RU2645701C1 - Installation for preparation of fibro construction mixture - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the production of building materials, namely to devices for the preparation of fibrous materials prior to their introduction into construction and road construction mixtures for reinforcing the latter. This plant has a mixer and a working device for preparing fiber fibers, installed in front of the mixer. Working body contains a hopper with gate valves at the entrance and exit from it, equipped with a visualization element, temperature meter, heater, fan. Such working body also includes a fiber-fiber splitter placed in a vortex chamber and the rotor-disk is driven by motor. Vortex chamber has a nozzle for supplying compressed air into it and openings for receiving fiber fibers from the hopper on one side and discharging the fiberglass into a mixer.

EFFECT: obtaining a quality road-building mixture with fiber by eliminating the heterogeneity in itself.

10 cl, 1 dwg

Description

The invention relates to the production of building materials, namely, devices for preparing fibrous materials before introducing them into building and road-building mixtures for reinforcing the latter.

Known technical solutions aimed at eliminating the defect in the uneven distribution of fiber in different directions along the surface and volume of the road-building mixture, including layer-by-layer distribution [RF patent for invention No. 201442, RF patent for utility model No. 124625, copyright certificate SU No. 1235739 No. 1770131].

However, some of them are aimed simultaneously at several aspects of resolving the quality problems of the mixture with fiber, but are not effective enough, others do not meet modern concepts of designing such a technique.

A device for introducing fiber into the building mixture, described in the copyright certificate SU No. 1549757. The device comprises a housing with loading and unloading openings, feeding rotors, a ripping drum with rows of pegs located on its surface, a compressed air supply mechanism. Each peg has a channel and an L-shaped hook located at its end.

Also known is a device for feeding fiber, described in the copyright certificate SU No. 1779604. The device comprises a device for supplying air and a feed hopper, at the discharge opening of which there is a drum with holes on the side surface. In the holes there are spring-loaded rods with rollers at the ends in contact with the cam element mounted in the central part of the drum.

The closest analogue is a device for preparing fiber before feeding it into the building mixture described in the copyright certificate SU No. 1763202, which contains a mixer with loading and unloading holes, a device for feeding fiber. The working body - the dryer is made in the form of a shaft with rigid radially located elements - brushes.

The disadvantages of all the above devices and installations for supplying fiber to the building mixture, including the closest analogue, are the imperfection of almost purely mechanical devices from the present and, as a consequence, the lack of a guaranteed uniform distribution of fiber fibers over the volume of the building mixture.

The objective of the invention is the guaranteed uniform distribution of fiber in the building mixture due to the structural improvement of the installation.

The essence of the claimed invention is characterized in that the installation for preparing a fiber-containing building mixture contains a mixer, a fiber preparation tool installed in front of the mixer and comprising: a hopper with slide gates at its inlet and outlet, equipped with a visualization element, a temperature meter, a heater, a fan, and a fiber splitter driven by an electric motor, placed in a vortex chamber having a nozzle for supplying compressed air into it and openings for fiber from the hopper on one side and the release of fiber into the mixer.

A device is also claimed in which, along with the above-described features, the splitter is made in the form of rows of sprockets placed on two vertically oriented shafts mounted on each of the shafts with the same pitch, arranged asymmetrically with a shift and with the possibility of a number of sprockets entering one shaft in the interval between sprockets of the second shaft.

In addition, the claimed installation with all the above features of the main paragraph of the formula, in which the splitter is made in the form of gear wheels located on two shafts.

A device is also claimed in which, along with the splitter described above in the main paragraph, is made in the form of an impeller placed on the shaft.

In addition, in the installation, the visualization element is made in the form of viewing windows.

The installation is also claimed in which the visualization element is made in the form of video cameras installed at a distance from each other with the possibility of a complete overview of the hopper space and the transmission of information to the display.

In addition, in the inventive installation, an additional vortex chamber and mixer are equipped with temperature meters.

An installation is also claimed in which, along with the above-described features, the hopper is equipped with an air heating controller.

In addition, the inventive installation is equipped with a speed controller for the splitter.

In addition, also claimed is the installation in which the hopper of the working body for preparing the fiber is made conical.

