RU2038872C1 - Aerodynamic plant for enriching loose materials - Google Patents

Abstract

FIELD: chemical, metallurgical industries. SUBSTANCE: aerodynamic plant has loading and unloading branch pipes, a pneumatic force pump with an accumulating chamber and a booster pipe introduced into the dynamic chamber with repelling boards and a dust exhaust fen. The plant is equipped with a laser and flexible threads mounted in the booster pipe, infra-red sources and ultraviolet vibrators set up in the accumulating chamber and a dust extractor. The repelling boards in the dynamic chamber are made rotatable and are mounted checkered. Through the dust extractor, the dust exhaust fan is connected with the pneumatic force pump by means of an air duct. The loose material goes to the booster pipe where the granules are picked up by accelerated flow of the heated and ionized air as a result of the action of the pneumatic force pump, the infra-red source and the ultraviolet heaters. The material granules are exposed to the laser and to the impact of flexible threads which purify them. Then the granules fly into the biconical dynamic chamber where the granules repeatedly knock against the rotating shields, are self-purified and flow downwards. The dust-like particles go away to the dust extractor through the air ducts. EFFECT: facilitated manufacture. 5 dwg

Description

 The invention relates to a device for the enrichment of bulk materials and can be widely used in construction, metallurgy, chemical and mining industries and other sectors of the economy.

 Known plants for the enrichment of bulk materials containing a frame, loading and unloading pipes, conveyors, an accelerating pipe with heaters, a pneumatic supercharger with a heater, a dust fan and an aspiration system [1] [2] The disadvantages of these plants are high material consumption, low productivity, insufficient amount of cleaning and limited application.

 The closest technical solution known is the installation for the enrichment of bulk materials, including a loading hopper and a dynamic chamber with a baffle plate, a pneumatic supercharger with an accelerating pipe and a dust fan [2] The disadvantages of this installation are low productivity, high energy costs, insufficient quality of cleaning, limited application.

 The aim of the invention is to increase efficiency.

 This goal is achieved by the fact that the acceleration tube is equipped with a laser, flexible threads and is made in a U-shape, and the storage chamber is equipped with infrared and ultraviolet emitters mounted radially, and the baffle plates in the biconical dynamic chamber are made rotary and staggered, and the dust fan through a cyclone is connected by an air duct to a pneumatic blower.

 Figure 1 shows the installation plan; figure 2 section along aa in figure 1; in FIG. 3 section along BB in figure 1; in Fig.4 a section along BB in Fig.2; in Fig.5 section along G-G in Fig.1.

 The aerodynamic installation for the enrichment of bulk materials consists of a loading hopper 1, mounted above a U-shaped accelerating tube 2, containing a pneumatic blower 3, a storage chamber 4 with infrared 5 and ultraviolet 6 emitters, a laser 7 and flexible threads (chains, high-strength wire, nylon threads and etc.) 8, which are introduced into the biconical dynamic chamber 9 containing rotary baffle plates 10, an unloading pipe 11 and a dust fan 12, which is connected by air ducts 13 to the cyclone 14 and the pneumatic blower, m duct between the cyclone and Pneumosupercharger pipe provided with a throttle-valve 15, and the installation control is performed from the control panel 16.

 Aerodynamic installation for the enrichment of bulk materials is as follows.

 Bulk material (sand, powders, granules, etc.) under its own weight from the feed hopper 1 enters the booster pipe 2, where the grains of the material are picked up by a high-speed flow of heated and ionized air from the action of a pneumosupercharger 3 and infrared 5, ultraviolet 6 heaters and moves in a turbulent motion, while the grains of the material are affected by a laser 7 and impacts from flexible threads 8, which clean them, after which they fly into the biconical dynamic chamber 9, where the grains also hit repeatedly after With regard to the rotary baffle plates 10, the chambers self-clean and fall down, and dust particles and aerosols with the help of the dust fan 12 are removed through the air ducts 13 to the cyclone 13, air recirculation is created, and if necessary, external air is supplied through a pipe with a throttle valve 15 and moreover, the process control is carried out with the remote control 16.

 Known serial domestic and foreign plants for the enrichment of bulk materials, for example, the domestic drying unit D-588 and a two-tier screen SMD-121 (GIS-52) and a foreign installation of the company "Werner" (Germany), which provide only partial enrichment.

 The technical and economic efficiency of the application of the proposed device for the enrichment of bulk materials is provided by the following: an increase in the enrichment productivity of the installation is achieved by intensifying the process through numerous impacts and laser beams; improvement of quality indicators is achieved due to shock and laser actions in the high-speed flow of ionized air; energy savings are achieved through recirculation of heated air.

 In addition, the expansion of the scope of the installation for the enrichment of various bulk materials is achieved due to the adjustable process, collapsible and replaceable its elements.

Claims (1)

 AERODYNAMIC INSTALLATION FOR ENRICHMENT OF BULK MATERIALS, including loading and unloading nozzles, a pneumatic supercharger with an accumulation chamber and an acceleration pipe introduced into the dynamic chamber with breaker shields, a dust fan, characterized in that, in order to increase efficiency, it is equipped with a laser and flexible threads in the booster tube, by infrared and ultraviolet emitters installed in the storage chamber, by a cyclone, and the baffle plates in the dynamic chamber are made rotatable and tanovleny staggered and dust through the cyclone fan duct connected with Pneumosupercharger.

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