SU695919A1 - Jet feeder for pneumatic conveying of loose materials - Google Patents

Description

The invention relates to the field of pneumatic transportation of bulk materials. A jet feeder for pneumatic transportation of bulk materials is known, containing a transport pipeline, in front of the inlet of which are nozzles connected to a source of compressed air and mounted on the pipeline with the possibility of moving it along the pipeline 1 axis. the nozzle is mounted on a spring-loaded slider mounted on the transport pipeline. However, this jet feeder cannot be moved to different levels in the discharged bulk material due to jamming of the slide, and it also does not allow the distance between the inlet port of the conveying pipeline and the nozzle to be adjusted, resulting in a high jet feeder performance. A pela of the invention is to increase the performance of an ink jet feeder. This goal is achieved by the fact that in an iiperuiami feeder, in front of the nozzle in a condenser of compressed air supply, a chamber is rigidly connected to it, to which nozzles tangentially attached, located at some distance from each other and connected to the casing that is movable along the pipeline axis connected to a source of compressed air and covered with a gap transport pipeline, on which are mounted the sealing rings, interacting with the inner surface of the casing, and inside the chamber mounted conical rod is located coaxially with the transport pipeline and entering it, the feeder being provided with a mechanism for moving the nozzle fixed on the pipeline and connected to the casing. FIG. 1 shows a general view of the jet feeder, in section; in fig. 2 is a section along A-A in FIG. one; in fig. 3 is a section along BB in FIG. in fig. 4 is a general view of the nozzle movement mechanism. A nozzle 2 for supplying compressed air is installed in front of the inlet of the transport pipeline 1.

Attached to coroiy 2 is a kama) and 3, located in front of 1SM in the direction of supply of compressed B03jiyxa and having a dissecting nozzle 4 To camera 3 tangentially connecting nozzles 5. located 1) e for some distance 1 I1) from each other. Pipe 5 connect with the casing 6, which is movable along the axis of the pipeline, to which pipe 7 is connected, reported i; compressed air source (hell, not shown).

On the outer surface of the casing 6, there are spiral ribs 8 g of the piston strap into the material body and the handle 9. On the transport pipeline I, the sealing rings 10 are mounted, interacting with the inner surface of the casing 6. A split cone 11 is mounted on the dissecting nozzle 4, disposed It is coaxial with transport pipe M and pipe 1 and entering it.

The feeder is equipped with a mechanism for moving the seat, each of which consists of a nut 12, a stop 13, a key with a handle 14, guide bars 15 and pins 16.

Directing the youngsters 15, mounted on the pipeline parallel to its radial axis, form a longitudinal groove.

Jet ink works in the following way.

The feeder can be immersed in a slender material, iraiipniviep, screwed on. Its viOMOiiib spiral ribs 8 and handles 9 or from a half pan. vibrator.

Before immersion of the feeder into the cyclone material, the transnational pipeline 1 is lowered into the lower extreme position, i.e. lock the inlet transport | -o pipeline.

After immersion of the spatula into compacted material, compressed air is supplied through the nozzle 7 to the annular icanaJi formed by the casing 6 and three transport pipes 1.

With a BpanietHiH support nut 3, the transnort} nly pipeline is not moderated, for example, up) x and the inlet of the transport coarse guide opens.

Compressed air from the ring O channel in the lower part of the feeder through the ga1 ge1nda; the rotary nipple 1 5 nestles into the chamber 3 with the rod 11 fixed in it 11 In the chamber 3 traps1Ygiruyu). hollow conic-shaped flow, blows from the annular channel formed by the nozzle 2 and the rod m 1 I, in T) and the 1-port pipeline 1, capturing at the same time the flow of material. From the transport pipeline 1, the bulk material with a stream of compressed air and the discharge, for example, in cyclo. wherein the bulk material is separated from the transortable 10 into 03. fluff.

For. M l l a of b rete n i

Inkjet feeder for 1pgematic transferring of extra materials, contains a TjKiHCHOpTiHjHi tubon. in front of the inlet of which a cell is installed, connected to a source of compressed air and mounted on the pipeline with the possibility of crossing it along the axis of the pipeline, which is new and, for the purpose of new, from the manufacturer of Osgi nigel. in front of the nozzle in the compressed air supply is fixed rigidly for 11: and with it a chamber, to which tangentially n)) and pipelines, located at some distance from the 01. iipyra and connected to Yu. an axis of the pipeline with a casing connected to a source of compressed air and covering the gap of the run-of-pipe line on which it is mounted) sealant at utr it, wherein the feeder is provided with a mechanism neremescheni sonjsa. fortified soedlnenny pas pipe and with a casing.

Sources of informatshii taken into consideration in case of examination 1. Patent of Germany No. 1147531, cl. 81 e 60, 10.24.63 (nrotogin).

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