RU2467668C1 - Device for seeds separation - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: invention relates to food industry and may be used at preservation branch enterprises. The device contains a cylindrical body equipped with a screw guide and installed so that to enable rotation, a perforated rotor installed inside the body, a water delivery unit, a feeding and a discharging appliances. The rotor is designed in the form of a perforated hollow cylindrical multiple-thread screw jacket. The rotor is made of no less than three perforated rectangular strips of identical width along the whole length of the strips, convoluted in a vertical plane in a longitudinal direction relative to the strip figure axis and curved along a helical line in a transverse direction on a cylindrical mandrel. The rotor is equipped with a receptacle screw appliance designed in the form of perforated hollow conical multiple-thread screw jacket made of no less than three perforated trapezoidal strips of varied width size increasing along the length of the receptacle part, twisted in a vertical plane in a longitudinal direction relative to the strip figure axis and curved along a helical line in a transverse direction on a conical mandrel.

EFFECT: invention usage will allow to expand the technological capabilities and enhance seeds separation efficiency.

16 dwg

Description

The invention relates to the food industry and can be used in enterprises of the canning industry.

A known installation for separating seeds from the core of pepper (AS USSR No. 912130, class A23N 4/12, 1980), comprising a housing and a hollow perforated rotor, a water supply unit, loading and unloading devices installed therein.

The disadvantage of this installation is the limited technological capabilities and the lack of efficiency of the separation of seeds.

Closest to the proposed invention is a device for the separation of seeds (AS USSR No. 1738235, class A23N 4/12, 1992), containing a cylindrical body provided with a screw guide, mounted for rotation, and a hollow perforated rotor installed in it, a unit water supply, loading and unloading devices.

The disadvantage of this installation is the limited technological capabilities and the lack of efficiency of the separation of seeds.

The technical solution is to expand technological capabilities.

The technical solution is achieved by the fact that in the device for separating seeds containing a cylindrical body provided with a helical guide, mounted for rotation, and a hollow perforated rotor installed therein, a water supply unit, loading and unloading devices, the rotor is made in the form of a hollow perforated cylindrical multi-helical screw shirts, made of at least three perforated strips of rectangular shape of the same width along the entire length of the strips, folded in a vertical plane in in the same direction relative to its own axis of symmetry of the strip and curved along the helical line in the transverse direction on the cylindrical mandrel, and is equipped with a receiving screw device made in the form of a hollow perforated conical multi-helical shirt made of at least three perforated strips of trapezoidal shape with different sizes in width, with their increase along the length of the receiving part, twisted in a vertical plane in the longitudinal direction relative to its own axis of symmetry forged strip and curved, in a helical line in the transverse direction, on a conical mandrel.

According to the patent literature not found a technical solution similar to the claimed, which allows us to judge the inventive step of the proposed device for the selection of seeds.

The novelty of the proposal lies in the fact that due to the design features of the rotor, made in the form of a hollow perforated cylindrical multi-start screw shirt, not only crushing of melons and seeds from the mass of fruits is ensured, but also the movement of raw materials from loading to unloading, which increases the intensity and productivity seed extraction, expands the technological capabilities of the device.

The novelty of the proposal also lies in the expansion of operational capabilities due to the fact that the hollow perforated cylindrical multi-start screw shirt is made of at least three perforated strips of rectangular shape of the same width along the entire length of the strips, rolled in a vertical plane in the longitudinal direction relative to the axis of symmetry of the strip and curved in helical line in the transverse direction on a cylindrical mandrel, which increases the area of separation of seeds and provides expanded other technological capabilities.

The novelty of the proposal also lies in the fact that inside the rotor, made in the form of a hollow perforated cylindrical multi-helical shirt and made of at least three perforated strips of rectangular shape of the same width along the entire length of the strips, rolled in a vertical plane in the longitudinal direction relative to the axis of symmetry of the strip and bent along a helical line in the transverse direction on a cylindrical mandrel at each point of its inner surface there are multidirectional the most important movements, which increases the intensity of movement of fruits and seeds and ensures their high-quality and intensive separation. Expands the technological capabilities of the device for separating seeds.

