KR20230127041A - Rectangular lattice type vertical mobile vegetable grower - Google Patents

Abstract

The present invention relates to a cuboid lattice-type vertical mobile vegetable grower, and more particularly, to a cuboid lattice-type vegetable grower using square or circular metal and pipes, wherein the cuboid structure has a long width on the front and a long side surface. It is made of a rectangular parallelepiped with an empty space inside that forms a structure with a short width in the cuboid, and a cylindrical metal rod protruding 3 to 20 cm in length horizontally with the front and rear pipe sides of the cuboid lattice (hereinafter collectively referred to as a shaft) is welded, and a V-belt pulley with a size of 200 to 400% of the diameter of the metal pipe or a gearwheel for chain (hereinafter collectively referred to as a pulley) is placed on the welded shaft at the top and bottom of the column, two at the same height. In the eight welded structure, the pulley of the cuboid lattice rotates from front to back, and the V-belt or chain attached to the pulley in the cuboid lattice forms a structure that rotates the narrow part of the lattice frame to the side. It is a vertical mobile vegetable grower.

Description

Rectangular lattice type vertical mobile vegetable grower{omitted}

The present invention relates to a vertical mobile vegetable grower in the form of a rectangular parallelepiped grid, and more specifically, to four pillars composed of a rectangular parallelepiped grid using a square or circular metal pipe, the side of the center in which the front two pillars face each other from the front. It is a structure in which two pulleys for v-belts or sprockets for chain mounting (hereinafter collectively referred to as pulleys) are welded in a structure that protrudes 3 to 10 cm from the pillar at the same height on the top and bottom, and is transmitted to the front and rear four pillars. , 4 pulleys attached to 2 pillars at one rear side position are installed in a structure with a v-belt or chain (hereinafter collectively referred to as a belt) combined into one, and the 4 pillars face each other from the front It relates to a rectangular parallelepiped lattice type vertical mobile vegetable grower having a structure in which circular steel pipe holders (hereinafter collectively referred to as rods) are fixed and attached at the same points and at equal intervals of two installed belts.

Recently, due to factors such as environmental destruction and extreme climate change, expansion of residential facilities, and road expansion, crop cultivation areas are decreasing, and the phenomenon of crop yield reduction due to crop flooding due to environmental changes is being repeated every year. Insects are being discussed as a food resource, and interest in agriculture is increasing as the number of high-yield farms increases at the same time due to the development of facility cultivation technology. Among the conventional technologies, drawer-type agricultural products cultivation technology has been developed, and some of them grow actual crops and prepare for the development of new technologies. In the case of conventional drawer-type agricultural products cultivation equipment, one system for each layer or plantation Due to its configuration, it requires investment in many facilities and facilities, and drawer-type facilities increase the installation investment cost due to the composition of electric facilities and independent water supply and drainage facilities due to the composition of LED devices at the top of each independent cultivation area, making it possible to grow agricultural products. Due to the limitation of the layer that can be done and also some components of the cultivation machine, it is a structure composed of an agricultural product plantation by one-way rising and falling motion, and functions and facilities that require a lot of cost and labor input to increase and manage agricultural production. It was a facility that required a lot of free space. Existing multi-stage, vertical, and drawer-type crop growing devices are agricultural facilities that require a lot of equipment and manpower to move for installation and removal of devices composed of each floor by maintaining a top and bottom fixed shape.

kr Deukheo Application No. 10-2017-0081953 Multi-stage rotary crop cultivation device. kr Patent Application No. 10-2015-0025614 Vertical Rotating Pot Plant Growing Device

The present invention has been proposed to solve the above-mentioned conventional problems, and in order to perform an operation of descending from the front and a rotation operation of rising from the rear of the cultivation area (hereinafter collectively referred to as the cultivation area) for vegetable cultivation, the top of the front lattice A pipe for injecting water is installed, a water supply device (j) is installed, and a plantation rod is installed on the upper part of the belt outside the pulley. It is a structure that prevents movement of the plantation area, such as contact between the plantation area and the cuboid lattice type cultivation device, at the end of the bar. It is about a planter with a structure in which the size of the plantation is set and mounted to the inside of 30 ~ 100mm, and in the structure of growing vegetables in each of 4 ~ 20 plantations, the structure and plantation that increases the vegetable cultivation area per unit area on the existing ground It is about a cultivation machine with a function that minimizes the labor required for harvesting and planting vegetables.

