RU230324U1 - MULTI-COMPONENT BULK MATERIAL DOSING MODULE - Google Patents

Abstract

The utility model relates to devices for multi-component dosing of bulk materials and can be used in agriculture, in particular in the preparation of complex organomineral fertilizers, the production of compound feed, as well as in the food, chemical and construction industries. In a module for multi-component dosing of bulk materials, consisting of loading cylindrical bins with a tapering lower part in the form of a funnel, each of which is equipped with a material stirring device, a control cabinet under each loading cylindrical bin, a dosing device of a screw type with an individual drive from a gear motor, simultaneously driving the material stirring device by means of a chain transmission and having the ability to change the rotation frequency of the dosing device shaft, one side of which is connected to the branch pipe of the loading cylindrical bin, through which the bulk material is fed, and on the other - to a receiving horizontal conveyor, connected in turn to an inclined conveyor, driven by individual gear motors and transporting the dosed bulk materials from the dosing devices, in addition, the loading cylindrical bins are installed using support brackets on vertical posts. The technical result of increasing the productivity of the module for multi-component dosing of bulk materials and ensuring simultaneous continuous volumetric dosing of several types of bulk materials that differ in their physical and mechanical properties is achieved by installing screw-type dosing devices with an individual drive, and simplifying the design by the absence of a frame and weighing mechanism.

Description

The utility model relates to devices for multi-component dosing of bulk materials and can be used in agriculture, in particular in the preparation of complex organo-mineral fertilizers, the production of compound feed, as well as in the food, chemical and construction industries.

A multi-component dosing module is known (RU Patent No. 2561825 C1, IPC G01F 13/00 (2006.01), G01G 13/00 (2006.01), published on 10.09.2015. Bulletin No. 25), comprising a frame with component bins mounted thereon, communicating via feed mechanisms with drives with trays secured to weight sensors mounted on a common horizontal shaft with the possibility of their joint rotation with the trays, and an unloading device; the feed mechanisms are equipped with pneumatically controlled flaps mounted on the end of the feed mechanisms; a chain scraper conveyor is used as the unloading device, the body and scrapers of which have a semicircular shape, and a rotary crankshaft is used as the shaft, mounted with the possibility of rotating by 180 degrees.

The disadvantages of the module are the complex design of the valve control, low productivity due to the periodic weight principle of dosing of components, as well as the impossibility of simultaneous volumetric dosing of bulk materials that differ in their physical and mechanical properties.

The closest to the claimed technical solution is the multi-component dosing module MMD50-8K, selected as a prototype, manufactured by Tekhneks CJSC, TU 5144-003-26424460-2000, Yekaterinburg, 2000, containing a rectangular supporting frame mounted on vertical posts with loading cylindrical bins installed on it with a tapering lower part in the form of a funnel, each of which is equipped with a device for stirring the material with a drive for its uninterrupted feeding into a screw feeder, a screw feeder drive, a weighing system - a weigh bin placed in the body and suspended on the frame on three strain gauge hangers installed on the body of the weigh bin, a discharge cone with a vibratory hammer, fixed on vertical posts and a control cabinet.

The disadvantages of the prototype are the complexity of the design, low productivity due to the periodic weight principle of dosing of components and the lack of the possibility of volumetric continuous dosing of bulk materials that differ in their physical and mechanical properties.

The objective of this technical solution is to increase the productivity of the module and ensure simultaneous continuous volumetric dosing of several types of bulk materials that differ in their physical and mechanical properties, as well as simplify the design.

The stated problem is solved in that in the module for multi-component dosing of bulk materials, containing loading cylindrical bins with a tapering lower part in the form of a funnel, each of which is equipped with a material stirring device, a control cabinet, unlike the prototype, a screw-type dosing device with an individual drive from a gear motor is installed under each loading cylindrical bin, simultaneously driving the material stirring device by means of a chain transmission and having the ability to change the speed of rotation of the dosing device shaft, one side of which is connected to the branch pipe of the loading cylindrical bin through which the bulk material is fed, and on the other - to a receiving horizontal conveyor, connected in turn to an inclined conveyor, driven by individual gear motors and transporting the dosed bulk materials from the dosing devices, in addition, the loading cylindrical bins are fixed with the help of support brackets on vertical posts, and for ease of servicing the dosing devices with large dimensions of the module for multi-component dosing of bulk materials An observation deck with stairs has been installed.

