RU2040451C1 - Heavy-weight container - Google Patents

Abstract

FIELD: transportation of ore, garbage and other loads. SUBSTANCE: heavy-weight container has body with side walls, bottom, slide-beams with rollers, outer frame binding, end face wall with pillars and shackle for gripping, and end face wall made in form of door. Slide-beams are made in form of channel-type load - bearing members. Bottom has middle rectangular part and side members connected by weld seams. Side walls are made up of L-shaped members. EFFECT: enlarged operating capabilities. 4 cl, 6 dwg

Description

 The invention relates to the transportation of minerals, garbage and other goods in a rigid container on vehicles equipped with a lifting and dropping device and support-guide rollers and can be used in the design and manufacture of containers made in the form of a cargo container platform, the end wall of which is equipped a power loop under the vehicle lifting and dropping device, runners for movement along the support-guide rollers of the vehicle, a hinged door on ugom end of the container and the support rollers fixed on the door bottom of the container on both sides of snakes.

 A well-known type of large-capacity roller containers of the company "GREIS", Germany, intended for the transport of household waste, other garbage and other goods transported in hard containers on vehicles whose platforms are equipped with support rollers and a hydraulic lifting-and-dropping device (see company brochures STAHLBEHALTERBAU GREIS CmbH, 5909, BURBACH-NIEDERESSEINDORF). Each of the containers is a U-shaped container with beveled corners near the bottom, resting on transverse stiffeners on longitudinal rigid beam-runners with vertical struts, at the ends of which a loop is fixed under the grip of the vehicle lifting and dumping device. Vertical racks with a loop for gripping, as a rule, are rigidly connected with the end wall of the container, overlapping it or crashing into the volume of the container. On the side of the doorway between the runners and the sides, support rollers are fixed on which the container is lowered from the vehicle to the ground or other support platform. The sides and bottom of the containers are of different thickness, interconnected by butt welded longitudinal seams in the area of placement of the bottom bevels, which negatively affects the strength characteristics of the sheathing, especially when the container is loaded with metal. The disadvantages also include the fact that the bottom is supported by skids through the transverse stiffness of the sheathing, not being included in their strength. In addition, the manufacture of containers of large dimensions is associated with the need to use sheet metal of large sizes, and when stamping parts of the sheathing, presses of large capacity and dimensions are required.

 Also known container developed by the company "WROCLAW", Poland, for the German company "SYKU". It is intended for the transportation of household waste, garbage, other goods, including minerals.

 There are several types of containers of WROCLAW company, Poland, however they differ from each other by a multiple of 0.5 m.

Structurally, the container "WROCLAW", Poland, is made as follows. The container body has the shape of a rectangle with an open top-roof, which, if necessary, is covered with a removable tent. In cross-section the container "WROCLAW" has a U-shape with bevelled at 45 ^{on the} corners at the bottom with a thickness of 5 mm. The sides of the container are lightweight 3 mm thick. One end of the container is rigidly closed by a 3 mm thick end wall, and the other is equipped with a double-leaf door. In cross section, the container is equipped on the outside with a U-shaped frame strapping closed on top of a longitudinal strapping. Both the longitudinal strapping and the transverse webbing in conjunction with the sheathing form a closed U-shaped container. On the bottom between the frame strapping, longitudinal stiffeners are installed made of plate steel. The height of the stiffening ribs corresponds to the height of the frame strapping, which ensures their support with it on the longitudinal I-beams, which act as guide rails, on which racks with a gripping loop are rigidly fixed to connect to the vehicle lifting and dumping device. Vertical racks are made of I-beam and are rigidly connected to both the end wall and the container strapping. Vertical racks are inclined to the axis of the container, forming a trapezoid, which reduces the width of the loop-capture. On the hinge side of the double-leaf door on the bottom of the U-shaped end frame, support rollers are hinged. The U-shaped end frame is made of three box-shaped frames joined into a rigid beam, which provides it with vertical stability of the sidewalls from the side of the door hinge. Longitudinal I-beam beams-runners are reinforced with vertical sheets, forming box-shaped beams with them. This is due to the fact that the lower flanges of the I-beam, when supported by the rollers, are deformed, and its cross-section without connection with the bottom requires reinforcement.

