SU709473A1 - Vacuum-ejector feeder for unloading vessels - Google Patents

Description

The invention relates to the field of pneumatic conveying of bulk materials and can be used in various industries, for example, in the mining industry for loading granular explosives from bulk containers to blasting sites with overloading them in containers of charging devices equipped with ejector-loading devices with subsequent charging holes and wells.

Is there a suction nozzle for unloading bulk materials containing ₁₅ body? with a suction pipe, and a transport pipeline connected to it [.1].

The disadvantage of this nozzle is that it is ineffective, since the control of such a nozzle of low weight, therefore, low productivity, is carried out manually, and large weight - using various kinds of winch mechanisms or telescopic devices.

The use of manual labor when controlling nozzles leads to a decrease in the degree of mechanization of the technological process, and the presence of a large number of auxiliary mechanisms with their attendants increases the cost of finished products.

The aim of the invention is to increase the efficiency of unloading bulk material from the tank.

The goal is achieved in that in the proposed feeder the housing is perforated and provided at its upper end with horizontal guide shelves included in the corresponding grooves of the estrus of the discharge tank, and a safety visor is installed above the inlet of the suction pipe.

In order to completely empty the h-ernus and to catch the spill through the perforation, the feeder is equipped with an installed .torr 70

..? s ··.: ;; STVNKY AND BOTTOM a-ch't / olshchushchie · .. · aaschlsh to the right

Fa. .. a. ‘Skhtshtichno the oasisable feeder is shown. general form; Fig. 7 of Fig. 2 is a section A-A of Fig. lj of Fig. 3 is a view along arrow B of Fig. 1.

The vacuum ejector feeder contains a housing 1, which is perforated to create an aeration process therein under the action of a suction air stream, and for a better movement of the material towards the inlet of the suction pipe 2, the rear stoic and the bottom of the housing are made ¹ vicious towards transportation.

To prevent clogging of the suction pipe 2. with a material above it, a safety peak is inclined mounted inside the housing over it. 3; the inclination of the visor 3 is provided so that the unloaded material does not linger on it.

To collect spills of material through perforations from below, the feeder is equipped with a pallet 4,

The upper - open part of the feeder housing 1 has horizontal guide shelves 5, with the help of which a quick-detachable connection of the feeder with the estrus 6 of the discharge tank 7 _{P is made.} For this purpose, under the estrus 6 a frame 8 is fixed with internal paired two-story transverse grooves - the lower grooves are used to connect to estrus 6 of the feeder, and the upper ones for gate 9, which closes the flow. ku 6.

For ... transporting material into a loadable tank (not shown in the drawing) serves as a transport pipeline 10.

The feeder works as follows. zom.

The material from the tank 7 with the open gate 9 by gravity enters the housing 1 of the feeder.

Under the action of the vacuum created in the loaded container and the transport pipeline 10 connected to it, over the perforation of the housing 1, an active process of aeration of the material with air sucked through the perforation occurs. Next, the aerated material under the action of vacuum through the pipeline 10 enters the loadable tank.

The implementation of the back wall and the bottom of the housing 1 inclined in the direction of transportation contributes to the complete emptying of the housing. At the end of unloading of the container 7, the vacuum is removed in the loaded container, the estrus 6 is blocked by the gate 9, the feeder is removed from the grooves of the frame 8, the empty container is replaced .; This process is repeated.

The proposed feeder is simple and; bin in service, does not require for s. loads of manual labor tanks or 4: a smaller number of auxiliary mechanisms, and this leads to an increase in the efficiency of the unloading process.

Claims (2)

The invention relates to the field of motor transport stubs of bulk materials and can be used in various industries, for example, in mountain mining industry for loading granular explosives from bulk containers to a blasting site with overloading them in a charging vessel, ejector-equipped loading devices with subsequent charging of bore-holes and wells. A suction nozzle for unloading bulk materials is known, which contains a housing with a suction inlet and a transport conduit 1 connected to it. The disadvantage of this nozzle is that it is inefficient because It is produced manually, and of great weight - from various kinds of winch mechanisms or telescope installations. The use of manual labor in the management of nozzles leads to a decrease in the degree of mechanization of the technological process, and the presence of a large number of auxiliary mechanisms with their service personnel will lower the cost of the finished product. The aim of the invention is to increase the efficiency of unloading bulk material from the tank. The goal is achieved by the fact that, in the proposed feeder, the housing is perforated and provided with horizontal guide shelves at its upper end, the entrance to the discharge chambers of the tank being discharged is installed, and a safety hood is installed above the inlet port of the suction nozzle. For the purpose of full oporozhmoni: - 1us and catching the spillage of the skull 11 p4yu UShch1po tggatel is equipped with an ustyyuvgyuntsh tm under (. F ;;. A - A in FIG. IJIA of FIG. 3 of the PSA arrow B in FIG. 1 SOGA vacuum ejector feeder, body 1, which, in order to create an aeration process in it under the action of the suction air, is perforated, and for better material movement towards the inlet of the suction inlet nozzle 2 butt; 1 stoic V bottom of the hull made a 1-1 MI in the side It is provided with a material above it with an obliquely mounted protective visor 3 inside the case; an inclination of the visor 3 is provided for Toroj so that the material to be discharged is not delayed. To collect material spillage through the perforation from the bottom, the feeder is provided with a tray 4. Ver.khn - а.kkrpga part of the case 1 of the feeder has horizontal nanavravlnye shelves 5i with the help of which a quick-release connection of the feeder with the chute 6 of the discharging tank 7p is made. Frame 6 is fixed to frame 8 with internal paired, double-sided floor transverse grooves - the slots serve as DNP joining. to heat O, feeder, and ver. xkie, for iuvi6epa 9, which covers the heat 6. CSD.trap-sport; 1Row and material into the loadable container (not shown) serves as a transport pipeline, 10. The feeder works as follows. The material from the tank 7 when the open gate 8 by gravity enters the building 1 of the feeder. Under the action of the vacuum created in the loadable container and the transport pipeline lOj connected to it above the perforation of the housing 1, the process of material aeration into the air takes place. tsu.hom, suction-through perforation;). Further, the aerated material under the action of vacuum through the pipeline 1O enters the load tank. The execution of the back-of-the-stack and the bottom of the body 1, inclined in the direction of transport, promotes complete emptying of the body. At the end of the unloading of the tank 7 in the loaded tank, the vacuum is removed, the chute 6 is defied by the clamper 9, the feeder is removed from the grooves of the frame 8, the empty replacement capacity is: -: s and the process is repeated. The proposed feeder is simple and, - ,:. bin in service, does not require dl;:;, loading of containers for manual labor or bg. , the number of auxiliary m: khanizm, and this leads to an increase. efficiency of the unloading process. 1. Vacuum ejector feeder for unloading containers containing K.D ,. a vacuum with a suction inlet and a connection:.: a transport pipeline connected to it, characterized in that in order to increase the efficiency of opening the bulk material from the container, the vacuum is perforated and equipped with horizontal guides in its upper end . shelves ,. BHOD.CH.TTs ;: MK in the corresponding grooves of estrus,; of the receptacle, and above the inlet outlet of the suction nozzle, the installation is set: 2; safety hood. 2. The feeder according to claim 1, in connection with the fact that, for the purpose of the policy:., Emptying the body and controlling the rash through the perforation, it is equipped with a pallet mounted under the body, and the back wall and case bottom; inclined in the direction of transport. Sources of information taken into account during the examination 1. Kondakov V, N., et al., Pneumatic and hydraulic transport in the food industry. M., Pischevvi industry, 1973, fig. 14, p. 26 (prototype). .one Aa noSepHt / mo ten