Patent Publication Number: US-2022217916-A1

Title: Plant container

Description:
TECHNICAL FIELD 
     The present disclosure relates to a plant container. 
     BACKGROUND ART 
     A plant or a seed are sown in a typical plant container, and the sown plant or seed absorb nutrients and water, which are supplied to the plant container, to be grown. 
     For example, Korean registration utility model No. 20-0421450 entitled “Plant cultivating container” discloses a body, which includes a plurality of partitions to form a plurality of cultivation spaces, and a cover to cover one surface, which is open, of the body. 
     According to the related art, although a plurality of plants are sown in the plurality of cultivation spaces, it is difficult to adjust an amount of plants, which are able to be sown in one cultivation space, by considering the growth of the plants. In addition, when the plants are sown in an amount exceeding the limit of the one cultivation space, the sown plants may not be correctly grown. 
     In addition, although the plurality of plants are able to be sown in the plurality of cultivation spaces, the cover has to be separated from the body to sow the plant, and be re-assembled after the plants are sown. In addition, a tool to saw seeds has to be additionally used in a process of sawing seeds of a plant in soil provided in the plurality of cultivation spaces, and, when the seeds are placed in soil, which is not desired by a user, the position of the seeds has to be moved, which bothers the user. 
     DISCLOSURE 
     Technical Problem 
     The present disclosure is to provide a plant container capable of adjusting arrangement spacing between seeds by considering the growth of a plant. 
     The present disclosure is to provide a plant container capable of easily adjusting the arrangement spacing between seeds to correspond to various plants. 
     Technical Solution 
     According to the present disclosure, a plant container may include a medium disposed inside a container, a guide cover to cover the container, and an insertion cover seated on the guide cover. Openings may be formed in the medium, the guide cover, and the insertion cover to communicate with each other in a vertical direction, such that a seed is easily inserted into the container. 
     According to the present disclosure, in the plant container, an opening may be formed, in equal number, in a medium and a guide cover, and the number of an opening provided in the insertion cover may be adjusted, such that the arrangement spacing between mutually different seeds, which are able to be inserted into the container, may be adjusted. 
     According to the present disclosure, in the plant container, a first opening and a second opening provided in the guide cover are formed to have mutually different diameters to guide the movement of a seed, such that a seed inserted through the opening of the insertion cover is exactly moved toward the opening of the medium. 
     Advantageous Effects 
     According to the present disclosure, in the state that the container is covered by the guide cover and the insertion cover, seeds may be easily inserted into the medium disposed inside the container. 
     According to the present disclosure, in the state that the container is covered by the guide cover and the insertion cover, the arrangement spacing between seeds may be adjusted. 
     According to the present disclosure, the nutrients of the medium may be uniformly supplied to mutually different seeds by adjusting the arrangement spacing between the seeds. 
     According to the present disclosure, in the state that the guide cover covers the container, various insertion covers having mutually different openings may be seated in the guide cover, such that the arrangement spacing between the seeds may be adjusted. 
     According to the present disclosure, in the state that the container is covered by the guide cover and the insertion cover, the optical energy may be supplied only to the seeds seated in the medium to prevent weeds from being grown from the rest of the medium. 
    
    
     
       DESCRIPTION OF DRAWINGS 
         FIG. 1  is a perspective view of a plant container according to a first embodiment of the present disclosure; 
         FIG. 2  is an exploded perspective view of a plant container according to a first embodiment of the present disclosure; 
         FIG. 3  is a perspective view of a medium according to a first embodiment of the present disclosure; 
         FIGS. 4A and 4B  are perspective views of an insertion cover according to a first embodiment of the present disclosure; 
         FIG. 5  is a cross-sectional view taken along line A-A of  FIG. 1 ; 
         FIG. 6  is a perspective view of a plant container according to a second embodiment of the present disclosure; 
         FIG. 7  is an exploded perspective view of a plant container according to a second embodiment of the present disclosure; 
         FIG. 8  is a perspective view of a medium according to a second embodiment of the present disclosure; 
         FIG. 9  is a sectional view taken along line B-B of  FIG. 6 ; and 
         FIGS. 10A to 10C  are plan views of an insertion cover according to a second embodiment of the present disclosure. 
