RU109368U1 - MODULE FOR PLANT GROWING - Google Patents

Abstract

 1. A module for growing plants, characterized in that it includes a container consisting of a bottom and four walls, at least one of which is made with at least one upper protrusion and one lower cavity, located on one axis one above the other another, along the upper perimeter of the walls of the container, recesses are made for installing connecting elements configured to provide simultaneous connection of the container to an adjacent container of a similar module and with a cover made with sides, f the shape of the inner perimeter of which is in the reciprocal form of the outer perimeter of the bottom of the container, while on the sides along their lower edge there are recesses for installing connecting elements located coaxially to the recesses made in the walls of the container. ! 2. The module according to claim 1, characterized in that the container is equipped with at least one vertically oriented drain channel having a height equal to the height of the walls of the container and connected to a drain hole made in its bottom. ! 3. The module according to claim 1, characterized in that at least two walls of the container are made vertical. ! 4. The module according to claim 1, characterized in that the upper protrusions and lower troughs are made semiconical or pyramidal. ! 5. The module according to claim 1, characterized in that the drainage slots are made in the bottom of the container. ! 6. The module according to claim 1, characterized in that on the outer surface of the lid there is a groove with at least one drain hole located coaxially with the drain channel of the container. ! 7. The module according to claim 1, characterized in that at least one side of the cover is made f

Description

The proposed technical solution relates to decorative gardening, floriculture for the installation of walls, partitions and framing paths in open spaces with plants and can be used both in street conditions, for example, to decorate the streets of a city or a personal plot, as well as indoors, shopping centers and offices, as well as for the equipment of greenhouses.

A module for growing plants is known from the state of the art, which is made possible to connect with similar modules by means of coaxial docking due to the rigid connection formed by its mating profiles (see, for example, US 5511342, publ. 30.04.1996). The disadvantage of this technical solution is the lack of compactness.

A known module for flower pots, boxes, pallets, etc., having the shape of a rhombus, consisting of two triangular modules and truncated on each of the four corners. Two protrusions formed by three parts are divided into two triangular sections and one rectangular section. These protrusions are located in the center of the two leading edges of the diamond-shaped portion on the longitudinal axis of the profile (see, for example, DE 29720843U, publ. 01.04.1999). The disadvantage is the impossibility of the formation of walls and partitions by these modules.

A known module for growing plants, which is a socket with side openings for plants, which contains a number of tubular sections and dividing panels with openings, as well as a tray for collecting draining water. Known modules are assembled by means of a screw connection system, forming a column for home or garden plants (see, for example, DE 20014244U, publ. 02.22.2001). The disadvantage of this technical solution is the inability to assemble the modules in the horizontal direction.

Also known from the prior art is a module for growing plants, made in the form of a parallelepiped with two dividing walls that form three chambers. The upper edge of each extreme chamber is provided with a sleeve that forms a vertical channel. The lower end of the sleeve extends beyond the bottom of the container, has a slightly smaller size and is equipped with a groove running around the entire perimeter. The system contains connectors for connecting adjacent containers in a horizontal plane, a base for placing containers on the ground, a side support identical to the top edge of the chamber, a grate for collecting moisture on the bottom of the container and providing aeration of the root system, a tray for collecting drained water (see, e.g. , RU 2407279C2, publ., 02/27/2010). The lack of rigidity of the mounting structure, consisting of these modules, is the disadvantage of this technical solution. This technical solution is the closest to the declared one.

The task to which the claimed technical solution is directed is to ensure a compact arrangement of plants and to ensure the possibility of connecting similarly made devices into a single design.

The problem is solved due to the fact that the module for growing plants, according to the utility model, includes a container consisting of a bottom and four walls, at least one of which is made with at least one upper protrusion and one lower cavity located along one axis one above the other, along the upper perimeter of the container walls, recesses are made for installing connecting elements configured to provide simultaneous connection of the container to an adjacent container of similar m modulus and with a lid formed with flanges, which form the inside perimeter made answer form the outer perimeter of the container bottom, wherein on the sides at their lower edge recesses for mounting the connecting elements are located coaxially with the recesses formed in the walls of the container.

The container may be provided with at least one vertically oriented drain channel having a height equal to the height of the walls of the container and connected to a drain hole made in its bottom.

At least two walls of the container can be made vertical. The upper protrusions and lower troughs can be made semiconical or pyramidal.

Drainage slots may be provided at the bottom of the container.

On the outer surface of the lid, a chute can be made with at least one drain hole located coaxially with the drain channel of the container.