The novelty of the proposed solution (see also the “essence” section of the claimed invention above) consists in introducing into the installation a number of units: a vortex chamber and a very specific set (see in bold) of controlling, regulating, executive devices for introducing air into it, as well as for transporting fiber through the vortex chamber and hopper to the mixer. Moreover, the bunker of the working body is equipped with measuring and regulating devices, which were previously absent in the analogs, for monitoring and optimizing the dynamic parameters of the installation units (see also the section “essence”).

The named assemblies with their accompanying details (see the formula paragraphs) were previously absent in similar working bodies of equipment for processing fiber fibers of road-building mixtures and it is thanks to them that the claimed technical solution is translated into a number of developments corresponding to the modern level, not limited to purely mechanical methods of designing the designated components installation.

The technical result of the claimed invention consists in the guaranteed receipt of a high-quality road-building mixture with fiber, excluding the presence of inhomogeneities in it in the form of lumps of fiber in one or more places and the absence of other errors of poorly distributed fiber within the mixture. Guaranteed uniform distribution of fiber in any area of the building mixture with the inclusion of small (discrete) elements is ensured by introducing in front of the mixer the inventive installation not only of the hopper and swirl chamber, but also of various corrective devices in them in various combinations (see claims) capable of providing the desired installation mode during the circumstances during operation (see paragraphs 3-10 of the formula).

First of all, the working body specially introduced into the installation ensures the quality of preparation of the fiber, the original features of which are the presence in it, including a splitter operating on the principle of a “carding device”, when short-cut fibers from layers of fibers tightly connected to each other become separated easily moving air flows uniformly flowing into the mixer and settling well in the volume of the building mixture. The splitter of this inventive design, in comparison with the known analogues, is structurally made in the form of gear sprockets located on the shafts, for example, in different versions according to the artist’s choice: in the intensive splitting mode in the form of rows of sprockets (see paragraph 2 of the formula) or in the usual mode in the form of gear wheels (see paragraph 3 of the formula).

In the same case, when the impeller plays the role of a splitter (item 4 of the formula), the quality of processing caked fiber is also improved. This is a simpler and more economical option, which is not used for the most difficult to process fiber fibers or for prepared mixtures with a lower saturation of fiber fibers.

For uniform introduction of air masses into the mixer, a system of movement of suspended particles of fiber is provided by their forced movements using an electric motor and compressed air in a specially installed swirl chamber, which is placed in front of the mixer.

The system of the gate valves of the hopper eliminates the loss of fiber particles due to their departure from the working volume of the hopper in an unspecified direction for all cases proposed in the invention. The heater and fan provide drying and separation of fiber particles from each other from the very beginning of the fiber path, but not always at this stage completely. The remaining nodes and their parts with manipulators (regulators, etc.) complete the swelling and splitting according to the intended programs.

The invention is illustrated using Fig., In which the positions indicated:

1 - mixer

2 - the hopper of the working body of the preparation of fiber

3 - slide gate at the inlet of the hopper,

4 - gate valve at the exit of the hopper,

5 - heater

6 - fan

7 - slide gate for regulating heat input,

8 - splitter,

9 - electric motor

10 - swirl chamber

11 - pipe for supplying compressed air,

12 - slide gate of the hole of the vortex chamber for the release of fiber

13 - support post

14 - controller for heating the air of the hopper,

15 is a visualization element,

16 - temperature meter of the hopper,

17 - temperature meter of the vortex chamber,

18 - temperature meter mixer

19 - speed controller of the splitter.

Installation for preparing a fiber-containing road-building mixture includes a working fiber preparation unit installed in front of the mixer 1. One of the important components of the working fiber preparation body is a hopper 2 with slide gates at the input 3 and the output 4 from it. The hopper 2 is equipped with a heater 5 with an air heating controller and a fan 6, a slide gate 7 for regulating the heat input. The working member for preparing the fiber contains a splitter 8 (its other important component), driven by an electric motor 9. The splitter 8 is placed in the vortex chamber 10. The latter is installed after the hopper 2 and has a pipe 11 for supplying compressed air to it, as well as openings for discharge into a fiber mixer 1 with a slide gate 12 on one side and receiving it from the hopper of the working member for preparing the fiber 2, which is mounted on the support post 13. The hopper 2 is generally conical. The hopper 2 is equipped with an air heating controller 14 and an element of visualization 15 of the internal space in the form of cameras or viewing windows. In the case of execution in the form of video cameras, the latter are installed at a distance from each other with the possibility of a complete overview of the space of the hopper 2 and display information on the display. The hopper 2, the vortex chamber 10 and the mixer 1 are equipped with temperature meters 16, 17, 18, respectively, for monitoring and optimizing the dynamics. The splitter 8 is additionally equipped with a speed controller 19, which, if necessary, provides a more or less intense mode of exposure to the fiber.

