RU100699U1 - GREENHOUSE Dismountable - Google Patents

Abstract

 1. A collapsible greenhouse containing a support frame with a coating fixed to it, made in the form of arches successively arranged one after another and interconnected in such a way that longitudinal connecting elements are placed between the arches along the support frame, forming longitudinal connections of all arches and connected with arches fastening nodes, wherein each arch consists of at least one element, characterized in that the arches and longitudinal connecting elements are made of a metal profile with rectangular cross-section, the mounting unit contains a fixing element, an insert, one end of which is permanently attached to the arch, and the second end is placed in a space limited by the walls of the profile of the longitudinal connecting element, while the shape of the fixing element of the insert corresponds to the shape of the inner surface formed by the walls of the profile of the adjacent longitudinal connecting element. ! 2. The collapsible greenhouse according to claim 1, characterized in that the end of the fastener-insert, placed in a space bounded by the profile walls of the longitudinal connecting element, is connected to the adjacent longitudinal connecting element by a detachable connection. ! 3. The collapsible greenhouse according to claim 1, characterized in that each arch consists of several elements, the ends of which are connected by a docking unit, while the docking unit contains a docking insert, the opposite ends of which are placed in spaces bounded by the walls of the profiles of the connected the ends of the arch elements, while the shape of the ends of the fastener-insert

Description

The utility model relates to the field of agriculture and can be used for growing crops indoors.

Known collapsible greenhouse (RU 83383, A01G 9/14, publication date 06/10/2009), closest to the claimed utility model, containing a support frame with a coating fixed to it, made in series placed one after another and rigidly interconnected tubular and / or rod arches in such a way that between the arches along the frame are placed connecting tubular or rod elements, respectively, connected to the arches by fixing nodes. It is possible to remount a known collapsible greenhouse in order to increase or decrease its size, however, its design has operational drawbacks and is not reliable enough. This is due to the fact that in the known greenhouse the components of the arch and the longitudinal connecting elements connecting them are made of tubular or rod and at the same time, all the structural components are fastened together by common cruciform fastening nodes, the ends of which have the same annular cross section. With this embodiment of the structural elements of the frame and the fastening nodes, the connected elements in the places of their fastening remain movable and can move around and along their axis, relative to each other and the initially set position, therefore it is highly likely that during the operation of the greenhouse the influence of external factors (external loads) , soil variability, the influence of adverse weather conditions) will lead to loss of shape and position of the entire structure and, as a result, to a violation of the integrity of the greenhouse cover. Thus, the bearing capacity of the analog design is low, it is not sufficiently rigid and stable, that is, unreliable. Along with this, since the frame is made of tubular or rod elements, the surface area of the frame in contact with the coating is minimal, and this does not provide a snug fit and reliable fastening of the coating to the supporting frame, which also reduces the usability and reliability of the analog greenhouse.

The objective of the claimed utility model is to increase the operational characteristics and reliability of a collapsible greenhouse. The real problem is solved by the fact that the greenhouse is collapsible; comprising a supporting frame with a coating fixed to it, made in the form of arches successively placed one after another and interconnected in such a way that longitudinal connecting elements are placed between the arches along the supporting frame, forming longitudinal connections of all arches and fastening nodes connected to the arches, while each arch consists of at least one element, according to the proposed utility model, arches and longitudinal connecting elements are made of a metal profile with a rectangular transverse For example, the fastener assembly comprises an insert fastener, one end of which is permanently attached to the arch, and the other end is placed in a space bounded by the profile walls of the longitudinal connecting element, while the shape of the insert fastener corresponds to the shape of the inner surface formed by the walls profile of an adjacent longitudinal connecting element.

Due to the implementation of arches and longitudinal connecting elements of a metal profile with a rectangular cross section, the structural strength is increased and, at the same time, the surface area of the frame in contact with the greenhouse coating is increased. Due to this, the carrying capacity of the claimed design is increased, a tighter fit of the coating to the supporting frame is ensured, it becomes possible to more conveniently and reliably attach the coating to the frame, including a coating made of rigid materials, for example, polycarbonate, which also increases expands the operational capabilities of the claimed greenhouse.