At least one side of the lid can be made curly with recesses located coaxially with the upper protrusions of the container wall.

The connecting element can be made in the form of a washer having two annular grooves and one through central hole, and the recesses in the walls of the container are made in a shape that repeats the shape of half of the annular groove of the connecting element.

The module can be additionally equipped with a removable pallet having sides, the shape of the inner perimeter of which is in accordance with the shape of the outer perimeter of the bottom of the container, while at least one side of the pallet is made of figured protrusions, preferably with a semicircular shape, located coaxially with the lower cavities made in the wall container.

The module can be made of Moplen polypropylene, or Kaplen polypropylene, or Balen polypropylene, or NKNH polypropylene with ultraviolet protection.

The technical result provided by the given set of features is to ensure a compact arrangement of plants by enabling assembly, both in the vertical and horizontal directions, of modules similar to the declared without additional fixation, as well as increasing the rigidity of the resulting structure due to the implementation of the module for growing plants including a container consisting of a bottom and four walls, at least one of which is made with at least one upper protrusion and one the lower trough, located on the same axis one above the other, allowing to create a place for comfortable (correct) plant growth, moreover, recesses are made along the upper perimeter of the container walls for installation of connecting elements made with the possibility of simultaneous connection of the container with an adjacent similar module and with a cover made with sides, the shape of the inner perimeter of which is made in the reciprocal form of the outer perimeter of the bottom of the container, while on the sides along their lower edge Execute the recess for mounting the connecting elements are coaxially disposed recesses formed in the walls of the container.

The technical solution is illustrated by the following graphic materials, which do not cover and, moreover, do not limit the entire scope of the claims of this technical solution, but are particular examples of the utility model:

figure 1 shows a module for growing plants, General view;

figure 2 shows a preferred embodiment of the module, General view;

figure 3 shows an example of the assembly of modules;

figure 4 shows a view of figure 3.

This technical solution is a modular device, which is part of a modular system consisting of identical parts.

The module for growing plants (figure 1) includes a container 1, a cover 2 and connecting elements 3. The container 1 consists of a bottom 4 and four walls 5. At least one wall 5 of the container 1 is made with at least one upper protrusion 6 and one lower cavity 7. The upper protrusion 6 and the lower cavity 7 are located on the same axis one above the other, conditionally forming one section. On the upper perimeter of the walls 5 of the container, recesses 8 are made for installing the connecting elements 3. The lid 2 is made with sides 9, the shape of the inner perimeter of which is mated to the outer perimeter of the bottom 4 of the container 1. On the sides 9 of the lid 2, recesses 10 for installation are made on their lower edge connecting elements 3, located coaxially to the recesses 8, made in the walls 5 of the container 1. The connecting elements 3 themselves are made with the possibility of simultaneous connection of the container with an adjacent similar onteynerom module 1 and the cover 2.

Thus, the design of the module allows you to connect them both in the horizontal direction along any or several of the four walls of the module, as well as make them stacked vertically, that is, collect them in the vertical direction. The response form of the outer perimeter of the bottom 4 of the container 1 and the inner perimeter of the sides 9 of the lid 2 allows you to create a rigid and stable structure formed by individual modules. To further increase the rigidity and stability when stacking modules, at least two walls of the container can be made vertical.

In a preferred embodiment of the module (FIG. 2) for removing excess moisture when used outdoors, the container 1 is provided with at least one vertically oriented drain channel 11 having a height equal to the height of the walls 5 of the container 1 and connected to the drain hole ( not shown in the drawings) made at its bottom 4. A drain channel 11 is located at the conditional boundary of adjacent sections. Moreover, on the outer surface of the lid there is a groove 12 with at least one drain hole 13 located coaxially with the drain channel 11 of the container 1 to collect excess moisture and its direction into the drain channel 11 of the container 1.

To ensure aeration of the root system, drainage slots can be made in the bottom of the container (not shown in the drawings). In this case, the consumer does not have to worry about additional drainage. In addition, each section has its own drainage system. This allows you to separate one plant from another, in case one of the plants is sick, to prevent infection, contamination of other plants in neighboring sections.

To ensure comfortable conditions for plant growth, the upper protrusion 6 and the lower cavity 7 are located on the same axis one above the other, which, when the two modules are vertically aligned, allows you to create enough space for the proper development of the plant. The shape of the upper protrusions 6 and the lower depressions 7 may be different. As an example, they can be made semiconical or pyramidal. To increase the living space of the plant, the lid 2 can also be made curly with recesses 14 located coaxially with the upper protrusions 6 of the wall 5 of the container 1.

