Fiber plaster based drilling fluid overflow printing mechanism in stabilizing molding process

Abstract

The invention relates to the technical field of plaster producing and molding, and discloses a fiber plaster based drilling fluid overflow printing mechanism in a stabilizing molding process. The fiber plaster based drilling fluid overflow printing mechanism comprises a bottom plate, wherein the position, close to right, at the front end of the bottom plate is movably spliced with a cam; a pistonI is movable spliced inside the bottom plate; and the left end of the piston I is fixedly connected to a spring I. A drive device drives the piston I to move left and right inside the bottom plate through the cam, liquid pushes a piston II to move left and right, and the piston II drives a movable block to rightwards move along a working box through a movable rod, so that filled-up unprocessed limiting plaster is transported to the right end inside the working box, and thus, the process of manually transporting is reduced; in the transportation process, an ejecting hole in the upper end of themovable plate is always outside a processing slot, and the cam continuously and periodically performs the transportation process, so that the effects of avoiding glue overflow due to sealing-side-free package in a plaster board production process, compact production equipment and high production efficiency are achieved.

Description

technical field [0001] The invention relates to the technical field of gypsum production and molding, in particular to a slurry prevention mechanism in the process of stabilizer molding based on fiber gypsum production. Background technique [0002] Fiber gypsum board is a building material that has rapidly developed and become popular in recent years. It is a flat building board with gypsum as the main material and fiber cloth as the surface. It is suitable for middle and high-rise buildings with large spans, large loads, and large spaces. In the construction and underground industrial and civil engineering, the construction problem of the hollow slab is solved, the performance of the floor slab is greatly improved, the suspended ceiling and the exposed beam are omitted, and the floor height and ceiling decoration cost are saved. [0003] The existing fiber gypsum board production speed is slow and the production efficiency is low. To solve the problem that the fiber cloth ...

AI Technical Summary

Problems solved by technology

[0005] Aiming at the deficiencies of the prior art, the present invention provides an anti-spill mechanism in the process of stabilizing the molding process based on the production of fiber gypsum, which has the function of stabilizing the molding, the production process is highly automated, the production equipment is compact, and the fiber gypsum board is greatly reduced. The advantages of high production cost, high production efficiency, and avoidance of overflowing gypsum board without edge-sealing package in the production process solve the problem that the general fiber gypsum production equipment does not have the function of stabilizing the material, the degree of automation of the production process is low, and the production equipment occupies an area Large size, high production cost, low production efficiency, gypsum board without edge banding is prone to overflow problems

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