RU2705329C1 - Mixing device - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building and is intended for preparation of emulsions, mixes, mixing of various liquids, and can be used in chemical, food, pharmaceutical and other industries. Mixing device comprises a cylindrical housing with an upper cover, a mixer formed by a rod with a drive and a mechanism for moving the rod in a vertical plane, comprising a crank mounted on the drive shaft, and a connecting rod fixed by a top end on the crank, and a lower end on a rod mounted on the upper cover. Blades are rigidly fixed on links of the driven part of the hinged multi-link chain type "Nuremberg scissors". Leading part of the hinge is connected by its inner hinge with the rod. Upper cover is made in the form of a drive mechanism platform for rotation relative to the cylindrical housing vertical axis, including a drive cylindrical gear, fixed by means of bearing in hole on cover, made with offset from central vertical axis of cylindrical housing, interacting with teeth with inner teeth of rim, made in upper part of housing coaxially to vertical axis in horizontal plane. Drive gear is made hollow coaxially as a whole with the driven bevel gear interacting with the drive conical gear installed on the shaft between the drive and the crank of the rod movement mechanism. In the gears cavity there is a cup on bearings with an axial hole for movement of the drive rod. In lower part of shell there are lugs for hinged fastening of last links of articulated link. Upper cover is made with possibility of interaction with upper surface of housing by means of sealing and movement along upper surface of housing by means of bearing. Cylindrical part of the housing in the lower part is tapering towards the bottom in the form of a truncated cone. Longitudinal vertical axis of cylindrical housing does not coincide with longitudinal vertical axis of hinge splitter drive. Blades on the links are made in mutually perpendicular planes. Blades for horizontal mixing are made triangular with projecting angle to the outside from the link. Blades for vertical mixing are rectangular with larger side adjoining the link.

EFFECT: technical result consists in expansion of technological capabilities due to mixing of mixture in horizontal and vertical planes simultaneously using one drive.

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Description

The invention relates to mechanical engineering and is intended for the preparation of emulsions, mixtures, mixing various liquids and may find application in the chemical, food, pharmaceutical and other industries.

A mixing device is known (see a.c. SU 1152640, B01F 13/06, 1985), comprising a housing, an agitator formed by a rod and blades, a rod drive.

A mixing device is also known (see patent RU 2686141, B01F 7/18, 2019), comprising a cylindrical body with a top cover, an agitator formed by a rod with a drive and a rod moving mechanism in a vertical plane, including a crank mounted on the drive shaft and a connecting rod, fixed by the upper end on the crank, and the lower end on the rod mounted on the top cover, and by the blades rigidly fixed on the links of the driven part of the articulated multi-link Nuremberg scissors type, the leading part of the latter is connected internally m hinge with a rod.

The known device has limited capabilities, because with a large internal diameter of the container, the mixture is not well mixed at the periphery, i.e. near the side walls, due to only the reciprocating movement of the rod with the blades vertically.

In addition, due to the design of the last lower link with the blades, the mixture is also not well mixed at the junction of the bottom to the generatrix of the cylindrical vertical wall.

The well-known propeller-shaped arrangement of the blades on the links of the articulated multi-link unit during reciprocating movement of the latter vertically does not very efficiently mix the mixture in the horizontal plane.

The objective of the proposed solution is to expand technological capabilities by mixing the mixture in horizontal and vertical planes simultaneously with a single drive.

