SU1053866A1 - Feeder - Google Patents

Abstract

FEEDER, comprising a housing with nozzles. For loading and unloading bulk material - and coaxially placed. rem rotor with sealing elements and channels for the supply of compressed air, which differs; With the fact that, with the increase in reliability, by eliminating leakage of the medium, the sealing elements are made in the form of elastomeric membranes fixed on the cylindrical surface of the rotor and the rotor is made with additional channels for connecting the rotor with a vacuum system. i SL oo CX) l O) -g | 1 B g.1

Description

The invention relates to chemical equipment. It can be used in the chemical industry for the continuous and hermetic loading of bulk materials into an apparatus. Containing pairs of flammable or toxic liquids.

A feeder is known that contains a cluster, a rotor with blades, a cavity for compressed gas with drainage holes, the blades being made in the form of segments covering the surface of the rotor, and hinged on the rotor. The blades, covering the surface of the rotor, reduce the cross-section of the channel through which it is possible; medium leakage from the apparatus: a fl 3 "

The disadvantage of the feeder is the removal of medium vapors through the gaps between the rotor and the blades surrounding it. The compressed gas supplied to these gaps does not completely eliminate the leakage of the medium. The closest to the proposed one is a feeder comprising a housing, a rotor and sealing inserts located on the edges of the rotor, the inserts communicating with the compressed air system through channels the rotor 23. The disadvantage of the feeder. is the removal of vapors of the medium by the rotor compartments and its penetration into the room of the shop through the side opening in the housing when the pressure in the compartments to the atmospheric and into the feed hopper is reduced, when the bulk material is loaded into the compartments by displacing the vapor of the bulk material.

The purpose of the Invention is to increase efficiency by eliminating flowing media through the feeder.

The goal is achieved by the fact that the fe feeder, comprising a housing with nozzles for loading and unloading bulk material and coaxially, a rotor mounted in the housing with sealing elements and channels for compressed air supply, sealing elements are made in the form of elastic ,. membranes mounted on the cylindrical surface of the rotor, and the rotor is made with additional channels to connect the rotor with a vacuum system.

FIG. 1 shows a feeder, a longitudinal section; FIG. 2 is a section A-A in FIG. If in FIG. 3-section BB in FIG. one.

The rotor 2 is coaxially mounted in the case 1 of the feeder, the cylindrical surface of which is covered with an elastic membrane 3. A face plate 4 is coaxially pressed to the rotor 2, equipped with nozzles 5 and 6 connected to a squeezed air line and a vacuum system respectively. Eagrueoch is installed in the upper part of housing 1

Nozzle 7, and in the bottom - discharge nozzle 8. In the body of the rotor 2 there are channels 9 communicating with the compartments 10. On the faceplate 4 there is an annular groove 11 communicating 5 with the nozzle 5, and an annular groove 12 communicating with the nozzle 6. The grooves 11 and 12 also communicate with channel 9 of the rotor 2,

The feeder works as follows.

Bulk material is loaded through the nozzle into the rotor compartment 10.2 on the surface of the elastic membrane 3, which in the area of the inlet nozzle 7 and in the rotor section — from the loading nozzle 7 to the discharge pipe 8, is concave into the rotor compartment 10 due to the fact that The sections of the compartment 10 are connected via channels 9, an annular ring 12 and nozzle b to the vacuum system. The membrane 3 is glued to the cylindrical surface of the rotor 2 and freely sags over the compartments 10 of the rotor 2. The deformation of the membrane.3 at the points of contact of the cylindrical surface of the rotor 2 with the housing 1 provides tightness of each compartment 10, and hence the hermetic separation of the nozzles 7. and 8 .. To reduce the Treya's ratio of membranes 3 over body 1, body 1 is lined with fluoroplast and the surface of membrane 3 is coated with a suspension of fluoroplastic or graphite in a rubber solution .; -.

When the rotor rotates, the bulk material moves to the discharge port 8. At the moment when the rotor compartment 10, 2 is above the discharge port 8, it is connected through the channels 9, the annular groove 11 and the branch pipe 5 to the Compressed Air Retriever. In this case, the membrane 3 changes from a concave position to a convex one, which ensures unloading of the material sticking and sticking to the membrane 3. In the zone of the discharge pipe 8 and in the area from the discharge pipe 8 to the loading pipe 7, the membrane 3 is convex and pressed against the surface of the housing 1. This completely eliminates the ingress of explosive, flammable and toxic products into the workshop room through the loading pipe 7. Pressure of compressed air The rotor 2j supplied to the compartments 10 should be equal to the pressure in the working apparatus into which the bulk material is loaded, or slightly exceeds it. Since, together with the bulk material, inlet or inert gas is introduced into the apparatus (in the case of inert gas purging the feed hopper) to maintain a constant level of bulk suspension in the liquid;

The bones must be continuously withdrawn from the apparatus by air or inert gas, together with explosive fire or hazardous or toxic liquid vapors, to the vapor condensation system with subsequent return of condensate to the apparatus. Environment couples do not fall into the workshop room. To reduce the friction of the fixed faceplate 4 on the rotor 2, the friction face of the faceplate 4 is covered with nylon, fluoroplastic or

textolite. To reduce the wear of the elastic membrane 3, edges are rounded at the junctions of the pipes 7 and 8 with the housing 1 or a conical adapter is installed. The use of the proposed feeder eliminates the ingress of harmful substances through the feeder into the workshop room and into the environment, improves working conditions and eliminates the loss of evaporating liquid.

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Claims (1)

A FEEDER comprising a housing 'with nozzles for loading and unloading bulk material - and coaxially placed in a rotor with sealing elements and channels for supplying compressed air, characterized by the fact that, in order to increase reliability, it is not necessary to eliminate environmental leaks, Are the sealing elements made in the form of elastic membranes mounted on the cylindrical surface of the rotor? and the rotor is made with additional channels for connecting the rotor to the vacuum system. . SM ... 1053866