     
    
    
     BEST MODE 
     [Mode for Invention] 
     Hereinafter, some embodiments of the present disclosure will be described in detail with reference to accompanying drawings. In adding the reference numerals to the components of each drawing, it should be noted that the identical or equivalent component is designated by the identical numeral even when they are displayed on other drawings. In addition, in the following description of an embodiment of the present disclosure, a detailed description of well-known features or functions will be ruled out in order not to unnecessarily obscure the gist of the present disclosure. 
     In addition, in the following description of components according to an embodiment of the present disclosure, the terms ‘first’, ‘second’, ‘A’, ‘B’, ‘(a)’, and ‘(b)’ may be used. These terms are merely intended to distinguish one component from another component, and the terms do not limit the nature, sequence or order of the constituent components. When a certain element is “liked to”, “coupled to”, or “connected with” another element, the certain element may be directly linked to or connected with the another element, and a third element may be “linked”, “coupled”, or “connected” between the certain element and the another element. 
       FIG. 1  is a perspective view of a plant container according to a first embodiment of the present disclosure,  FIG. 2  is an exploded perspective view of a plant container according to a first embodiment of the present disclosure, and  FIG. 3  is a perspective view of a medium according to a first embodiment of the present disclosure. 
     Referring to  FIGS. 1 to 3 , a plant or a seed may be cultivated in a plant container  1  according to the present disclosure. The plant or the seed may be sown and grown in the plant container  1 . The plant container  1  may be disposed inside a plant growing apparatus to grow the plant or the seed. In addition, the plant container  1  may be exposed to an outdoor space to grow the plant or the seed. 
     The plant container  1  may include a container  10 . 
     The container  10  may constitute a body of the plant container  1 . A medium  40 , which is to be described later, may be disposed on an inner bottom surface of the container  10 . A cultivation space may be formed in the container  10  to sow a plant or a seed. The cultivation space is defined as a space positioned at an upper portion of the medium  40  to grow the plant or the seed. The container  10  may be formed in a polygonal shape having one surface which is opened. For example, the container  10  may be formed in a cube shape, a polygonal shape, or a circular shape having a top surface which is opened. According to the present embodiment, the container  10  is formed in the cube shape having a top surface which is opened. The medium  40  may be inserted into the container  10  through the top surface of the container  10 . 
     The container  10  may include a container support  11  (see  FIG. 5 ). The container support  11  may be formed as a portion of the bottom surface of the container  10 , which protrudes downward. A plurality of container supports  11  may be provided. For example, the plurality of container supports  11  may be disposed to be spaced apart from each other along a bottom edge of the container  10 . 
     The container  10  may include a grip part  12  (see  FIG. 5 ). The grip part  12  may be formed by bending an upper end portion of the container  10 . The grip part  12  may be formed, as the upper end portion of the container  10  is bent in a side direction of the container  10  and then further bent in a downward direction of the container  10 . In this case, the side direction of the container  10  may be defined in an x-axis direction or a y-axis direction, and the downward direction of the container  10  may be defined as a direction of facing downward based on a z-axis direction. A user may hold and move the container  10  using the grip part  12 . 
     The plant container  1  may include a guide cover  20 . 
     The guide cover  20  may be disposed at an upper portion of the container  10 . The guide cover  20  may block the top surface of the container  10 . The guide cover  20  may be formed as a flat surface. The guide cover  20  may be fixedly coupled to the container  10 . When a plant or a seed is inserted into the container  10 , the guide cover  20  may perform a function of guiding the movement of the seed. The guide cover  20  may be referred to as a first cover. 
     In detail, the guide cover  20  may further include a bent part  22 . The bent part  22  may be formed, as an edge of the guide cover  20  is bent downward of the guide cover  20 . The bent part  22  may be formed to cover the grip part  12 . The bent part  22  may be formed to correspond to a portion of the grip part  12  bent downward. The guide cover  20  may be coupled to or separated from the container  10  in a vertical direction. When the guide cover  20  is coupled to the container  10 , the bent part  22  may closely contact the grip part  12 . When the bent part  22  closely contacts the grip part  12 , the guide cover  20  may block the one surface of the container  10 . 