 The described construction has a number of significant drawbacks. Firstly, the support of the bottom on the longitudinal beam-runners in the most loaded part of the container requires its thickening, since otherwise it breaks down at the junction with the beam-runners. Thickening of the bottom leads to the overload of the container and increased consumption of sheet metal. Secondly, the reinforcement of the I-beam by vertical sheets for the formation of a box-shaped section is also associated with the design weight, increased consumption of sheet metal for welding materials. In addition, all this strengthening is accompanied by an increase in the volume of welding and correct work. Thirdly, joining with longitudinal welds at the sides of different thickness sheets of the bottom and sidewalls is accompanied by the destruction of welds both in the process of straightening the sidewalls and during operation of the container. Fourth, the use of large-sized sheet parts in the construction is associated both with the difficulty of stamping them on large-sized presses, and with the inconvenience of installation work, with the acquisition and transportation of metal.

 In contrast to the WROCLAW containers, the container, according to the application of Germany 3113083, is made in a trapezoidal shape, which ensures stack-shaped stacking of three containers during their transportation. The container includes a U-shaped body, including side walls, a bottom, beam rails with rollers, an external frame strapping, an end wall with racks and a bracket for gripping and an end wall made in the form of a door.

 Having flaws identical to those of WROCLAW containers, the prototype also has a number of significant flaws inherent to it, namely: the trapezoidal shape of the container with bevels of the side and end walls facing the bottom reduces its body volume, which negatively affects the volume of cargo carried ; securing the staples to the grip on the upper belt of the end wall and placing it above it makes it difficult to install a removable cover to cover the roof of the container.

 The aim of the invention is that, using standard small-sized rolled sheets joined together by butt welds, to exclude their influence on the strength, structure, preserve the aesthetic forms of the structure and increase its reliability.

 This is achieved due to the fact that in a large-capacity container containing a U-shaped body, including side walls, a bottom, beam rails with rollers, an external webbing, an end wall with racks and a bracket for gripping and an end wall made in the form of a door, according to the invention, the skid beams are made in the form of channel-type power elements, the bottom contains a middle rectangular part and side elements interconnected by welds on the upper shelves of the skid beams, and the side walls are made integral in the form of shaped elements.

 The walls of the L-shaped elements of the side walls are located within the width of the frames, mainly along their axis.

 The U-shaped end frame placed on the door side is made in the form of a channel with an external end face reinforced by an angular profile on which the body sheathing is fixed.

 Between the end wall and the uprights in the area where the staples are fixed, a support plate is rigidly fixed under the grip, reinforced on the inside of the body with a transverse beam.

 The implementation of the beam-skids in the form of channel-type power elements with fixing the middle rectangular part and the side bottom elements on them allows you to place longitudinal welds connecting them to the upper shelves of channel beams, and welds connecting sheets of side walls made in the form of L-shaped elements to be located within the width of the frame, excluding their visibility from the outside.

 The technical result achieved by the invention is that during operation, the operation of welds is excluded. This allows you to reduce the weight of the structure, increase the strength of the bottom and beam-skids of containers, increase the reliability of the structure during operation and maintain aesthetic forms of the structure.

 The invention is illustrated by drawings, where: in Fig.1 shows a container, side view, General view; figure 2 General view of the container, a longitudinal section; figure 3 view of the end wall, a cross section; figure 4 General view of the container, plan; in FIG. 5 preparation of the container for unloading from the vehicle; in Fig.6 unloading of the container to the ground.

