RU2152819C1 - Rotary pulsating apparatus - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: rotary pulsating apparatus relates to devices for dispersion, homogeneity and transfer of homogeneous mixtures and may be used in production of milk products, sauces, catchups, alcohol, creams, paints, adhesives, water-residual fuel, building materiels, etc. The apparatus combines functions of disperser, homogenizer and pump, and has drive, rotor and stator accommodated in apparatus body. Rotor and stator working surfaces have toothed members presenting rows of projections and hollows concentrically located over circumference. The apparatus also has pump inlet blades rigidly attached to rotor working surface, pump outlet blades in the form of projections of rotor last row of toothed members and circular grooves made between rows of toothed members of stator and rotor. Number of pump outlet blades exceeds that of pump inlet blades made of the same or different height and thickness. Projections and hollows of each row of rotor and stator toothed members are displaced over circumference with respect to preceding row. Number of projections in rows of toothed members increases from center to periphery, number of hollows and central angle of toothed member hollows of rotor and stator are of different values. EFFECT: higher operating reliability, convenience in operation and servicing, improvement of ergonomic characteristics in combination with production of high grade products. 4 cl, 4 dwg

Description

 The invention relates to devices for dispersing, homogenizing and moving homogeneous mixtures and can be used in the production of dairy products, sauces, ketchups, alcohol, creams, paints, adhesives, water-fuel oil, building materials, etc.

 The closest to the claimed invention in terms of features is a rotary-pulsation apparatus containing a drive and a rotor and stator installed in the housing, on the working surfaces of which are gear elements, which are rows concentrically arranged around the circumference, consisting of protrusions and depressions (see RF patent N 2124935, IPC 7 В 01 F 5/06, В 01 F 7 / 10,1999).

 This rotary pulsation apparatus does not provide the supply of finished products to the consumer and requires an additional pump.

 The objective of the invention is the combination in one apparatus of the functions of the dispersant, homogenizer and pump.

 The technical results when using the invention are: the combination of several functions in one device, improving the reliability, ease of operation and maintenance of the device, improving ergonomic indicators while obtaining a high-quality product.

 The indicated technical results are achieved in that the rotary-pulsating apparatus comprising a drive and a rotor and a stator installed in the housing, on the working surfaces of which are gear elements, which are rows concentrically arranged around the circumference, consisting of protrusions and depressions, is equipped with pump inlet blades, rigidly attached to the working surface of the rotor, the outlet vanes of the pump, which are the protrusions of the last row of the gear element of the rotor, the thickness of which is greater than the thickness of the protrusions of the previous rows of gear elements of the rotor, and has annular grooves made between the rows of gear elements of the rotor and stator, in which the protrusions of the gear elements of the stator and rotor are respectively located, while the number of pump outlet vanes is greater than the number of pump inlet blades.

 In addition, the inlet blades of the pump are made along the length of the same or different heights and thicknesses; the protrusions and depressions of each previous row of gear elements of the rotor and stator are displaced around the circumference relative to the previous row, and the number of protrusions in the rows of gear elements increases from the center to the periphery; the number of depressions and central angles of depressions of the gear elements of the rotor and stator are of different sizes.

In FIG. 1 shows a rotary pulsation apparatus, General view:
in FIG. 2 is a section AA in FIG. 1, the inlet blades of the pump are attached with a gap;
in FIG. 3 is a section AA in FIG. 1, the pump inlet vanes are attached without clearance;
in FIG. 4 is a section BB in FIG. 1.

 The rotary pulsation apparatus consists of a drive 1 and working bodies made in the form of a rotor 2 and a stator 3 located in the housing 4.

 The housing 4 is a cylindrical or spiral cavity and has an outlet pipe 5 and a cover 6 with an inlet pipe 7.

 The rotor 2 is made in the form of a disk, on the working surface of which there are inlet vanes 8 of the pump, outlet vanes 9 of the pump and gear element 10 located in rows along concentric circles and consisting of protrusions and troughs, the hub 11 is mounted on the shaft 12 of the drive 1.

 The inlet vanes 8 of the pump are rigidly attached to the working surface of the disk and are located between the hub 11 and the inner row of the gear element 10 in the chamber 13 for preliminary mixing of the product, and the inlet vanes 8 of the pump are attached to the hub 11 and the protrusion of the gear element 10 either with or without a gap and located radially or tangentially to the hub 11.

 When the inlet blades 8 of the pump are radially arranged, the blades 8 are attached to the protrusion of the gear element 10 in such a way as to avoid “stagnant” zones in the cavity of the chamber 13.

 The inlet blades 8 of the pump are made along the length of the same or different heights and thicknesses.

