Plant growing device and method of forming the same

By designing a plant growth device that includes a water mist channel, a water outlet, a mounting base, an overflow hole, a water tank, and a mist generator, the problems of large size and low efficiency of existing devices are solved. This achieves efficient water resource utilization and aesthetics, ensures plant health, and reduces planting costs and maintenance difficulties.

CN122249103APending Publication Date: 2026-06-19OLDHAM NATURAL SYSTEMS INC

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
OLDHAM NATURAL SYSTEMS INC
Filing Date
2024-04-25
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing plant growth devices are bulky and inefficient, unable to simultaneously achieve continuous root immersion and continuous root exposure, leading to the death of aquatic and semi-aquatic plants. They also occupy too much space, are difficult to move, affect aesthetics and health, and have problems with humidity maintenance, temperature regulation, and space limitations.

Method used

Design a plant growth device that includes a water mist channel, multiple water outlets, a mounting base, an overflow hole, a water tank, a return water channel, and a mist generator. The water mist channel delivers water mist, the water outlets and overflow hole control the water flow, and the return water channel and mist generator achieve water circulation and humidity regulation. It provides multi-angle plant accommodation and reduces the footprint.

Benefits of technology

It achieves efficient water resource utilization, reduces the footprint, improves the mobility and aesthetics of the device, ensures plant health, reduces planting costs and maintenance difficulty, and avoids mold growth and root restriction.

✦ Generated by Eureka AI based on patent content.

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Abstract

A plant growth device includes a water mist channel, multiple water outlets, multiple mounting bases, multiple overflow holes, a water tank, a return water channel, and a mist generator. The water mist channel allows water mist to enter the growing chamber. The multiple water outlets allow water to flow out from the guide channels. Plants are placed in the plant receiving section of the mounting bases. The plant roots occupy the root space formed by the planting walls and the mounting bases. Overflow holes are provided on the mounting bases to allow water to enter the root space and the water pool below the mounting bases. The water tank supplies water to the guide channels and allows water to flow out from the water outlets. The return water channel connects the water pool and the water tank in the growing chamber. A mist generator, partially located in the water tank, generates water mist, which is then transported to the growing chamber.
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Description

[0001] Cross-reference to related applications

[0002] This application claims priority to U.S. Patent Application No. 18 / 512,407, filed November 17, 2023, entitled “Plant Growth Device and Method of Forming Thereof”. Technical Field

[0003] This disclosure generally relates to the field of plant growth devices and describes related methods of their formation, and more specifically to aquatic and terrestrial ecological tank-type plant growth devices and related methods of their formation. Background Technology

[0004] Plant growing devices can be used for commercial purposes, such as for hobbyists, educational institutions, research institutions, decorating agencies, and / or conservation organizations to grow plants. The device can also be used for hobby and / or decorating purposes. For example, gardening enthusiasts and / or educational institutions can use the device for non-commercial purposes to create microenvironments that promote plant growth in unsuitable external environments. Furthermore, the device can be used for non-commercial purposes to add visual appeal and / or interior design elements to homes, businesses, and / or offices.

[0005] Plant growers may be bulky and / or inefficient. The device may employ a stepped structure, placing the plants within stepped mounting bases. This stepped structure can result in a large footprint, consuming significant amounts of valuable growing space. Stepped mounting bases may also limit watering methods. While stepped mounting bases may require continuous root soaking and / or continuous root exposure, the plant grower may not be able to perform both simultaneously.

[0006] Unfortunately, aquatic and / or semi-aquatic plants may die in plant growers due to overwatering caused by continuous root soaking, and / or underwatering caused by continuous root exposure. Similarly, in aquarium configurations, plant growers may submerge entire plants and take up significant space because plants cannot be stacked. Even if plants are stacked within the aquarium, their health and quality may decline, requiring more filtration and / or maintenance of the aquarium system. Excessive space occupied by plant growers can cause numerous problems. Users may not have enough space in their homes and / or offices to place plant growers; even if space is available, plant growers may be bulky and heavy, making them difficult to move. Furthermore, excessive space occupied by plant growers can create tripping hazard, affect aesthetics, damage floors, consume excessive energy, be prone to damage / malfunction, and / or present numerous challenges when cleaning plant growers.

[0007] Therefore, plant growing devices may be inefficient and only suitable for growing a specific type of plant (e.g., aquatic, semi-aquatic, and / or terrestrial plants). The device may consume excessive water, increasing growing costs. Furthermore, the device may be environmentally inefficient, as unintended mold growth can damage otherwise healthy plants and may even proliferate throughout the device. Moreover, the device may present problems with humidity maintenance, temperature control, water quality, aesthetics, and / or space and growth limitations (e.g., root tangling, restricted root growth, and overall size limitations). All these issues combined can lead to plant health problems, including diseases, pests, and / or nutrient deficiencies. Summary of the Invention

[0008] This disclosure discloses a plant growth device system and its formation method. In one aspect, the plant growth device includes a water mist channel, multiple water outlets, multiple mounting bases, multiple overflow holes, a water tank, a return water channel, and a mist generator. The water mist channel is formed through a planting wall to allow water mist to enter the planting chamber. The water mist channel is located at the top of the planting wall. The planting chamber is formed by the planting wall, a right wall, a left wall, and a front wall. Multiple water outlets are perforated in the planting wall to allow water to flow through guide channels located behind the water outlets on the planting wall. The water outlets are located below the water mist channel. Multiple mounting bases are fixed to the planting wall. The multiple mounting bases include multiple plant receiving portions. Plants are placed in the multiple plant receiving portions of the mounting bases, and the plant roots occupy the root space formed by the planting wall and the mounting bases.

[0009] Multiple overflow holes are provided on multiple mounting bases. These overflow holes allow water to flow down the planting wall from the drain outlet and into the root space. The overflow holes also allow a portion of the water to flow into a pool below the mounting base. The water tank behind the planting wall is formed by the tank wall, rear wall, left wall, and right wall of the planting chamber. A flow channel is located between the planting wall and the tank wall. The water tank is located behind the flow channel. The water tank supplies water to the flow channel by overflowing water over the tank wall into the flow channel, thus allowing water to flow out from the drain outlet.

[0010] A chamber space is provided between the growing chamber and the water tank. This chamber space is formed by a left wall, a right wall, the back of the growing wall, the front of the water tank wall, and the bottom of a flow channel. The flow channel is connected to at least one of the back of the growing wall and the front of the water tank wall. A return water channel connects the water pool and the water tank in the growing chamber. The return water channel allows water to flow back from the water pool to the water tank via a water pump. A mist generator is at least partially located inside the water tank. The mist generator uses water in the water tank to produce water mist, which is then transported to the growing chamber through a mist channel.

[0011] The water tank can be formed by the base, left wall, right wall, rear wall, and / or front wall of the planting chamber. A flow channel can be connected to the back of the planting wall, located below the top of the tank wall. Alternatively, the flow channel can be connected to the back of the planting wall, located at the top of the tank wall. At least one partition can be installed inside the tank. This partition can form at least two chambers within the tank. The two chambers within the tank can be filled with filter media. Multiple mounting seats can be oriented at an angle of 10 to 70 degrees relative to the planting wall. Multiple openings can be made on the planting wall near the root space of the mounting seats and / or at multiple plant receiving sections. These openings can accommodate the base of the plants.