     In other words, the guide cover  20  may be configured to be fitted into the upper portion of the container  10 . As the guide cover  20  is configured to be fitted into the container  10 , the guide cover  20  may be easily coupled to or separated from the container  10 . 
     The guide cover  20  may include a guide opening  21 . The guide opening  21  may be provided in the flat surface of the guide cover  20 . The guide opening  21  may be formed, as a portion of the guide cover  20  is open. A plurality of guide openings  21  may be provided. The plurality of guide openings  21  may be arranged to be spaced apart from by specific spacing. The guide opening  21  may be defined as a passage to insert a plant or a seed into the container  10 . 
     The plurality of guide openings  21  may be arranged on a reference line based on any one of a first reference line x 1  and a second reference line y 1 . In addition, the plurality of guide openings  21  may be arranged at opposite sides of any one of the first reference line x 1  and the second reference line y 1 . In addition, the plurality of guide openings  21  may be arranged symmetrically to each other about any one of the first reference line x 1  and the second reference line y 1 . The first reference line x 1  may be defined as a virtual line extending in the x-axis direction passing through the center of the guide cover  20 . The second reference line y 1  may be defined as a virtual line extending in the y axis direction passing through the center of the guide cover  20 . 
     For example, nine guide openings  21  may be provided. The plurality of guide openings  21  may be formed to be equal to each other in size. Each of the nine guide openings  21  may be referred to as first to ninth openings. A first guide opening  21   a  may be disposed at the center of the guide cover  20 . The second guide opening  21   b  and the third guide opening  21   c  may be arranged symmetrically to each other about the second reference line y 1 . The second guide opening  21   b  and the third guide  2   c  may be aligned on the first reference line x 1 . The fourth guide opening  21   d  and the fifth guide opening  21   e  may be arranged symmetrically to each other about the first reference line x 1 . The fourth guide opening  21   d  and the fifth guide opening  21   e  may be aligned on the second reference line y 1 . The sixth guide opening  21   f  and the seventh guide opening  21   g , and the eighth guide opening  21   h  and the ninth guide opening  21   i  may be arranged symmetrically to each other about the first reference line x 1 . In addition, the sixth guide opening  21   f  and the eighth guide opening  21   h , and the seventh guide opening  21   g  and the ninth guide opening  21   i  may be arranged symmetrically to each other about the second reference line y 1 . 
     The guide opening  21  may include a first opening  211 , a cover inclined surface  212 , and a second opening  213 . 
     The first opening  211  may be formed in the flat surface of the guide cover  20 . The first opening  211  may be understood as an opening formed in the guide cover  20 . In addition, the first opening  211  may be understood as an inlet of a passage to move a plant or a seed into the container  10  from the outside. 
     The cover inclined surface  212  may be formed to extend downward from the guide cover  20 . The cover inclined surface  212  may be inclined while extending downward from an outer circumferential surface of the first opening  211 . The cover inclined surface  212  may connect the first opening  211  with the second opening  213 . A seed inserted into the first opening  211  may move along the cover inclined surface  212 , and the movement of the seed to the second opening  213  may be guided. In other words, an upper portion of the cover inclined surface  212  may be defined as the first opening  211 , and a lower end portion of the cover inclined surface  212  may be defined as the second opening  213 . 
     The second opening  213  may be understood as an outlet to move a seed, which is inserted into the first opening  211  and passes through the cover inclined surface  212 , into the container  10 . The second opening  213  may be formed to have a diameter smaller than a diameter of the first opening  211 , thereby guiding the seed output after passing through the second opening  213 , such that the seed is dropped to a specific position. 
     Meanwhile, the first opening  211 , the cover inclined surface  212 , and the second opening  213  of the guide opening  21  may be formed integrally with each other. The integrally-formed opening  21  may be referred as a guide hole. 
     The plant container  1  may include an insertion cover  30 . 
