RU2052348C1 - Continuous mixer - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: device has a frame, a housing with branch pipes for charging and discharging the working bodies in the form of arc-wise helical spirals arranged in rows in the housing. The housing is mounted on the frame at an angle to the horizontal plane. The helical spirals are located from each other at a distance equal to 1,0 - 3,0 of the outer diameter of the spirals. EFFECT: enhanced efficiency of mixing. 1 cl, 2 dwg

Description

 The invention relates to the field of construction and production of building materials and can be used in other sectors of the national economy, for example, in mining, metallurgical, chemical and others, for mixing various materials in solid and liquid phases in large quantities. One of the main areas of use is the preparation of filling hardening mixtures for filling the developed underground spaces.

A known mixer comprising a housing with loading and unloading nozzles and working bodies connected to shafts in the form of arcuate curved helical spirals arranged in parallel rows along the length of the housing at a minimum distance from each other [1]
The closest in technical essence and the achieved result to the proposed invention is a continuous mixer containing a frame mounted on it with a lid, a loading nozzle and drive mixing bodies, and the body is made in the form of half-cylinders coaxially arranged in one another and is mounted on frame with the possibility of axial reciprocating movement [2]
One of the main disadvantages of these devices is that when the working bodies are located close to one another due to the turbulence of the flows of mixed materials, unmixed volumes or aggregates of the same components can fly over the working body and exit them from the machine, which leads to a significant reduction in the resulting mixture. In addition, in the event of a breakdown in the spiral of one of the working bodies, its ends can capture the spirals of adjacent working bodies and disable them. This reduces the operational reliability of the machine as a whole.

 The aim of the present invention is to improve the quality of mixing and reliability.

 This goal is achieved by the fact that in the continuous mixer containing a trough-shaped housing mounted on the frame at an angle to the horizontal plane with nozzles for loading and unloading, working bodies arranged in parallel rows in the housing on the drive shafts in the form of arcuate curved helical spirals, according to the invention, the spirals are arranged from each other at a distance equal to 1.0-3.0 of the outer diameter of the spirals. A safety element is mounted inside each of the spirals, made in the form of a chain or rope segment and mounted on the ends of the drive shafts with the outer surface of the spiral touching the outer surface.

 In FIG. 1 shows a general view of the mixer; in FIG. 2 is a view along arrow A in FIG. 1.

 The mixer comprises a housing 1 with loading 2 and unloading 3 pipes and working bodies 6-9 connected to shafts 4.5 in the form of arcuate curved spirals mounted on shafts by attachment points 10, 11. The drive of the working bodies includes a drive motor 12 and final drives 13, 14. Inside each spiral mounted safety element 15, made in the form of a chain or rope.

 The continuous mixer operates as follows.

 The electric motor 12 is turned on and through the final drives it drives the working bodies 6-9. Initial materials, for example, components of a sand-gravel hardening mixture, are moved through a loading nozzle 2 into a housing 1, moved along an inclined bottom and fall into the zone of action of a working body 6, where primary mixing takes place. Further, the material due to the forces of gravity and mechanical impulses of the organ 6 in a continuous stream enters the zone of action of the working body 7 and the mixing process is repeated. The components of the mixture due to the presence of a significant distance between the working bodies do not jump through them, but evenly pass between the turns, which intensively mix them. In this case, large pieces and aggregates, falling into converging wedge spaces between the turns, are destroyed. This leads not only to activation of the mixture, but also improves its ability to mix by pipeline transport. Passing sequentially through the working bodies 6-9, the components of the mixture are thoroughly mixed and issued through the nozzles 3 in the form of a finished commodity mixture.

 In case of destruction of any of the spirals of the working bodies, due to the presence of the safety element 15, it does not have the ability to move to the side under the action of the mixture and engage with the spiral of the adjacent working body.

 The use of the invention in comparison with known devices can improve the quality of the resulting mixture. At the same time, the operational reliability of the continuous mixer is improved and the service and repair conditions are improved, since access to all structural elements is facilitated.

Claims (2)

 1. CONTINUOUS ACTION MIXER, comprising a trough-shaped housing mounted on the frame at an angle to the horizontal plane with nozzles for loading and unloading, working bodies in the form of arcuate curved helical spirals arranged in parallel rows in the housing on the drive shafts, characterized in that, in order to improve quality mixing and reliability, helical spirals are located one from another at a distance equal to 1.0 - 3.0 of the outer diameter of the spirals.  2. The mixer according to claim 1, characterized in that a safety element is mounted inside each spiral, made in the form of a chain or rope segment and mounted on the ends of the drive shafts with touching the outer surface of the inner surface of the spiral.

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