The operation of the claimed invention is as follows. The installation of the mixer 1 and the working member of the preparation of fiber, containing the hopper 2, mounted on the support posts 13, and placed in the vortex chamber 10 splitter 8, is placed inside the building materials and mixtures factory or in the immediate vicinity of it. Through the feed pipe at the entrance by opening the slide gate 3, the fiber enters the hopper due to gravitational forces 2. The slide gate 3 of the fiber feed pipe opens taking into account the required plant capacity depending on the type and productivity of the plant with continuous mixing of incoming components (during the release of road construction mixtures). For feeding and dosing of fiber into the installation, the existing standard mass-produced equipment of the respective plants is used in the form of dispensers, sensors, compressors, pipelines, etc. After opening the sliders 4 and 7, the fibers under the action of gravitational forces and warm air from the heater 5 and fan 6 are directed into the vortex chamber 10 on the rotary splitter 8. The rotation of the latter is provided at a different set speed due to the electric motor 9 with a gearbox and varies with using a speed controller 19 depending on the required condition of the fiber for the release of road-building mixtures. A nozzle for supplying compressed air 11 is installed in the vortex chamber 10. During mechanical action of the splitter 8 and the air flow, uniform fiber swelling and splitting occurs without the formation of lumps. Due to the air flow with the open gate valve 12, the fiber is fed into the mixer 1 through the exhaust outlet 1. The installation for preparing the fiber-containing building mixture is equipped with a heater 5 and a fan 6 for drying and heating the fiber before entering the vortex chamber 10 in order to improve the quality of the composite road-building mixture . The system of slide gates 3, 4, 7, 12 of the hopper 2 eliminates the loss of fiber particles due to their departure from the working volume of the hopper 2 in an unspecified direction. The hopper 2 has a visualization element 15, made in the form of viewing windows or cameras, installed at a distance from each other with the possibility of a complete overview of its space and transmitting video information to the display. The hopper 2 is made predominantly cone-shaped to increase work efficiency. To optimize the dynamics of the flushing process, temperature meters 16, 17, 18 and an air heating controller 14 are used, the data from which are fed to a remote control panel.

The inventive installation is implemented in the form of a prototype and is being tested in the departments of enterprises of the Saratov region for the production of road-building materials.

Claims (10)

1. Installation for the preparation of fiber-containing building mixture, characterized in that it has a mixer, a working member for preparing fiber, installed in front of the mixer and containing: a hopper with slide gates at its inlet and outlet, equipped with a visualization element, temperature meter, heater, fan, and a fiber splitter driven by an electric motor, placed in a vortex chamber having a pipe for supplying compressed air to it and openings for receiving fiber from the hopper on the one hand and the release of fiber into the mixer. 2. Installation according to claim 1, characterized in that the splitter is made in the form of rows of sprockets placed on two vertically oriented shafts, mounted on each of the shafts with the same pitch, located asymmetrically with a shift and with the possibility of a number of sprockets entering one shaft in the intervals between sprockets of the second shaft. 3. Installation according to claim 1, characterized in that the splitter is made in the form of two gear wheels located on two shafts. 4. Installation according to claim 1, characterized in that the splitter is made in the form of an impeller placed on the shaft. 5. Installation according to claim 1, characterized in that the visualization element is made in the form of viewing windows. 6. Installation according to claim 1, characterized in that the visualization element is made in the form of video cameras installed at a distance from each other with the possibility of a complete overview of the hopper space and the transmission of information to the display. 7. Installation according to claim 1, characterized in that the vortex chamber and the mixer are equipped with temperature meters. 8. Installation according to claim 1, characterized in that the hopper is equipped with an air heating controller. 9. Installation according to claim 1, characterized in that it is equipped with a speed regulator for the splitter. 10. Installation according to claim 1, characterized in that the hopper is conical.

Images