In order to achieve the above object, the present invention manufactures a frame in the form of a rectangular parallelepiped grid using a circular or square tube made of metal such as aluminum, iron, or stainless steel, and has a structure in which the height of the grid is longer than the length of the side surface. In the lattice, pulleys are installed at 2 points on the top and bottom of the 4 vertical metal tubes (hereinafter collectively referred to as pillars), and the 4 pulleys installed on the 2 pillars on the side are connected with one belt to form a quadrangular structure. And, the two pillars on the opposite side form a quadrangular belt on both sides in a parallel structure with the belt of the four pulleys of the facing pillar. The 4 pulleys installed on the 2 pillars on the side and the 4 pulleys installed on the 2 opposite pillars are installed in a rectangular shape with the same height and facing structure, and then the rods can be installed at the same location of the 2 belts. After installing 4 to 20 triangular holders (e) at equal intervals on each belt, and then fixing and mounting 4 to 20 rods (d) outside the two belts, the pulleys installed on the four pillars are It is installed in a protruding position with a length of 20 cm, and the installed pulley (b) forms a structure facing the center in the column. The center of the pulley between the pillars and the pillars maintains an interval of 30 to 300 cm to mount the rod between the belts. Plantation with bearings installed on the rods with rods fixed and attached to the center of the belt using 2 belts installed on 8 pulleys installed on 4 pillars in a square structure of opposite equilibrium lines with 1 belt installed on 4 pulleys In a vertical mobile vegetable grower with a structure that installs a holder (e) and makes it easy to install and separate vegetable cultivation from the holder, water stored in a water tank installed on the floor or an aquarium (m) (hereinafter collectively referred to as an aquarium) Moving to the top, when water is injected into the plantation from the water supply device (j) at the top, the weight of the water injected into the plantation lowers the plantation by using the function of lowering the plantation located at the top to a lower position and raising the plantation on the opposite side It relates to a vegetable grower with a function of transmitting light from the side of the cultivation field by installing an LED light in the center of the cultivation machine in a horizontal position with the side of the cultivation field.

In the present invention, an aquarium or tank (m) (hereinafter collectively referred to as an aquarium) is installed on the floor and a rectangular parallelepiped lattice frame is installed on the top of the aquarium. As a structure of a balanced line, two pulleys are installed at the same height for each pillar in an upper and lower position, and a V-belt or chain (hereinafter collectively referred to as a belt) is installed on four pulleys installed horizontally on the front and rear side pillars. ) is installed, a triangular protruding structure with a triangular protruding structure is installed on the outside of the belt mounted on the pulley, and a triangular fixing table (e) is installed, and a circle is placed between the two flat belts on the fixed fixing table (e). A water inlet (j) at the top of the plantation in a cultivation machine with a structure in which a metal pipe holder (hereinafter collectively referred to as a rod) is installed and a hanger with a built-in bearing (e) is installed in the center 30 to 100mm from the end of the fixedly installed rod. When water is injected into the cultivation area, the cultivation area is lowered by the weight of the water, and it is a vertical movable vegetable grower with the function of evenly projecting the sunlight on the front and the light of the rear LED to the plant by the movement of the location of the cultivation area.

1 is a perspective view of a planter;
2 is a front view of the cultivator;
3 is a side view of the cultivator
4 is a plantation configuration diagram
5 is a configuration diagram of an actuator.

The present invention relates to a vertical mobile vegetable cultivator, in a structure in which an aquarium is installed at the bottom of a cuboid lattice type vertical mobile vegetable cultivator, in a structure in which the diameter of a pulley installed on a lattice column forms 200 to 400% of the size of the column, the side of the pulley By protruding from this column, the center of the plantation protrudes outside the grid. It is a vertical mobile vegetable grower with a structure in which 4 to 20 plantations with a floor area of 80 to 100% of the floor area of a rectangular parallelepiped are installed, The bar for installing and separating the plantation is fixed and installed to the left and right belt external clips (y), and the hanger (e) with built-in bearings that can hold the plantation from the end of the bar to the center 30 to 100mm from the end of the bar to the left and right In a structure in which rods are installed in a set of two left and right, a rectangular parallelepiped lattice type vertical movable structure in which a hook (k) for easily mounting the plantation of FIG. 4 is installed on a hanger (e) on a rod fixed to a belt Characterized by a vegetable grower,

The detailed description is as follows with reference to the drawings below.

In FIG. 1, four pillars (a) in the rectangular parallelepiped lattice type vegetable cultivator have a structure in which the distance between the front and rear pillars is long and the length of the side is short, and the metal rod protrudes 3 to 20 cm from the pillar to the center of the front and rear pillars. In the structure in which the V-belt or cogwheel (b) (hereinafter collectively referred to as a pulley) is placed at the same height in the center between the front and rear pillars at the top and bottom positions of the same height, on the four pillars on the side 8 pulleys are installed in a horizontally fixed structure, a v-belt or chain (hereinafter collectively referred to as a belt) is installed on the pulley, and two of the 4 pillars on which the pulley is installed are installed in a parallel line structure in which the direction of the pulley faces. do.

