RU2694939C1 - Protective jasket for cutting tool with vacuum suction system - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building, particularly, to devices for dust removal of operator’s working zone. Protective jacket for cutting tool comprises inner and outer dust suction elements made in the form of open cylinders with possibility of assembly, rotation and fixation on axis of rotation of cutting disc. External element of the casing is rigidly connected to the forked handle-rod fixed on the axis of rotation of the cut-off disc, and to the filtration-ventilation monoblock consisting of small-sized cyclone, axial fan with electric drive and fine filter. Edge of the dust-suction external element of the casing, which adjoins the processed part, is equipped on the whole perimeter with a dense brush with bristles from uniformly alternating sound-absorbing threads based on carbon-fiber fiber and thermoelastic damping titanium-nickel alloy.

EFFECT: higher efficiency of dust collection and protection against noise when processing parts of complex shape.

1 cl, 2 dwg

Description

The invention relates to the field of machine tools, in particular to a device for dedusting the working area of the operator.

According to the National Security Strategy of the Russian Federation until 2020, denoting progressive labor insufficiency as one of the main strategic threats to national security, a further decrease in the share of the working-age population in the total population is expected (Babakov A.N., Chernikova A.G. Labor Safety Status in Russia // Bulletin IMSIT. - 2013. - № 3-4. - P. 21-23), (Denisov OV, Bulygin Yu.I., Ponomarev AE, Ponomareva IA, Lebedeva VV Innovative solutions // IOP Conference Series: Earth and Environmental Science. - 2017. - V. 50. - № 1. P. 012044).

 In the Russian Federation, the national standard GOST R 12.0.007-2009 “Occupational safety standards system. The system of management of labor protection in the organization. General requirements for the development, application, evaluation and improvement ", however, despite this, the statistics show an increase in occupational morbidity. A statistical analysis of the causes of occupational diseases in Russia shows that up to 40% of them are directly or indirectly associated with unsatisfactory working conditions. According to Rosstat, an increase in the proportion of workers employed in conditions that do not meet sanitary standards continues. In 2016, the value of this indicator in Russia was 27.8%, and in the Southern Federal District 23.4% (or every fourth). The largest share of them works under the influence of an increased noise and dust level of 14.1% (State of labor conditions and occupational safety in the Russian Federation in 2012 and measures to improve them (brief analyte. Review) // M .: Ministry of Health and Social Development of Russia, - 2013. - P. 46), (Labor Protection in Facts and Figures. Directions for Improving the Global Culture of Labor Protection // Moscow: ILO, - 2004–, P. 32), (Kulbovskaya, N.K. Economics of Labor Protection // Library Library “Social protection.” Series “Labor protection.” M .: NPTs “Sociometry”, - 2005. - p. 170.).

During repair and welding works at the facilities of the economy, a variety of mobile and stationary metalworking equipment is used, which, due to its nature, is a source of not only elevated noise levels, but also the dust content of the operator's working area. This indicates the need to solve the problem of reducing dustiness and noise in the workplace. (Meskhi, B.CH. General Assessment of Working Conditions in the Workshops of the Metal and Woodworking Industry for Workers Maintaining Intermittent Machines // Third All-Russian School- Seminar with International Participation “New in Theoretical and Applied Acoustics”: Proceedings of St. Petersburg , October 23-24, 2003. - Edited by NI Ivanov, p. 73-77), (Improving the efficiency of air dedusting of working areas of metalworking and woodworking industries / Yu. I. Bulygin, OS Panchenko, Romanov V. .A., Denisov OV // Bulletin of the DGTU. –Rostov-on-Don, 2013. - № 7/8 (75), pp.49-57).

Among the protective means known device for trapping and removal of dust when working on polishing, grinding wheels and cutting machines, successfully used in production (SU No. 1750935 A1, IPC B24B55 / 00, 07/30/1992), (SU No. 1684007 A1, MPK B24B55 / 06, 10/15/1991.). The disadvantages of these protective equipment is the low efficiency of dust collection.

