RU2646147C1 - Acoustic cabin - Google Patents

Abstract

FIELD: acoustics.

SUBSTANCE: invention relates to acoustic cabins. Acoustic cabin comprises a base, a frame, life support equipment, window and door apertures and enclosures in the form of acoustic panels. Base is installed on pneumatic vibration isolators, and the carcass of the cabin is rigidly fastened to it in the form of acoustic noise-absorbing panels, made in the shape of a parallelepiped, formed by the front and rear walls of the panel, between which the sound absorber is placed. Front wall has perforation. Front wall has glazing, composed of noise-reflecting translucent polygonal panel. As a noise-reflecting translucent element, a panel of a continuous sheet of extruded polycarbonate plastic is used, as well as the ceiling part with lamps, the rear wall, located in the plane, parallel to the plane of the front wall, and four side walls, one of which has a door. Area of the rear wall is larger than the area of the front wall, and the side walls, adjacent to the front wall, are inclined with respect to it, and the walls, adjacent to the rear wall, are perpendicular to it, wherein the cabin is sealed and equipped with a life support system and a workstation. Operator’s workstation is equipped with a working table and a chair with vibration isolators in the form of elastomer plates attached to the chair legs. Sound absorber of the acoustic noise-absorbing panel of the operator's cabin contains a smooth and perforated surfaces, between which there is a layer of sound-absorbing material of a complex shape. Layer of complex shape is an alternation of solid sections and hollow sections. Hollow sections are formed by prismatic surfaces that, in their cross-section, parallel to plane of the drawing, have the shape of a parallelogram, whose inner surface has a toothed or wavy structure. Teeth tops face inside the prismatic surfaces. Ribs of the prismatic surfaces are secured on the smooth and perforated walls respectfully. Cavities of hollow sections, formed by prismatic surfaces, are filled with a sound absorber. Between the smooth surface and solid sections of the layer of sound-absorbing material of a complex shape, as well as between the perforated surface and solid sections, resonant plates with resonant inserts that perform the functions of the Helmholtz resonator necks are located.

EFFECT: technical result is to increase the efficiency of the operator.

1 cl, 8 dwg

Description

The invention relates to safe means of work.

The closest technical solution to the technical nature and the achieved result is the operator’s cab according to the patent of the Russian Federation No. 2420635 [prototype], containing the base, frame, life support equipment, window and door openings and fences in the form of acoustic panels.

The disadvantage of the technical solution adopted as a prototype is the relatively low efficiency of sound attenuation due to the relatively low coefficient of sound absorption.

The technical result is an increase in operator efficiency by reducing dust and noise levels.

This is achieved by the fact that in an acoustic cabin containing a base, frame, life support equipment, window and doorways and fences in the form of acoustic panels, the base is mounted on at least three pneumatic vibration isolators made in the form of a rubber-cord sheath, and the cab frame is rigidly fixed to it in the form of acoustic sound-absorbing panels made in the form of a parallelepiped formed by the front and rear walls of the panel, between which a sound absorber is placed, and each of the walls has -shaped shape, and on the front wall there is a slit perforation, the perforation coefficient of which is taken to be equal to or more than 0.25, and the front wall is made with glazing made of a reflective translucent panel made in the form of a polygon, for example, a rectangle formed by a U-shaped edges made of vibration-damping material, and as a noise-reflecting translucent element, a panel of a continuous sheet of extruded polycarbonate plastic, as well as full-time part with lights, a rear wall located in a plane parallel to the plane of the front wall, and four side walls, one of which has a door, the area of the back wall is at least 2 times the area of the front wall, and the side walls adjacent to the front wall are made inclined with respect to it and with glazing, and adjacent to the rear wall are perpendicular to it, and the cabin is sealed and equipped with a life support system in the form of an artificial microclimate system with a control panel, as well as a workplace that includes a desktop, a chair with vibration isolators in the form of plates of elastomer attached to the legs of the chair, and a hanger for replaceable clothes, and the life support system is made in the form of an artificial microclimate system with a control panel, for example, in the form of a cassette air conditioner by General Climate, and the operator’s workplace is equipped with a work desk and a chair with vibration isolators in the form of plates of elastomer attached to the legs of the chair, and the type “vibrofl” is used as an elastomer Ex EP / 25 A ”or“ VEP ”type vibration damping plates, and the sound absorber of the acoustic sound-absorbing panel of the operator’s cabin contains smooth and perforated surfaces, between which there is a layer of sound-absorbing material of complex shape, a layer of complex shape is an alternation of solid sections and hollow sections, and hollow the sections are formed by prismatic surfaces having, in a section parallel to the plane of the drawing, a parallelogram shape, the inner surfaces of which have a gear round, with the tops of the teeth facing the inside of the prismatic surfaces, and the edges of the prismatic surfaces attached respectively to the smooth and perforated walls, and the cavities of the hollow sections formed by the prismatic surfaces are filled with a sound absorber, and between the smooth surface and the solid sections of the layer of sound-absorbing material of complex shape, as well as between the perforated surface and the solid sections there are resonant plates with resonant inserts that act as throats Helmholtz resonator bovine.