In the inventive greenhouse, a collapsible fastening assembly comprises a fastener-insert, one end of which is permanently attached to the arch, and the second end is placed in a space bounded by the profile walls of the longitudinal connecting element, while the shape of the fastener-insert corresponds to the shape of the inner surface formed the walls of the profile of the adjacent longitudinal connecting element. This embodiment of the mounting unit provides a more reliable connection of the connected frame elements, excluding their movement about their axis and relative to each other, which significantly increases the rigidity, strength, stability, and, therefore, the reliability of the entire structure of the greenhouse, including if its arches consist of more than from one element. Along with this, since the fastener-insert with one end is inseparably attached to the arch, that is, it is made with the arch element at the same time, this reduces the number of assembly operations for fastening nodes connecting the longitudinal connecting elements with arches, that is, the assembly process of the support the frame is facilitated and accelerated, becoming less labor intensive.

Thus, the claimed combination of essential features provides a sufficiently high strength, rigidity, stability and, consequently, the reliability of a collapsible greenhouse, increases its operational characteristics.

In the greenhouse, a collapsible fastener - an insert placed in a space bounded by the profile walls of the longitudinal connecting element, can be connected to the adjacent longitudinal connecting element by a detachable connection, which further increases the strength and reliability of the claimed greenhouse.

In a collapsible greenhouse, each arch can consist of either one or several elements. In the event that the arches of the collapsible greenhouse consist of several elements, their ends can be connected by a docking unit containing a docking insert, the opposite ends of which are placed in spaces bounded by the profile walls of the corresponding connected ends of the arch elements, while the shape of the ends of the fastener of the insert element corresponds to the shape of the inner surface formed by the walls of the profiles of the respective adjacent connected ends of the arch elements, and one end of the docking insert element and connected to the adjacent connected end of the arch element by a fixed connection. This embodiment of the supporting frame structure reduces the dimensions of the greenhouse in disassembled form, thereby additionally provides the convenience of its transportation and storage, while the proposed implementation of the docking unit provides a sufficiently rigid and reliable connection of the connected elements, which preserves the rigidity and stability of the entire greenhouse structure when assembled. In addition to this, the insertion docking element can be made cross-shaped or T-shaped with the possibility of connecting each of its free end with a longitudinal connecting element. This allows you to connect the arches with a longitudinal connection, combining the points of attachment of the longitudinal connecting elements to the arches with the junctions of the arch elements with each other and, therefore, if necessary, reduce the number of fasteners-inserts, one-piece connected to the arch.

At least one longitudinal connection of all arches of the support frame of the collapsible greenhouse can connect their vertices, and two connect, respectively, the left and right sides of all arches.

Two of the longitudinal connections of all arches can connect the ends of all arches, respectively, on their left and right sides. Such a connection of the elements of the supporting frame forms a longitudinal base, thereby providing additional stability of the greenhouse and allows you to install it on a previously prepared foundation.

The support frame may further comprise at least one transverse connection connecting the sides of the at least one extreme arch, wherein the transverse connection may consist of at least one transverse connecting element. The presence of cross-linking gives the design of the claimed greenhouse additional strength and rigidity.

The supporting frame may also further comprise a doorway and a door located in at least one of the extreme arches, which further enhances the usability of the greenhouse.

The metal elements of the support frame may have a protective polymer coating. The polymer coating, having high strength and durability, provides long-term protection of the frame elements from corrosion, temperature extremes, which increases the service life of the collapsible greenhouse.

The cover of the collapsible greenhouse can be made of polycarbonate with its fastening to the supporting frame using self-tapping screws, while the arches are placed at a distance of 1 m from each other. The polycarbonate coating is resistant to external influences, does not transmit ultraviolet radiation, can withstand heavy snow loads, therefore, it is not necessary to remove the coating from the frame of the greenhouse for the winter, which simplifies the operation of the greenhouse. In addition, the connection of a rigid polycarbonate coating with a supporting frame gives the greenhouse additional rigidity and strength, and the distance between the arches is 1 m due to the size of the sheets of the polycarbonate coating.

Figure 1 shows a General view of a collapsible greenhouse. Figure 2 shows the mounting unit. Figure 3 shows the docking station.

