RU2805963C1 - Mini-greenhouse from profile elements - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: construction of small architectural forms, such as greenhouses and propagating frames. A mini-greenhouse with a front, rear and two end walls and a roof, consisting of four racks, four rafters, four sides and three ties, and polycarbonate sheets, is assembled from a system of elements of different profiles, made of cold-rolled galvanized metal with a polymer coating. In this case, the front and rear walls and roof are made with removable wall-forming panels, each of which is made of polycarbonate, surrounded along the perimeter by sections of C-shaped profiles, fastened with pointed self-tapping screws. Each end wall is made of polycarbonate, closely surrounded by two racks and two roof rafters connected to them. The posts and rafters are made of OMEGA-shaped profile elements with additional legs. Four sides connecting four posts at the base of the mini-greenhouse are made of OMEGA-shaped profile elements and form a bed for the mini-greenhouse. The tie connecting the front posts, the tie connecting the rear posts, and the tie connecting the rafters and forming the roof ridge are made of OMEGA-shaped profile elements with a convex flange and lock joints. Flat elements of ties, racks, sides and rafters on the outside form niches with supporting planes, into which removable wall-forming panels are installed, forming the front and rear walls and two roof slopes of the mini-greenhouse. In addition, permanent stops in the form of protruding stops are installed on the front and rear sides, and turntable stops are installed on the front and rear ties to prevent the wall-forming panels from falling out. On each wall-forming roof panel there is a handle-bracket made from a piece of U-shaped profile with rebates, the leg of which is sandwiched between the polycarbonate and the leg of the C-shaped profile element enclosing it. The elements are fastened on the end walls with pointed self-tapping screws.

EFFECT: ensuring rigidity, reducing the weight of the mini-greenhouse, ensuring full accessibility to any part of the garden bed, eliminating blowing, ensuring reliable fastening of polycarbonate without fasteners, preventing water from flowing into the polycarbonate and damaging it with a simpler and faster installation of the mini-greenhouse, and eliminating corrosion, it is easy to extend mini-greenhouse sections in length, increasing durability and improving performance characteristics.

1 cl, 14 dwg

Description

The invention relates to the field of construction of metal structures from cold-formed galvanized metal profiles, including those with a polymer coating, namely to methods for the manufacture of small architectural forms, for example, greenhouses and greenhouses.

A greenhouse frame is known (see, for example, RF patent No. 130785 for a utility model), in which the door and frame are made of hollow metal profile pipes of rectangular cross-section. The product is heavy, contains a lot of auxiliary parts, hinges, a lot of fasteners and is susceptible to corrosion.

A greenhouse door is also known (see, for example, RF patent No. 111386 for a utility model), the frame of which is made of a cold-rolled hat profile with a transverse tie, two diagonal ties on one side and two additional diagonal ties on the other side and installed crosswise. In this case, the polycarbonate sheet is fixed to the bends of the hat profile of the frame pointwise along the entire perimeter of the door. The door is very metal-intensive, with a large number of fasteners, and physical damage is caused to the polycarbonate during assembly.

A frame-panel coated with cellular polycarbonate for greenhouses and hotbeds is also known (see, for example, RF patent No. 105121 for a utility model), which is made of square-section metal pipes with transverse vertical reinforcements. Cellular polycarbonate is screwed with self-tapping screws to the horizontal and vertical pipes of the panel frame. Point fastening of polycarbonate reduces the service life of the panel, in addition, the panel frame is susceptible to corrosion. A mini-greenhouse made of frame panels is also known (see, for example, RF patent No. 113454 for a utility model), in which all the walls and ridge panels are made of frames - panels made of square metal pipes. In addition, hinges are used for the ridge panels. The disadvantage is the need for welding work, susceptibility to corrosion, the large weight of the ridge panels, and damage to the polycarbonate already at the stage of greenhouse assembly.

A single-window garden greenhouse, model # C 201 is also known (see, for example, https://russian.alibaba.com/p-detail/Greenhouse-422184972.html?spm=a2700.details.0.0.103d3c03WDdicW), which is made of anodized aluminum, all strips are made with grooves for polycarbonate in the style of office furniture. Fasteners are nuts and bolts. Anchor hinges specially designed for installation on aluminum doors are used. The product is expensive.