In FIG. 1 shows a general view of an acoustic operator’s cabin operating in conditions of increased dust content and high noise levels; FIG. 2 is a general view of an acoustic noise absorbing panel; FIG. 3 is a general view of an acoustic noise-reflecting translucent panel of a glazing of a cabin; FIG. 4 is a general view of the cassette air conditioner, in FIG. 5 is a general view of the operator’s chair; FIG. 6 is a characteristic of an elastomer of the type “vibroflex EP / 25A, in FIG. 7 is a general view of elastomeric vibration damping plates of the “VEP” type; FIG. 8 is a diagram of a sound absorber of an acoustic noise absorption panel.

The acoustic operator's cabin contains a base 1 (Fig. 1) mounted on at least three pneumatic vibration isolators 5, made in the form of rubber-cord shell. The cab frame is rigidly attached to the base, made in the form of a polygonal prism with ribs perpendicular to the base of the cab and consisting of a front wall 2 with glazing 4 made of a reflective translucent panel, ceiling part 3 with lights 12, and a rear wall 14 located in a plane parallel to the plane of the front wall 2, and four side walls, one of which has a door 11. The area of the rear wall 14 is at least 2 times the area of the front wall 2, and the side walls adjacent front wall, are inclined with respect thereto and with glazing and adjoining the rear wall - perpendicular thereto. The acoustic cabin is sealed and equipped with a life support system in the form of an artificial microclimate system 13 with a control panel 9, as well as a workstation including a work desk 6, chair 7 with vibration isolators 8 in the form of elastomer plates attached to the legs of the chair, and a hanger for replaceable clothes 10. The frame of the cabin is made in the form of acoustic noise-absorbing panels (Fig. 2), the frame of which is made in the form of a parallelepiped formed by the front 15 and rear 16 walls of the panel, between which there is a noise absorber , and each of the walls has a U-shape, and on the front wall there is a slotted perforation 17 and 18, the perforation coefficient of which is taken to be equal to or more than 0.25, and the panel walls are fixed between themselves by vibration damping covers 19, and as a sound-absorbing material of a sound absorber 20 rockwool basalt-based mineral wool slabs are used. For the rigidity of the carcass, side ribs 21 are provided on the walls 15 and 16. As a sound-absorbing material, layers of mineral wool of the URSA type, or basalt wool of the P-75 type, or glass wool coated with glass wool, or foamed polymer, for example polyethylene or polypropylene, can be used. moreover, the sound-absorbing element over its entire surface is lined with an acoustically transparent material, for example, fiberglass type EZ-100 or polymer type "Poviden." As a sound-absorbing material of an acoustic sound-absorbing panel, plates based on aluminum-containing alloys are used, followed by filling them with titanium hydride or air with a density in the range of 0.5 ... 0.9 kg / m ³ with the following strength properties: compressive strength in the range of 5 ... 10 MPa , bending strength within 10 ... 20 MPa, and the front and rear walls of the frame are made of stainless steel or galvanized sheet with a thickness of 0.7 mm with a protective and decorative polymer coating such as “Pural” with a thickness of 50 μm or “Polyester” of thickness another 25 microns, or an aluminum sheet with a thickness of 1.0 mm and a coating thickness of 25 microns, and the ratio of the height h of the frame to its width b is in the optimal ratio of values: h / b = 1.0 ... 2.0; and the ratio of the thickness s 'of the frame assembly to its width b is in the optimal ratio of values: s' / b = 0.1 ... 0.15; and the ratio of the thickness s of the sound-absorbing element to the thickness s 'of the frame assembly is in the optimal ratio of values: s / s' = 0.4 ... 1.0, and the vibration damping covers fixing the panel walls are made of elastomer, polyurethane foam or polyethylene foam, wood fibrous, wood-shaving material, or gypsum board, or elastic sheet vibration-absorbing material with an internal loss coefficient of at least 0.2, or a composite material, or plastic compound such as "Agate", "Anti-Vibrate", "Shvim".