     The insertion cover  30  may be disposed at an upper portion of the guide cover  20 . The insertion cover  30  may be provided in the form of a flat surface to be seated on the guide cover  20 . The insertion cover  30  may be fixed to the upper portion of the guide cove. The insertion cover  30  may be formed in size corresponding to the guide cover  20 . The insertion cover  30 , which is a cover to adjust the introduction of a seed into the guide opening  21  of the guide cover  20 , may be referred to as a second cover. 
     The insertion cover  30  may include an inserting opening  31 . The inserting opening  31  may be formed, as a portion of the insertion cover  30  is open. The inserting opening  31  may be formed to have a diameter equal to or greater than a diameter of the first opening  211 . A plurality of inserting openings  31  may be provided. The plurality of inserting openings  31  may be positioned to correspond to the plurality of guide openings  21 . The plurality of inserting openings  31  may be provided in number equal to or smaller than the number of the plurality of guide openings  21 . The plurality of guide openings  21  and the inserting openings  31  may communicate with each other in a Z-axis direction. When the number of the inserting openings  31  is smaller than the number of the plurality of guide openings  21 , some of the plurality of guide openings  21  may be blocked by the insertion cover  30 . In addition, cultivating spacing between plants seated on the medium  40  may be varied depending on the number of the inserting openings  31 . 
     For example, the plurality of inserting openings  31  may include first to ninth inserting openings corresponding to the first to ninth guide openings. Alternatively, the plurality of inserting openings  31  may include first to fifth inserting openings smaller in number than the first to ninth inserting openings. The first inserting opening may correspond to the first guide opening  21   a , the second inserting opening may correspond to the sixth guide opening  21   f , the third inserting opening may correspond to the seventh guide opening  21   g , the fourth inserting opening may correspond to the eighth guide opening  21   h , and the fifth inserting opening may correspond to the ninth guide opening  21   i.    
     The plant container  1  may include the medium  40 . 
     The medium  40  may be disposed on the inner bottom surface of the container  10 . The medium  40  may include a nutrient required to grow a plant or a seed. Although the name of the medium  40  is employed according to the present embodiment, the medium  40  may be referred to as soil. The medium  40  may be mixed with water supplied into the container  10  to supply a nutrient to a plant or a seed sown on the medium  40 . A cultivation space may be formed inside the container  10  and at an upper portion of the medium  40 . The cultivation space may be understood as a space in which a plant receiving the nutrient from the medium  40  is grown. The cultivation space may be supplied with light passing through the guide opening  21  and the inserting opening  31 . The plant grown in the cultivation space may receive optical energy from the light supplied through the guide opening  21  and the inserting opening  31 , and may be grown toward the guide opening  21  and the inserting opening  31 . A cultivation space having no guide opening  21  and inserting opening  31  may not be supplied with the optical energy. 
     The medium  40  may include a seating opening  41 . 
     A plurality of the seating openings  41  may be provided in the medium  40 . The seating opening  41  may be formed by cutting out a portion of the medium  40 . Alternatively, the seating opening  41  may be formed by recessing a portion of the medium  40 . The plurality of seating openings  41  may be disposed at positions corresponding to those of the plurality of guide openings  21 . The seating opening  41 , the guide opening  21 , and the inserting opening  31  may be disposed in a vertical direction, based on the Z axis. In other words, the seed inserted into the inserting opening  31  may pass through the guide opening  21  and may be seated in the seating opening  41 . The moving direction of the seed may be changed toward the seating opening  41  in the process of passing through the guide opening  21 . According to the present embodiment, the plurality of seating openings  41  may be formed in number equal to the number of the plurality of guide openings  21 . Meanwhile, the plurality of inserting openings  31  may be formed in number equal to or smaller than the number of the plurality of guide openings  21  and the plurality of seating openings  41 . In other words, the number of inserting openings  31  is adjusted to adjust an amount of seeds to be seated in the seating openings  41  and seating positions of the seeds. 
     The seating opening  41  may include a first medium opening  411 , a medium inclined surface  412 , and a second medium opening  413 . 