Four pulleys are installed in a rectangular shape at the same height of the top and bottom of the two pillars on the front and rear of the left side from the front, and the remaining two pillars on the right have a structure in which the directions of the pulleys face each other in a parallel line structure facing the front pulley. Set up 4 pulleys in a rectangle. It is a structure that uses a V-belt or chain (c) (hereinafter collectively referred to as a belt) to connect 4 rectangular pulleys formed in the same structure from 4 pillars. By forming a conveyor belt structure, up and down rotational motion is realized as a whole, and 4 to 20 cylindrical shafts (d) (hereinafter collectively referred to as rods) are fixed to two facing belts without rotational motion. In the installed state, it is a structure in which a plantation cradle (e) is installed with bearings installed at a position moved from the left and right ends to the center of the bar by 30 to 100mm. It is a structure directed from the rod to the floor, and the load by the weight of the plantation is rotated in the bearing holder coupled to the rod, and the weight of the plantation is continuously moved from the left to the right of the rod to prevent the rod from bending. It is a function that extends the use time of the grower, and forms a structure that allows the grower to be used for a long time.

When water is injected from the water inlet at the top of the plantation, water is stored in the plantation at the top, and the weight of the stored water increases to lower the plantation. It is a structure in which the discharged water is concentrated in the center of the plantation floor and discharged from the drainage hole (l) at the bottom of the plantation. This function moves water from the plantation at the top to the bottom. After performing the function of injecting, it forms a structure that minimizes water consumption by reusing water in a structure that is put back into the aquarium installed on the floor. The configuration of the present invention is a structure that supports the descent and rise of the plantation by two belts and 4 to 20 rods fixed to the belt when water is injected once from a waterer installed at the top, and the belt and rods play the role of a conveyor belt Performs the function of injecting light and water evenly into the vegetables grown on the plantation by moving the height of the plantation by performing an up and down rotational movement of the plantation installed on the rod to keep the growth of vegetables constant. And, with a structure in which the plantation mounted on the rod performs the function of a conveyor belt, the plantation is installed on the plantation holder (e), and the plantation is moved to a position where the plantation is lowered by the water injected from the top, and the waterer installed on the top of the plantation ( In j), when water is injected into the plantation, a rotational movement that lowers the plantation due to the increase in the weight of the plantation into which water is injected occurs. As a position change function that lowers the plantation and rotates the plantation by raising the plantation on the opposite side It performs the function of irradiating the entire plantation with the same sunlight and LED light.

In the present invention, by installing an LED light (G) in the center of the plantation consisting of a structure that moves up and down and lighting in the center of the plantation, the growth degradation of vegetables inside the plantation caused by the front shadow generated by the plantation is reduced to the LED light on the back A brake to stop and fix the belt at the lower center of the plantation and a tambour device to increase the tension of the belt are installed at the center of the lower part of the belt to prevent the growth of vegetables evenly by The mechanism corresponding to the change in length executes the function of adjusting the tension of the belt.

In Figure 4, the structure of the plantation is a structure in which water injected from the top is discharged to the drain (l) formed on the bottom of the low-center structure and the water discharged from the plantation at the top is injected into the plantation at the bottom. It is characterized by a structure that performs water injection function ~ 7 times and is a vegetable cultivation machine for the purpose of smoothly descending and ascending the cultivation area without placing items to be in contact with the cultivation area inside the cultivation machine bearing in FIG. 5.

Claims (5)

The rectangular parallelepiped lattice structure is a structure with a long front area and a short side area, and a cylindrical metal rod protruding 3 to 10 cm above and below the four pillars on the side toward the center of the front and horizontal structure. Weld a V-belt pulley or chain gearwheel (hereinafter collectively referred to as a pulley) to the welded metal rod, two to one column at the top and bottom of the column, and weld eight in a parallel structure at the same height, A rectangular parallelepiped lattice-type vertical movable vegetable characterized by a structure in which 4 to 20 mounting rods (f) are fixed and attached with clips (y) to the outer surface of the belt installed with two V-belts or chains (hereinafter collectively referred to as belts) on the installed poly. cultivation period. In claim 1, in a structure in which the diameter of the pulley installed on the lattice pillar is 200 to 400% of the size of the pillar, the side of the pulley protrudes from the pillar, so that the center of the plantation protrudes outside the lattice rod (f). A rectangular parallelepiped lattice type vertical movable vegetable grower characterized by a vertical movable vegetable cultivation structure in which 4 to 20 planting fields with an area of 80 to 100% of the floor area of a cuboid lattice are installed, separated and installed easily. In claim 1, in a structure in which a space of 30 to 300 cm is formed between the pulleys, two V-belts installed on the pulley or a clip (y) with a constant width of 30 to 90 cm in the length of the pulley outside the chain are attached to the clip 4 to 300 cm. A rectangular parallelepiped lattice type vertical mobile vegetable grower characterized by a structure in which 20 rods (d) are fixed and two hangers (e) are installed on one rod in the center of the rod. [Claim 1] The rectangular parallelepiped lattice type vertical mobile vegetable cultivator characterized in that it forms a space where the distance between the left and right pulleys is 30 to 300 cm. A rectangular parallelepiped lattice-type vertical mobile vegetable grower characterized by installing an LED in the center of the grower to eliminate the growth deterioration of vegetables inside the cultivated field.