RU2001734C1 - Grinding wheel cooling and cleaning device - Google Patents

Description

The invention relates to machine tools, namely to devices for cooling and cleaning and removing dust and particles from a cutting rod. The closest in technical essence is the method of cleaning the pyphoid wheel, carried out iin using a device containing a card i, r with the mechanism of its installation switch and open to the circle cavity, the central zone with the nozzle for unloading under pressure lubricant -cooling technological means (SOTS) and outlet pipe 1.

The disadvantage of this technical principle is the low efficiency of the grinding wheel number and removal of 1 or particles of the processed material from the processing tone

The aim of the invention is to increase the cooling and cleaning efficiency of the grinding wheel

The drawing shows a device, cpu view

The device consists of an ejector housing 1. which is located in the casing and is connected with the hinges 3 to the casing 2 and the catcher L. At the ends of the hinges 3, sliders 5 and 6 are made. A collar is installed in the casing. 1 which enters the groove of the housing The latter is connected to the mounting movement mechanism 8. A nozzle 9 is made in the housing 9. cavity 10. curved ejection channels 11 and one pipe with compartments 12 increasing with the cross-sectional areas as the distance from the cavity 10 of the housing increases.

The device operates as follows.

COTS is supplied through the pipelines to the cavity 10. Passing above the surface of the grinding wheel 13, the COTS jet carries particles of the processed material from the pores of the circle, which together with the COTS enter the compartments 12 and are removed through the exhaust ventilation duct (not shown). Particles of dust and processed material from the cutting zone through the trap 4, the ejector channels 11 are removed through an exhaust ventilation duct.

Claims (1)

The claims DEVICE FOR COOLING AND CLEANING THE GRINDING CIRCLE, comprising a housing with a mechanism for its positioning movement and a cavity open to the circle associated with a coaxially arranged nozzle for supplying lubricating-cooling pressure under pressure As the grinding wheel 13 is worn by the mechanism 8, the housing 1 is lowered. Due to the rigid connection of the hinges 3, at the ends of which the sliders 5 and 6 are made, catcher 4 is raised (clockwise). In this case, the distance between the workpiece and the trap body is always optimal, due to which there is a high-quality dust extraction, particles of the processed material and coolant from the cutting zone. By means of the pin 7, the housing 1 is reliably fixed to the grinding wheel in the required position. SOTS under pressure enters the nozzle 9 of the housing 1, passes over the surface of the grinding wheel 13. Due to the design of the nozzle, the SOTS leaves the nozzle at a high speed, which occurs according to the conservation law 0 energy: before constriction, air has less velocity, but greater pressure (greater potential energy), and after narrowing, falling into the conical part of the nozzle, COT expands, its pressure drops, but then 5 increases kinetic energy, i.e. SOTS leaves the nozzle with a greatly increased speed and therefore a directed jet. Entering the cavity 10 in contact with the air, it enters the compartments 12 between 0 body and grinding wheel. In this case, the COTS jet from the nozzle captures air, loses some of its kinematic energy and, together with the ejected air, enters the next compartment, where two 5 streams mix and enter the next compartment, The cross-sectional area of the compartments 12 increases with distance from the cavity 10 of the housing, with the expectation that 0 air with COTS was in contact with the wall of the compartments at a distance from the edge of the latter, equal to (0.5-1.0) d of the previous compartment, where d is the diameter of the compartment. The process is then repeated in the following compartments. In this case, the grinding wheel is cooled by COTS, which adiabatically expands when the pressure drops. (56) 1. USSR Copyright Certificate No. 1541037, cl. B 24 V 55/02, 1990. 0 technological means (COTS) and an outlet pipe, characterized in that the outlet pipe is made of several compartments with a cross-sectional area that increases with distance from the body cavity, and in the latter there are several curved channels connected to the outlet pipe and facing the outlet openings to the cutting zone, which is equipped with an adjustable catcher on it, this device is equipped with a cover that is kinematically connected with the body, and its body and circle with a casing and mounted pivotally connected to the casing.  H