RU2063911C1 - Device for assembly of flying vehicle units - Google Patents

Abstract

FIELD: manufacture of flying vehicles; assembly of light, medium and heavy aeroplanes. SUBSTANCE: device has frame-work with vertical columns mounted on base and longitudinal beams holding detachable knife-edge joints, connector plates, etc. Vertical columns are provided with additional beams mounted at their ends; one beam is used as base. Components of framework are provided with base reference marks at points of their connection. Base reference marks have surfaces for engagement with mating surface of base reference mark of component to be connected. Framework elements are provided with standard reference marks for mounting the device in datum planes of rectangular coordinate system by means of laser radiators. Longitudinal beams of framework are located on free ends of additional beams by means of base reference marks. EFFECT: enhanced reliability. 2 cl, 4 dwg

Description

 The invention relates to the production of aircraft, namely, devices for assembling units of light, medium and heavy types of aircraft.

 A device for assembling aircraft assemblies is known (V.P. Grigoriev et al. "A device for assembling units and assemblies of aircraft and helicopters Moscow", Mechanical Engineering 1977, p. 27 31 tab. 2.3 2.6, p. 44 46 fig. 3.1) .

 A device for assembling aircraft assemblies containing a frame of vertical columns mounted on the base, longitudinal beams fixed to them with removable knife switches, connector plates, etc.

 The disadvantage of the device is limited performance, because it cannot function outside the foundation slabs, since the floor, being a rigid link between the columns of the column, does not allow the device to be moved to any other place without significant cost and effort without disassembling it.

 Another disadvantage of the device is the large metal consumption due to the massive columns, lack of manufacturability in the process of assembly and scheduled preventive repairs due to the lack of reference frames for the installation of controls.

 The technical task of the invention is the improvement of performance, increase manufacturability, reducing metal consumption.

 This problem is solved in that in the device for assembling aircraft assemblies, the vertical columns are made with additional beams installed at their ends, one of which is the base, and the frame elements of the device are equipped at the junction points with each other with basic reference points, each of which is made with the interaction surface with the mating surface of the base frame of the element to be connected and control frames for installing the device in the base planes of a rectangular system coordinates using laser emitters, while the longitudinal beams are placed at the free ends of the additional beams using basic benchmarks.

 In addition to the above, longitudinal beams having slopes or bends, at the points of their joints with the bases of the uprights, are additionally equipped with intermediate racks with reference points on the connectors.

 The invention is illustrated by drawings, where in Fig.1 shows a General view of the device, in Fig. 2 columns of 2, 3, 4 beam devices and an intermediate column, in FIG. 3 fixture beams and a prefabricated stand consisting of separate prefabricated sections, in FIG. 4 is a diagram of the formation of control base planes W, V, K relative to the base plane H.

 The device contains three columns 1, four longitudinal beams 2, four lower longitudinal beams 3 and intermediate racks 4.

 The upper beams 2 and lower 3, bearing, respectively, rappers 5 and 6, are interconnected by rappers 7 and 8 with the first column 1 directly, and with the second and third columns 1 through intermediate racks 4.

 The vertical columns 1, bearing at their lower end of the frame 9, are articulated with mating frames 10 defined in the foundation and forming a horizontal base plane H.

 The vertical columns 1 are made with additional beams installed at their ends, one of which is the base of the device.

 Columns 1, upper beams 2 and lower 3 are equipped, respectively, with control milestones 11, 12, 13, which are mutually interconnected with each other and with milestones in connectors and form the basic control planes W, V, K in a system of rectangular and multiple coordinates given from individual base planes.

 Assembly fixtures.

 On the coordinate stand, separate elements are assembled, sections of the fixture of the column 1, strut 4, beam 2, strut 4 on which are installed in size, respectively, frames 6, 7, 8, 9, as well as control frames 11, 12, 13. Then, by to the drawing, all the elements are assembled into a single rigid structure, docking the fixture elements one to the other by means of benchmarks 6, 7, 8, 9, by monitoring with the help of benchmarks 11, 12, 13 on which control means are installed.

 The device is assembled either on rappers 10 previously embedded in the floor, or without them, simply on the floor of the workshop, while the device can be moved to any place in the workshop’s working area or moved by means of lifting tools without disassembling them into elements.

 The structural rigidity is ensured by the presence of longitudinal beams 2 not only along the upper ends of the columns 1 a but also along the lower ones, where the beams 2 and 3 are also installed.

 The economic effect by increasing the adaptability of the device and reducing the metal consumption labor and material costs are reduced by 1.5 2 times. YYY2

Claims (2)

 1. A device for assembling aircraft assemblies, comprising a frame of vertical columns mounted on the base, longitudinal beams fixed to them with removable knife switches mounted on them, connector plates, characterized in that the vertical columns are made with additional beams installed at their ends, one of which is the base, and the frame elements of the device are equipped at the points of their connection with each other with basic benchmarks, each of which is made with the interaction surface with the response the surface of the base frame of the element to be attached, and control frames for installing the device in the base planes of a rectangular coordinate system using laser emitters, while the longitudinal beams are placed at the free ends of the additional beams using basic frames.  2. The device according to claim 1, characterized in that for the installation of longitudinal beams with an inclination relative to the base, it is equipped with intermediate racks installed on the base with the help of basic benchmarks.

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