     The first medium opening  411  is formed, as a top surface of the medium  49  is opened. Alternatively, the first medium opening  411  may be formed by recessing the medium  40  downward. A seed output after passing through the guide opening  21  may be inserted into the first medium opening  411 . According to the present embodiment, the first medium opening  411  may be formed to have a diameter equal to a diameter of the second opening  213  or smaller than the diameter of the second opening  213 . The present disclosure is not limited thereto, but the first medium opening  411  may be formed to have a diameter greater than that of the guide opening  21 . 
     The medium inclined surface  412  may be formed, as the top surface of the medium  40  is inclined downward. Alternatively, the medium inclined surface  412  may be formed, as the top surface of the medium  40  is recessed to be inclined downward. An upper end portion of the medium inclined surface  412  may be defined as the first medium opening  411 . A lower end portion of the medium inclined surface  412  may be defined as the second medium opening  413 . The medium inclined surface  412  may guide the moving direction of a seed inserted into the first medium opening  411  such that the seed moves toward the second medium opening  413 . 
     The second medium opening  413  may be formed to be more recessed downward of the medium  40  from the lower end portion of the medium inclined surface  412 . The second medium opening  413  may be formed to have a diameter less than the diameter of the first medium opening  411 . The second medium opening  413  may be defined as an opening in which a seed moved along the medium inclined surface  412  is seated. The seed may be grown in the state that the seed in the second medium opening  413 . 
     Meanwhile, the first medium opening  411 , the medium inclined surface  412 , and the second medium opening  413  may be formed integrally with each other. The integrally-formed seating opening  41  may be referred to a seating recess part. 
       FIG. 4  is a perspective view of an insertion cover according to a first embodiment of the present disclosure. 
     Referring to  FIG. 4 , according to the present disclosure, the plant container  1  may include the insertion cover  30  in which the number of the inserting openings  31  is adjusted. For example, a plurality of inserting opening  31 - 1  provided in a second cover  30 - 1  may be provided in number equal to the number of the plurality of guide openings  21 . For another example, a plurality of inserting openings  31 - 2  provided in the second cover  30 - 2  may be provided in number smaller than the number of the plurality of guide openings  21 . Reference sign (A) of  FIG. 4  is a view in which the plurality of inserting openings  31 - 1  is smaller than the number of the plurality of guide openings  21 . Reference sign (B) of  FIG. 4  is a view in which the number of the plurality of inserting openings  31 - 2  is equal to the number of the plurality of guide openings  21 . 
     In other words, the number of the inserting openings  31  provided in the insertion cover  30  is adjusted to adjust an amount of seeds to be seated in the seating openings  41  and seating positions of the seeds. For example, the seating position of a seed inserted into the first inserting opening of the plurality of inserting openings  31  is away from the seating position of a seed inserted into the second inserting opening of the plurality of inserting openings  31 , and the two seeds do not interfere with each other in a growing process. In addition, since the two seeds are spaced apart from each other, nutrients may be uniformly supplied to the two seeds. 
     In addition, the number of the inserting openings  31  provided in the insertion cover  30  may be adjusted to adjust an amount of optical energy supplied to a plant grown in the seating opening of the medium  40 . For example, weeds may be prevented from being unnecessarily grown from the medium  40 , as the optical energy is supplied to an area other than the seating opening  41 , 
       FIG. 5  is a cross-sectional view taken along line A-A of  FIG. 1 . 
     Referring to  FIG. 5 , the process of inserting a seed “c” into the plant container  1  will be described in detail according to the present disclosure. 
     The medium  40  may be inserted through the one surface, which is opened, of the container  10 . After placing the medium  40  on the inner bottom surface of the container  10 , water is supplied to the medium  40  to make an environment in which a plant or a seed is grown. 
     The guide cover  20  may be coupled to the container  10 . The guide cover  20  may be coupled to an upper portion of the container  10 , and the insertion cover  30  may be seated at the upper portion of the guide cover  20 . When the guide cover  20  and the insertion cover  30  are fixed to the container  10 , the seating opening  41  of the medium  40 , the guide opening  21  of the guide cover  20 , and the inserting opening  31  of the insertion cover  30  may be aligned with each other in the vertical direction based on the z axis. The guide openings  21  and the seating openings  41  may be provided in equal number. The number of the inserting openings  31  may be provided to be equal to the number of the guide openings  21  or to be smaller than the number of the guide openings  21 . An amount of seed “c” to be inserted into the seating opening  41  and the seating position of the seed “c” may be adjusted by the number of the inserting openings  31 . 