[0012] Multiple openings may be elliptical. Multiple drain outlets may include upper and lower slits. The upper slit may be an opening on the implant wall above the mount, with a width greater than its height. The lower slit may be an opening on the implant wall, with a width greater than its height. The lower slit may be located above the multiple mounts and / or below the upper slit. The bottom edge of the lower slit may include a curved notch.

[0013] An internal filter may be located within the chamber space and / or may include a water pump. The water pump may deliver water from the pool to the filter via a first conduit, and further deliver the filtered water to the top of the tank via a second conduit. The plant growth device may include a second pool formed by a left wall, a right wall, a tank wall, and a partition. The second pool may be higher than the pool. The partition may separate the second pool from the pool. At least one drain outlet of the partition may include a filter screen to filter water discharged from the second pool into the pool. The plant growth device may include at least one pool support. The pool support may include legs and multiple second plant housings. The pool support may allow plants to be at least partially submerged in the pool when located in the second plant housings.

[0014] On the other hand, a plant growth device includes a planting chamber, multiple water mist channels, multiple water outlets, multiple mounting bases, multiple overflow holes, a water tank, a chamber space, a return water channel, a mist generator, at least one water pool support, and multiple openings. The planting chamber is formed by a planting wall, a left wall, a right wall, and a front wall. Multiple water mist channels pass through the planting wall, allowing water mist to enter the planting chamber. The width of each water mist channel is greater than its height. Multiple water outlets are provided on the planting wall, allowing water to flow through guide channels located behind the water outlets on the planting wall. The multiple water outlets include multiple upper slits and multiple lower slits. The width of both the upper and lower slits is greater than their height. The bottom edge of the lower slits has an arc-shaped notch.

[0015] Multiple mounting brackets are horizontally fixed to the planting wall and include multiple plant receptacles. Plants are inserted into the plant receptacles at angles ranging from 10 to 75 degrees. Multiple overflow holes are provided on the mounting brackets. The overflow holes allow water to enter the root space of the mounting brackets. The width of the overflow holes is greater than their height. The water tank is formed by the tank wall, the rear wall, the left wall, and the right wall of the planting chamber. The water tank supplies water to the guide channel and allows water to flow out from the drain. Water flows down the planting wall from the drain and out through the overflow holes into the water pool. The water pool is formed by the left wall, the right wall, the planting wall, and the front wall of the planting chamber. The water tank is divided into left, middle, and right sides by a first partition and a second partition.

[0016] The chamber space is formed by the left wall, right wall, back of the planting wall, front of the water tank wall, and bottom of the flow channel. The flow channel connects to the back of the planting wall and the front of the water tank wall, and is located below the top of the water tank wall. A return water channel connects the water pool and the water tank within the planting chamber. The return water channel allows water to flow back from the water pool to the water tank via a water pump. The water pump delivers water from the water pool through a first pipe to the filtration system located within the chamber space. The water pump then delivers the filtered water through a second pipe to the top of the water tank. A mist generator is at least partially located inside the water tank. The mist generator atomizes the water in the water tank, and the resulting mist is delivered into the planting chamber through a mist channel.

[0017] The second pool is formed by a left wall, a right wall, a tank wall, and a partition. The second pool is higher than the main pool. The partition separates the second pool from the main pool. The partition has at least one drain outlet. This drain outlet is equipped with a filter screen to filter water flowing from the second pool into the main pool. The pool support is located inside the pool and includes at least two legs and multiple second plant holders. When plants are located in the second plant holders, the pool support allows the plants to be at least partially submerged in the pool.

[0018] Multiple openings are created in the planting wall, adjacent to the root space of the mounting base and multiple plant housings. Multiple openings accommodate the base of the plant. The base of the plant extends into the space between the chambers. The multiple openings are elliptical in shape. The mist generator can be partially located on the left, right, and / or center of the water tank. Filter media can fill the left, right, and / or center of the water tank.

[0019] On the other hand, a plant growth device includes a growing chamber, a water mist channel, multiple water outlets, multiple growth pad supports, a water tank, a chamber-to-chamber space, a water return channel, and a mist generator. The growing chamber is formed by a growing wall, a left wall, a right wall, and a front wall. The water mist channel penetrates the growing wall, allowing water mist to enter the growing chamber. The width of the water mist channel is greater than its height. Multiple water outlets are provided on the growing wall, allowing water to flow through guide channels located behind the water outlets on the growing wall. The multiple water outlets include multiple upper slits and multiple lower slits. The width of the upper slits is greater than their height, and the width of the lower slits is greater than their height. Multiple growth pad supports are fixed to the growing wall. Each growth pad support supports at least one growth pad, keeping it in close contact with the growing wall.

[0020] The water tank is formed by the tank wall, rear wall, left wall, and right wall. The water tank supplies water to the drainage channel and allows water to flow out from the drain outlet. Water flows down the planting wall from the drain outlet and eventually into the pool. The pool is formed by the left wall, right wall, planting wall, and front wall of the planting chamber. The water tank is divided into left, middle, and right sides by a first and second partition.

[0021] The chamber space is formed by the left and right walls, the back of the planting wall, the front of the water tank wall, and the bottom of the flow channel. The flow channel connects to the back of the planting wall and the front of the water tank wall, and is located below the top of the water tank wall. A return water channel connects the water pool and the water tank within the planting chamber. The return water channel allows water to flow back from the pool to the water tank via a water pump. The water pump delivers water from the pool through a first pipe to the filtration system located within the chamber space. The water pump then delivers the filtered water through a second pipe to the top of the water tank. A mist generator is at least partially located inside the water tank. The mist generator atomizes the water in the water tank. The water mist is delivered to the planting chamber through a mist channel.

[0022] On the other hand, a method for forming a plant growth device includes: creating a water mist channel through a planting wall to allow water mist to enter the growing chamber. The water mist channel is located at the top of the planting wall. The growing chamber is formed by the planting wall, a right wall, a left wall, and a front wall. Then, multiple drainage outlets are created on the planting wall to allow water to flow out from guide channels located behind the drainage outlets. These drainage outlets are located below the water mist channel. Next, multiple mounting seats are fixed to the planting wall. Multiple plant accommodating portions are created on the mounting seats to form root spaces, and plants are placed in the multiple plant accommodating portions of the mounting seats. The plant roots occupy the root spaces formed by the planting wall and the mounting seats.

[0023] The method then involves creating multiple overflow holes on multiple mounting bases. These overflow holes allow water to flow down the planting wall from the drain outlet and into the root space. A portion of the water flows through the overflow holes into a pool beneath the mounting bases. The method then forms a water tank behind the planting wall using the tank wall, rear wall, left wall, and right wall. A flow channel is located between the planting wall and the water tank wall, with the water tank located behind the flow channel. The water tank supplies water to the flow channel by overflowing over the tank wall into the flow channel, thus allowing water to flow out from the drain outlet.

