SU1021637A1 - Rotary tabletting machine - Google Patents

Abstract

1. ROTARY TABLET MACHINE, containing a rotor with dies, coaxially arranged upper and lower punches, a feeder, a tablet ejector, and a device for removing dust in the form of a series of suction nozzles united by a common collector, such that, in order to reduce powder loss and improved operating conditions, the first suction nozzle, placed behind the feeder in the direction of rotation of the rotor, is made in the form of a shoe installed with the possibility of blocking the openings of the dies, and located on both sides s from his slit sampler. (L with about tsD SB vl

Description

2. The machine according to claim 1, different from those; - that the front

in the direction of rotation of the rotor, the side of the shoe of the first suction nozzle is made wedge-shaped,

3. The machine according to claim 1, of which is that the second branch pipe in the direction of rotation of the rotor, also located behind the feeder, is made in the form of an L-shaped slot pick with a gasket, and the branch pipe is mounted with a gap relative to the end and side surfaces of the rotor, with the aforementioned seal, placed mevdu selector and side surface of the rotor,

4. The machine according to claim 1, which is the third in the direction of rotation of the rotor, the nozzle is box-shaped and located in the discharge zone of the finished tablets.

5, Machine on PP. 1 and 2, from the fact that the slotted openings of the first nozzle are equipped with adjustable aerodynamic guides.

1 The invention relates to mechanical engineering and can be used in the chemical, pharmaceutical and other industries of the industry in the manufacture of tablets by pressing. A known rotary tablet machine containing a rotor with dies, coaxially arranged upper and lower punches, a feeder, an ejector of ready-made tablets and a device removing dust in the form of a series of tapping nozzles combined by a common collector Cl 3 The disadvantages of this rotary tableting machine are the probability of suction of press powder from the matrix at suction of dust from the rotor surface located after the feeder before the upper punch enters the matrix, which leads to the release of the tablets, and thus reduces productivity, inefficiency of suction of dust and the lack of suction in the area of ejection of the tablet from the matrix and dumping it on the tray, which leads to large losses of powder and, un-. nozzles inlets The inlets of the nozzles have a circular cross-section, which, even with guide plates, does not ensure complete dust extraction c. rotor surface. The purpose of the invention is to increase productivity, reduce powder loss and improve labor conditions. The goal is achieved by the fact that in a rotary tablet machine containing a rotor with dies, coaxially located upper and lower punches, a feeder, a pulverizer of finished tablets and a device for Lazy dust in the form of a series of suction nozzles, united by a common collector, the first suction side of the patrol, placed behind the feeder in the direction of rotation of the rotor, is designed as a shoe installed with the possibility of being blocked the matrix of holes, and placed on either side of his slit sampler. The side of the shoe of the first suction nozzle in the rotation direction of the rotor is wedge-shaped. In addition, the second in. the direction of rotation of the rotor, the nozzle, also located by the feeder, is made in the form of an L-shaped slotted sampler with a sealant, the nozzle is mounted with a gap relative to the end and side surfaces of the rotor, while the said seal is placed between the selector and the side surface of the rotor. The third nozzle in the direction of rotation of the rotor is located in the discharge zone of the finished tablets and is box-shaped. At the same time, the slotted pickups of the first nozzle are equipped with adjustable aerodynamic guides. FIG. 1 shows a tablet machine, the cross section of the horizontal plane j in FIG. 2 - the first suction nozzle, longitudinal section A-A; in fig. 3 - the same, cross-section BB; in fig. 4 - cross section of the second suction nozzle; in fig. 5 - cross section of the third suction nozzle. The machine contains a rotor 1, mounted on a shaft 2, carrying matrix 3, located by them upper and lower punches (not shown J and feeder 4. Above the rotor 1 is mounted a device for dust suction, made in the form of three suction nozzles 57, united by a common manifold (. not shown.) The first suction nozzle 5 is radially mounted behind the feeder 4. At the intersection of the nozzle 5 with the circumference of the matrices 3, a protective boot springed against the rotor surface is mounted in it, 8. 8 consists of a plate 9 with an anti-friction coating 10, the load 11 and the spring 12 / fixed on the body of the nozzle 5. The dimensions of the protective bow of the poppy 8 are larger than the diameters of the matrices 3 and its front side is rotor-shaped in wedge shape. “Both sides of the protective shoe 8 the nozzle 5 has slotted holes 13 The suction slot is formed by the aerodynamic guideline 14 by means of an adjusting bolt 15. The second suction nozzle 6, also mounted behind the feeder 4, is L-shaped, covering the outer edge of the rotor with a gap. In the gap Between the vertical part of the nozzle and the vertical outer surface of the rotor there is: a felt seal 16. Т; a retiy suction nozzle 7 is located in the selection zone of the ready-made tablets I; has a box shape. Its front wall, along with the rotation of the rotor, also serves as the ejector of the finished tablet from the surface; the rotor on the receiving tray 18. The front wall of the ejector 17 with the rear of the rotor forms a gap through which the suction of the rotor dust occurs. The tablet machine works as follows. The rotor 1 together with the matrices 3 mounted in it rotates in the direction of the arrow (Fig. 1. The mold is filled with press powder from the feeder 4. At the same time, dust and press powder, falls on the surface of the rator and is removed from the zone of the feeder.

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0iff.J the first and second suction patches 5 and b carry out suction immediately after the feeder. When the rotor rotates, the matrix holes in the rotor after filling with press powder alternately fall under the protective suction shoe 8; US Pat. cabin 5, which closes them, prevents sucking from the cavity of the matrices. Moreover, the protective shoe 8 with its wedge-shaped side directed against the rotor rotation pushes the spilled powder to the slotted selectors 13 .. Part of the dust and powder thrown off by the centrifugal force to the rotor edge is sucked off by the nozzle 6. The seal 16 prevents the powder from falling off the rotor shaft. . The dust that appears when the finished tablet is pushed out is sucked off by the nozzle 7. When the finished tablets are moved along the front wall of the ejector 17, they are cleaned of the dust stuck to them. Thus, when the rotary tablet machine operates, dust to: The excess powder is collected in close proximity to the source. education. Dust and press powder entering the suction system are collected by the filter, collected in a dust collector and periodically returned to the feeder bunker. The techno-economic efficiency of the present invention is achieved by reducing powder loss and improving working conditions.

Claims (5)

1. ROTARY TABLET MACHINE, comprising a rotor with dies, coaxially arranged upper and lower punches, a feeder, a dropper of finished tablets and a device for removing dust in the form of a series of suction nozzles united by a common collector, characterized in that, in order to reduce powder losses and. improving operating conditions, the first suction nozzle, located behind the feeder in the direction of rotation of the rotor, is made in the form of a shoe mounted with the possibility of overlapping matrix holes, and placed on both sides of its slot sampler. & boo. h ’7 2. Machine by π. 1, characterized in that the front in the direction of rotation of the rotor side of the shoe of the first suction pipe is made wedge-shaped, 3. Machine by π. 1, excellent Particularly, the second nozzle in the direction of rotation of the rotor, also located behind the feeder, is made in the form of a L-shaped slotted selector with a sealant, and the nozzle is mounted with a gap relative to the end and side surfaces of the rotor, while said seal is placed between the selector and the side surface of the rotor. 4. The machine according to π. 1, which is characterized in that the third pipe in the direction of rotation of the rotor is box-shaped and is located in the discharge zone of the finished ¹ tablet. 5. The machine according to paragraphs. 1 and 2, which means that the slotted samplers of the first nozzle are equipped with adjustable aerodynamic guides.