As mentioned above, the connecting elements 3 are made with the possibility of simultaneous connection of the container 1 with the adjacent container 1 of a similar module and with a cover 2. One example of such a design of the connecting elements 3 can serve as their execution in the form of a washer having two annular grooves 15 and one through the Central hole 16. In this case, the recesses 8, 10 in the walls 5 of the container 1 and in the sides 9 of the cover 2 are made in a shape that repeats the shape of half of the annular groove 15 of the connecting element 3. When connecting two x modules together, one annular groove 15 is designed to accommodate the recesses of the container and the lid of one module, and the second groove 15 is designed to accommodate the recesses 8, 10 of the container 1 and the lid 2 of the adjacent module. Through central holes 16, if necessary, can be used to pass irrigation valves when equipping a modular system with an irrigation fluid supply system, which can be equipped with an irrigation duration regulator and a hopper supply medium. In addition, they can be used for additional fastening to a wall, or other vertical surface, for example, with screws.

To collect excess moisture or for lower watering, the module can be additionally equipped with a removable pallet 17 having sides 18, the shape of the inner perimeter of which corresponds to the shape of the outer perimeter of the bottom 4 of the container, while at least one side of the pallet is shaped with protrusions 19, preferably semicircular in shape, located coaxially with the lower depressions 7, made in the wall 5 of the container 1.

The module can be made of Moplen polypropylene, or Kaplen polypropylene, or Balen polypropylene, or NKNH polypropylene with ultraviolet protection.

The assembly of modules is as follows.

Containers of 1 modules intended for assembly are filled 2/3 of the ground, plants or seeds are planted in the upper ledges 6. Then, using the connecting elements 3, each module is covered with a cover 2. The modules are mounted one on top of the other in the vertical direction by placing the bottom 4 of the container 1 of the upper module in the cover 2 of the lower module. Moreover, each section of the modular system is formed by the upper protrusion 6 of the container, the recess 14 of the cover 2 of the lower module and the lower cavity 7 of the container 1 of the upper module. In the horizontal direction, the modules are joined by the same connecting elements 3 with which each container 1 is connected to the lid 2.

Thus, the proposed technical solution can be quite widely used in various industries, such as agriculture, decorative gardening, arrangement of partitions, paths and walls in open spaces and in rooms for breeding various crops, decorative flowers, as well as for decorating open spaces and enclosed spaces. In addition, thanks to the original design of the module, this technical solution allows the formation of various assembly combinations of the modular system.

Claims (10)

1. A module for growing plants, characterized in that it includes a container consisting of a bottom and four walls, at least one of which is made with at least one upper protrusion and one lower cavity, located on one axis one above the other another, along the upper perimeter of the walls of the container, recesses are made for installing connecting elements configured to provide simultaneous connection of the container to an adjacent container of a similar module and with a cover made with sides, f the shape of the inner perimeter of which is in the reciprocal form of the outer perimeter of the bottom of the container, while on the sides along their lower edge there are recesses for installing connecting elements located coaxially to the recesses made in the walls of the container. 2. The module according to claim 1, characterized in that the container is equipped with at least one vertically oriented drain channel having a height equal to the height of the walls of the container and connected to a drain hole made in its bottom. 3. The module according to claim 1, characterized in that at least two walls of the container are made vertical. 4. The module according to claim 1, characterized in that the upper protrusions and lower troughs are made semiconical or pyramidal. 5. The module according to claim 1, characterized in that the drainage slots are made in the bottom of the container. 6. The module according to claim 1, characterized in that on the outer surface of the lid there is a groove with at least one drain hole located coaxially with the drain channel of the container. 7. The module according to claim 1, characterized in that at least one side of the lid is made curly with recesses located coaxially with the upper protrusions of the container wall. 8. The module according to claim 1, characterized in that the connecting element is made in the form of a washer having two annular grooves and one through central hole, and the recesses in the walls of the container are made in a shape that repeats the shape of half of the annular groove of the connecting element. 9. The module according to claim 1, characterized in that it is additionally equipped with a removable pallet having sides, the shape of the inner perimeter of which corresponds to the shape of the outer perimeter of the bottom of the container, while at least one side of the pallet is made curly with protrusions, preferably semicircular forms coaxially with the lower depressions made in the container wall. 10. The module according to claim 1, characterized in that it is made of Moplen polypropylene, or Kaplen polypropylene, or Balen polypropylene, or NKNH polypropylene with ultraviolet protection.