This task is achieved by the fact that the mixing device containing a cylindrical body with a top cover, a mixer formed by a rod with a drive and a mechanism for moving the rod in a vertical plane, including a crank mounted on the drive shaft, and a connecting rod, fixed with the upper end on the crank, and the lower end on the rod mounted on the top cover, and blades rigidly mounted on the links of the driven part of the articulated Nuremberg scissors ", The leading part of the latter is connected by its internal hinge to the rod, the top cover is made in the form of a platform of the drive mechanism for rotation about the vertical axis of the cylindrical body, including a drive cylindrical gear fixed by means of a bearing in a hole on the cover made offset from the central vertical axis of the cylindrical body, interacting with teeth with internal teeth of a crown made in the upper part of the body coaxially to the vertical axis in the horizontal plane, the drive gear is hollow coaxially in one piece with a driven bevel gear interacting with a bevel gear mounted on a shaft between the drive and the crank of the piece moving mechanism ok, in the cavity of the gears, a cup is mounted on bearings with an axial bore for moving the actuator rod, in the lower part of the cup there are eyes for hinging the last links of the hinged multi-link, the top cover is made to interact with the upper surface of the housing by sealing and moving along the upper surface of the housing by bearing, the cylindrical part of the housing in the lower part is made tapering towards the bottom in the form of a truncated cone, the longitudinal vertical axis the cylindrical body does not coincide with the longitudinal vertical axis of the articulated multi-link drive, the blades on the links are made in mutually perpendicular planes, and the horizontal mixing blades are made of a triangular shape with a protruding angle outward from the link, and the vertical mixing blades are made of a rectangular shape with the greater side adjacent to the link .

Compared with the known proposed mixing device allows you to more thoroughly and evenly mix the mixture in the entire space of the cylindrical container due to simultaneous mixing in horizontal and vertical planes using a single drive.

In FIG. 1 shows a longitudinal section of the device, with the most extended articulated multi-link; in FIG. 2 is a view A in FIG. 1, with the most compressed articulated multi-link (the vertical axis of the articulated multi-link coincides with the vertical axis of the drive); in FIG. 3 is a view B in FIG. one; in FIG. 4 is a section bb in FIG. one.

The mixing device comprises a cylindrical body 1 with a top cover 2, an agitator formed by a rod 3 with a drive 4 and a mechanism for moving the rod 3 in a vertical plane, including a crank 5, mounted on the shaft 6 of the drive 4, and a connecting rod 7, fixed with the upper end on the crank 5, and the lower end on the rod 3, mounted on the top cover 2, and blades 8 and 9, rigidly fixed to the links 10 of the driven part of the articulated multi-link Nuremberg scissors type. The leading part of the articulated multi-link is connected by its internal hinge 11 to the rod 3. The top cover 2 is made in the form of a platform of the drive mechanism for rotation about the vertical axis 12 of the cylindrical body 1, including the drive cylindrical gear 13, mounted by means of the bearing 14 in the hole on the cover 2, made with offset from the Central vertical axis 12 of the cylindrical body 1, interacting with the teeth with the internal teeth of the crown 15, made in the upper part of the housing 1 coaxially with the vertical axis 12 in the horizontal plane. The drive gear 13 is made hollow coaxially in one piece with the driven bevel gear 16, which interacts with the drive bevel gear 17 mounted on the shaft 6 between the drive 4 and the crank 5 of the rod 3 moving mechanism. In the cavity of the gears 13 and 16, a cup 18 is mounted on bearings 19 and 20 with an axial hole for moving the actuator stem 3. In the lower part of the glass 18, eyelets 21 are made for pivotally securing the last links 22 of the articulated multi-link. The outlet of the stem 3 from the cup 18 is sealed with a seal 23 and a bellows 24. The top cover 2 is configured to interact with the upper surface of the housing 1 by means of a seal 25 and move along the upper surface of the housing 1 by means of a bearing 26. The cylindrical part of the housing 1 in the lower part is made tapering to the side bottoms in the form of a truncated cone 27. The longitudinal vertical axis 12 of the cylindrical body 1 does not coincide with the longitudinal vertical axis 28 of the drive of the articulated multi-link. The blades 8 and 9 on the links 10 are made in mutually perpendicular planes. Moreover, the blades 8 for horizontal mixing are made of a triangular shape with a protruding angle outward from the link 10, and the blades 9 for vertical mixing are made of a rectangular shape with the greater side adjacent to the link 10.