A greenhouse is also known (see utility model of the Russian Federation No. 180667), in which the folding walls can be made with a height no greater than the height of the bed, which means that with a high greenhouse wall, the bed must also be higher, which makes access to the plants difficult. All folding walls have hinges. The back edge does not fold down, making it difficult to access plants near the back wall. All elements of the greenhouse are made of profile pipes of rectangular or square cross-section. The structure is susceptible to corrosion. The covering material, in particular polycarbonate, is fixed around the perimeter, experiencing damage already during assembly.

The technical result of the claimed invention is to achieve rigidity and reduce the weight of the mini-greenhouse, to achieve full accessibility to any part of the bed, to eliminate airflow, to securely fasten polycarbonate without fasteners, to completely prevent water from flowing into the polycarbonate, to prevent damage to the polycarbonate during installation mini-greenhouses, in the ease of installation and speed of assembly of the mini-greenhouse, in achieving a minimum of fasteners, in eliminating corrosion, in the ease of extending sections of the mini-greenhouse in length, in increasing durability and improving performance characteristics, in saving metal.

The specified technical result is achieved by the fact that a mini-greenhouse is proposed with a front, rear and two end walls and a roof, consisting of four racks, four rafters, four sides and three ties, and polycarbonate sheet, which is assembled from a system of profile elements made of cold-rolled galvanized metal with a polymer coating, and includes a C-shaped profile, an OMEGA-shaped profile with additional legs, an OMEGA-shaped profile, an OMEGA-shaped profile with a convex shelf and rebates, and a U-shaped profile with rebates, with front and rear the walls and roof are made with removable wall-forming panels, each of which is made of polycarbonate, covered around the perimeter by sections of C-shaped profiles, fastened with pointed self-tapping screws, in addition, each end wall is made of polycarbonate, covered closely by two racks and two rafters connected to them for roofs, and at the same time the posts and rafters are made of OMEGA-shaped profile with additional legs, while the four sides connecting the four posts at the base of the mini-greenhouse are made of OMEGA-shaped profile and form the bed of the mini-greenhouse, as well as the tie connecting the front posts, the tie connecting the rear posts, and the tie connecting the rafters and forming the roof ridge are made of OMEGA-shaped profile with a convex flange and folds, while the flat elements of the tie bars, posts, sides and rafters on the outside form niches with supporting planes , in which removable wall-forming panels are installed, forming the front and rear walls and two roof slopes of the mini-greenhouse; in addition, permanent limiters in the form of protruding stops are installed on the front and rear sides, and turntable limiters are installed on the front and rear ties to prevent the wall-forming materials from falling out panels, as well as on each wall-forming roof panel, a handle-bracket is installed from a section of a U-shaped profile with rebates, the leg of which is sandwiched between the polycarbonate and the leg of the C-shaped profile covering it, and at the same time the fastening of the elements is made on the end walls with pointed self-tapping screws.

The rigidity of the structure is ensured by the balanced use of a system of profiles: an OMEGA-shaped profile as sides at the base of the mini-greenhouse, an OMEGA-shaped profile with additional legs as posts and rafters, and an OMEGA-shaped profile with a convex shelf as tie bars. The frame properties of the OMEGA-shaped profile, together with additional stiffening ribs, increase and increase the rigidity of the structure even in the absence of jibs, ties and cross members and with a selected metal thickness of 0.5 mm and the absence of additional parts, leading to a reduction in the weight of the mini-greenhouse. If necessary, it can easily be moved to a new location. Removable wall-forming panels make it easy to service the beds both from above and from the front and rear walls. Once installed in place, the wall-forming panels prevent the mini-greenhouse from being blown through, since they do not simply cover the wall opening, but are inserted into niches with supporting planes like a door. During assembly, the polycarbonate is tightly covered around the perimeter with a C-shaped profile, while the wall-forming panel is fastened at the corners with pointed self-tapping screws. With this approach, the polycarbonate is not damaged, there are no additional fasteners for it, and it is protected from water leakage along its entire perimeter. The end wall, assembled from an OMEGA-shaped profile as posts and rafters and reinforced with a side made from an OMEGA-shaped profile in combination with sheet polycarbonate, is the rigid supporting wall of the mini-greenhouse and is equipped with only seven pointed self-tapping screws. Three ties made of an OMEGA-shaped profile with a convex flange with a stiffening rib along the top of the profile, fastened at the ends to the end walls, provide high rigidity of the greenhouse frame. Thanks to the accuracy and consistency of the geometric dimensions of all elements of the profile system, a high installation speed has been achieved. And the ease of installation allows you to assemble mini-greenhouses not only in the factory, but also independently. Thanks to the proposed design, the greenhouse can easily be increased by one more section in any direction: to do this, it is enough to purchase an end wall, three ties and four wall-forming panels. There are no restrictions on increasing the number of sections. The cold-rolled galvanized metal with a polymer coating used ensures durability and increases the performance characteristics of the mini-greenhouse. The production of mini-greenhouse elements from a system of profiles with consistent geometric dimensions on uniform profiling lines leads to production efficiency and metal savings.