The glazing of the cabin is made in the form of a reflective translucent panel (Fig. 3), made in the form of a polygon, for example, a rectangle formed by a U-shaped ribs 22-25 made of vibration damping material, and a panel of a solid sheet 26 extruded is used as a reflective translucent element polycarbonate plastic, and the ratio of the length of the rectangle to its height is in the range from 2 to 3, and the ratio of the thickness of the continuous sheet of extruded polycarbonate plastic to its the height is in the optimal range of values: 0.006 ... 0.008.2, and as a noise-reflecting translucent element, a panel of cellular sheet 27 of extruded polycarbonate plastic is used with the ratio of the length of the rectangle to its height, which is in the optimal ratio of values: 2.0 ... 3.0, and the ratio the thickness of the cellular sheet of the extruded polycarbonate plastic to its height is in the optimal range of values: 0.016 ... 0.02, and the cell 28 of the cellular sheet of the extruded polycarbonate plastic is made in the form of sides O polyhedral surfaces of rectangular prisms, for example of square or rectangular cross-section, the edges or ribs 29 which are rigidly interconnected and with solid extruded polycarbonate plastic sheets arranged on both sides of the cell.

The cassette air conditioner (Fig. 4) is mounted behind a suspended ceiling, which helps to save room space, it fits most organically into any cabin interior, since only the decorative panel of the indoor unit is visible, and the air from the cassette model of the air conditioner spreads along the ceiling in four uniform streams . The most effective can be applied cassette conditioner 30 company General Climate type GC / GU-4C18HR.

The operator’s chair (Fig. 5) is made of metal and provides a high degree of comfort due to the ergonomic design, for example, metal chairs "Argumet" with dimensions, mm: overall height 1000; seat height 450; width 420; depth 480. The frame of the chair is made of a round pipe with a diameter of 22 mm; the lifting unit is made in the form of a gas lift (stroke - 130 mm); seat base: metal plate 3mm, + plywood 8 mm, + foam layer 20 mm + leather / deputy (black color); back base: plywood 8 mm, + foam layer 20 mm + leather / deputy (black color); lower base of the chair: plastic five-beam; carcass coating: polymer powder; frame color RAL 5004 (black); load up to 100 kg.

As an elastomer attached to the legs of the chair, can be used "Vibroflex EP / 25 A" (Fig. 6), which is designed for a load of 25 kg The graph shows that it is most effective precisely at such a load. Acoustic material of a new generation is also effective - VEP type elastomeric vibration damping plates (TU 2534-001-32461352-2002) (Fig. 7), which provide a reduction of vibration levels from mechanisms and machines to 85%, in the range from 2 to 10000 Hz , and carry out the reduction of air, structural and impact noise by 17 ÷ 22 dB. VEP vibration damping plates are produced in the form of rolled material with a thickness of 4 mm, a width of 1200 mm, and also in the form of plates 700 × 700 mm with a thickness of 10 mm and 20 mm. The temperature range of operation of the WEP is from minus 40 to plus 120 ° C. The service life of VEP plates is 50 years or more. Vibration damping plates undergo regular certification tests at the Research Institute of Construction Equipment.

Technical details

Elongation at break,% - at least 300; Shore A hardness, Unit Shore A - 45-75; rebound elasticity,% - no more than 15; dynamic modulus of elasticity (at a load of 5000 N / sq.m), MPa - 14-38; impact noise insulation improvement index, dB - 17-22; frequency range of operation, Hz - 2-10000; operating temperature range, degrees C - -40 ... + 120; conditional tensile strength, MPa - not less than 8.0.

The sound absorber 20 (Fig. 8) of the acoustic noise-absorbing panel of the operator’s cabin contains smooth 31 and perforated 32 surfaces, between which there is a layer of sound-absorbing material of complex shape, which is an alternation of solid sections 33 and hollow sections 35, and the hollow sections 35 are formed by prismatic surfaces having a section parallel to the plane of the drawing, the shape of a parallelogram, the inner surfaces of which have a gear structure 36, or wavy, or a surface with spherical surface (not shown). Cavities 34 formed by smooth 31 and perforated 32 surfaces, between which a layer of sound-absorbing material of complex shape is located, are filled with a sound absorber. In this case, the tops of the teeth are turned inward to the prismatic surfaces, and the edges of the prismatic surfaces are fixed respectively on smooth 31 and perforated 32 walls. The cavities 37 of the hollow sections 35 formed by prismatic surfaces are filled with construction foam. Between the smooth 31 surface and the continuous sections 33 of the layer of sound-absorbing material of complex shape, as well as between the perforated 32 surface and the continuous sections 33, there are resonant plates 38 and 39 with resonant inserts 40, which serve as the necks of Helmholtz resonators.

As a sound-absorbing material of the first, more rigid layer, a material based on aluminum-containing alloys was used, followed by filling them with titanium hydride or air with a density in the range of 0.5 ... 0.9 kg / m ³ with the following strength properties: compressive strength in the range of 5 ... 10 MPa, bending strength in the range of 10 ... 20 MPa, for example foam aluminum.

