WO2020050571A1 - Plant cultivation board including a magnet holder - Google Patents

Abstract

The present invention relates to a plant hydroponic board. In particular, the present invention comprises a magnet holder for receiving a magnet, such that the fixed position of a hydroponic plate can be maintained without being moved even when the hydroponic plate is positioned on the surface of water. The present invention comprises a magnet holder at which a magnet is installed and which is then installed at a cultivation plate, thereby achieving the effect of stably fixing the magnet.

Description

Plant redistribution with magnetic holder

The present invention relates to hydroponic plant cultivation. The hydroponic plant cultivation plate is a cultivation plate that floats on the water surface while fixing the cultivated plant. It is generally made of a material that can float in water, has a predetermined size and shape, and is used by connecting several in line with each other on the water surface. do.

Various connection structures have been developed for connecting and using hydroponic plant cultivation plates on the water surface, but a connection structure in a manner that can be easily connected and separated is preferable.

The registered patent "No. 10-1880537" discloses an invention in which plant cultivation plates are coupled to each other through a magnet.

The hydroponic plant cultivation plate of the above registered patent has a structure in which a magnet accommodating groove is formed on an upper side of one side and a magnet is accommodated in the magnet accommodating groove to seal the upper part with silicone. Plant cultivation plates are structures that are connected to each other by the attraction of the magnets.

However, the plant cultivation plate is made of a relatively weak material as a foam material such as styrofoam in order to float well in the water. When a magnet receiving groove is directly formed and a magnet is installed therein, it is used as a magnet attraction when separating the plant cultivation plates. Due to this, a crack was generated in the corner portion of the magnet accommodating groove, and a problem that could not be used for a long time was damaged.

That is, there is a problem in that the attractive force acting on the magnet shortens the life of the re-distribution by inducing stress concentration in a weak portion in the magnet receiving groove.

In addition, since the hydroponic plant cultivation plate of the above registered patent is inserted into the accommodation groove of the magnet and then silicon is injected into the entrance of the accommodation groove, the magnet and the redistribution plate are integrated by bonding with silicone, so reuse when the plant cultivation plate is damaged. There was a problem difficult to do.

The present invention aims to solve at least one problem of the prior art as described above.

In addition, it is an object to provide a plant cultivation plate capable of controlling the magnetic force of the magnet while stably fixing the magnet to the plant cultivation plate.

The plant cultivation plate provided with the magnet holder according to the present invention includes a magnet, a magnet holder, and a cultivation plate.

The magnet may have a cylindrical shape, and the magnet may be a permanent magnet.

The magnet holder includes at least one magnet receiving groove for installing a magnet, at least one fixing part protruding downward and a support part protruding from both sides.

The magnet receiving groove is sealed by at least one of silicone and a cover so that the magnet is not exposed to water after the magnet is inserted.

 The fixing hole is formed to penetrate downwardly with respect to the cultivation plate, and the fixing portion includes a hook that hooks through the fixing hole.

The cultivation plate includes at least one or more sidewalls, at least one fixing hole formed downwardly so that the fixing portion is fitted to the sidewall, and a holder installation portion having fitting grooves formed on both sides so that the supporting portion is coupled, and is made of a material floating on the water.

The cultivation plate has four side walls, and a holder installation portion is formed on at least two side walls of the four side walls. The two side walls are preferably opposite side walls.

The holder installation portion of the cultivation plate includes a groove in the shape of a b-shaped part of the side wall to include a vertical wall and a horizontal wall, a fixing hole is formed on the horizontal wall, and a fitting groove is formed while the vertical wall is further extended into the side wall. .

The magnet holder has an opening of a magnet receiving groove formed on a surface facing the vertical wall, and the opposite surface includes an outer wall surface formed to be parallel to the side wall of the cultivation plate when installed in the holder mounting portion.

The magnet holder is installed at the center of the side wall of the cultivation plate, and preferably has a size of about 1/3 of the length of the side wall. In addition, two magnet receiving grooves may be formed on both left and right sides with respect to the longitudinal direction of the magnet holder.

It is preferable that the magnet holder is foam-molded by plastic injection and the cultivation plate by a foam material such as styrofoam.

In general, since the foam material is weak, its surface is prone to protrude partly due to damage, and such a protruding portion may act as a hindrance to the alignment when connecting between cultivation plates. However, the magnet holder has the advantage that such a problem rarely occurs as a plastic injection material. More preferably, the magnet holder may protrude slightly from the side wall of the cultivation plate to counteract damage problems at other portions of the cultivation plate sidewall.

In addition, since the magnet holder can be detachably coupled to the cultivation plate, there is an advantage that it can be reused by separating it when there is damage to the cultivation plate.