In FIG. 1 shows a cross section of a C-shaped profile; in Fig. 2 - cross section of an OMEGA-shaped profile with additional legs; in Fig. 3 - cross section of the OMEGA-shaped profile; in Fig. 4 - cross section of an OMEGA-shaped profile with a convex flange; in Fig. 5 - cross section of a U-shaped profile with folds; in Fig. 6 - view of the end wall; in Fig. 7 - cross section of the rack (section A-A); in Fig. 8 - cross section of the end side (section B-B); in Fig. 9 - wall-forming panel assembly; in Fig. 10 - cross-section of the wall-forming panel along the long side (section C-C); in Fig. 11 - stage of assembling the wall-forming panel; in Fig. 12 - view of the front wall of the mini-greenhouse; in Fig. 13 - view of the roof slope of the mini-greenhouse; in Fig. 14 - cross-section of a mini-greenhouse parallel to the end wall.

In a mini-greenhouse 1 with a front 2, a rear 3 and two end walls 4 and a roof 5, consisting of four racks 6, four rafters 7, four sides 8, three ties 9 and polycarbonate sheet 10, assembled from a system of profile elements made of cold-rolled galvanized metal with a polymer coating, and includes a C-shaped profile 11, OMEGA-shaped profile 12 with additional legs 13, OMEGA-shaped profile 14, OMEGA-shaped profile 15 with a convex flange 16 and folds 17 and a U-shaped profile 18 with folds 19, front 2 and rear 3 walls and roof 5 are made with removable wall-forming panels 20, each of which is made of polycarbonate 10, covered along the perimeter by sections of C-shaped profiles 11, fastened with pointed self-tapping screws 21. Each end wall 4 is made made of polycarbonate 10, tightly covered by two racks 6 and two rafters 7 connected to them for the roof 5, and the racks 6 and rafters 7 are made of OMEGA-shaped profile 12 with additional legs 13, with four sides 8 connecting four racks 6 at the base of the mini-greenhouse 1, are made of OMEGA-shaped profile 14 and form a bed of the mini-greenhouse 1. Tie 9 connecting the front posts 6, tie 9 connecting the rear posts 6, and tie 9 connecting the rafters 7 and forming the roof ridge 22 5, are made of an OMEGA-shaped profile 15 with a convex flange 16 and folds 17, while the flat elements of the ties 9, racks 6, sides 8 and rafters 7 on the outside form niches 23 with supporting planes 24, into which removable wall-forming panels 20 are installed , forming the front 2 and rear 3 walls and two roof slopes 5 of the mini-greenhouse 1. On the front and rear sides 8, permanent stops 25 are installed in the form of protruding stops, and on the front and rear couplers 9, turntable stops 26 are installed, preventing the wall-forming panels from falling out 20, and also on each wall-forming panel 20 of the roof 5, a handle-bracket 27 is installed from a piece of U-shaped profile 18 with folds 19, the leg 28 of which is clamped between the polycarbonate 10 and the leg 29 of the C-shaped profile 11 enclosing it. In this case, the fastening of the elements is carried out on end walls with 4 pointed self-tapping screws 21.

In FIG. Figure 1 shows a cross-section of a C-shaped profile 11 with legs 29, a shelf 30 and bends 31. This profile is used for the manufacture of removable wall-forming panels 20, while polycarbonate 10 is installed in the internal cavity 32 of the profile.