In one of the possible embodiments, the collapsible greenhouse comprises a support frame 1 with a polycarbonate coating fixed to it using self-tapping screws (not shown in Fig.). The supporting frame 1 is made of sequentially placed at a distance of 1 m from each other arches 2; between the arches 2 along the frame 1 there are longitudinal connecting elements 3 forming longitudinal connections of all arches 12, 13, 14, 15, of which one longitudinal connection of all arches 12 connects the tops of arches 2, two longitudinal connections of all arches 13, 14 are connected, respectively , the left and right sides of all arches 2, two of the longitudinal connections of all arches 15 connect the ends of all arches 2, respectively, on their left and right sides. Arches 2 and longitudinal connecting elements 3 are made of a metal profile with a rectangular cross section. The longitudinal connecting elements 3 are connected to the arches 2 by fixing nodes 7 (Fig. 1). The fixing unit 7 (Fig. 2) contains a fixing element-insert 8, one end 9 of which is permanently attached to the arch 2, and the second end 10 is placed in the space bounded by the profile walls of the longitudinal connecting element 3, while the shape of the fixing element-insert 8 corresponds in shape to the inner surface formed by the walls of the profile of the adjacent longitudinal connecting element 3. The end 10 of the fixing element of the liner 8 is connected to the adjacent longitudinal connecting element 3 detachable connection 11. Arches 2 consist, each of the three elements 4, 5, 6; at the joints, the ends of the elements 4, 5, 6 of the arches 2 are connected by the docking nodes 16 (figure 1). Figure 3 shows the docking unit 16, connecting the ends 20 and 21, respectively, of the elements 5 and 6 of the arch 2. The docking unit 16 contains a docking insert-insert 17, which is made crosswise. Two opposite ends 18, 19 of the docking insert 17 are placed in spaces delimited by the profile walls of the respective connecting ends 20 and 21 of the elements 5 and 6 of the arch 2 that are joined respectively, while the shape of the ends 18, 19 of the fastening insert 17 corresponds to the shape of the inner the surface formed by the walls of the profiles of the respective adjacent connected ends 20, 21 of the jointed, respectively, elements 5 and 6 of the arch 2, and one end 19 of the connecting element-insert 17 is connected to the adjacent connected end 21 of the element 6 of the arch and 2 by fixed connection 22. Two other opposite ends 23 and 24 of the cross-shaped docking insert-insert 17 are connected to the longitudinal connecting elements 3. The support frame 1 contains transverse connections 25 that connect the sides of the extreme arches 2 and consist of three transverse connecting elements 26. The supporting frame 1 contains a doorway with a door 27, which are located in the extreme arch 2.

Fixing elements 8 can be made of metal sections with a rectangular cross section, one-piece connection of the ends 9 of the fixing elements 8 to the arches 2 can be performed, for example, by welding, and a detachable connection of the ends 10 of the fixing elements 8 with adjacent longitudinal connecting elements 3 can be performed, for example, bolted. Fixing elements inserts 8 may have a protective polymer coating.

The connecting elements-inserts 17 can be made of segments of a metal profile with a rectangular cross-section, while for a cross-shaped and T-shaped execution of the connecting elements-inserts 17, the segments of the metal profile can be connected by welding. The fixed connection 22 of one of the ends 19 of the connecting element-liner 17 with the adjacent connecting end 21 of the element 6 of the arch 2 can be made, for example, by welding, or bolted connection. With the remaining adjacent connected elements, the end 20 of the element 5 of the arch 2 and with the longitudinal connecting elements 3, the connecting elements-inserts 17 can also be connected by a fixed detachable connection.

Docking insert inserts 17 may have a protective polymer coating.

The transverse connecting elements 26 and the elements of the doorway with the door 27 may be made of a metal profile with a rectangular cross section and may have a protective polymer coating. The nodes of the transverse connecting elements 26 with the elements of the doorway 27 and with the arches 2 can be made similar to the fastening nodes 7 or the docking nodes 16. The nodes of the transverse connecting elements 26 with each other can be made similar to the docking nodes 16.

A protective polymer coating of the metal elements of the supporting frame can be performed by applying powder paints to the coated products by the electrostatic method, followed by heating the products to the polymerization temperature of the coating.

A collapsible greenhouse is installed as follows. Connect the ends of the elements 4, 5, 6 of all arches 2 using the connecting elements-inserts 17, for which two of its opposite ends 18, 19 are placed in the space bounded by the walls of the profiles of the corresponding connecting ends 20 and 21 of the joined elements 5 and 6 of all the arches 2 and connect one of the ends, for example, the ends 19 of the connecting elements - liners 17 with adjacent ends 21 of the elements 6 of all arches 2 fixed connections 22, for example, bolted connections. The fixed joints 22 can also be made, for example, by welding or gluing, which is preferably performed in advance, before the installation of the greenhouse, for example, in the process of manufacturing structural elements of the greenhouse under production conditions. Similarly connect the ends of the elements 4 and 5 of all arches 2.