 The large-capacity container contains a longitudinal frame 1 (Fig. 1), on which a U-shaped body 2 is fixed, equipped with an end wall with a base plate 3, on which racks 4 with a bracket 5 fixed to them are supported to lift the container onto the vehicle. To the end wall, through the vertical posts 6, the left and right sides are fixed, equipped with L-shaped frames 7 and a longitudinal upper trim 8. The sides are closed with a U-shaped end frame 9, to which a double-leaf door is fixed 10. To the bottom of the U-shaped end frame 9 support rollers 11 are fixed on both sides of the power frame 1. The end rigid wall with the base plate 3 is equipped with a power beam 12, which receives power loads on the bracket 5 and a spacer beam 13, which closes the container from the inside EPA harness 8 of the left and right side frames. The latter are made of sheets 14 joined by welding in places 15 between each other and with compensating sheets 16 of the body sheathing, which are superimposed on a U-shaped square 17, reinforcing the U-shaped end frame 9 of the door 10. Under it in the channels forming guide rails 18, L-shaped cutouts 19 are made, eliminating the need to cut the lower belt of the U-shaped end frame 9.

 Between them, the skid beams 18 are closed by transverse connections 20, made in the form of channel beams, supported by vertical stiffeners 21, the skid beams 18 are equipped with pores 22 for gripping the vehicle. Under the end wall, the box-shaped beam 23 rigidly closes the beam-skids 18 of the power frame 1 along the installation line of the vertical posts 6, forming a closed container strapping with them and the beam 13.

 The bottom of the body 2 is made integral, and the middle part 24 of the bottom of the body 2 is mated by a plane with the upper part of the skid beams 18 of the frame 1 and is a rectangular sheet inscribed in the contours of the frame 1, the width of which is less than the width of the frame 1 by the amount of overlap on the frame of two side sections bottoms with which this sheet is docked on the shelves of beam-snakes. Each side section of the bottom and each section of the sidewall is made as a whole from a L-shaped integral sheet with corners beveled at the bottom, L-shaped sheets 14 and 16 of the body sheathing are interconnected in places 15 by welds inscribed in the width of the frames 7 (Fig. 3).

 The bottom part of the frames 7 is made in the form of a beam 25, having the shape of a trapezoid, fixed with its base with the outer planes of the skid beams 18. Welded seams form a diagram of the internal frame set of the body 2.

 Assembly of a large container is as follows. How separate units make a power frame 1, sidewalls of a body 2, an end wall with a base plate 3 and other adjoining parts and assemblies, and a U-shaped end frame 9 reinforced with elbows 17. The sides of the body 2 are first welded without sheets of sheathing 16, which serve a compensating element of the body sheathing 2. Sheathing sheets 14 are joined together by welding from the inside, and from the outside the sheet joints are overlapped by welded frames 7. Then, a U-shaped end frame is installed and fixed alternately on the power frame 1 ut 9 and an end wall to which is docked left and right side walls, wherein the pressing beam formers 25 to the beams 7-runner 18, part of the H turned to the container axis. The last to install the sheathing sheets 16, connecting the left and right sidewalls of the body 2 with the U-shaped end frame 9, or rather with its reinforcement angle 17.

 The hinge of the doors 10 and the support rollers 11 is carried out after painting the body 2.

 The container is operated on a vehicle 26 (Fig. 5), the platform of which is equipped with a lifting and dumping hydraulic device 27 and support rollers 28. The container is lowered onto the rollers 11 and then onto the ground (Fig. 6), after which it is unloaded. It can also be carried out from the position indicated in FIG. 5, for which it is first necessary to open the doors 10.

 The invention provides the ability to develop and manufacture large containers of standard sheets that do not require special equipment and accessories.

Claims (4)

 1. A LARGE-TONNE CONTAINER containing a U-shaped body, including side walls, a bottom, beam rails with rollers, an external frame strapping, an end wall with racks and a grip for brackets and an end wall made in the form of a door, characterized in that the beams are the runners are made in the form of channel-type power elements, the bottom contains a middle rectangular part and side elements connected by welds on the upper shelves of the beam-runners, and the side walls are made integral in the form of L-shaped elements.  2. The container according to claim 1, characterized in that the joints of the L-shaped elements of the side walls are located within the width of the frames mainly along their axis.  3. The container according to claim 1, characterized in that the U-shaped end frame, placed on the side of the door, is made in the form of a channel with an external end face reinforced by an angular profile on which the body sheathing is fixed.  4. The container according to claim 1, characterized in that between the end wall and the uprights in the zone of fastening the staples under the grip, a support plate is rigidly fixed, reinforced from the inside of the body by a transverse beam.

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