In FIG. Figure 2 shows a cross section of an OMEGA-shaped profile 12 with additional legs 13. Thanks to this configuration, six stiffening ribs 33 provide this profile with exceptional rigidity and make it possible to make load-bearing posts 6 and rafters 7 from it. And the presence of planes such as working legs 34, bends 35 and additional legs 13 provide convenient installation and the possibility of convenient arrangement of product elements. The internal cavity 36 is intended for installation of polycarbonate 10.

In FIG. Figure 3 shows a cross section of the OMEGA-shaped profile 14 with a shelf 37, legs 38 and bends 39. This profile is used for the manufacture of sides 8 of the mini-greenhouse 1 and provides frame rigidity along the entire perimeter of the base of the mini-greenhouse 1. The planes of the legs 38 and bends 39 are used for installing removable wall-forming panels 20 on them on the front 2 and rear 3 walls of the mini-greenhouse 1.

In FIG. Figure 4 shows a cross section of an OMEGA-shaped profile 15 with a convex flange 16 and folds 17, as well as with legs 40 and bends 41. The convex flange 16 consists of two parts separated by a stiffener rib 42. Five stiffeners 42 provide sufficient rigidity of the profile for screeds 9 The planes of the legs 40 and bends 41 are used to install removable wall-forming panels 20 on them on the front 2 and rear 3 walls and on the roof 5 of the mini-greenhouse 1. Angle A is selected in the range from 110 to 135 degrees to ensure the geometry of the end wall 4 of the mini-greenhouse greenhouses 1.

In FIG. Figure 5 shows a cross-section of a U-shaped profile 18 with folds 19, as well as a shelf 43 and legs 28. This profile is used to make a handle-bracket 27, designed to open a removable wall-forming panel 20 on each roof slope 5.

In FIG. 6 shows a view of the end wall 4 from the outside. Polycarbonate 10 is closely covered by two posts 6 and two rafters 7 connected to them for the roof 5. The posts 6 and rafters 7 are made of an OMEGA-shaped profile 12 with additional legs 13. Below, at some distance from the edge of the posts 6, ensuring that the posts 6 are installed in the ground , the end side 8 is installed, made of OMEGA-shaped profile 14, the shelf 37 of which is turned outward and fastened with additional legs 13 of the OMEGA-shaped profile 12 racks 6. In this case, the bend 39 of the side 8 is slipped under the polycarbonate 10, the profile leg 38 tightly supports the polycarbonate 10 in the end wall 4, all elements of which are fastened with seven pointed self-tapping screws 21. Section A-A (Fig. 7) shows the installation of polycarbonate 10 in the internal cavity 36 of the OMEGA-shaped profile 12 with additional legs 13 of the rack 6. Section B- In (Fig. 8) the articulation of the side 8 with the stand 6 is shown. The bend 39 is located behind the polycarbonate 10, which rests on the leg 38 of the OMEGA-shaped profile 14 of the side 8. The shelf 37 of the side 8 is fastened to the additional leg 13 of the OMEGA-shaped profile 12 of the stand 6 two pointed self-tapping screws 21.

In FIG. 9 shows a removable wall-forming panel 20 assembled, made of polycarbonate 10, covered around the perimeter by sections of C-shaped profiles 11, which form the long sides 44 and short sides 45 of the panel 20. The section C-C (Fig. 10) shows how C the -shaped profile 11 of the short side 45 tightly covers the polycarbonate 10 and clamps it with its folds 31 in its internal cavity 32. A section of the C-shaped profile 11 for the long side 44 is pre-prepared as follows: an incision is made in the fold 31 on both sides of the profile 11 and on both ends of the long side 44 and bend it flush with the leg 29. The short side 45 is inserted into the expanded internal cavity 32 of the profile 11 of the long side 44 along with the polycarbonate 10. In FIG. 11 shows a removable wall-forming panel 20 with a long side 44 prepared for assembly, in which the folds 31 are cut and bent “flush” with the leg 29 at both ends of the long side 44. After assembling all the elements of the removable wall-forming panel 20 and checking its geometry, the panel 20 is fastened along corners with pointed self-tapping screws 21.