[0024] The method then establishes a chamber space between the growing chamber and the water tank. This chamber space comprises a left wall, a right wall, the back of the growing wall, the front of the water tank wall, and the bottom of a flow channel. The flow channel connects to at least one of the back of the growing wall and the front of the water tank wall. The method then connects the water tank and the growing chamber's pool via a return water channel. This return water channel allows water to flow back from the pool to the water tank via a water pump. Next, the method places a mist generator, at least partially, inside the water tank. The mist generator uses water from the water tank to generate a water mist, which is then transported to the growing chamber through a mist channel. The method may also fill the water tank with filter media to filter the water flowing back from the pool to the water tank via the water pump.

[0025] Other features will be apparent from the accompanying drawings and the detailed description below. Attached Figure Description

[0026] Embodiments of this disclosure are illustrated in the accompanying drawings by way of example rather than limitation, wherein the same reference numerals denote the same elements, and: Figure 1A This is a schematic diagram of a plant growth apparatus according to one embodiment, showing the functional components of the plant growth apparatus.

[0027] Figure 1B According to one embodiment Figure 1A The front view of the plant growth apparatus shown illustrates other components of the apparatus.

[0028] Figure 2 According to one embodiment Figure 1A and Figure 1B The diagram shows a cross-sectional view of the plant growth device.

[0029] Figure 3 A is based on an embodiment Figure 1A and Figure 1B The front view of a portion of the plant growth apparatus shown illustrates the flow of water down the growing wall, through the overflow hole, and across the mounting base.

[0030] Figure 3 B is based on an embodiment Figure 1A and Figure 1B The side view of the plant growth apparatus shown has the left wall removed to show the state of water flowing into the pool through the root space.

[0031] Figure 4A According to one embodiment Figure 1A and Figure 1B The side view of the plant growth device shown illustrates the flow of water from the drain outlet into the pool.

[0032] Figure 4B According to one embodiment Figure 1A and Figure 1B The side view of the plant growth apparatus shown illustrates optional openings in the planting wall.

[0033] Figure 5A According to one embodiment Figure 1A and Figure 1B The three-dimensional view of the plant growth device shown illustrates the planting wall without any openings.

[0034] Figure 5B According to one embodiment Figure 1A and Figure 1B The three-dimensional view of the plant growth device shown illustrates the planting wall with openings.

[0035] Figure 6 An embodiment is shown. Figure 1A and Figure 1B Another embodiment of the plant growth apparatus shown includes a second pool into which water is drained, and the pool includes a second plant receiving section.

[0036] Figure 7 An embodiment is shown. Figure 1A and Figure 1B Another embodiment of the plant growth device shown includes a filter and a water pump located within a pool, and water is delivered to a water tank via a second pipe located within the space between the chambers.

[0037] Figure 8 According to one embodiment Figure 7 The diagram shows a three-dimensional view of a plant growth apparatus, in which a filter and a water pump are located in a pool, and water is transported to a water tank through a second pipe located in the space between the chambers.

[0038] Figure 9 According to one embodiment Figure 7 A top view of the plant growth apparatus shown.

[0039] Figure 10 It shows Figure 1A and Figure 1B Another embodiment of the plant growth device shown includes a growth pad support and a growth pad connected to a planting wall.

[0040] Figure 11 yes Figure 10 The diagram shows a top view of a plant growth apparatus in which the growth pad support is connected to the planting wall.

[0041] Figure 12 yes Figure 10 A three-dimensional view of the plant growth apparatus shown, in which the left wall, right wall and front wall have been removed.

[0042] Figure 13 According to one embodiment Figure 10The side view of the plant growth device shown illustrates the flow of water from the drain outlet through the growth pad and into the pool.

[0043] Figure 14 According to Figures 1 to 12 of one embodiment Figure 9 A representative view of the water cycle in the plant growth apparatus shown.

[0044] Figure 15 According to Figures 1 to 12 of one embodiment Figure 9 A representative view of the water cycle in the plant growth apparatus shown.

[0045] Figure 16 According to one embodiment Figures 10 to 13 A representative view of the water cycle in the plant growth apparatus shown.

[0046] Figure 17 According to one embodiment Figures 10 to 13 A representative view of the water cycle in the plant growth apparatus shown.

[0047] Figure 18 This is a process flow diagram illustrating a method for forming a plant growth device according to one embodiment.

[0048] Other features of this embodiment will be apparent from the accompanying drawings and the following detailed description. Detailed Implementation

[0049] The following describes plant growth devices and their related usage methods, especially aquatic and terrestrial ecological tank-type plant growth devices and their related usage methods.

[0050] Figure 1A This is a schematic diagram of a plant growth device 100, illustrating the functional components of a plant growth device 100 according to one embodiment.

[0051] Figure 1A A plant growth device 100 according to one embodiment is shown. The device includes a planting chamber 102, a left wall 104, a right wall 106, a planting wall 108, a water mist channel 110, and a drain 112. A-N Mounting base 114 A-N Plant containment section 116 A-N Overflow hole 118 A-N 120, front wall 120, base 122, pool 124, top 126 of planting wall 108 and return water channel 128.

[0052] The planting chamber 102 may be the front part of the plant growth device 100, used to accommodate plants for growth, storage, maintenance, and / or cleaning. The left wall 104 may be the left side of the plant growth device 100, forming the left side of the pool 124, and may be the left-side enclosure of the chamber space 404 (not shown), the flow channel 204 (not shown), and / or the water tank 202 (not shown). The right wall 106 may be the right side of the plant growth device 100, forming the right side of the pool 124, and may be the right-side enclosure of the chamber space 404 (not shown), the flow channel 204 (not shown), and / or the water tank 202 (not shown). The planting wall 108 may be the rearmost part of the planting chamber 102, including the water mist channel 110 and the drain outlet 112. A-N Cut here, and mount 114. A-N Install it here as well.

[0053] The water mist channel 110 can be a slit on the planting wall 108 through which water mist from the mist generator 210 (not shown) enters the planting chamber 102. The drain outlet 112... A-N It can be located in mounting base 114 A-N One or more openings above and below the water mist channel 110 allow water from the guide channel 204 (not shown) to enter the planting chamber 102 and flow down the planting wall 108. Mounting base 114 A-N It can be a hardscape feature and / or structure used to fix and display plants at an angle and / or tilt within the planting room 102. Plant housing 116 A-N It can be mounting base 114 A-N The opening at the top is for receiving plants, potted plants, bagged plants, and / or basket-shaped potted plants. Overflow hole 118 A-N It can be mounting base 114 A-N And / or openings on the planting wall 108, multiple openings allowing water to flow from the drain 112 A-N It flows down the planting wall 108, enters the root space 402, and finally reaches the water pool 124.

[0054] The front wall 120 may be the front portion of the pool 124, and its height may vary. The front wall 120 may be partially removable and / or include a door or passage for maintenance. The base 122 may be the bottom of the implantation chamber 102, the pool 124, the chamber space 404 (not shown), and / or the water tank 202. The pool 124 may be the bottommost part of the implantation chamber 102 and may be composed of the base 122, the front wall 120, the left wall 104, the right wall 106, the implantation wall 108, and / or the water tank wall 206 (not shown). The top 126 of the implantation wall 108 may be the implantation wall 108 located on the mounting base 114. A-N The area above may include a water mist channel 110 and / or a drain outlet 112.A-N The return water channel 128 may be an outlet leading to a water pump (not shown in the figure) and / or a filter (not shown in the figure).