The technical result of increasing the productivity of the module for multi-component dosing of bulk materials and ensuring simultaneous continuous volumetric dosing of several types of bulk materials that differ in their physical and mechanical properties is achieved by installing screw-type dosing devices with an individual drive, and simplifying the design by the absence of a frame and weighing mechanism.

The utility model is illustrated by figures:

Fig. 1 - module for multi-component dosing of bulk materials (side view);

Fig. 2 - module for multi-component dosing of bulk materials (front view).

The module for multi-component dosing of bulk materials (Figs. 1 and 2) contains loading cylindrical bins 1, each of which is equipped with a material stirring device (not shown in the figures), ensuring uninterrupted supply of material, with a tapering lower part in the form of a funnel 2, connected to the branch pipe 3 of the loading cylindrical bin, dosing devices 4 of a screw type with an individual drive from a gear motor 5, which simultaneously drives the material stirring device by means of a chain transmission, installed under each cylindrical bin and secured on one side to the branches of the loading cylindrical bins, and on the other - to a receiving horizontal conveyor 6, connected in turn to an inclined conveyor 7, driven by individual gear motors 8 and 9. The loading cylindrical bins are installed with the help of support brackets 10 on vertical posts I. To control the operation of the module for multi-component dosing of bulk materials, a control cabinet is mounted 12, and for the convenience of servicing the module’s components given its large dimensions, an observation platform 13 with ladders 14 is installed.

The module for multi-component dosing of bulk materials operates as follows.

Before dosing, the loading cylindrical bins 1 are filled with the corresponding components from which the mixture is prepared. In this case, components with a small percentage ratio in the mixture being prepared are loaded into loading cylindrical bins of smaller volume. Then, the feed dose of the bulk component is adjusted at each dosing device 4 by changing the rotation frequency of its screw shaft using frequency converters installed in the control cabinet 12. In this case, the productivity of the inclined 7 and horizontal receiving 6 conveyors must be no less than the sum of the productivity of all dosing devices 4.

After completing the setup, the mechanism drives are switched on. To prevent the module from clogging with bulk materials, they are switched on in the following sequence: inclined conveyor drive, horizontal conveyor drive, dosing device drives and material turning devices of the loading cylindrical bins.

The components located inside the loading cylindrical bins 1 are fed through the branch pipes 3 into the dosing devices 4. In this case, the devices for stirring bulk materials located inside the bins prevent the formation of arches above the branch pipes 3 and thereby ensure a uniform supply of components to the dosing devices 4 and their uninterrupted operation. The pre-set dosing devices 4 perform a simultaneous continuous metered feed of components into the receiving horizontal conveyor 6 in a percentage ratio, according to the mixture recipe, which are subsequently fed into the inclined conveyor 7 for their further processing.

The multi-component bulk material dosing module ensures high productivity, simultaneous continuous volumetric dosing of several types of bulk materials that differ in their physical and mechanical properties, as well as a simple design.

Claims (4)

1. A module for multi-component dosing of bulk materials, consisting of loading cylindrical bins with a tapering lower part in the form of a funnel, each of which is equipped with a material stirring device, a control cabinet, characterized in that under each loading cylindrical bin there is a screw-type dosing device with an individual drive from a gear motor, which simultaneously drives the material stirring device by means of a chain transmission and has the ability to change the speed of rotation of the dosing device shaft, one side of which is connected to the branch pipe of the loading cylindrical bin through which the bulk material is fed, and on the other - to a receiving horizontal conveyor, connected in turn to an inclined conveyor, driven by individual gear motors and transporting the dosed bulk materials from the dosing devices, in addition, the loading cylindrical bins are installed using support brackets on vertical posts. 2. A module for multi-component dosing of bulk materials according to paragraph 1, characterized in that the loading bins have different volumes, depending on the physical and mechanical properties of the bulk materials being dosed. 3. A module for multi-component dosing of bulk materials according to paragraph 1, characterized in that the screw-type dosing devices have different diameters, depending on the physical and mechanical properties of the bulk materials being dosed. 4. A module for multi-component dosing of bulk materials according to paragraph 1, characterized in that, given its large dimensions, an inspection platform with stairs is installed for ease of servicing the dispensers.