 The output vanes 9 of the pump are the protrusions of the last row of the gear element 10 of the rotor 2, while the thickness of the protrusions of the last row is greater than the thickness of the protrusions of the previous rows of the gear element 10.

 The number of outlet vanes 9 of the pump is greater than the number of inlet vanes 8 of the pump.

 The input vanes 8 of the pump are designed to supply the components of the initial product to the gear elements 10, 14 of the rotor 2 and the stator 3.

 The pump outlet vanes 9 are necessary to move the processed product from the gear elements 10,14 of the rotor 2 and the stator 3 to the outlet pipe 5, and the greater the thickness of the pump outlet vanes 9, the greater the pressure (i.e., the greater the kinetic energy).

 The gear elements of the rotor 2 are arranged in a circle in 2-8 rows, and the protrusions and depressions of each subsequent row are displaced around the previous row to exclude the transit movement of the unprocessed product, and the number of protrusions in the rows of the gear element 10 increases from the center to the periphery, which allows to obtain high degrees of dispersion and homogenization.

 The stator 3 is made in the form of a disk, on the working surface of which there are gear elements 14 arranged in rows along concentric circles and consisting of protrusions and depressions, each row of the gear element 14 of the stator 3 being covered by a number of gear element 10.

 The gear element 14 has 2-7 rows, and the protrusions and depressions of each subsequent row are displaced around the previous row to exclude the transit movement of the unprocessed product, and the number of protrusions in the rows of the gear element 14 increases from the center to the periphery, which allows to obtain high degrees of dispersion and homogenization.

 The central angles α and β of the depressions of the gear element 10 of the rotor 2 and the gear element 14 of the stator 3, respectively, are of different sizes to obtain a sudden narrowing and expansion of the path of movement of the processed product, resulting in an increase or decrease in pressure, which leads to the occurrence of cavitation and acoustic phenomena and allows it is better to break and mix the components of the original product.

 The number of hollows of the rows of the gear element 14 of the stator 3 is not equal to the number of hollows of the rows of the gear element 10 of the rotor 2, which allows to reduce the noise level during operation of the rotary pulsation apparatus.

 Between the rows of gear elements 10, 14 in the rotor 2 and the stator 3 are made annular grooves 15, in which the protrusions of the gear elements 10,14 are placed.

 The presence of grooves 15 in the rotor 2 and stator 3 allows to overlap the troughs of the gear elements 10,14 and thereby eliminate the transit movement of the processed product from the center to the periphery.

 The stator 3 can be made integrally with the cover 6 of the housing 4 or be an independent element.

 In the cavities of the chamber 13 of the preliminary mixing discharge holes 16 are made to reduce axial forces during operation.

 Rotary pulsation apparatus operates as follows.

 The components of the initial product are fed to the input vanes 8 of the pump, which, due to centrifugal and translational forces, direct the components to the gear elements 10, 14 of the rotor 2 and the stator 3 and push them through the troughs of the gear elements to the output vanes 9 of the pump. When the rotor 2 rotates, i.e. with frequent overhanging by protrusions of the cavities of the tooth elements 10,14, the supplied components of the initial product are exposed to cavitation, mechanical, sound, ultrasonic, pulsating phenomena and the turbulent movement resulting from this ensures the dispersed and homogenized mass.

 The pump outlet vanes 9 communicate the kinetic energy to the processed product and removes it through the outlet

Claims (4)

 1. A rotary pulsation apparatus comprising a drive and a rotor and a stator installed in the housing, on the working surfaces of which are gear elements, which are concentric rows arranged around the circumference, consisting of protrusions and depressions, characterized in that it is equipped with pump inlet vanes attached to the working surface of the rotor, and the output vanes of the pump, which are the protrusions of the last row of the gear element of the rotor, the thickness of which is greater than the thickness of the protrusions of the previous rows of the gear element p otor, and has annular grooves made between the rows of gear elements of the rotor and stator, in which protrusions of the gear elements of the stator and rotor are respectively located, while the number of pump outlet blades is greater than the number of pump inlet blades.  2. The rotary pulsation apparatus according to claim 1, characterized in that the inlet blades of the pump are made along the length of the same or different heights and thicknesses.  3. The rotary pulsation apparatus according to claim 1, characterized in that the protrusions and depressions of each previous row of gear elements of the rotor and stator are displaced around the circumference relative to the previous row, and the number of protrusions in the rows of gear elements increases from the center to the periphery.  4. The rotary pulsation apparatus according to claim 1, characterized in that the number of depressions and central angles of depressions of the gear elements of the rotor and stator are of different sizes.

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