[0055] like Figure 1A As shown, the plant growth device 100 may include a water mist channel 110 and a water outlet 112. A-N Mounting base 114 A-N Overflow hole 118 A-N Water tank 202, water return channel 128, and / or mist generator 210. The mist channel 110 can be formed through the planting wall 108 to allow water mist to enter the planting chamber 102. The mist channel 110 can be located at the top 126 of the planting wall 108. Drain 112. A-N Perforations can be made in the planting wall 108 to allow water to flow through the guide channel 204 (not shown) located behind it. Drain 112 A-N It can be located below the water mist channel 110.

[0056] Mounting base 114 A-N It can be connected to the planting wall 108 and may include a plant receiving section 116. A-N Mounting bracket 114 A-N It can be horizontally connected to the planting wall 108. Plants can be placed on the mounting base 114. A-N Plant containment section 116 A-N In the middle, the base of the plant (not shown) can occupy the space formed by the planting wall 108 and the mounting base 114. A-N Root space 402 (not shown). Mounting base 114 A-N It can be oriented at an angle of 10 to 70 degrees to the planting wall 108. It can be mounted on the mounting base 114. A-N An overflow hole 118 is opened on the top. A-N Overflow hole 118 A-N Water can flow from drain 112 A-N After flowing downwards along the planting wall 108, it enters the root space 402 (not shown). Overflow hole 118 A-N This allows a portion of the water to flow into the mounting base 114. A-N The water tank below is 124. Overflow outlet 118. A-N Located at mounting base 114 A-N Above. Overflow hole 118 A-N The width is greater than its height. The water tank 202 is composed of the water tank wall 206, the rear wall 208, the left wall 104 and the right wall 106.

[0057] The pool 124 may be formed by the base 122, left wall 104, right wall 106, rear wall 208 and / or front wall 120 of the planting chamber 102. The planting chamber 102 may be formed by the planting wall 108, left wall 104, right wall 106, front wall 120 and / or base 122 of the planting chamber 102.

[0058] Figure 1B yes Figure 1A The front view of the plant growth device 100 shown illustrates other components of the plant growth device 100 according to one embodiment. Specifically, Figure 1B exist Figure 1A Based on this, a filter 130, a water pump 132, a first pipe 134, and a second pipe 136 were further added.

[0059] Filter 130 may be an external mechanical filter, biological filter, chemical filter, canister filter, and / or bottom sand filter. Pump 132 may be a centrifugal pump, external return pump, direct current pump, peristaltic pump, dry pump, and / or magnetically driven pump. First conduit 134 may be a PVC pipe, hose, ethylene pipe, flexible conduit, and / or metal pipe. Second conduit 136 may be a PVC pipe, hose, ethylene pipe, flexible conduit, and / or metal pipe.

[0060] like Figure 1B As shown, the return water channel 128 can connect the water tank 124 and the water container 202 (not shown) of the planting room 102. The return water channel 128 allows water to flow back from the water tank 124 to the water container 202 via the water pump 132. The return water channel 128 of the water tank 124 can be connected to the first pipe 134. The first pipe 134 can transport water from the water tank 124 to the filter 130 and the water pump 132. After the water is purified in the filter and the water pump 132, it flows back to the water container 202 (not shown) via the second pipe 136.

[0061] Figure 2 for Figure 1A and Figure 1B A cross-sectional view of the plant growth device 100, according to one embodiment.

[0062] Figure 2 The planting chamber 102, left wall 104, right wall 106, planting wall 108, mounting base 114, and plant container 116 are shown. A-N Overflow hole 118 A-N Front wall 120, water tank 124, return water channel 128, filter 130, water pump 132, first pipe 134, second pipe 136, water tank 202, guide channel 204, water tank wall 206, rear wall 208, mist generator 210, back of planting wall 212, back of water tank wall 214, partition 216 and front of water tank wall 218.

[0063] The water tank 202 can be a water collection area formed by the left wall 104, right wall 106, water tank wall 206, and rear wall 208. The guide channel 204 can be located between the planting chamber 102 and the water tank 202, and can be connected to the water tank wall 206 and / or the planting wall 108. The water tank wall 206 can be located between the planting wall 108 and the rear wall 208, and can partially form the water tank 202. The water tank wall 206 can extend downwards to the base 122. The rear wall 208 can be located at the rearmost end of the plant growth device 100, and can partially form the water tank 202. The rear wall 208 can extend downwards to the base 122. The fogger 210 can be an ultrasonic humidifier, an evaporative humidifier, an evaporative fogger, an atomizer, a dry fogger, a laboratory fogger, and / or a fogging machine. The back 212 of the implant wall can be the rear side of the implant wall 108 and can partially form the inter-chamber space 404 (not shown). The back 214 of the tank wall can be the rear part of the tank wall 206 and can partially form the tank 202. The partition 216 can be a protrusion placed inside the tank 202 to form an independent area within the tank 202. The partition 216 can extend downward to the base 122 or only partially downward. The front 218 of the tank wall can be the connection point of the flow channel 204 and can partially form the inter-chamber space 404 (not shown).

[0064] like Figure 2 As shown, the water tank 202 is located behind the planting wall 108 and is composed of the water tank wall 206, the rear wall 208, the left wall 104, and the right wall 106. The water tank 202 can fill the drainage channel 204 with water and allow the water to flow from the drain outlet 112. A-N It flows out and down the planting wall 108 to the mounting base 114. A-N Water reaches mounting base 114 A-N Afterwards, the water level may overflow the mounting base 114. A-N Flowing through the plant containment section 116 A-N and / or overflow hole 118 A-N Ultimately, the water can flow into pool 124.

[0065] After the water reaches the pool, the first pipe 134 can discharge the water from the pool 124 into the external filter 130, and / or the water pump 132 can transport the filtered water to the water tank 202 through the second pipe 136. The external filter 130 may include the water pump 132 of the plant growth device 100. The second pipe 136 can discharge the filtered water into the top 408 of the water tank 202.

[0066] The mist generator 210 may be at least partially located within the water tank 202. The mist generator 210 can generate water mist from the water in the water tank 202 and move the water mist through the water mist channel 110 to the planting chamber 102. The mist generator 210 is detachably connected to the rear wall 208 and / or the water tank wall 206. At least one partition 216 may be provided within the water tank 202. The partition 216 may form at least two chambers within the water tank 202. These two chambers within the water tank 202 may be filled with filter media 904 (not shown).

[0067] The drainage channel 204 can be located between the planting wall 108 and the water tank wall 206. The drainage channel 204 can be connected to the front part 218 of the water tank wall and / or the back part 212 of the planting wall.

[0068] Figure 3 It shows Figure 1A and 1B A front view of a portion of a plant growth device 100, wherein, according to one embodiment, water flows from a drain outlet 112. A-N It flows out and downwards over the planting wall 108, through the overflow hole 118 A-N and flows through mounting base 114 A-N .

[0069] Figure 3 The water mist channel 110 and the water outlet 112 are shown. A-N Mounting base 114 A-N Plant containment section 116 A-N Overflow hole 118 A-N Multiple upper slits 302 A-N Multiple lower slits 304 A-N 306 is an arc-shaped notch and 308 is a bottom edge.

