RU195664U1 - Greenhouse pile support - Google Patents

Abstract

The utility model relates to agriculture and can be used for the construction of greenhouses and greenhouses related to horticulture and gardening, as well as for the construction of light structures related to other areas of economic activity. The pile support for the greenhouse contains a trunk with a first section for mounting frame elements, with a second section for installation in the ground and with an anchor element. The barrel is made of an elongated hollow rectangular profile with a first section exceeding the length of the second section. The anchor element is made in the form of a segment of a rectangular hollow profile, symmetrically welded to the ends of the first and second sections, with fillet welds. The length of the leg of the fillet welds is from half the minimum wall thickness of the anchor element to the minimum wall thickness of the anchor element. The first section is equipped with a support plate made with mounting holes and with the mounting surface under the frame elements. The support plate is welded to the barrel end with fillet welds with a leg length not exceeding the minimum barrel wall thickness. The mounting surface of the base plate opposite the barrel and the outer surface of the anchor element oriented to the base plate are made in the form of parallel surfaces for driving the trunk into the ground. EFFECT: increased rigidity of a pile support, which ensures its driving into the ground precisely according to the marking corresponding to the construction plan.

Description

The utility model relates to agriculture and can be used for the construction of greenhouses and greenhouses related to horticulture and gardening, as well as for the construction of light structures related to other areas of economic activity.

Known supports of greenhouses or greenhouses, as a rule, are installed on the foundation, on prepared soil or screwed into the soil in accordance with the plan of the future construction. Each of the known methods for installing greenhouses has its advantages and disadvantages and is determined by the design of the pile supports of the greenhouse.

An example of supports installed on the ground or foundation is the prefabricated greenhouse RU 93209 U1, 04/27/2010. The advantage of installing its supports without deepening is the ease of assembly, which does not require adjustment of the frame elements along the length. With this installation, it is always possible to change the distance between the supports according to the size of the frame elements. The disadvantages of the known design is its high cost, in the case of installation on the foundation or insufficient resistance to wind load when installed on the ground.

A closer analogue of the utility model is a pile support for the greenhouse UA 53353 U, 10/11/2010, containing a trunk with a first section for mounting frame elements and end blades for screwing into the ground in the second section. The blades of a known support ensure its installation in the soil to the desired depth and perform the function of anchor elements that prevent exit from the soil when it is expanded. However, the same blades make the construction of the pile support expensive and complicated, and during installation make it difficult to accurately install the pile support according to the marking corresponding to the construction plan. When screwed into the ground, especially frozen, thawed or rocky, the axis of rotation of the support shaft often shifts and significantly complicates the assembly of the frame.

The utility model is aimed at solving a technical problem, which consists in creating an easy-to-use simple pile support, which simplifies the assembly of the entire structure by driving it into the ground with a hand percussion instrument.

The technical result of the utility model is the rigidity of the pile support, the impact resistance of which ensures its driving into the ground exactly according to the marking corresponding to the construction plan.

The essence of the utility model is expressed in the aggregate of essential features, in which a pile support for a greenhouse, containing a trunk with a first section for mounting frame elements, with a second section for installation in the ground and with an anchor element, differs from the closest analogue in that the trunk is made of an elongated hollow a rectangular profile with a first section exceeding the length of the second section, while the anchor element is made in the form of a segment of a rectangular hollow profile, symmetrically welded to the ends of the first and second sections , with fillet welds with a leg length of from half the minimum wall thickness of the anchor element to the minimum wall thickness of the anchor element, moreover, the first section is equipped with a support plate made with mounting holes and with a mounting surface under the frame elements and welded to the barrel end with fillet welds with a leg length not exceeding the minimum thickness of the barrel wall, and the installation surface of the support plate opposite the barrel and the outer surface of the anchor element, Oriented to the base plate, made in the form of surfaces parallel to each other for driving the trunk into the ground.

The causal relationship of the features of the utility model and the technical result provided by the utility model is that driving the pile support into the ground allows it to be installed exactly according to the marking corresponding to the construction plan. For such an installation, the anchor element is symmetrically welded to the ends of the first and second sections of the trunk, which allows the support to be driven into the ground until the anchor element and the bottom of the pit come into contact, in which the anchor element is covered with soil to limit the axial movement of the pile support. The ability to strike against a pile support is provided by the outer surface of the anchor element oriented towards the support plate. The mounting surface of the base plate, which is opposite to the barrel, parallel to the impact surface of the anchor element, is also a surface that provides support clogging into the ground. The impact surface on the base plate is necessary to continue driving the pile support into the ground after striking an anchor element deep in the pit becomes inconvenient.

