SU1752419A1 - Cooling system of grinder - Google Patents

Abstract

Use: in crushing and grinding equipment, in particular in cone crushers, in the mining, chemical, and construction industries. SUMMARY OF THE INVENTION: The cooling system of the crusher consists of a housing 1. an outer 2 and an inner 3 cone, an unbalance of 4 a / g, and an annular chamber 5. The annular chamber is filled with liquid and communicated with a liquid container. Concentric to the annular chamber, there is installed a bellows 8. made of consecutive U-shaped annular elements 9, made with openings 10 for air injection, a liquid forming a flow-through capacitance 11 for cooling air, connected by an inlet nozzle with a fan 12 located on the engine shaft. When the inner cone 3 rotates, the heat of the crushing is generated, which is accumulated by the liquid and is extracted by air through the bellows 8 with a developed heat exchange surface. At the same time, the movement of air in the cooling system and the annular air chamber is carried out from the fan 12. The applied bubbling principle of fluid operation increases the efficiency of the cooling system of the crusher. 2 Il. J / ale with VI eaten go Ј y

Description

The invention relates to crushing and grinding equipment, in particular, to cone crushers, and can be used in the mining, chemical, and construction industries.

Cone crushers are known in which cooling is achieved by the circulation of fluid in a hydraulic dust gate,

The device is not reliable enough, since it is contaminating the material with a liquid, has an additional cooler and a pump for cooling, which is not environmentally beneficial and not used when crushing highly combustible materials, such as aluminum, burning in water.

A crusher cooling system is known, comprising a housing, an outer and an inner cone, an unbalance and an annular chamber.

With the high-speed crushing of superhard and highly flammable materials, the cooling surface of the annular kg-measure is insufficient, since this releases a large amount of heat and the annular gap narrows to zero, the material ignites. Therefore, the reliability and efficiency of cooling is insufficient. In some regions where there is no cooling water, the air cooling system will be more profitable and even the only possible. Air cooling is particularly effective at high rotational speeds of the fan rotor.

The purpose of the invention is to increase the cooling efficiency when operating on highly flammable and superhard materials.

The goal is achieved by the fact that in the cooling system of the crusher comprising a housing, outer and inner cones, debalance and an annular chamber, the latter is filled with liquid and communicated through the inlet and outlet nozzles with a liquid container, and the U-shaped bellows are mounted concentrically with an excitatory chamber made with holes for air injection into the annular chamber.

Figure 1 shows the crusher, a longitudinal section; figure 2 - section aa in figure 1.

The cooling system of the crusher consists of body 1, external 2 and internal 3

cones, unbalance 4 and annular chamber 5. The annular chamber is filled with liquid and communicated with inlet 6 and outlet 7 with nozzles with a liquid container (not shown)

Concentric to the annular chamber, there is installed a bellows 8, made of successively arranged U-shaped annular elements 9, provided with openings 10 for injecting air into the liquid,

forming a flow-through reservoir for cooling air 11, communicated by the inlet connection with a fan 12 located on the engine shaft.

The cooling system operates as follows.

When the inner cone 3 of the crusher is rotated, the material entering the crusher is crushed between the inner 3 and outer 2 cones. The heat generated is accumulated by the fluid and is taken up by air through the bellows 8 with a developed heat exchange surface. The air in the cooling system 11 is then moved using a fan 12,

During the operation of the cooling system, the air from the fan is supplied to the flow-through tank for cooling. The heated fluid under the action of air pressure moves from the annular chamber 5 to the tank with

using the outlet nozzle 7, and the liquid cooled in the tank is moved under pressure into the annular chamber with the help of the inlet nozzle b.

The boring principle of operation of the fluid in the annular chamber increases the efficiency of cooling of the working parts of the crusher

Claims (1)

Claims The cooling system of the crusher, comprising a body, outer and inner cones, debalance and an annular chamber, is characterized in that, in order to increase the cooling efficiency when operating on highly flammable and superhard materials, the annular chamber is filled with liquid and communicated through the inlet and outlet nozzles a container for a liquid, and a concentric annular chamber mounted bellows of U-shaped annular elements, made with openings for the injection of air into the annular chamber. eleven FIG. 2