In the extreme arch 2, transverse connecting elements 26 and a door block with a door 27 are installed, the joints between which can be made similar to the fastening nodes 7 and / or the connecting nodes 16. The free ends of the connecting elements-inserts 17 of the extreme arch 2, made preferably T-shaped, and the free ends of the fastening elements of the liners 8, which are permanently attached to the arches 2, in the same way as described above, are connected with the longitudinal connecting elements 3, and the latter with adjacent ends, respectively Twain, fasteners, inserts 8 and the coupling elements 17, inserts the next pre-assembled intermediate arch 2. This coupling elements, intermediate liners 17 arches 2 are preferably crosswise. Thus, in series, one after the other, connecting, ending at the extreme, several arches 2 to obtain a supporting frame 1 of the required length. The assembled support frame 1 is fixed, for example, using anchors, on open ground or on a previously prepared foundation made, for example, of timber, foam concrete, lightweight concrete with various aggregates. On the assembled support frame 1, including on its end surfaces, lay polycarbonate coating sheets and fasten them to the elements of the support frame using self-tapping screws. When assembled, the following sizes of a collapsible body are preferred: height 2.1 m, width 3 m, length 4 m or 6 m. With such dimensions of a collapsible greenhouse, the dimensions of its transport packaging can be 2.1 m in height and 0, 8 m wide.

Claims (10)

1. A collapsible greenhouse containing a support frame with a coating fixed to it, made in the form of arches successively arranged one after another and interconnected in such a way that longitudinal connecting elements are placed between the arches along the support frame, forming longitudinal connections of all arches and connected with arches fastening nodes, wherein each arch consists of at least one element, characterized in that the arches and longitudinal connecting elements are made of a metal profile with rectangular cross-section, the mounting unit contains a fixing element, the insert, one end of which is permanently attached to the arch, and the second end is placed in the space bounded by the walls of the profile of the longitudinal connecting element, while the shape of the fixing element of the insert corresponds to the shape of the inner surface formed by the walls of the profile of the adjacent longitudinal connecting element. 2. The collapsible greenhouse according to claim 1, characterized in that the end of the fastener-insert, placed in a space bounded by the profile walls of the longitudinal connecting element, is connected to the adjacent longitudinal connecting element by a detachable connection. 3. The collapsible greenhouse according to claim 1, characterized in that each arch consists of several elements, the ends of which are connected by a docking unit, while the docking station contains a docking insert, the opposite ends of which are placed in spaces bounded by the walls of the profiles of the connected the ends of the elements of the arch, while the shape of the ends of the fastening element of the insert corresponds to the shape of the inner surface formed by the walls of the profiles of the corresponding adjacent connected ends of the elements of the arch, and n the end of the connecting element-liner is connected to the adjacent connected end of the arch element fixed connection. 4. The greenhouse is collapsible according to claim 3, characterized in that the docking insert insert is made crosswise or T-shaped with the possibility of connecting each of its free end with a longitudinal connecting element. 5. The collapsible greenhouse according to claim 1, characterized in that at least one longitudinal connection of all arches connects their vertices, and two connect the left and right sides of all arches, respectively. 6. The collapsible greenhouse according to claim 1, characterized in that two of the longitudinal connections of all arches connect the ends of all arches on their left and right sides, respectively. 7. The collapsible greenhouse according to claim 1, characterized in that the supporting frame further comprises at least one transverse connection connecting the sides of the at least one extreme arch, wherein the transverse connection consists of at least from one transverse connecting element. 8. The collapsible greenhouse according to claim 1, characterized in that the supporting frame further comprises a doorway and a door located in at least one of the extreme arches. 9. The greenhouse is collapsible according to claim 1, characterized in that the metal elements of the supporting frame have a protective polymer coating. 10. The collapsible greenhouse according to claim 1, characterized in that the coating is made of polycarbonate with its fastening to the supporting frame using self-tapping screws, and the arches are placed at a distance of 1 m from each other.