[0070] Lower slit 304 A-N It can be located in mounting base 114 A-N The opening on the upper planting wall 108 is wider than its height and can be located on the mounting base 114. A-N Above and located at the upper slit 302 A-N Below. Upper slit 302 A-N It can serve as an additional drainage opening to prevent overflow from the 204 drainage channel. Lower slit 304. A-N It may include an arc-shaped notch 306 located on its bottom edge 308. The arc-shaped notch 306 may be a lower slit 304. A-N The bottom notch. The curved notch 306 helps guide water flow downwards along the planting wall 108, thus providing optimal moisture for the plant.

[0071] like Figure 3As shown, a drain outlet 112 can be opened on the upper part 126 of the planting wall 108, slightly higher than the guide channel 204. A-N Drainage outlet 112 A-N It may include the upper slit 302 A-N and lower slit 304 A-N Lower slit 304 A-N The arc-shaped notch 306 may or may not be included. The arc-shaped notch 306 helps guide the direction of water flow, directing it as it flows through the lower slit 304. A-N It flows downwards along the planting wall 108. The bottom edge 308 can be the lower slit 304. A-N The lower boundary can also be an optional arc-shaped notch 306 and multiple drain outlets 112. A-N 304 lower slit A-N The location of the connection.

[0072] like Figure 3 As shown, the lower slit 304 A-N It may include the lower slit 304 A-N The arc-shaped notch 306 on the bottom edge 308. The outermost lower slit 304. A-N There may be no curved notch 306 to properly guide water through the channel 204 and flow down over the planting wall 108.

[0073] like Figure 3 As shown, when the guide channel 204 is filled with water, the water flows through the drain outlet 112. A-N Enter the growing chamber 102. As water flows down the growing wall, it may pass over the mounting base 114. A-N Flowing through the plant containment section 116 A-N And / or flows through overflow hole 118 A-N Water may also come from mounting bracket 114. A-N The water overflows, watering the leaves and stems of the plants. Eventually, the water may flow into pool 124 and then be pumped back to tank 202.

[0074] Figure 4A for Figure 1A and Figure 1B A side view of the plant growth device 100, wherein, according to one embodiment, the left wall 104 is removed to show water flowing into the pool 124 through the root space 402.

[0075] Figure 4A The planting wall 108 and the mounting base 114 are shown. A-N 124. Water tank 202. Water channel 204. Water tank wall 206. Rear wall 208. Root space 402. Chamber space 404. Top of water tank wall 406. Top of water tank 408. Bottom of water channel 410. Plant 412 and bottom of plant 414.

[0076] Root space 402 may be located in mounting base 114 A-N The area between the planting wall 108 and the planter 116, when the planter is placed in the planter 116 A-N In this configuration, the plant's root system occupies at least a portion of the root space 402. The chamber space 404 can be the area formed by the left wall 104 (not shown), the right wall 106 (not shown), the tank wall 206, the planting wall 108, and the drainage channel 204. The top 406 of the tank wall can be the portion of the tank wall located above the drainage channel 204. The top 408 of the tank can be the upper part of the tank 202 located at or above the drainage channel 204. The bottom 410 of the drainage channel can be the bottom surface of the drainage channel 204 and can be a component of the periphery of the chamber space 404. The plant 412 can be any plant grown in an aquarium, terrestrial terrarium, hydroponic terrarium, and / or any other plant growth device. The base 414 of the plant can be the plant's roots, basal leaves or rosette leaf clusters, lower stem, underside of leaves, tubers, rhizomes, bulbs, and / or older growth parts.

[0077] like Figure 4A As shown, the water tank 202 can be located behind the flow channel 204 and the space between the chambers 404. The water tank 202 can fill the flow channel 204 with water and allow the water to flow from the drain outlet 112. A-N The water flows onto the planting wall 108. Water tank 202 can be filled through the guide channel 204 until water flows out from the drain outlet 112. A-N The overflow level is used to fill the drainage channel 204. The drainage channel 204 can be connected to the back 212 of the planting wall, located below and / or on the top 406 of the tank wall. The drainage channel 204 can be flat or curved.

[0078] like Figure 4A As shown, when water flows downwards along the planting wall 108, water can flow from the mounting base 114. A-N Overflow may also occur through overflow hole 118 A-N Or plant containment section 116 A-N Entering root space 402. Water may eventually flow from drain outlet 112. A-N The water flows towards pool 124. Upon reaching pool 124, the water may be pumped back to tank 202. The base 414 of the plant may occupy root space 402.

[0079] The inter-chamber space 404 may be located between the implantation chamber 102 and the water tank 202. The inter-chamber space 404 may be formed by the left wall 104, the right wall 106, the back of the implantation wall 212, the front part of the water tank wall 218, and / or the bottom 410 of the flow channel. The inter-chamber space 404 may accommodate an internal filter (not shown) and / or pipes.

[0080] Figure 4B yes Figure 1A and Figure 1B An exploded view of the plant growth device 100 shows the internal components of the plant growth device 100 according to one embodiment. Furthermore, according to one embodiment, Figure 4B It shows Figure 1A and Figure 1B 502 without an opening A-N Plant growth device 100.

[0081] Figure 4B The planting wall 108, water mist channel 110, and water outlet 112 are shown. A-N The components include: base 122, pool 124, water tank 202, flow channel 204, water tank wall 206, rear wall 208, chamber space 404, top of water tank wall 406, top of water tank 408, and bottom of flow channel 410.

[0082] like Figure 4B As shown, the planting wall 108 can extend downwards but does not reach the base 122, thereby connecting the chamber space 404 and the water tank 124. The chamber space 404 can be located between the planting chamber 102 and the water tank 202. The chamber space 404 can be formed by the left wall 104, the right wall 106, the back 212 of the planting wall, the front 218 of the water tank wall, and / or the bottom 410 of the drainage channel. A drain outlet 112 can be provided on the planting wall 108. A-N And it is located above the drainage channel 204. The water tank wall 206 may be shorter than the planting wall 108. When the water tank 202 is full of water, the water level can reach the height to overflow the water tank wall 206 and flow into the drainage channel 204. When the drainage channel 204 is full of water, water can begin to flow from the drain outlet 112. A-N It flows out and down along the planting wall 108. The rear wall 208 may be higher than the tank wall 206. The rear wall 208 may extend down to the base 122.

[0083] Figure 5A yes Figure 1A and Figure 1B A side view of another embodiment of the plant growth device 100 shown, illustrating an optional opening 502 formed in the planting wall 108. A-N .

[0084] Figure 5A A plant growth device 500 is shown, which includes a planting wall 108 and a mounting base 114. A-N Plant containment section 116 A-N124, 202, 204, 206, 208, 402, 404, 406, 408, 410, 412, 414, 414, and 502, including a pool 124, a water tank 202, a drainage channel 204, a wall 206, a rear wall 208, a root space 402, a chamber space 404, a top of the water tank wall 406, a top of the water tank 408, a bottom of the drainage channel 410, a plant 412, a bottom of the plant 414, and multiple openings 502. A-N Opening 502 A-N This could be an opening on the planting wall 108, allowing plant roots to enter the inter-chamber space 404. Opening 502 A-N It can provide stability to plants and promote root growth by providing additional space for root growth.

