RU172014U1 - DEVICE FOR DEHYDRATING BEER GRAIN - Google Patents

Abstract

The utility model relates to vibration-centrifugal devices for the dewatering of suspensions, for example, beer pellets, and can be used in brewing, animal feed, food, and other industries. The device for dewatering beer pellets contains a housing with inlet and outlet nozzles and a radial-sector bottom with moisture-removing tubes located with a gap coaxially on the shaft and elastically mounted on the frame with the possibility of axial vibrations. A disk with holes is coaxially mounted with the ability to perform reverse rotation and axial vibrations, on which a curved blade divided into sectors, equipped with perforated screens, is rigidly fixed. Each blade is made in the form of the upper and lower sectors of the circle, the radial sides of which are curved inward, the sectors in the center are rigidly attached to the opposite sides of the rectangular plate, and the lower sector of the blade is rigidly fixed to the disk. The outlet pipe is made in the form of several pairwise tangentially placed in relation to the pipe body. On the upper sector of the circle of each blade, two rectangular holes are arranged symmetrically with respect to the horizontal axis of the rectangular plate, two visors are rigidly fixed to the long lateral sides of them, located at an acute angle towards each other. blades equipped with perforated sieves, solid fraction of beer grains.

Description

The utility model relates to vibration-centrifugal devices for dewatering suspensions, such as beer pellets, and can be used in brewing, animal feed, food and other industries.

The well-known "Centrifuge for separating soy broth into soy base and okara" (Patent No. 2004135653 BB04 3/00 2004). The installation includes a centrifuge housing, a rotor with a filter element and suspension supply pipes. The centrifuge is designed to separate soy broth into a base and okara and includes a steam collector. The rotor is made conical and perforated, nozzles with holes directed towards the rotor are installed on the outer side of the rotor parallel to its conical generatrix, through which air or steam is supplied under pressure in the opposite direction to the movement of the soy base.

The disadvantages of the analogue are the insufficient pressure drop for cleaning the drum created by the radial blades, resulting in a decrease in the effect of moisture separation.

Closest to the claimed utility model is a “Device for dewatering beer grains” (Patent No. 157095; B04B 5/12, 2015), comprising a housing with inlet and outlet nozzles and a radial-sector bottom with moisture-removing tubes located with a gap coaxially aligned on the shaft and elastically mounted on the frame with the possibility of axial vibrations. A disk with holes is coaxially mounted with the ability to perform reverse rotation and axial vibrations, on which a curved blade divided into sectors, equipped with perforated screens, is rigidly fixed. Each blade is made in the form of the upper and lower sectors of the circle, the radial sides of which are curved inward, the sectors in the center are rigidly attached to the opposite sides of the rectangular plate, and the lower sector of the blade is rigidly fixed to the disk. The outlet pipe is made in the form of several pairwise tangentially placed in relation to the pipe body.

A disadvantage of the known device is the clogging of curved blades with a solid fraction during operation, resulting in a decrease in the effect of moisture.

The objective of the utility model is to increase the efficiency of the dehydration process and the continuity of the device by improving its design, which leads to a decrease in the effect of clogging of curved blades equipped with perforated sieves, solid fraction.

The technical result is achieved by the fact that the device for dewatering beer grains comprises a housing with inlet and outlet nozzles and a radial-sector bottom with moisture-removing tubes located coaxially with a gap on the shaft and elastically fixed to the frame with the possibility of axial vibrations. A disk with holes is coaxially mounted with the ability to perform reverse rotation and axial vibrations, on which a curved blade divided into sectors, equipped with perforated screens, is rigidly fixed. Each blade is made in the form of the upper and lower sectors of the circle, the radial sides of which are curved inward, the sectors in the center are rigidly attached to the opposite sides of the rectangular plate, and the lower sector of the blade is rigidly fixed to the disk. The outlet nozzle is made in the form of several nozzles tangentially placed in relation to the body of the nozzle, in contrast to the prototype, on the upper sector of the circle of each blade there are two rectangular holes arranged symmetrically with respect to the horizontal axis of the rectangular plate, two rectangular visors rigidly fixed to their long sides acute angle towards each other.

Improving the efficiency of the process and the period of continuous operation of the device is achieved by symmetrically located rectangular holes with visors rigidly attached to their long lateral sides, located at an acute angle towards each other due to the fact that they allow the cleaning process of each perforated grid of a curved blade in the process work with reverse rotation of the disk.

The essence of the claimed utility model is illustrated by drawings, where in FIG. 1 shows a device for dewatering beer pellets (general view), FIG. 2 is a view A (FIG. 1), FIG. 3 - section BB (Fig. 2).

