RU99987U1 - CYLINDER ROTARY FILM UNIT - Google Patents

Abstract

The utility model relates to devices for carrying out the drying process of phosphatide emulsions of vegetable oils and can be used in the oil and fat industry and other industries using evaporation of moisture from heat-sensitive highly viscous concentrates.

The technical task of the utility model is the uniform distribution of the product along the inner surface of the apparatus, which leads to a decrease in the dynamic effect on the drum drive and to a more stable movement of the product film along the length of the apparatus, as well as an increase in the efficiency of separation of water vapor and particles of the finished product from the steam mixture.

The stated technical problem is achieved in that in a cylindrical rotary-film apparatus containing a cylindrical body with covers and heated walls, equipped with nozzles for supplying and discharging steam located respectively in the upper and lower parts of the housing, and nozzles for inputting the initial and output of the finished product, separation dish-type bump and a separation chamber with nozzles for connecting to a vacuum system, located inside the housing and mounted on shafts using perforated discs A rotor with a star-shaped cross-section, the vertices of which are its blades, and its edges along its entire length are parallel to the generatrix of the inner surface of the cylindrical body with a constant gap, the new fact is that the rotor blades have helical and rectilinear sections separated from each other by the height of the blade a partition, the lower part of which has a smooth rounded transition to the cylindrical part of the rotor, and inside the cavity of the rotor at the transition from the helical section of the rotor blades to straight a linear section of the blades is installed a partition that also separates the cavity of the perforated and solid parts of the rotor, while the nozzles for input of the initial product are located in the area of action of the rotor blades in the upper and lower parts of the cover located on the left end of the cylindrical body, and a separation separator is installed behind the separation chipper ring.

The advantages of a cylindrical rotary film apparatus are that:

- the implementation of the rotor blades with helical and rectilinear sections, separated from each other by the height of the blade by a partition, the lower part of which has a smooth rounded transition to the cylindrical part of the rotor allows you to form a uniform layer of the product and ensure its translational and stable movement along the inner surface of the apparatus body, which ensures effective removal of steam from it.

- the installation inside the cavity of the rotor at the transition from the helical section of the rotor blades to the rectilinear section of the septum blades, which also separates the cavities of the perforated and solid parts of the rotor, ensures that the vapor phase and the apparatus are easily removed from the processing zone of the product,

- the location of the nozzles for input of the initial product in the area of action of the rotor blades in the upper and lower parts of the cover located on the left end of the cylindrical body allows you to evenly introduce the product into the device and distribute it evenly on the inner surface of the device, which reduces the dynamic impact on the drive drum.

- installation of an additional stationary separation ring behind the separation chipper allows to increase the efficiency and reliability of the allocation of water vapor and the finished product from the steam-and-oil mixture.

2 ill.

Description

The utility model relates to devices for carrying out the drying process of phosphatide emulsions of vegetable oils and can be used in the oil and fat industry and other industries using evaporation of moisture from heat-sensitive highly viscous concentrates.

The closest in technical essence and the achieved effect is a rotary-film apparatus [USSR author's certificate No. 1445744, class. B01D 3/30 12/23/88. Bull. No. 47], designed for the process of evaporation of phosphatide emulsions of sunflower oils, made in the form of a horizontally arranged cylindrical body with a lid and heated walls, equipped with nozzles for supplying and discharging steam located respectively in the upper and lower parts of the housing, and nozzles for inputting the initial and output the finished product, a plate-type separation chipper and a separation chamber with nozzles for connection to a vacuum system located inside the housing and secured on the shafts using a rotor in the form of a star-shaped hollow drum of constant cross section with blades located on its outer surface. Perforation is performed in the area between the blades and in the rotor disks in the direction of movement of the processed product.

The disadvantage of this apparatus is the uneven distribution of product on the inner surface of the apparatus, which leads to a dynamic effect on the drum drive and unstable movement of the product film along the length of the apparatus, as well as inefficient allocation of water vapor and particles of the finished product from the steam mixture.

The technical task of the utility model is the uniform distribution of the product along the inner surface of the apparatus, which leads to a decrease in the dynamic effect on the drum drive and to a more stable movement of the product film along the length of the apparatus, as well as an increase in the efficiency of separation of water vapor and particles of the finished product from the steam mixture.

The stated technical problem is achieved in that in a cylindrical rotary-film apparatus containing a cylindrical body with covers and heated walls, equipped with nozzles for supplying and discharging steam located respectively in the upper and lower parts of the housing, and nozzles for inputting the initial and output of the finished product, separation dish-type bump and a separation chamber with nozzles for connecting to a vacuum system, located inside the housing and mounted on shafts using perforated discs A rotor with a star-shaped cross-section, the vertices of which are its blades, and its edges along its entire length are parallel to the generatrix of the inner surface of the cylindrical body with a constant gap, the new fact is that the rotor blades have helical and rectilinear sections separated from each other by the height of the blade a partition, the lower part of which has a smooth rounded transition to the cylindrical part of the rotor, and inside the cavity of the rotor at the transition from the helical section of the rotor blades to straight a linear section of the blades is installed a partition that also separates the cavity of the perforated and solid parts of the rotor, while the nozzles for input of the initial product are located in the area of action of the rotor blades in the upper and lower parts of the cover located on the left end of the cylindrical body, and a separation separator is installed behind the separation chipper ring.

The technical result consists in a uniform distribution of the product on the inner surface of the apparatus, which leads to a decrease in the dynamic effect on the drum drive and to a more stable movement of the product film along the length of the apparatus, as well as to an increase in the efficiency of separation of water vapor and particles of the finished product from the steam mixture.