[0085] like Figure 5A As shown, the inter-chamber space 404 can be located between the implantation chamber 102 and the water tank 202. The inter-chamber space 404 can be formed by the left wall 104, the right wall 106, the back 212 of the implantation wall, the front 218 of the water tank wall, and / or the bottom 410 of the drainage channel. An opening 502 can be made in the implantation wall 108. A-N Near mounting base 114 A-N and / or plant containment section 116 A-N Root space 402. Opening 502. A-N The base (414) can accommodate plants. The opening (502) A-N It can be formed into an ellipse, circle, square, triangle, and / or polygon. Opening 502 A-N This allows the plant's roots to extend into the inter-chamber space 404. Opening 502 A-N This also allows water to flow from drain outlet 112 A-N The water flows into the root space 402, and then into the inter-chamber space 404. The inter-chamber space 404 leads to the water tank 124, allowing water to flow into the water tank 124.

[0086] Figure 5B yes Figure 5A A perspective view of a plant growth device 500, showing an opening 502 according to one embodiment. A-N Planting wall 108.

[0087] Figure 5B The planting wall 108, water mist channel 110, and water outlet 112 are shown. A-N The components include: base 122, pool 124, water tank 202, flow channel 204, water tank wall 206, rear wall 208, chamber space 404, top of water tank wall 406, top of water tank 408, bottom of flow channel 410, and opening 502. A-N .

[0088] An opening 502 can be made on the planting wall 108. A-N Near mounting base 114 A-Nand / or plant containment section 116 A-N Root space 402. Opening 502. A-N The base 414 can accommodate the plant, and allows the roots and / or other parts of the plant 412 to enter the intercompartment space 404. Opening 502 A-N It can support plants and / or flower pots, plant bags, and / or other plant containers. Opening 502 A-N The openings on the planting wall 108 can be connected to one or more plant housings 116. A-N Correspondingly. Opening 502 A-N It can lead to the inter-chamber space 404, which can lead to the pool 124. In this way, when water flows down along the planting wall 108, if the water reaches the inter-chamber space 404, the water can flow back to the water tank 202.

[0089] Figure 6 It shows Figure 1A and 1B Another embodiment of the plant growth device 100 shown includes a pool 124 comprising a plurality of second plant accommodating sections 604. A-N Among them, multiple second plant accommodating parts 604 A-N It is formed in at least one pool support 602.

[0090] Figure 6 The plant growth device 600 shown includes a planting chamber 102, a right wall 106, a planting wall 108, a water mist channel 110, and a drain outlet 112. A-N Mounting base 114 A-N Plant containment section 116 A-N Overflow hole 118 A-N 122, base 124, water tank 126, top of planting wall 108, water return channel 128, water tank support 602 A-N Second plant containment section 604 A-N 606 outriggers A-N The second water tank 608, the partition 610, the drain outlet 612 and the filter screen 614.

[0091] 602 pool support A-N It can be a device that allows plants to be partially or completely submerged in the water tank 124. Second plant receiving section 604 A-N It can be a pool support 602 A-N The opening on the top is used to support and secure the plants placed in the pool 124. Support leg 606 A-N It can be a pool support 602 placed in the pool 124. A-N The structure is adjustable. The second pool 608 can be higher than the pool 124 and can collect water from the planting wall 108 and overflow hole 118.A-N and / or mounting bracket 114 A-N The collection point for the outflowing water. Pool 124 may be composed of a left wall 104, a right wall 106, a partition 610, and a tank wall (not shown). The partition 610 may be a wall separating the second pool 608 and pool 124, and may partially constitute the second pool 608. The drain outlet 612 may be an opening in the partition 610, allowing water to flow from the second pool 608 to pool 124. The filter screen 614 may be a sedimentation filter, screen filter, filter mesh, basket filter, cartridge filter, sand filter, irrigation filter, microporous screen filter, drum filter, screen channel filter, and / or screen tube filter. The filter screen 614 may be installed within the drain outlet 612.

[0092] like Figure 6 As shown, the plant growth device 600 may include a second water tank 608 formed by a left wall 104, a right wall 106, a tank wall 206, and a partition 610. The second water tank 608 may be higher than the water tank 124. The partition 610 may separate the second water tank 608 from the water tank 124. The partition 610 may include at least one drain outlet 612. The drain outlet 612 may include a filter screen 614 to filter water flowing from the second water tank 608 into the water tank 124. The filter screen 614 may be configured to collect particles of different sizes as water flows from the second water tank 608 to the water tank 124.

[0093] The plant growth device 600 may include at least one pool support 602. Pool support 602 A-N It can include outriggers 606 A-N Second plant housing 604 A-N When the plant is placed in the second plant container 604, the pool support 602... A-N This allows the plants to be at least partially submerged in the pool 124. Pool support 602 A-N and / or support leg 606 A-N It is adjustable and can be raised or lowered. The pool support 602 can be modularly designed and can be detached from the pool 124 of the planting chamber 102.

[0094] The second water tank 608 may be located above the water tank 124, and may be located between the planting wall 108 and the mounting base 114. A-N Below. As water flows down the planting wall 108, it passes through the mounting base 114. A-N , opening 502 A-N (not shown), inter-chamber space 404 (not shown) and / or overflow port 118 A-NWater can flow into and collect in the second water tank 608. Water in the second water tank 608 can be discharged into the water tank 124 through the drain outlet 612. A filter screen 614 can be installed in the drain outlet 612 to filter the water flowing from the second water tank 608 into the water tank 124. The filter screen 614 helps to isolate impurity particles in the second water tank 608. The device 600 may include a water mist channel 110. The water mist channel 110 may be cut into the planting wall 108 and can directionally guide the water mist flow towards a specific direction and / or area of ​​the planting chamber 102.

[0095] Figure 7 It shows Figure 1A and 1B Another embodiment of the plant growth device 100 shown includes an internal filter 708 and an internal water pump 706 located within a pool 124, and according to one embodiment, they can deliver water to a water tank 202 via a second pipe 704 located within a chamber space 404.

[0096] Figure 7 The plant growth device 700 shown includes a planting chamber 102, a right wall 106, a planting wall 108, a water mist channel 110, and a drain outlet 112. A-N Mounting base 114 A-N Plant containment section 116 A-N Overflow hole 118 A-N The components include: base 122, water tank 124, top 126 of planting wall 108, return water channel 128, first pipe 702, second pipe 704, internal water pump 706, internal filter 708, and water mist channel 710. A-N .

[0097] The first conduit 702 can be a PVC pipe, hose, ethylene pipe, flexible tube, and / or metal pipe. The second conduit 704 can be a PVC pipe, hose, ethylene pipe, flexible tube, and / or metal pipe. The internal water pump 706 can be a centrifugal water pump, an external return water pump, a direct-flow water pump, a peristaltic water pump, a dry-type water pump, and / or a magnetically driven water pump. The internal filter 708 can be an internal mechanical filter, a biological filter, a chemical filter, a canister filter, and / or a bottom sand filter. Water mist channel 710. A-N It can pass through the planting wall 108 so that water mist can enter the planting chamber 102.

[0098] like Figure 7 As shown, the internal filter 708 within the chamber space 404 may include an internal water pump 706. The internal water pump 706 can deliver water from the pool 124 to the internal filter 708 via a first pipe 702, and can further deliver the filtered water to the top 408 of the water tank via a second pipe 704.

