RU183756U1 - MODULAR PROTECTIVE CAB - Google Patents

Abstract

The utility model relates to the industrial industry, namely, to devices of modular protective cabins against laser radiation (LI), and can be used for the manufacture of cabins of various overall dimensions and functional purpose, in particular to the production of collapsible cabins used in industrial needs. The effect of the utility model is to protect the environment (production) environment from a direct (emergency) or reflected LI laser complex operating in the cab. It is fluttered by the fact that a modular protective cabin in the form of an octagonal prism (wall of the enclosing contour) and a truncated pyramid (roof) made of panels (modules) interconnected by stiffness belts and connecting elements with the possibility of assembly-disassembly, characterized in that the wall modules made of two layers, made of two metal sheets with stiffeners obtained by bending the faces of the sheets with the formation of closed light-tight chambers (SNK), light is installed on the inner surfaces of the modules in the SNK due to double bending at 44 ° angles, linear sensors and 135 (135 °) joints form linear sensors that are connected with the emergency shutdown system of the LI, preventing the LI from crossing the enclosing contour of the cabin without falling into one of the SNK, the geometric shape of the vertical module joints provides the ability to manufacture cabs of various overall dimensions using two types of main wall modules.

Description

The utility model relates to the industrial industry, and in particular to devices for modular protective cabins (MZK) from laser radiation (LI), and can be used to produce cabins of various overall dimensions and functional purpose, in particular, to the production of collapsible MZK used in industrial needs.

Known cabin for protecting the welder's workplace (USSR Patent No. 965681, IPC V23K 37/00, 03/18/1981), containing a frame with lifting frames, covered with elastic material.

Known boxing (Patent RU No. 40359 U1, IPC Е04Н 1/12, 09/23/2002), containing wall panels connected to each other and to the base, containing metal structures from quadrangular profiles attached to power beams, and corrugated sheets.

These structures protect the workplace from environmental influences (wind, rain, snow) and the environment from welding light pulses.

The common design drawbacks of such structures are the presence of a rigid frame made of rectangular pipes on welded joints of all elements and an individual set of enclosing floor, ceiling and wall panels that allow the production of specialized structures (cabs, boxes, etc.) for specific production purposes. In addition, the size of the structures and their weight create certain difficulties in their loading, unloading and transportation.

The closest in technical essence and selected as a prototype is the MZK (Patent RU No. 165500 U1, IPC E04G 21/00, 03/03/2015), in the form of an octagonal prismatic shell (vertical enclosing contour) and an octagonal truncated pyramid (roof), united by belts stiffness made of a universal set of panels (modules) made of sheet steel, having stiffeners obtained by bending the faces of a steel sheet connected by screws and bolts.

A structural drawback of this cabin is also the protection of the production environment only from light pulses of electric or laser welding.

The technical effect of the utility model is the protection of the environment (production) environment from direct (emergency) or reflected LI laser robotic complex (LRK) operating in the cabin.

The indicated technical effect is achieved in that the MZK in the form of an octagonal prism (wall of the enclosing contour) and a truncated pyramid (roof) made of panels (modules) interconnected by stiffness belts and connecting elements with the possibility of assembly-disassembly, characterized in that the wall modules (SM) are made of two layers, made of two metal sheets with stiffeners obtained by bending the faces of the sheets, with the formation of closed light-tight chambers (SNK), on the inner surfaces of the modules in SNK installed light sensors connected with the emergency emergency shutdown system, vertical faces of the SM, due to double bending at angles of 44 °, form linear and angular (135 °) joints that do not allow the LI to cross the MZK enclosing circuit without falling into one of the SNK, geometric shape vertical joints SM provides the ability to manufacture MZK of various overall dimensions using two types of main SM.

In FIG. 1 shows the outer (left), inner (right) surface and a vertical section of a SM equipped with photosensitive elements of the LRK security system, where: 1 and 2, respectively, the upper and lower stiffness belts; 3 - photosensitive element; 4 - LRK safety management system; 5 - wires connecting the photosensitive element to the LRK security system.

In FIG. 2 schematically shows the transverse (horizontal) sections of the main SM formed by metal sheets with closed SNK, where: l is the width of the main CM (M1 and M2); Δ is the thickness of the SM; Δ ₀ = (Δ / 2) × sinβ - butt overlap of the modules; β - tilt angles of the metal sheets at the joints of the SM; δ ₁ and δ ₂ - respectively, the thickness of the metal sheets forming a closed SNK, the outer and inner surfaces of the MPC.

In FIG. Figure 3 shows the cross sections of the linear (a) and angular (b) joints of the SM formed by the right or left faces (PG, LG) of the SM, where: 6 are the possible directions of the laser beams. In any direction of the laser beams, they inevitably fall into the SNK and this leads to the "triggering" of the LRK security system.

In FIG. Figure 4 schematically depicts one of the variants of the MZK enclosing loop indicating the position of the main SM (see Fig. 2), the types of butt joints of the SM (see Fig. 3), the position of door leafs (DP) for overall dimensions A × B: A = ( 3 + 2 × sin45 °) × l; B = 2 × (1 + cos45 °) × l.

In FIG. Figure 4 shows how the linear nodes (3, 4, 7, 10, 11) are formed either by the junction of M2 and M2, or by the junction (see Fig. 2) of SG M2 and LG M1. The corner nodes (2, 5, 6, 8, 9, 12) are formed either by the docking of the GHG M1 and LG M2, or by the docking of the GHG M1 and LG M1. The corner node 1 is formed by the docking LG M1 and M3, the corner node 13 is formed by the docking PG M1 and M3 ^* .

The unified shape and dimensions of the SM (table. 1) allow you to save the structural row of the MPC with 7 types of SM (in the analogue there are 10 of them) - the main options for overall dimensions and the corresponding sets of SM are presented in table. 2.

Thus, the MZK protects the production environment from direct or reflected laser radiation of LRK, allows the manufacture of economical cabins of various overall dimensions and expands the scope of their effective application.

Modular Safety Cabin

Claims (1)

A modular protective cabin in the form of an octagonal prism (wall of the enclosing contour) and a truncated pyramid (roof) made of panels (modules) interconnected by stiffness belts and connecting elements with the possibility of assembly-disassembly, characterized in that the wall modules are made of two-layer, made from two sheets of metal with stiffeners obtained by bending the faces of the sheets, with the formation of closed light-tight chambers (SNK), light sensors are installed on the inner surfaces of the modules in the SNK, data with an emergency shutdown system of laser radiation, the vertical faces of the modules, due to double bending at angles of 44 °, form linear and angular (135 °) joints that do not allow laser radiation to cross the enclosing contour of the cabin without falling into one of the SNK, the geometric shape of the vertical joints modules provides the ability to manufacture cabs of various dimensions using two types of main wall modules.

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