Rockwool type mineral wool or URSA type mineral wool or P-75 type basalt wool or glass wool lined with glass wool or foamed polymer, such as polyethylene or polypropylene.

The material of the perforated surface is made of solid, decorative vibration-damping materials, for example, agate, antivibrate, and shvim plastic compounds, and the inner surface of the perforated surface facing the sound-absorbing structure is lined with an acoustically transparent material, such as fiberglass type EZ-100 or "Poviden" type polymer.

Sound absorber 20 (Fig. 8) works as follows.

Sound energy, passing through a layer of perforated surface 32 and a combined sound-absorbing layer of complex shape, decreases, since the transition of sound energy into thermal energy (dissipation, energy dissipation) occurs, i.e. in the pores of the sound absorber, which is a model of Helmholtz resonators, there are energy losses due to friction, which fluctuates with the frequency of excitation of the mass of air in the neck of the resonator against the walls of the neck itself, which has the form of an extensive network of micropores of the sound absorber. Between the smooth 31 surface and the continuous sections 33 of the layer of sound-absorbing material of complex shape, as well as between the perforated 32 surface and the continuous sections 33, there are resonant plates 38 and 39 with resonant inserts 40, which serve as the necks of Helmholtz resonators.

Resonance holes 40 (inserts) located in the resonance plates 38 and 39, serve as the necks of Helmholtz resonators, the frequency band of the damping of sound energy of which is determined by the diameter and number of resonant holes 40.

The acoustic cab operates as follows.

Sound energy from the equipment located in the room where the cabin is installed passes through the perforated wall and enters the layers of sound-absorbing material of the sound absorber 20. Sound energy is transferred to heat (dissipation, energy dissipation) in the pores of the sound absorber, which are a model of Helmholtz resonators, where the energy loss occur due to friction oscillating with the excitation frequency of the mass of air located in the cavity of the resonator against the walls of the mouth itself, having the form of a branched network pore absorber. To prevent the eruption of a soft sound absorber, a fiberglass fabric, for example, type EZ-100, is located between the sound absorber and the perforated wall. Dusty air from equipment located in the room where the cabin is installed, passing through the life support system, acquires properties that meet sanitary and hygienic requirements in the workplace.

Claims (1)

An acoustic cabin containing a base, frame, life support equipment, window and doorways and fences in the form of acoustic panels, while the base is mounted on at least three pneumatic vibration isolators made in the form of a rubber-cord shell, and the cabin frame is rigidly fixed to it in the form of acoustic sound-absorbing panels made in the form of a parallelepiped formed by the front and rear walls of the panel, between which a sound absorber is placed, and each of the walls is U-shaped, moreover, on The front wall has slotted perforation, the perforation coefficient of which is taken to be equal to or more than 0.25, and the front wall is made with glazing made of a reflective translucent panel made in the form of a polygon, for example, a rectangle formed by a U-shaped ribs made of vibration-damping material, and as a noise-reflecting translucent element, a panel of a continuous sheet of extruded polycarbonate plastic, as well as the ceiling part from the lamp, is used mi, a rear wall located in a plane parallel to the plane of the front wall, and four side walls, in one of which a door is installed, while the area of the back wall is at least 2 times the area of the front wall, and the side walls adjacent to the front wall are made inclined with respect to it and with glazing, and adjacent to the rear wall - perpendicular to it, and the cabin is sealed and equipped with a life support system in the form of an artificial microclimate system with a control panel, and e workplace, including a desktop, a chair with vibration isolators in the form of plates of elastomer attached to the legs of the chair, and a hanger for replaceable clothes, the life support system is made in the form of an artificial microclimate system with a control panel, for example, in the form of a cassette air conditioner by General Climate , and the operator’s workplace is equipped with a work desk and a chair with vibration isolators in the form of plates of elastomer attached to the legs of the chair, and the type of vibroflex EP / 25 A or vibration damping is used as an elastomer пластины VEP-type plates, characterized in that the sound absorber of the acoustic noise-absorbing panel of the operator’s cabin contains smooth and perforated surfaces, between which there is a layer of sound-absorbing material of complex shape, the layer of complex shape is an alternation of solid sections and hollow sections, with hollow sections formed by prismatic surfaces having in cross section parallel to the plane of the drawing, the shape of a parallelogram, the inner surfaces of which have a toothed structure, with the volume of the tooth tips facing the inside of the prismatic surfaces, and the edges of the prismatic surfaces are fixed respectively on the smooth and perforated walls, the cavities of the hollow sections formed by the prismatic surfaces are filled with sound absorbers, and between the smooth surface and the solid sections of the layer of sound-absorbing material of complex shape, as well as between the perforated surface and solid sections are resonant plates with resonant inserts that perform the functions of the necks of the reson Helmholtz atoms.

Images