[0099] Figure 8 yes Figure 7 A perspective view of a plant growth device 700, wherein, according to one embodiment, an internal filter 708 and an internal water pump 706 are located within a water tank 124, and water is transported to a water tank 202 via a second pipe 704 located within a chamber space 404.

[0100] Figure 8 The diagram shows a base 122, a pool 124, a water tank 202, a flow channel 204, a water tank wall 206, a rear wall 208, a mist generator 210, a partition 216, a front portion 218 of the water tank wall, a chamber space 404, a top portion 406 of the water tank wall, a top portion 408 of the water tank, a bottom portion 410 of the flow channel, a first pipe 702, a second pipe 704, an internal water pump 706, and an internal filter 708.

[0101] like Figure 8 As shown, the mist generator 210 may be at least partially located within the water tank 202. The mist generator 210 atomizes the water in the water tank 202, and the water mist is delivered to the growing chamber 102 through the water mist channel 110. The chamber space 404 may be located between the growing chamber 102 and the water tank 202. The chamber space 404 may be formed by the left wall 104, the right wall 106, the back 212 of the growing wall, the front 218 of the water tank wall, and / or the bottom 410 of the guide channel.

[0102] The flow channel 204 can be connected to the back 212 of the planting wall, located below and / or on the top 406 of the tank wall. When water is injected into the tank 202, water can overflow from the top 406 of the tank wall into the flow channel 204. At least one baffle 216 can be provided inside the tank 202. The baffle 216 can form at least two chambers inside the tank 202. These two chambers inside the tank 202 can be filled with filter media 904 (not shown).

[0103] Figure 9 for Figure 7 A top view of a plant growth device 700, according to one embodiment. Figure 9 The planting chamber 102, left wall 104, right wall 106, planting wall 108, mounting base 114, and plant container 116 are shown. A-N Overflow hole 118 A-NThe system comprises: a front wall 120, a water tank 124, a water tank 202, a flow channel 204, a water tank wall 206, a rear wall 208, a mist generator 210, a planting wall back 212, a water tank wall back 214, a partition 216, a water tank wall front 218, a second pipe 704, a second partition 902, a filter medium 904, a left side 906, a middle section 908, and a right side 910. The second partition 902 may be a protrusion placed inside the water tank 202 to form an independent area within the water tank 202. The second partition 902 may extend downwards to the base 122, or only partially downwards. The filter medium 904 may be a mechanical filter medium, a biological filter medium, a chemical filter medium, a phosphorus removal medium, an ammonia removal medium, activated carbon, and / or plants. The left side 906 may be a completely or partially enclosed section formed by inserting the partition 216 and / or the second partition 902 into the water tank 202. The middle section 908 may be a completely or partially enclosed section formed by inserting the partition 216 and / or the second partition 902 into the water tank 202. The right side 910 may be a completely or partially enclosed section formed by inserting the partition 216 and / or the second partition 902 into the water tank 202.

[0104] like Figure 9 As shown, the mist generator 210 is at least partially located within the water tank 202. The mist generator 210 atomizes the water in the water tank 202, and the water mist enters the planting chamber 102 via the water mist channel 110. A partition 216 may be located within the water tank 202. The partition 216 may form at least two chambers within the water tank 202. The chambers within the water tank 202 may be filled with filter media 904. The water tank 202 of the device 100 may be divided into a left side 906, a middle section 908, and a right side 910 by the partition 216 and / or the second partition 902.

[0105] Filter media 904 can be filled in the left side 906, right side 910, and / or the middle 908 of water tank 202. Filter media 904 can assist the internal filter (not shown) in purifying water. Second pipe 704 can drain into the left side 906, middle 908, and / or right side 910 of water tank 202. Second pipe 704 can also drain directly into filter media 904. Fog generator 210 can be partially located on the left side, right side, and / or the middle of water tank 202. Water tank 202 can fill the guide channel 204 with water and allow water to flow from the drain outlet 112. A-N Water is flowing out. Water can flow from drain 112. A-N The water flows down the planting wall 108 and through the overflow hole 118. A-N The water flows into pool 124. According to one embodiment, pool 124 may be formed by a left wall 104, a right wall 106, a planting wall 108 and / or a front wall 120.

[0106] Figure 10 It shows Figure 1A and Figure 1BAnother embodiment of the plant growth device 100 includes a plurality of growth pad supports 1002 A-N and multiple growth pads 1004 A-N Connect to the planting wall 108.

[0107] Figure 10 The following structures are shown: planting chamber 102, left wall 104, right wall 106, planting wall 108, water mist channel 110, and drain outlet 112. A-N Front wall 120, base 122, water tank 124, growth pad support 1002 A-N and growth pad 1004 A-N .

[0108] Growth pad support 1002 A-N It can be a frame formed by multiple support structures built on the planting wall 108 of the plant growth device 1000. Growth mat support 1002 A-N It can provide support, allowing the growth pad 1004 to function properly. A-N Fixed inside the plant growth device 1000. Growth pad 1004 A-N It can be made of sturdy foam material to help retain moisture and promote plant growth. Growth Mat 1004 A-N It can serve as a substrate for attaching aquatic and / or terrestrial plants. Growth Mat 1004 A-N The texture helps retain adequate moisture to support plant growth while maintaining breathability to ensure necessary air circulation and healthy root growth. According to one embodiment, the growth mat 1004... A-N It can be spunbond polypropylene, needle-punched polyester, felt, jute, burlap, polyethylene mesh, nylon mesh, polyester mesh, geotextile and / or smart textiles.

[0109] like Figure 10 As shown, the plant growth device 1000 may include a planting chamber 102. The planting chamber 102 may be composed of a planting wall 108, a left wall 104, a right wall 106, and a front wall 120. A water mist channel 110 may pass through the planting wall 108. The water mist channel 110 allows water mist to enter the planting chamber 102 through a mist generator 210 (not shown). The width of the water mist channel 110 may be greater than its height.

[0110] Drainage outlet 112 A-N It can be perforated in the planting wall 108. Drain 112 A-N Water can flow through the guide channel 204 (not shown). The guide channel 204 can be located at the drain outlet 112 of the planting wall 108. A-N Behind it. Drainage outlet 112 A-N It may include the upper slit 302 A-N and lower slit 304 A-N Upper slit 302A-N The width can be greater than its height, and the lower slit is 304. A-N The width can also be greater than its height.

[0111] From the sinkhole 112 A-N Water flows down the planting wall 108 to the growth pad 1004 A-N Plants and / or plant roots can be embedded in the growth mat 1004. A-N Water flows through the growth mat 1004. A-N At this time, it can come into contact with the plant and / or plant roots, thereby promoting plant growth and health. Water flows through the growing mat 1004 A-N Then, it can be collected in pool 124. Growth pad support 1002 A-N It can be fixed to the planting wall 108. Multiple growth pad supports 1002 A-N Each of them can support at least one growth pad 1004 attached to the planting wall 108.

