RU2766985C1 - Technological line for producing dispersed-reinforced gypsum products - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the field of construction, in particular to a method for the production of building materials, mainly dispersed-reinforced slabs made of gypsum. The technological line for the production of dispersed-reinforced gypsum products, mainly dispersed-reinforced gypsum-based slabs, contains supply bins of mixing water, fiber, gypsum raw materials, modifier, active mineral additives, dispensers, valves located in the technological sequence and interconnected by vehicles, batch mixer, unit for forming products, unit for stacking products, device for pressing a package of products, unit for drying and storing finished products. The line additionally contains a section for mechanochemical activation, containing a screw connected to dispensers and feed hoppers of gypsum raw materials, modifier, active mineral additives, supplying these components for mechanical activation to the vortex layer apparatus, connected to a mode control panel, a cooling system, and a magnetic catcher of grinding bodies. A batch mixer is in communication with a mechanochemical activation section, water and fiber dispensers.

EFFECT: increasing the strength and performance properties of dispersed-reinforced slabs.

1 cl, 1 dwg

Description

The invention relates to the field of construction, in particular to a method for the production of building materials, mainly dispersion-reinforced slabs made of gypsum.

There is known a method of manufacturing a gypsum plaster board and a gypsum plaster board obtained in such a way that, using the first mixer, a first suspension of a certain type of gypsum is provided; using a separate second mixer, provide a second suspension of gypsum of a certain kind. Next, the first and second parts of the second suspension and parts of the first suspension are successively applied (RU 2693688, pub. 04.07.2019, bull. No. 19).

The disadvantage of this invention is the low strength of the resulting plate, the technological complexity of manufacturing.

A production line for the preparation of an unburned anhydrite binder is known, including a drying post represented by a drying drum, a crushing post, a storage post represented by material stock bins, a grinding post containing an electromagnetic mill (RU 2566154, pub. 20.10.2015, bull. No. 29).

The disadvantage of this invention is not the high strength of the products obtained from the presented binder, low impact resistance.

A production line for the manufacture of waterproof building boards is known, containing a dispenser located in a technological sequence and interconnected by vehicles, a continuous or batch mixer, a unit for preparing and batching gypsum raw materials, water, gypsum modifier, fine-grained expanded clay and fiber. Additionally, the line contains a unit and a device for forming and compacting, a unit for drying and cutting the finished product (RU 2598391, pub. 27.09.2016, bull. No. 27).

The disadvantage of this invention is the low strength of the resulting building boards, impact resistance and softening factor

The closest to the claimed production line is a production line for the manufacture of waterproof building boards, containing arranged in a technological sequence and interconnected by vehicles, a fibrous filler preparation unit, a dispenser, a continuous or batch mixer, a unit for the preparation and batch supply of gypsum raw materials, gypsum modifier and mixing water, a unit for forming a carpet of a product, a unit for placing products in bags, a device for pressing a formed package, a unit for disassembling, trimming, drying and storing finished products. The technological line additionally contains a device for cutting rye, rice or reed straw into fibers and a device for screening fibers (RU 2565696, pub. 20.10.2015, bull. No. 29).

The disadvantage of this invention is the low strength, impact resistance and low softening factor of the resulting gypsum boards.

The objective of the present invention is to increase the strength, softening factor, impact resistance of the dispersion-reinforced plate.

The task is achieved by the fact that the production line for the production of dispersion-reinforced gypsum products, mainly dispersion-reinforced gypsum-based slabs, contains supply hoppers of mixing water, fiber fiber, gypsum raw materials, modifier, active mineral additives, dispensers, valves, a batch mixer, a product forming unit, a product stacking unit, a device for pressing a package of products, a unit for drying and storing finished products, additionally contains a mechanochemical activation section containing an auger connected to batchers and feed bins of gypsum raw materials, a modifier , active mineral additives, supplying the indicated components for mechanical activation to the vortex layer apparatus connected to the mode control panel, the cooling system, the magnetic trap of grinding bodies, while the batch mixer Viya is connected with the site of mechanochemical activation, water and fiber dispensers.

In FIG. 1 shows a diagram of a production line for the production of dispersion-reinforced gypsum products, mainly dispersion-reinforced gypsum-based slabs. The production line works as follows.

At the first stage, at the site of mechanochemical activation, from the gypsum raw material hopper 1, modifier 2 and active mineral additives 3 through valves 4 and dispensers of gypsum raw materials 5, modifier 6, active mineral additives 7, these components enter the screw, transporting the resulting mixture to the vortex layer apparatus 9 having a magnetic trap of grinding media 10, a cooling system 11 with pipes of the cooling system 12, a control panel for operating modes of the apparatus of the vortex layer 13. Activation of the specified mixture occurs for at least 3 minutes. The mixture obtained after activation is fed into the batch mixer 14, where the fiber fiber is simultaneously supplied from the hopper 15 through the dispenser 17. The resulting mixture is mixed in the mixer 14 for at least 2 minutes.

At the second stage, water is supplied to the resulting mixture from the hopper 16 through the weight dispenser 18 and the final mixing of the finished mixture takes place for at least 2 minutes. The finished mixture enters the unit for forming products 19, then to the unit for laying products 20 and into the device for pressing products 21.

When this pressing occurs at a pressure of 6 MPa, which is lower than in the prototype. This is due to the high density of the gypsum mixture obtained by mechanochemical activation. After pressing the products, cutting, drying and storage of the obtained dispersion-reinforced slabs are carried out at section 22.

The proposed production line allows the production of dispersion-reinforced slabs with higher strength, softening factor, impact resistance due to the presence of a mechanochemical activation section in the production line, in which gypsum raw materials, modifier and active mineral additives are activated, which leads to an increase in strength and operational properties of dispersed -reinforced slabs.

Claims (1)

Technological line for the production of dispersion-reinforced gypsum products, mainly dispersion-reinforced gypsum-based slabs, containing supply hoppers of mixing water, fiber fiber, gypsum raw materials, modifier, active mineral additives, dispensers, valves arranged in a technological sequence and interconnected by vehicles , a batch mixer, a unit for forming products, a unit for laying products, a device for pressing a package of products, a unit for drying and storing finished products, characterized in that it additionally contains a mechanochemical activation site containing an auger connected to dispensers and supply hoppers of gypsum raw materials, a modifier, active mineral additives, supplying the indicated components for mechanical activation to the vortex layer apparatus connected to the mode control panel, the cooling system, the magnetic trap of grinding bodies, while the batch mixer is connected with the participation tcom of mechanochemical activation, dispensers of water and fiber.

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