In FIG. Figure 12 shows a view of the front wall 3 of the mini-greenhouse 1 without a removable wall-forming panel 20. The frame of the front wall 3 consists of two posts 6, a screed 9 and a side 8. The posts 6 are connected by a side 8, the bends 39 of which are fastened to the bends 35 of the posts 6. The tie 9 with its bends 41 is also attached to the bends 35 of the racks 6. The bends 35 of two racks 6, the bend 41 of the tie 9 and the bend 39 of the side 8 form a niche 23 with supporting planes 24 and with vertical sides from the working legs 34 of the racks 6, legs 38 of the side 8 and legs 40 of the tie 9. The niche 23 with the supporting planes 24 is intended for installing a removable wall-forming panel 20 in it according to the door principle. Panel 20 is inserted into niche 23, which eliminates the possibility of blowing through the mini-greenhouse 1. All frame elements of the front wall 3 are fastened with pointed self-tapping screws 21.

In FIG. Figure 13 shows a view of the roof slope 5 of a mini-greenhouse 1 without a removable wall-forming panel 20. The frame of the roof slope 5 consists of two rafters 7 and two ties 9. The top tie 9 forms the ridge 22 of the roof 5. Stiffening rib 42 of the OMEGA-shaped profile 15 with a convex the shelf 16 forms the top of the ridge 22. The bends 41 of the upper tie 9 are fastened to the bends 35 of the rafters 7. The bends 41 of the lower tie 9 are also fastened to the bends 35 of the rafters 7. The bends 35 of two stops 7 and the bends 41 of both ties 9 form a niche 23 with supporting planes 24 and with vertical sides made of working legs 34 of rafters 7 and legs 40 of ties 9. The niche 23 with supporting planes 24 is intended for installing a removable wall-forming panel 20 in it according to the principle of a door. Panel 20, inserted into niche 23, prevents blowing through the mini-greenhouse 1. All elements of the roof slope frame 5 are fastened with pointed self-tapping screws 21.

In FIG. Figure 14 shows a cross-section of a mini-greenhouse 1 parallel to the end wall 4. There are sides 8 at the bottom, ties 9 are made on the sides. Two slopes of the roof 5 are united by a tie 9, the stiffener 42 of which is the ridge 22 of the roof 5. On the supporting planes 24 niches 23 of the front 2 and the rear 3 walls and roof slopes 5, removable wall-forming panels 20 are installed according to the door principle. On the front and rear sides 8 there are permanent stops 25 installed in the form of protruding stops, and on the front and rear ties 9 there are turntable stops 26 installed, preventing the wall-forming panels 20 from falling out, and also on each wall-forming panel 20 of the roof 5 there is a handle-bracket 27, made from a piece of U-shaped profile 18 with folds 19, the leg 28 of which is sandwiched between the polycarbonate 10 and the leg 29 of the C-shaped profile 11 enclosing it.

Claims (1)

A mini-greenhouse with a front, rear and two end walls and a roof, consisting of four racks, four rafters, four sides, three ties and polycarbonate sheets, characterized in that the mini-greenhouse is assembled from a system of profile elements made of cold-rolled galvanized metal with polymer coating, including elements of a C-shaped profile, elements of an OMEGA-shaped profile with additional legs, elements of an OMEGA-shaped profile, elements of an OMEGA-shaped profile with a convex shelf and folds and elements of a U-shaped profile with folds, while the front, the rear walls and roof are made with removable wall-forming panels, each of which is made of polycarbonate, covered around the perimeter by sections of C-shaped profiles, fastened with pointed self-tapping screws, in addition, each end wall is made of polycarbonate, covered closely by two racks, and associated with them two rafters for the roof, and the posts and rafters are made of OMEGA-shaped profile elements with additional legs, while the four sides connecting the four posts at the base of the mini-greenhouse are made of OMEGA-shaped profile elements and form a mini-greenhouse bed, in addition , the tie connecting the front racks, the tie connecting the rear racks, and the tie connecting the rafters and forming the roof ridge are made of OMEGA-shaped profile elements with a convex flange and folds, and the flat elements of the ties, racks, sides and rafters on the outside form niches with supporting planes in which removable wall-forming panels are installed, forming the front and rear walls and two roof slopes of the mini-greenhouse; in addition, permanent limiters in the form of protruding stops are installed on the front and rear sides; turntable limiters are installed on the front and rear ties to prevent the wall-forming panels from falling out, and on each wall-forming roof panel there is a handle-bracket made from a section of a U-shaped profile with rebates, the leg of which is sandwiched between the polycarbonate and the leg of the C-shaped profile element covering it, while the fastening of the elements is made on the end walls with pointed self-tapping screws.

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