The novelty also lies in the fact that the rotor is equipped with a receiving device made in the form of a hollow perforated conical multi-helical shirt made of at least three perforated strips of trapezoidal shape with different sizes in width, increasing them along the length of the receiving part, twisted in a vertical plane in the vertical longitudinal direction relative to its own axis of symmetry of the perforated strip and curved in a helical line in the transverse direction, on a conical mandrel, which not only increase The area of separation of seeds increases, the intensity of movement of fruits and seeds and ensures their high-quality and intensive separation, but also provides the expansion of technological capabilities.

Figure 1 shows a device for the selection of seeds, General view, a longitudinal section; figure 2 is a section aa in figure 1; figure 3 - rotor, made in the form of a hollow perforated cylindrical multi-helical shirt assembly with a receiving screw device, side view; figure 4 - rotor made in the form of a hollow perforated cylindrical multi-helical screw shirt, side view; figure 5 is a view a in figure 4; in Fig.6 - one of the perforated strips of constant width, of which the rotor is made after folding in a vertical plane in the longitudinal direction relative to its own axis of symmetry of the strip; Fig.7 - perforated strip of constant width (Fig.6) after bending along helical lines on a cylindrical mandrel; in Fig.8 is a section bB in Fig.7; figure 9 is a receiving screw device, complete, a visual image; figure 10 - removable cover of the receiving screw device, a visual image; figure 11 is a receiving screw device, side view; in Fig.12 is a view of B in Fig.11; on Fig - section bb in Fig; on Fig - one of the perforated strips of a trapezoidal shape, from which the receiving screw device is mounted after twisting in a vertical plane in the longitudinal direction relative to its own axis of symmetry of the strip; on Fig - perforated strip of trapezoidal shape after bending along helical lines on a conical mandrel; in Fig.16 - section GG in Fig.15.

The device for separating seeds contains four roller bearings 1, on which circular shells 2 and 3 are mounted, in which a cylindrical mesh body 4 is mounted with a perforated hollow rotor 5 coaxially and rigidly mounted therein by known means. The rotor 5 is made in the form of a hollow perforated cylindrical multi-start screw shirt and is equipped with a receiving device 6, made in the form of a hollow perforated conical multi-start screw shirt. The cell sizes of the perforations of the rotor 5 and the receiving device 6 are larger than the maximum size of the fruit seeds, and the mesh size of the mesh body 4 is smaller than the minimum size of the fruit seeds. The housing 4, and with it the hollow rotor 5 with the receiving device 6 are rotated by the drive 7. The device is equipped with a water supply unit including a manifold 8 and two nozzles 9, as well as a loading funnel 10 for loading raw materials, an unloading tray 11 for receiving the destroyed fruits , an unloading tray 12 for receiving seeds, as well as a tray 13 for collecting fibers and water. For collecting and transporting seeds to the unloading tray 12, screw guides 14 are mounted inside the housing 4, by which the seeds are transported and transferred to the unloading tray 12. The rotor 5 with the receiving device 6 attached to it with rigidly known means is fixed rigidly to the cylindrical body 4 of the ties 15 ( figure 2).

The rotor 5 (figure 3) is equipped with a receiving screw device 6, rigidly fastened to the rotor 5 by flanges 16 and 17.

The rotor 5 (Figs. 4, 5) is made, for example, of five perforated strips 18, 19, 20, 21, 22 of rectangular shape of the same width, along the entire length of the rolled in a vertical plane in the longitudinal direction relative to the axis of symmetry of the strip, for example strip 18 (Fig.6), and bent along a helical line in the transverse direction on a cylindrical mandrel 23 (Fig.6, 7). After bending, the strips 18, 19, 20, 21, 22 are connected to each other by the lateral sides by known methods, for example, by welding, with the formation of helical lines and internal helical grooves along the perimeter with one step directed to one side with a constant step along the rotor 5 length, one of which 24-25 are shown in FIG. 4 with a thickened line. The diameter of the holes of the perforated rotor 5 is larger than the maximum size of the seeds of the fruit and ensures their separation from the fruit, moving from loading to unloading inside the rotor 5.