     The seed “c” inserted into the inserting openings  31  may be dropped into the seating opening  41  after moving in sequence of the first opening  211 , the cover inclined surface  212 , and the second opening  213  of the guide opening  21 . The moving direction of the seed “c” to the seating opening  41  may be guided to the seating opening  41  by the second opening  213  having a diameter smaller than diameters of the cover inclined surface  212  and the first opening  211 . 
     The seed “c” inserted into the seating opening  41  may be seated in the second medium opening  413 , after moving in the sequence of the first medium opening  411  and the medium inclined surface  412  of the seating opening  41 . The seed “c” may exactly arrive at the second medium opening  413  by the medium inclined surface  412 . 
     The seed “c” seated in the second medium opening  413  may be grown by receiving nutrients from the medium  40 . The seed “c” may be grown by receiving optical energy which is supplied through the inserting opening  31  and the guide opening  21  through which the seed “c”, which is to be inserted, passes. The seed “c” may be grown toward the inserting opening  31  and the guide opening  21  in the growing process, and may be exposed to the outdoor space through the inserting opening  31  and the guide opening  21 . 
     A plant container according to a second embodiment of the present disclosure has a feature modified in some components of the plant container according to a first embodiment. Accordingly, remaining components of the plant container according to the second embodiment may be the same as remaining components of the plant container according to the first embodiment. Accordingly, the details of remaining components of the plant container according to the second embodiment may be substituted with the description of the remaining components of the plant container according to the first embodiment. 
       FIG. 6  is a perspective view of a plant container according to the second embodiment of the present disclosure,  FIG. 7  is an exploded perspective view of a plant container according to the second embodiment of the present disclosure,  FIG. 8  is a perspective view of a medium according to the second embodiment of the present disclosure, and  FIG. 9  is a sectional view taken along line B-B. 
     Referring to  FIGS. 6 to 9 , a plant container  2  according to the present disclosure may include a container  10 , a guide cover  20 , an insertion cover  30 , and a medium  50 . The medium  50  may be disposed inside the container  10  through one surface, which is opened, of the container  10 . The guide cover  20  may be coupled to the one surface, which is opened, of the container  10 . The insertion cover  30  may be coupled to an upper portion of the guide cover  20 . 
     The insertion cover  30  may further include an extension part  32 . 
     The extension part  32  may be provided in the insertion cover  30  such that the insertion cover  30  is coupled to the guide opening  21 . The extension part  32  may be formed, as an edge of the insertion cover  30  extends downward of the insertion cover  30 . The extension part  32  may be coupled to a protruding part  22  of the guide cover  20 , in close contact with the protruding part  22 . In other words, the insertion cover  30  may be fitted into the guide cover  20  by the extension part  32 . The extension part  32  may extend downward from the insertion cover  30  to correspond to the protruding part  22 . The insertion cover  30  may be fixed to the guide cover  20 , in close contact with the guide cover  20  by the extension part  32 . 
     According to the present embodiment, a plurality of guide openings  21  may be formed in the guide cover  20 . The plurality of guide openings  21  may be disposed to be spaced apart from each other. For example,  15  guide openings  21  may be provided. The  15  guide openings  21  may be defined as first to fifteenth openings. The plurality of guide openings  21  may be arranged in the x-axis direction and the y-axis direction. Three guide openings of the  15  guide openings may be aligned in the x-axis direction, and five guide openings of the  15  guide openings  21  may be aligned in the y-axis direction. 
     The insertion cover  30  may include inserting openings  31  provided in number equal to the number of the guide openings  21  or smaller than the number of the guide openings  21 . When the insertion cover  30  is coupled to the guide cover  20 , the number of guide openings  21 , which is able to be exposed to the outdoor space, may be changed due to the number of the inserting openings  13 . 