A device for dewatering beer grains (Fig. 1) consists of a housing 6 with an inlet 7 and an outlet 8, 9, 10, 11 (Fig. 2) nozzles and a radial-sector bottom 20 (Fig. 1) with moisture-removing tubes 21 located with a clearance coaxially on the shaft 4 in the bearings 5 and resiliently by means of springs 3 on the supports 2 mounted on the frame 1 with the possibility of axial vibrations from the drive 23. Inside the housing 6 is coaxially mounted with the ability to rotate from the drive 22 and axial vibrations from the drive 23 disk 12 (Fig. 1) with holes 13, on which it is rigidly fixed They are divided into sectors 15 (Fig. 2) curved blades 14 (Fig. 3), equipped with perforated sieves 17 (Fig. 2). Each blade 14 (Fig. 3) is made in the form of the upper 18 and lower 19 sectors of the circle, the radial lateral sides of which are curved inward. Sectors 18, 19 in the center are rigidly attached to opposite sides of the rectangular plate 16, and the lower 19 sector of the blade 14 is rigidly fixed to the disk 12 (Fig. 1). On the upper sector 18 (Figs. 1, 3) of each blade 14 (Fig. 3), two rectangular holes 24 are made symmetrically with respect to the horizontal axis of the rectangular plate 16 (Figs. 2, 3), two rectangular holes are rigidly fixed to the long sides of these holes 24 visor 25 (Fig. 3), located at an acute angle towards each other.

The original beer pellet through the inlet pipe 7 of the housing 6 (Fig. 1) is supplied to the disk 12 with curved blades 14 (Fig. 3), which rotates from the drive 22 and makes axial vibrations from the drive 23 (Fig. 1), on whose upper sectors rectangular holes 24 (Fig. 3), two rectangular visors 25 (Fig. 3) are rigidly fixed to the sides of the holes 24 and, under the action of centrifugal force, move along perforated screens 17 (Fig. 2) of curved blades 14 (Figs. 1, 3) from center to the periphery of rotation of the disk 12 (Fig. 1). Moisture passes through the perforated sieve of the curved blade 14 (Fig. 1, 3), getting into the sectors 15 (Fig. 2) of moisture intake along the rotation on one side of the curved blade 14 (Fig. 1), and abuts against the partition 16 (Fig. 3), then flows through the holes 13 (Fig. 1) of the disk 12 into the radial-sector bottom 20 (Fig. 1), from where it enters the moisture receiver through moisture-removing tubes 21 (not shown in Figs. 1, 2, 3). The selected sediment under the action of centrifugal force, axial vibrations and pressure of the incoming mass of beer pellets moves to the periphery of the rotation of the disk 12 (Fig. 1) along curved blades 14 (Fig. 1), from where through the outlet pipes 8, 9 (Fig. 2) of the housing 6 enters the sediment receiver (not shown in Fig. 1, 2, 3).

When the moisture loss worsens, the device is stopped and the reverse drive 22 is turned on (Fig. 1), which drives the disk 12 with rectangular holes 24 (Fig. 3) and curved blades 14 in the opposite direction. When the reverse movement is turned on, moisture also passes, but on the other hand, through the perforated sieve 17 which is not clogged with a solid fraction (Fig. 2), it enters the moisture collection sectors 15 of the curved blades 14 (Fig. 3), rests again on the partition 16 (on the other hand), then flows through the holes 13 (Fig. 1) and then into the radial sector bottom 20 and through the tubes 21 to the moisture receiver. Through the rectangular openings 24, on which the visors 25 are fixed (Fig. 3), air is pumped from the rotation of the disk 12 (Fig. 1), as a result of which the perforated sieves 17 clogged during direct rotation are blown and they are cleaned from thick fraction. The separated precipitate is then discharged through the outlet pipes 10, 11 (Fig. 2).

Thus, rectangular holes with peaks located symmetrically with respect to the rectangular plate on the upper sector of the circle of each blade help to clean clogged sieves during operation of the device.

The use of the utility model allows to increase the duration of the device without interruption in service, which helps to improve the quality and productivity.

Claims (1)

A device for dewatering beer grains, comprising a housing with inlet and outlet nozzles and a radial-sector bottom with moisture-removing tubes located coaxially with a gap on the shaft and elastically mounted on the frame with the possibility of axial vibrations, coaxially mounted in the housing with the ability to perform reverse rotation and axial vibrations a disk with holes on which curved blades divided into sectors are rigidly fixed, equipped with perforated sieves, each blade consists of upper and lower sec tori of a circle, whose radial lateral sides are curved inward, the central sectors are rigidly attached to opposite sides of a rectangular plate, the lower sector of the blade is rigidly mounted on the disk, and the outlet pipe is made in the form of several pipe pairs tangentially placed with respect to the casing, characterized in that the upper sector of the circle of each blade is made located symmetrically relative to the horizontal axis of the rectangular plate, two rectangular holes, to the long sides of which rigidly fixed two rectangular visors located at an acute angle towards each other.

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