The closest technical solution to the claimed effect is a casing-dust collector, which is a housing covering an abrasive circle and a branch pipe installed on it for suction of dusty air and a dust collecting bin (RU Patent No. 2101161 C1, IPC B24B55 / 06, 10.01.1998 g .).

The disadvantages of this dust collector are the low efficiency of dust collection when processing any non-planar structures and the lack of a noise protection system.

The essence of the invention lies in the fact that the protective cover for the cutting tool with a dust extraction system contains durable inner and outer dust extraction elements of the housing made in the form of open cylinders with the possibility of assembly, rotation and fixation on the axis of rotation of the cutting disc, characterized by the fact that the outer housing element rigidly connected with a fork handle-rod mounted on the axis of rotation of the cutting disc by means of longitudinal slots, the outer element of the housing is connected by means of a flexible corrugated monoblock filter tubes consisting of a small-sized cyclone, an axial fan with electric drive and a fine filter, while the filter-ventilating monoblock is placed on the body of the instrument actuator, the axial fan is connected to the actuator by means of a power take-off device, the edge of the dust extraction outer housing element adjacent to the workpiece, along the entire perimeter is supplied with a dense brush with bristles of uniformly alternating noise absorbing filaments Fundamentals of carbon-fiber and fiber titanonikelevogo thermoelastic damping alloy.

The technical result of the present invention is to increase the efficiency of dust collection when processing structures of complex shape, due to the use of a casing with an edge adjacent to the workpiece and provided with a brush with bristles, and a filter-ventilation monoblock. In addition, this invention is equipped with a dual-circuit noise protection system: in the part processing area, there is a silicone case with a brush with bristles of evenly alternating noise absorbing threads, as well as, in the area of the power drive, a sound-absorbing case.

The invention is illustrated in the drawing, where

figure 1 - presents the appearance of the proposed protective tool cover (side view) installed for machining;

figure 2 - presents the appearance of the proposed protective tool cover (front view).

 The protective casing for cutting tools with a dust extraction system contains a durable inner 1 and outer silicone 2 dust extraction casing elements connected by a filter-ventilation monoblock 3, as well as a dual-circuit noise protection system 4. The enclosures listed are made in the form of open cylinders with the possibility of assembly, rotation and fixation on the axis 5 rotation of the cutting disc 6. The external element of the silicone dust-removing casing 2 is rigidly connected with a fork handle-rod 7 fixed on the axis 5 of rotation of the cutting disc 6 center The longitudinal slots 8. The outer element of the casing 2 is connected by means of a profiled pipe 9 to remove dust and a flexible corrugated tube 10 with a filter-monoblock 3, consisting of a compact cyclone 11, an axial fan with electric drive 12 and a fine filter 13. At the same time, the filter-monoblock 3 is placed on the housing 14 of the actuator 15 tool. The drive axial fan 12 is connected to the actuator 15 by means of a power take-off device 16. The edge 17 of the dust extraction outer casing element 2, adjacent to the workpiece 18, is provided with a dense bristle fence in the form of a dense brush 19 with bristles from evenly alternating noise absorbing threads around the base on the bases carbon fiber 20 and a thermoelastic damping titanium-nickel alloy 21. The torque from the power drive 15 is transmitted to the cutting disc 6 through link 22. Dust removal the silicone casing 2 moves relative to the axis 5 when the wing nuts 23 (GOST 3032-76) are loosened by a fork handle-rod 7. The weight of the dust-absorbing silicone casing 2 with a bristle railing 19 is displaced by a spring mechanism 24 as they move. can be used sound-absorbing casing 25 of the actuator 15 and the filter-monoblock 3.