On the other hand, the present invention is installed in the magnet receiving groove, the magnet is spaced relative to the wall surface of the side wall of the cultivation plate may further include an adjustment means having a thickness set to adjust the magnetic force of the magnet.

The adjusting means may be a plurality of spacer pieces having different thicknesses.

In addition, as another method of adjusting the magnetic force as described above, the magnet holder has a different wall thickness on the outer surface of at least the magnet receiving groove portion of the outer surface of the magnet holder of the different cultivation plate and the magnetic surface. It may be provided in plural and optionally installed in the holder mounting portion of the cultivation plate.

The plant cultivation plate provided with the magnet holder having the structure as described above can achieve the effect of stably fixing the magnet by installing the magnet on the magnet holder and installing it on the cultivation plate.

In addition, it is possible to achieve the effect of adjusting the magnetic force of the magnet by varying the thickness of the side wall of the magnet holder or by inserting a separate adjustment means into the magnet receiving groove.

1 is a view showing a plant cultivation plate having a magnet receiving groove according to an embodiment of the present invention.

2 is a view showing a holder installation portion and a magnet holder in a plant cultivation plate having a magnet receiving groove according to an embodiment of the present invention.

3 is a view showing a magnet holder of a plant cultivation plate having a magnet receiving groove according to an embodiment of the present invention.

4 is a view showing a control plate of a plant cultivation plate having a magnet receiving groove according to an embodiment of the present invention.

5 is an A-A cross-sectional view of a magnet holder of a plant cultivation plate having a magnet receiving groove according to an embodiment of the present invention.

Hereinafter, a plant cultivation plate having a magnet holder 110 according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

The plant cultivation plate provided with the magnet holder 110 according to the present invention includes a magnet 100, a magnet holder 110, and a cultivation plate 120.

2, the magnet 100 may have a cylindrical shape, and the magnet 100 may be a permanent magnet. In this embodiment, the magnet 100 is accommodated in two magnet holders 110 on both sides.

Referring to FIG. 3, the magnet holder 110 has three magnet receiving grooves 111 on both sides and fixing parts 112 protruding downwardly spaced apart at regular intervals to install magnets. In addition, the magnet holder 110 includes a support portion 113 formed to protrude on both sides, and the support portion 113 is formed to be thinner than the thickness of the magnet holder 110. The support part 113 is inserted from above to below with respect to the fitting groove 124 of the magnet receiving groove 111 to be described later.

The magnet receiving groove 111 may be sealed with silicone so that the magnet 100 is not exposed to water after the magnet 100 is inserted, or by a cover 127 as shown in FIG. 3 or 5. Although the cover 127 is not shown in the drawing, a thread may be formed to accommodate the magnet and rotate the cover 127 so that it can be coupled, and can be coupled by interference fit.

The fixing part 112 includes a hook that hooks through the fixing hole 123. That is, after the magnet holder 110 is positioned on the sidewall side of the cultivation plate 120, the fixing part 112 penetrates through the fixing hole 123 and is hooked by a hook structure at its end as it is pressed from above to below. Combined. It is prevented from being hooked by the hook structure to escape upward, but since the cultivation plate 120 is relatively soft, the hook of the fixing part 112 can be pushed upward while opening the lower part of the fixing hole 123 The magnet holder 110 and the cultivation plate 120 can be separated without damage even after being combined.

The cultivation plate 120 has a quadrangular plate shape composed of four side walls 122, and three fixing holes 123 formed downwardly so that the fixing portion 112 fits on the side walls 122, and the supporting portion 113 It includes a holder installation portion 121 is formed with fitting grooves 124 on both sides to be coupled. The fixing hole 123 is formed through the cultivation plate 120 downward.

The cultivation plate 120 is made of a material that floats on water. For example, it may be at least one of styrofoam, foam, and hollow plastic.

The cultivation plate 120 has four side walls 122, and a holder installation part 121 is formed on at least two side walls 122 of the four side walls 122.

The holder mounting portion 121 of the cultivation plate 120 includes a groove in the shape of a b-shaped part of the side wall 122 to include the vertical wall 125 and the horizontal wall 126, and the fixing hole 123 It is formed on the horizontal wall 126, the fitting groove 124 is formed while the vertical wall 125 is further extended into the side wall 122.

The magnet holder 110 is formed with an opening of the magnet receiving groove 111 on a surface facing the vertical wall 125, and the opposite side is a side wall of the cultivation plate 120 in a state installed in the holder installation part 121 122) is composed of an outer wall surface 114 formed to be arranged side by side.

Unlike this embodiment, the magnet holder 110 may have its outer wall surface 114 protruding slightly more than the side wall 122 of the cultivation plate 120. In such a case, the relatively smooth outer wall surface 114 and the outer wall surface 114 are in contact with each other, so that the cultivation plates 120 are connected to each other to further increase the alignment between the cultivation plates 120.

