the line of center of gravity of the product layer to the axis of rotation of the drum, m

где η_n - коэффициент полезного действия механических передач, установленных между электродвигателем и ведущими роликами; n - частота вращения барабана.Drive power is determined by the equation

where η _n is the efficiency of mechanical gears installed between the electric motor and the drive rollers; n is the rotational speed of the drum.

Мощность фрикционного привода барабана, выполненного по второй схеме, также определяется по уравнению (10).In the second diagram (figure 2, b) the drum is driven into rotation by one roller located on the right side relative to the axis of rotation. The static equilibrium of the drum is characterized by equations (7), (9), as well as equations

The power of the friction drive of the drum, made according to the second scheme, is also determined by equation (10).

 In the third diagram (figure 2, c), the drum is driven into rotation by two support rollers located on the left side relative to the axis of rotation. The equations of static equilibrium of a drum with such a drive are considered above.

Результаты расчетов нагрузок на опорные ролики и мощности привода барабана с периферийной лопастной насадкой приведены для сушки семян подсолнечника для различных схем фрикционной передачи и представлены в таблице.In the fourth diagram (figure 2, g) the drum is driven into rotation by two support rollers located on the right side relative to the axis of rotation. The static equilibrium of the drum is described by equations (11) - (13), as well as equations

The results of calculations of the loads on the support rollers and the drive power of the drum with a peripheral blade nozzle are given for drying sunflower seeds for various friction transmission schemes and are presented in the table.

 The friction drive, made according to the second and fourth schemes, is characterized by a high and uneven load on the support rollers. The fourth scheme essentially differs from the second in that a lower value of the coefficient of sliding friction is required for the transmission of torque by the two support rollers, which somewhat reduces the support reactions on the individual rollers and the power of the drive motor.

 The friction drive, made according to the first and third schemes, is more rational in that it gives less load on the support rollers, has less power of the drive electric motor and requires a lower value of the sliding friction coefficient.

 The calculation results shown in the table show that of all the friction drive circuits, the third circuit is the best in all respects, however, for this circuit, a sufficiently high value of the sliding friction coefficient between the bandage and the drive rollers is required.

 The load on the support rollers depends not only on the drive circuit and operating parameters of the rotating drum, but also on the accuracy of the manufacture of parts, the accuracy of assembly of the assemblies, and the thoroughness of installation. If the contact points of the bandages and the support rollers are not in the same plane, then the uneven load on the individual rollers increases. Often, in practice, when operating industrial drums, the picture is observed when the rotating drum does not rest on 4 rollers, but only on 3; the fourth roller does not rotate due to the lack of contact with the bandage of the drum. This indicates the errors made in the manufacture, assembly and installation.

 The apparatus with a rotating drum is a construction of significant dimensions, most of the details of which are obtained by bending, rolling, welding, autogenous cutting. These processing methods are pretty crude; permissible deviations of sizes vary widely.

When calculating a dryer with a friction drum drive, one cannot focus on the high accuracy of manufacturing, assembly and installation. Given the real conditions of manufacture, the friction drive of the drum with one drive roller can be implemented only when the bearings of the rollers are installed on the foundation through elastic elements, for example, springs, compensating for errors in the manufacture, assembly and installation. When the roller bearings are rigidly fixed to the foundation, there must be two drive friction rollers, and the strength analysis of the parts must be carried out based on the possible maximum roller load T = T ₃ + T ₄ .

 A screw feeder 7 serves to load the product into the drum. A precipitation chamber 8 is adjacent to the drum dryer, which has a lock gate 9 for removing the product from the dryer and waste heat pipe 10. Sealing devices (not shown) are installed between the stationary parts and the rotating drum.

 A dryer with a friction drum drive operates as follows.

 The housing 1 of the drum (figure 1) is driven in rotation from the drive. The rotation from the electric motor is transmitted to two support rollers 3, 4 located on one side of the axis of rotation of the drum, i.e. leading are the left rollers in sections aa and bb (Fig. 1). The drum rotates due to the frictional force between the drive rollers 3, 4 and the band 2 of the drum. At the same time, they begin to load initial wet material into it through the screw feeder 7 and to supply the coolant. The bulk product is captured by the blades and gradually poured into the coolant flow, evenly distributed over the cross section of the drum, where it is dried. During this period, each particle is washed from all sides by a drying agent, which ensures intense heat and mass transfer. In contact with the coolant is almost the entire bulk product. However, during the rotation of the drum, the bulk of the bulk product is concentrated in the area of the drive rollers 3 and 4, which further increases the degree of adhesion to the bandages 2.

 Thus, the proposed dryer with a friction drum drive can reduce the load on the support rollers, reduce the power of the drive motor.

Claims (1)

 A dryer with a friction drive of the drum, comprising a drum body on which two support brackets are supported, supported by four rollers, curly blades are installed on the inner surface around the perimeter, characterized in that the drum is rotatably mounted from two support rollers connected to the drive and located on the left side relative to the axis of rotation of the drum when rotating it clockwise or on the right side when rotating it counterclockwise.

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