The protective cover works as follows:

When processing the part 18, a silicone dust-suction cover 2 with a bristled fence in the form of a dense brush 19, which maximally envelops the bends of the part, serves as a barrier against penetration into the environment from the cutting zone of metal shavings and abrasive dust. Air dust flow through a profiled pipe 9 and a flexible corrugated tube 10 is sucked off by an axial fan 12, the electric drive of which is connected to the power drive 15 by means of a power take-off device 16, and enters the compact cyclone 11 for preliminary cleaning. From a small-sized cyclone 11, air with dust remains to the fine filter 13, for example, a fabric or paper filter, which performs the final purification of air. The bristles of uniformly alternating noise-absorbing threads on the basis of carbon fiber 20 and thermoelastic damping titanium-nickel alloy 21 do not allow dust particles to go beyond the protective casing, and also contribute to sound absorption of the noise arising from the processing of the part. The threads of thermoelastic damping titanickel-nickel alloy 21 can be plastically deformed due to sharp contact with irregularities of the workpiece.

In the case of a significant dynamic effect, exceeding the possibility of elastic deformation of the filaments (bristles) of thermoelastic damping titan-nickel alloy 21, the elastic threads based on carbon-fiber fiber 20 are deformed in the elastic zone, and the filaments (bristles) of thermoelastic damping titanium-nickel alloy 21 are deformed in the beginning of the elastic in the elastic band in the elastic band of the thermo-elastic damped titanium-nickel alloy 21 in the elastic band and in the elastic band of the thermoelastic damping titan-nickel alloy 21 in the elastic zone, deformed in the elastic zone 21 then in the plastic zones. Deformations of wire filaments (bristles) from thermoelastic damping titan-nickel alloy 21 occur due to plastic bending in the contact or impact zone (RU. 2073142C1, IPC F 16F1 / 14,1993, RU 2256831C2, IPC 7 F 16F1 / 14., 20/07 / 2005).

To restore the shape of the filaments (bristles) from thermoelastic damping titan-nickel alloy 21, they are heated to a temperature at which the shape of the plastically deformed filaments is restored. Heating can be carried out operatively, for example, by means of portable heaters, a heat gun, the actual heat from the heated part and a cutting (grinding) disc, etc. devices.

For a thermoelastic damping alloy with a shape memory effect based on Ni - Ti, the temperature values at which martensitic transformation occurs (form recovery) can be 320 ... 340 K, and the number of plastic deformation cycles of wires with a small number of dislocations in the crystal lattice can reach 10 ⁶ (The shape memory effect in alloys: Trans. From English by LM Bernstein / Edited by VA Zaymovsky - Moscow: Metallurgy, 1979 - 472 p.). The return of the elements is provided by the thermoelastic force of the alloy from which the wire is made at the temperature of the recovery form.

After recovery of the form, the device is cooled to the initial temperature passively when transferring the tool to another workplace.

The restored yarn device is again ready to work, namely, to dampen shocks and jolts transmitted to the instrument, to protect personnel from abrasive particles and dust, as well as to some sound absorption of noise.

Also, the restoration of the form can occur at the end of the working day (shift) due to the use of other heating devices, for example, heaters or hair dryers, which can contribute to an increase in work efficiency.

Thus, this invention allows to reduce the level of dust and noise while protecting the instrument (in particular the disc) from hard impact with frequent changes in locations in the workplace.

Claims (1)

Protective casing for cutting tools with dust extraction system, containing internal and external dust extraction elements of the casing, made in the form of unclosed cylinders with the possibility of assembling, turning and fixing on the axis of rotation of the cutting disc, characterized in that the external casing element is rigidly connected to the fork handle-rod, mounted on the axis of rotation of the cutting disc using longitudinal slots, while the outer casing element is connected by means of a flexible corrugated tube with a filter-ventilation monoblock, consisting named from a small-sized cyclone, an axial fan with an electric drive and a fine filter, the filter-and-ventilation monoblock is placed on the housing of the instrument’s actuator, the axial fan’s actuator is connected to the actuator by means of a power take-off device, and the edge of the outer housing element adjacent to the workpiece is the perimeter is provided with a dense brush with bristles of uniformly alternating noise absorbing filaments based on carbon fiber and thermoelastic empanic titanickel alloy.

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