5 is a view showing a state in which the magnet is coupled to the magnet receiving groove (111). 5 (a) is an embodiment in which a magnet is coupled to the magnet receiving groove 111 and the cover 127 is coupled. At this time, the cultivation plate 120 is coupled to each other is the strongest bonding force.

5 (b) is an embodiment in which the adjusting means is installed before the magnet is coupled to the magnet receiving groove 111. The cover 127 is installed is the same as the above embodiment. At this time, since the magnet 100 has an adjusting means disposed between the side wall 114 and the magnet 100, the bonding force with which the cultivation plates 120 are coupled to each other is adjusted according to the number of adjusting means.

The adjusting means may be a plurality of spacer pieces 130 having different thicknesses.

According to an embodiment, the magnetic force of the magnet 100 can be controlled by adjusting the thickness of the outer wall surface 114 as shown in FIG. 5 (c) instead of the adjusting means. In this case, the magnet holder 110 may be replaced and used as needed in a state in which a plurality of magnet holders 110 having different thicknesses of the side walls 122 are configured.

In the state in which the magnet holder 110 is coupled to the cultivation plate 120, the top surface of the magnet holder 110 may have the same height as the top surface of the cultivation plate 120.

The magnet 100 of the magnet holder 110 installed on one side may be an N-pole, and the magnet 100 of the magnet holder 110 installed on the other side may be an S-pole.

In another embodiment, the magnet 100 is installed in the magnet receiving groove 111 on one side, and a material attached to the magnet 100 having the same shape as the magnet 100 is installed on the other side, so that the cultivation different from one side of the cultivation plate 120 is provided. The other side of the plate 120 may be attached while being attached.

-Explanation of sign-

10: Plant cultivation

100: magnet

110: magnet holder

111: magnet receiving groove

112: fixing part

113: support

114: outer wall surface

120: cultivation plate

121: holder mounting portion

122: sidewall

123: fixed hole

124: fitting groove

125: vertical wall

126: horizontal wall

127: cover

130: spacer piece

Claims (9)

1. magnet;

   A magnet holder including at least one magnet receiving groove for installing the magnet;

   In at least one side wall, the cultivation plate made of a material floating on the water, including a holder installation portion formed on the side wall

   Plant cultivation plate with a magnetic holder comprising a.
2. The method of claim 1,

   The magnet holder includes at least one fixing part protruding downward and a support part protruding from both sides,

   The cultivation plate is a plant cultivation plate with a magnet holder, characterized in that at least one fixing hole formed downward to fit the fixing portion, and fitting grooves formed on both sides so that the supporting portion is coupled.
3. According to claim 2,

   The holder installation portion of the cultivation plate includes a groove in the shape of a b-shaped part of the side wall to include a vertical wall and a horizontal wall, the fixing hole is formed in the horizontal wall, and the fitting groove is the vertical wall It is formed while extending further into the side wall,

   The magnet holder includes an outer wall surface formed so that an opening of the magnet receiving groove is formed on a surface facing the vertical wall, and the opposite surface is arranged to be parallel to the side wall of the cultivation plate in a state installed in the holder installation part. Plant cultivation plate with a magnetic holder, characterized in that.
4. According to claim 2,

   The fixing hole is formed to penetrate downward with respect to the cultivation plate,

   The fixing portion is a plant cultivation plate with a magnet holder, characterized in that it comprises a hook hooked through the fixing hole.
5. The method of claim 1,

   Plant cultivation with a magnet holder installed in the magnet accommodating groove, and further comprising an adjusting means having a thickness set to adjust the magnetic force of the magnet by allowing the magnet to be spaced apart from the sidewall wall surface of the cultivation plate. plate.
6. The method of claim 5,

   The regulating means is a plant redistribution plate having a magnet holder, characterized in that a plurality of spacer pieces having different thicknesses.
7. The method of claim 1,

   The magnet holder is provided with a plurality of different wall thicknesses on the outer surface of at least the magnet receiving groove portion of the outer surface of the cultivation plate and the magnet holder of the other cultivation plate is selectively attached to the holder mounting portion of the cultivation plate selectively Plant cultivation plate with a magnetic holder, characterized in that installed in.
8. The method of claim 1,

   The cultivation plate has four sidewalls, and a plant cultivation plate with a magnetic holder characterized in that the holder is formed on at least two sidewalls of the four sidewalls.
9. The method of claim 1,

   The magnet receiving groove is a plant redistribution with a magnet holder characterized in that the magnet is sealed by at least one of a cover and silicon so that the magnet is not exposed to water after the magnet is inserted.

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