Figure 1 shows a General view of a cylindrical rotary-film apparatus, figure 2 is a three-dimensional model of a hollow rotor with a star-shaped section.

The cylindrical rotary film apparatus (Fig. 1) comprises a cylindrical body 1 with covers 2, 3, having a heating jacket 4 and nozzles 5 and 6 for inputting the initial product, located in the upper and lower parts of the cover 2, and also a pipe 7 for outputting the finished product product. To connect to the vacuum system of the apparatus, pipe 8 is used. To supply steam and drain condensate from the heating jacket 3, pipes 9 and 10 are located in the upper and lower parts of the housing 1. For technological needs, the device is equipped with pipes 11 and 12 (for draining the residual phosphatide emulsion and residual steam condensate from the apparatus).

Inside the housing 1 is placed rotatably a perforated rotor 13 with holes 14 and with a star-shaped cross-section (Fig. 2), the vertices of which are its blades 15, mounted on shafts 16, 17 using disks 18 and 19. At the same time, the disk 19 is perforated with holes 20.

The blades 15 of the rotor 13 have a screw-shaped and rectilinear sections 21 and 22. In this case, the location of the nozzles 5 and 6 for introducing the initial product on the cover 2 is in the area of action of the blades 15 of the rotor 13 (its screw section 21). The edges of the blades 15 of the rotor 13 are parallel to the generatrix of the inner surface of the cylindrical body 1 with constant defined gaps 23 and 24 corresponding to the screw-shaped and rectilinear sections of the blades 21, 22. In this case, the gap 23 on the screw-shaped section 21 is made larger than the gap 24 on the subsequent rectilinear section 22 the blades 15 of the rotor 13. The helical section 21 along the height of the blade 15 is limited by a partition 25, the lower part of which has a smooth rounded transition to the cylindrical part of the rotor 13. And inside the cavity of the roto 13 and at the interface of the helical portion 21 of the blades 15 of the rotor 13 to the rectilinear portion 22 of blades 15 installed partition 26, which also separates the perforated portion of the rotor 13 from the solid.

On the right shaft 17 of the rotor 13, in addition to the disk 19, a plate-shaped separation chipper 27 is installed. A separation ring 28 is fixed behind the separation chipper 27. A separation chamber 29 is formed between the separation chipper 27 and the cover 3 of the housing 1.

The proposed cylindrical rotary film apparatus operates as follows:

The initial processed product enters through the nozzles 5 and 6 into the inner space of the housing 1, where it enters the blades 15 of the screw-shaped portion 21 of the rotating rotor 13 and is applied by centrifugal forces to the inner surface of the housing 1, heated through a heating jacket 4 with steam. Using a screw-shaped section 21, the product is evenly distributed on the inner surface of the housing 1, a uniform layer of the product is formed and its progressive movement along the inner surface of the housing 1 of the apparatus is ensured.

The processed product is sequentially moved together with the vapor of moisture evaporated from the product along the apparatus body 1 to the outlet and is removed from it through the nozzle 7. The vapor-gas mixture formed as a result of evaporation through the inter-blade space of the rectilinear section 22, the holes 14 of the perforated rotor 13 and the holes 20 of the disk 19, previously interacting with the separation chipper 27 and the ring 28 to separate from it the liquid phase of the finished product is sucked off by a vacuum system (not shown) through the pipe 8.

The advantages of a cylindrical rotary film apparatus are that:

- the implementation of the rotor blades with helical and rectilinear sections, separated from each other by the height of the blade by a partition, the lower part of which has a smooth rounded transition to the cylindrical part of the rotor allows you to form a uniform layer of the product and ensure its translational and stable movement along the inner surface of the apparatus body, which ensures effective removal of steam from it.

- installation inside the rotor cavity at the transition from the helical section of the rotor blades to the rectilinear section of the baffle blades, which also separates the cavities of the perforated and solid parts of the rotor provides unhindered removal of the vapor phase from the processing zone of the product and from the apparatus;

- the location of the nozzles for input of the initial product in the area of action of the rotor blades in the upper and lower parts of the cover located on the left end of the cylindrical body allows you to evenly introduce the product into the device and distribute it evenly on the inner surface of the device, which reduces the dynamic impact on the drive drum.

- installation of an additional stationary separation ring behind the separation chipper allows to increase the efficiency and reliability of the allocation of water vapor and the finished product from the steam-and-fat mixture.

Claims (1)

A cylindrical rotary-film apparatus containing a cylindrical body with covers and heated walls, equipped with nozzles for supplying and discharging steam located respectively in the upper and lower parts of the housing, and nozzles for inputting the initial and output of the finished product, a plate-type separation chipper and a separation chamber with a nozzle for connecting to a vacuum system, located inside the housing and mounted on shafts using discs, a perforated rotor with a star-shaped cross-section, the tops of which of it are its blades, and its edges along their entire length are parallel to the generatrix of the inner surface of the cylindrical body with a constant gap, characterized in that the rotor blades have helical and rectilinear sections, separated from each other by the height of the blade by a partition, the lower part of which has a smooth rounded the transition to the cylindrical part of the rotor, and inside the cavity of the rotor at the transition from the helical section of the rotor blades to the rectilinear section of the blades, a partition is installed to Torah also separates the cavities of the perforated and solid parts of the rotor, while the nozzles for introducing the initial product are located in the area of action of the rotor blades in the upper and lower parts of the cover located on the left end of the cylindrical body, and a fixed separation ring is installed by the separation chipper.