The mixing device operates as follows.

With the drive 4 turned on, the crank 5 rotates by means of the shaft 6, driving the connecting rod 7, which converts the rotational movement of the crank 5 into the reciprocating movement of the rod 3. During the movement of the rod 3 up (see Fig. 2), the articulated link is compressed, moving everything the blades 8 and 9 up and at the same time spreading them apart from the vertical axis 28. When the rod 3 moves backward (see Fig. 1), the articulated link is stretched and moves the blades 8 and 9 down to the vertical axis 28. At the same time, the torque from the actuator 4 through va 6 is transmitted to the bevel gear 17, which interacts with the driven bevel gear 16, rotates it. Torque from the driven bevel gear 17 is transmitted to the drive cylindrical gear 13, the teeth of which, interacting with the internal teeth of the crown 15, move the top cover 2 together with the drive mechanism through the bearing 26 relative to the vertical axis 12 of the housing 1 around the circumference, thereby performing simultaneous mixing of the mixture inside the housing 1 in both horizontal and vertical planes using one drive 4. The execution of the lower part of the cylindrical housing 1 in the form of a truncated cone 27 approx a wall of the housing 1 near the bottom close to the coverage area of the blades 8 and 9 articulated linkage, thereby contributing to a more thorough mixing of the mixture at these locations. The blades 8 for mixing the mixture, mainly in the horizontal plane with maximum stretching and maximum compression of the articulated multi-link, occupy the optimal area for mixing. The blades 9, making complex movements in space, with different modes of movement of the articulated multi-link, contribute to the effective mixing of the mixture in both horizontal and vertical directions. Sealing the contents of the container is carried out by means of a seal 25 and bearings 14, 19, 20 of a closed type. By choosing the diameters of the bevel gears 16 and 17, it is possible to achieve a state in which the stretching-compressing time of the articulated link in the vertical direction, combined with the simultaneous speed of movement of the latter around the circumference in a miscible medium, is optimal. In this case, the speed of movement of the articulated multi-link in the circumferential horizontal direction should be chosen so that the articulated multi-link is not subjected to deformation, due to the viscosity of the mixed mixture, in the vertical direction when interacting with the latter.

Claims (1)

A stirring device comprising a cylindrical body with a top cover, a stirrer formed by a rod with a drive and a mechanism for moving the rod in a vertical plane, including a crank mounted on the drive shaft, and a connecting rod, fixed with the upper end on the crank and the lower end on the rod mounted on the top the lid, and blades, rigidly fixed on the links of the driven part of the articulated polyurencer type "Nuremberg scissors", the leading part of the latter is connected by its internal hinge with a rod, characterized in that about the top cover is made in the form of a platform of the drive mechanism for rotation relative to the vertical axis of the cylindrical housing, including the drive cylindrical gear, mounted by means of a bearing in the hole on the cover, made offset from the central vertical axis of the cylindrical body, interacting with teeth with the inner teeth of the crown, made in the upper parts of the body coaxially with the vertical axis in the horizontal plane, the drive gear is hollow coaxially in one piece with the driven horse gear, interacting with a bevel pinion mounted on the shaft between the drive and the crank of the rod movement mechanism, a gear cup is mounted in the gear cavity with bearings with an axial bore for moving the actuator rod, eyelets are made in the lower part of the cup for hinging the last links of the articulated link the cover is configured to interact with the upper surface of the housing by sealing and moving along the upper surface of the housing by means of a suspension nickel, the cylindrical part of the body in the lower part is made tapering towards the bottom in the form of a truncated cone, the longitudinal vertical axis of the cylindrical body does not coincide with the longitudinal vertical axis of the drive of the articulated multi-link, the blades on the links are made in mutually perpendicular planes, and the blades for horizontal mixing are made triangular in shape with a protruding angle outward from the link, and the blades for vertical mixing are made rectangular in shape with the greater side adjacent to the links .

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