     According to the present embodiment, the medium  50  may include a plurality of seating openings  51 . The plurality of seating openings  51  may be defined as a plurality of porous parts formed in the medium  50 . The plurality of seating openings  51  may be arranged in the x-axis direction and the y-axis direction on the top surface of the medium  50 . The plurality of seating openings  51  may be formed, as the top surface of the medium  50  is recessed downward of the medium  50 . For example, the seating opening  51  may be formed in a polygonal shape or a circular shape. 
     The seating opening  51  may include an inclined surface  512  and a seating surface  513 . The inclined surface  512  may constitute a side surface of the seating opening  51 . The seating surface  513  may constitute a bottom surface of the seating opening  51 . The top surface of the seating opening  51  may be opened, and the seed “c” may be inserted into the opened top surface. The seed “c” inserted through the opened top surface of the seating opening  51  may move downward along the inclined surface  512  and may be seated on the seating surface  513 . 
     The inserting opening  31  and the guide opening  21  may be arranged in the vertical direction, based on the z-axis direction and may communicate with each other. In addition, the guide opening  21  and at least one seating opening  51  may be disposed in a vertical direction, based on the z-axis direction. The at least one seating opening  51  may be disposed at the projected area of the guide opening  21 . In detail, at least one seating opening  51  may be disposed in the projected area of the second opening  213  of the guide opening  21 . The seed “c” passing through the guide opening  21  may be inserted into one of at least one seating opening  51  disposed at the projected area of the second opening  213 . 
     According to the present disclosure, as the insertion cover  30  and the guide cover  20  are coupled to each other in close contact with each other, the insertion cover  30  and the guide cover  20 , which are integrated with each other, may be separated from the container  10 . In addition, the seed “c” inserted through the inserting opening  31  and the guide opening  21  may be exactly inserted into the one seating opening  51  of the plurality of seating openings  51 . In other words, as the seed “c” is placed on the top surface of the medium  50 , the supply shortage of moisture and nutrients to the seed “c” may be prevented. 
       FIG. 10  is a plan view of an insertion cover according to a second embodiment of the present disclosure. 
     Referring to  FIG. 10 , according to the present embodiment, the plant cover  2  may include an insertion cover  30  in which the number of inserting openings  31  is adjusted. The insertion cover  30  may include a plurality of insertion covers  30  such as a first insertion cover  30 , a second insertion cover  30 , and a third insertion cover  30 . Four first inserting openings  31 - 1  may be provided in the first insertion cover  30 , six second inserting openings  31 - 2  may be provided in the second insertion cover  30 , and 15 third inserting openings  31 - 3  may be provided in the third insertion cover  30 . The first insertion cover  30  is illustrated in reference numeral (a) of  FIG. 10 , the second insertion cover  30  is illustrated in reference numeral (b) of  FIG. 10 , and the third insertion cover  30  is illustrated in reference numeral (c) of  FIG. 10 . The number of the inserting openings  31  may be adjusted. According to the present disclosure, the inserting openings  31  provided in the first insertion cover  30 , the second insertion cover  30 , and the third insertion cover  30  may be adjusted by constructing the growth of the plant. In addition, when the number of the inserting openings  31  is adjusted, the spacing between the inserting openings  31  may be adjusted depending on the number of the inserting openings  31 . 
     Plant information  33  may be displayed on the insertion cover  30 . The plant information  33  may be provided on the top surface of the insertion cover  30 . The plant information  33  may include information on an image of a plant, the name of the plant, and a growing manner of the plant. The plant information  33  may be provided, as the top surface of the insertion cover  30  is printed with the plant information  33 . First plant information  33 - 1  may be displayed on the first insertion cover  30 , second plant information  33 - 2  may be displayed on the second insertion cover  30 , and third plant information  33 - 3  may be displayed on the third insertion cover  30 . The first insertion cover  30 , the second insertion cover  30 , and the third insertion cover  30  may differ from each other in the plant information  33  and the number of the inserting opening  31 . The number of the inserting opening  31  and the position of the inserting opening  31  may be adjusted by considering the growth of the plant displayed on the insertion cover  30 . 
     The insertion cover  30  is separately coupled to the guide cover  20 . The type of a plant, which is to be grown in the plant container  2 , may be easily changed by changing the insertion cover  30 .