The receiving screw device 6 (Fig. 9) is made in the form of a truncated screw cone and forms a funnel-shaped screw inlet, with the help of which raw materials in the form of fruits, for example melons, enter the rotor 5 to destroy and separate the seeds from the fruits. The end hole of the receiving screw device 6 from the loading side is equipped with a conical removable cover 26 (Fig.9). The screw receiving device 6 is attached to the rotor 5 by a flange 17. Inside the screw device 6 are fixed radially along the internal screw grooves 25, 26, 27, 28, 29 of five inserts 30, which not only provide the rigidity of the fastening of the conical cover 26 (not shown) to the receiving screw device 6, but also form a screw-like impeller along the inner perimeter of the receiving screw device 6, with the help of which the reliability of moving the fruits into the internal cavity of the receiving screw device 6 and Lee into the inner rotor cavity 5. The cone is a removable cover 26 secured by screws (not shown) through holes 31 to the inserts 30 which is rigidly, eg by welding, screw attached inside of the holder 6.

The receiving screw device 6 (Figs. 9, 10, 1) is made of five perforated strips 32, 33, 34, 35, 36 of a trapezoidal shape with different dimensions in width, with an increase in their length, twisted in a vertical plane in the longitudinal direction relative to their own the axis of symmetry of the strip, for example strip 32 (Fig. 14), and curved along a helical line in the transverse direction on the conical mandrel 37 (Fig. 15, 16). After bending, the strips 32, 33, 34, 35, 36 are connected to each other by the lateral sides by known methods, for example, by welding, with the formation of five helical lines and internal helical grooves with a variable along the perimeter of the receiving part, we decrease in length by step S ₁ , one of which 38-39 is shown in FIG. 11 with a thickened line. The receiving part of the device 6 is equipped with a flange 17. The diameter of the perforated holes of the receiving device 6 is larger than the maximum size of the seeds of the fruits and ensures their separation from the fruits moving from the load to the rotor 5. The device for separating seeds works as follows.

Crushed melons, such as pumpkins, enter through a hopper 10 into a rotating receiving screw device 6 and then into the rotor 5. The movement of crushed raw materials occurs due to the presence of helical lines. This ensures not only the transportation of melons along the horizontal axis and unloading of crushed pumpkins without seeds into the discharge chute 11, but also the crushing of melons and melons into smaller fractions due to the increase in the energy intensity, power and frequency of collisions of the melted melons and gourds perforated. the surfaces of the walls of the hollow device 6 and the rotor 5, as a result of intensive separation of seeds. The separated seeds are removed through the holes of the rotor 5 and the device 6 and enter the internal cavity of the housing 4. Seeds and fibers adhering to the rotor 5 and the housing 4 are removed by the water supplied by the collector 8 and nozzles 9. Seeds separated from the melons of melons in the housing 4 are transported screw guides 14 into the discharge tray 12 receiving seeds. The use of the invention allows to increase the efficiency of separation of seeds, expands technological capabilities.

Claims (1)

A device for separating seeds, comprising a cylindrical body provided with a helical guide, rotatably mounted, and a hollow perforated rotor installed therein, a water supply unit, loading and unloading devices, characterized in that the rotor is made in the form of a hollow perforated cylindrical multi-screw helical shirt, is made of at least three perforated rectangular-shaped strips of the same width along the entire length of the strips folded in a vertical plane in the longitudinal direction relative to its own axis of symmetry of the strip and curved along the helical line in the transverse direction on the cylindrical mandrel, and is equipped with a receiving screw device made in the form of a hollow perforated conical multi-helical shirt made of at least three perforated strips of trapezoidal shape with different sizes in width, with an increase them along the length of the receiving part, twisted in a vertical plane in the longitudinal direction relative to the own axis of symmetry of the perforated strip bent along a helical line in the transverse direction on a conical mandrel.

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