The rigidity of the structure, which allows striking the anchor element and the base plate without destroying their connections with the trunk, provides the wall thickness of the pile support parts and the shape of these parts. The rectangular profile of the anchor element, the flat shape of the base plate and the rectangular profile of the barrel determine the size and shape of the welds.

The anchor element is symmetrically welded to the ends of the first and second sections of the barrel with fillet welds with a fillet length of the fillet weld from half the minimum wall thickness of the anchor element to the minimum wall thickness of the anchor element. The support plate is welded to the barrel end, with fillet welds with a leg length not exceeding the minimum barrel wall thickness. The boundary values of the intervals characterizing the welds of the welds are confirmed by the following examples of the implementation of pile support, which show the possibility of obtaining a technical result in all intervals. The methods used to determine the values of these intervals are known (GOST 5264-80). The requirements for the welding of the base plate are characterized by only one boundary value of the range, because the plate rests on the end of the barrel.

The execution of the pile support shaft with the first section of the shaft exceeding the length of its second section, is necessary for the installation of a translucent coating over the soil surface. The implementation of the base plate with fasteners and with the mounting surface under the frame elements provides the rigidity of the structure on pile supports installed exactly according to the marking.

For the installation of the greenhouse, according to the marking, the vertical drilling is initially carried out to a depth sufficient to fix the anchor elements of the pile supports with bulk soil. At the bottom of each pit, a pile support is installed, which is hammered to a shallow depth with a hand percussion instrument, for example, a sledgehammer. Impacts are inflicted on the outer surface of the anchor element oriented to the support plate welded to the end of the barrel. Check the location of the pile supports relative to each other, adjust, if necessary, the position of the individual supports and hammer the supports completely, until the anchor element stops in the bottom of the pit. Blows are applied first on the outer surface of the anchor element, and then on the mounting surface of the base plate, the middle of which transmits a blow to the end of the barrel and is not deformed. To prevent accidental damage to the edges of the base plate or the edges of the outer surface of the anchor element use safety pads made of metal or other suitable material, as well as an insert for the cavity of the anchor element.

The pits are filled up and compacted, and the frame elements of the greenhouse are placed on the mounting surfaces of the guide plates. The holes in the guide plates allow you to fix the frame to the pile support with bolts or studs. Complete the installation of the greenhouse by mounting a translucent coating.

The achievement by the utility model of its technical result is confirmed by examples of the implementation of the utility model and the results of instrumental control carried out after installing identical supports in frozen ground, each of which was made with a barrel of an elongated hollow rectangular profile with a wall thickness of 1.7 mm. The trunk of each support had a first section for mounting frame elements 1200 mm long and a second section with an anchor element for installation in soil 400 mm long.

In each support, the anchor element was made in the form of a segment of a rectangular hollow profile 300 mm long with a wall thickness of 1.7 mm, symmetrically welded to the ends of the first and second sections of the trunk. The fillet welds with which the anchor element was welded to the trunk had a leg length of 1.6 mm at its ends and in the middle of 1.2 mm. The support plate with mounting holes for fixing the frame elements was welded to the barrel end with welds with a fillet length of the fillet weld of 1.2 mm, 1.5 mm and 1.7 mm. The scatter of the values of the leg of the fillet of the base plate is acceptable, since the end of the trunk serves as a support for it.

The driving of each pile support into frozen soil to a depth of 400 mm was carried out with a hand percussion instrument (sledgehammer) along the outer surface of the anchor element oriented to the base plate and along the mounting surface of the base plate. The study of welding seams, carried out using a magnifier, showed their complete safety and the absence of any cracks or chips. Total when mounting a greenhouse area of 18 m ² eleven pile supports has been checked.

In the cases of the manufacture of pile supports with fillet welds, the lengths of which differed from the boundary values of the numerical ranges indicated in the formula, cold and hot cracks were found in such welds, 0.1-0.2 mm wide. Measurements showed that the legs of the fillet welds in all cases of their partial destruction had lengths that did not coincide with the established ranges of values, including a length of 0.85 mm and a length of 1.8 mm.

Claims (1)

A pile support for a greenhouse comprising a trunk with a first section for mounting frame elements, with a second section for installation in the ground and with an anchor element, characterized in that the trunk is made of an elongated hollow rectangular profile with a first section exceeding the length of the second section, while the element is made in the form of a segment of a rectangular hollow profile, symmetrically welded to the ends of the first and second sections, with fillet welds with a leg length of half the minimum anchor wall thickness element to the minimum wall thickness of the anchor element, and the first section is provided with a support plate made with mounting holes and with a mounting surface under the frame elements and welded to the barrel end with weld seams with a leg length not exceeding the minimum barrel wall thickness, and the installation surface opposite to the barrel the base plate and the outer surface of the anchor element oriented to the base plate are made in the form of parallel surfaces for clogging la in the ground.