[0112] Figure 11 It shows Figure 10 The top view of the plant growth device 1000 shown, wherein the growth pad support 1002 A-N It is fixed to the planting wall 108. Specifically, Figure 11 Further demonstration of fixing in Figure 10 The growth pad support 1002 on the planting wall 108 of the plant growth device 1000 shown A-N and growth pad 1004 A-N . Figure 11 The top view of the plant growth device 1000 shown illustrates the growth pad support 1002 fixed to the planting wall 108 when viewed from above. A-N The arrangement method. According to one embodiment, the growth pad support 1002 A-N They can be alternately arranged in horizontal and vertical positions to accommodate the growth pad 1004. A-N It is fixed to the planting wall 108.

[0113] Figure 12 yes Figure 10 A perspective view of the plant growth device 1000, in which the left wall 104, right wall 106 and front wall 120 have been removed.

[0114] Figure 12 The planting wall 108, water mist channel 110, and water outlet 112 are shown. A-N The components include: base 122, water pool 124, water tank 202, flow channel 204, water tank wall 206, rear wall 208, chamber space 404, top of water tank wall 406, top of water tank 408, bottom of flow channel 410, and growth pad support 1002. A-N .

[0115] like Figure 12 As shown, growth pad support 1002 A-N The alternating arrangement can be horizontal or vertical. Horizontally arranged growth pad support 1002 A-N It can support growth pad 1004 A-N The vertically arranged growth pad support 1002 A-N It can make growth pad support 1002 A-N Forming a uniform and / or stable structure. According to one embodiment, this horizontally and vertically arranged growth pad scaffold 1002... A-N This allows water to flow effectively down the planting wall 108 and through the growth pad 1004. A-N (Not shown).

[0116] Figure 13 yes Figure 10 The side view of the plant growth device 1000 shown illustrates, according to one embodiment, water flowing from the drain outlet 112. A-N Flow through growth pad 1004 A-N And the process of flowing into pool 124. Figure 13 The diagram shows a planting wall 108, a water tank 124, a water tank 202, a drainage channel 204, a water tank wall 206, a rear wall 208, a chamber space 404, the top of the water tank wall 406, the top of the water tank 408, the bottom of the drainage channel 410, plants 412, and a growth pad support 1002. A-N and growth pad 1004 A-N .

[0117] like Figure 13 As shown, growth pad 1004 A-N It can be made of growth pad support 1002 A-N Support. Growth pad 1004 A-N It can attach to the planting wall 108. Growth pad 1004 A-N It can be placed on the growth pad support 1002 A-N Inside, make it fit snugly against the planting wall 108. Growth pad 1004 A-N A base 414 that can accommodate a plant (not shown) and allow the roots of the plant 412 to grow within it. Growth mat 1004 A-N By ensuring proper air circulation within the growth mat 1004, a foundation for healthy plant root growth is provided. Growth Mat 1004 A-N It has water-retaining properties and can promote plant growth. Growth mat 1004 A-N It has a fibrous structure, which helps retain adequate moisture to support the healthy growth of the roots of the attached plants. According to one embodiment, water flows from the drain 112 of the planting wall 108. A-N 1004 unused growth pads A-NExcess water can be collected and fall into pool 124.

[0118] Figure 14 This is a representative view of the water cycle in a plant growth apparatus (Figures 1-9) according to one embodiment. Figure 14 In step "1", as shown in the various embodiments of Figures 1-9, the water tank 202 can fill the guide channel 204 with water and allow the water to flow from the drain outlet 112. A-N Outflow. In step "2", drain outlet 112 A-N Water can flow from the guide channel 204 down the planting wall 108 to the mounting base 114. A-N In step “3”, as described in the various embodiments of Figures 1-9, the overflow orifice 118 A-N Water can flow from drain 112 A-N After flowing downwards along the planting wall 108, it enters the root space 402.

[0119] Figure 15 This is a representative view of the water cycle in a plant growth apparatus 100 (Figures 1-9) according to one embodiment. For example... Figure 15 As shown, step "1" indicates that overflow orifice 118 A-N A portion of the water is allowed to flow into the pool 124. In step “2”, the return water channel 128 connects the pool 124 and the water tank 202, and allows water to flow back from the pool 124 to the water tank 202 via the water pump 132. In step “3”, the mist generator 210 uses the water in the water tank 202 to generate water mist and delivers the water mist to the planting chamber 102, as described in the various embodiments of Figures 1-9.

[0120] Figure 16 It is a plant growth device according to one embodiment ( Figure 10-13 A representative view of the water cycle. Figure 16 In step "1", the water tank 202 can fill the guide channel 204 with water and allow the water to flow from the drain outlet 112. A-N Outflow. In step "2", drain outlet 112 A-N Water can flow from the guide channel 204 down the planting wall 108 to the growth pad 1004. A-N In step “3”, growth pad 1004 A-N It can be formed so that water can flow from the drain outlet 112 A-N As it flows downwards, it reaches the plant roots, such as... Figure 10-13 As described in various embodiments.

[0121] Figure 17 It is a plant growth device according to one embodiment ( Figure 10-13 A representative view of the water cycle. Figure 17 In step "1", growth pad 1004 A-NThis allows a portion of the water to flow into the water tank 124. In step "2", the return water channel 128 connects the water tank 124 and the water container 202, and allows water to flow back from the water tank 124 to the water container 202 via the water pump 132. In step "3", the mist generator 210 uses the water in the water container 202 to generate water mist, and delivers the water mist to the planting chamber 102 through the water mist channel 110, such as... Figure 10-13 As described in various embodiments.

[0122] Figure 18 A flowchart illustrating a method for forming a plant growth apparatus according to one embodiment is shown. In step 1802, a water mist channel can be formed through the planting wall to allow water mist to enter the planting chamber. In step 1804, multiple drainage outlets can be formed by perforating the planting wall to allow water to flow through a guide channel located behind the drainage outlets on the planting wall. In step 1806, multiple mounting seats can be installed on the planting wall. In step 1808, multiple overflow holes can be formed on the multiple mounting seats. In step 1810, a water tank can be formed behind the planting wall by a water tank wall, a rear wall, a left wall, and a right wall. In step 1812, a chamber space can be provided between the planting chamber and the water tank. In step 1814, the water pool in the planting chamber can be connected to the water tank through a return water channel. In step 1816, the mist generator can be placed at least partially inside the water tank.

[0123] The embodiments shown in Figures 1-18 address the problems of existing plant growing devices. These embodiments reduce the footprint of the plant growing device while improving plant growing conditions. They produce healthier, more robust plants while reducing the need for cleaning the interior of the device. The embodiments shown in Figures 1-18 allow for the planting and cultivation of various plant types without requiring extensive equipment and water. Furthermore, these embodiments provide a more convenient method of plant cultivation for hobbyists and business owners.

[0124] Although this embodiment has been described with reference to specific embodiments, it is obvious that various modifications and changes can be made to these embodiments without departing from the broader spirit and scope of the various embodiments.

[0125] Several embodiments have been described herein. However, it should be understood that various modifications can be made without departing from the spirit and scope of this disclosure. Furthermore, the logical flow shown in the figures does not require a specific order (i.e., sequential execution) to achieve the desired result. Additionally, other steps can be added to the described flow, certain steps can be omitted, and other components can be added to or removed from the described system. Therefore, other embodiments are all within the scope of the following claims.

[0126] It should be understood that the various systems, methods, and apparatuses disclosed herein may be embodied in machine-readable media and / or machine-readable and machine-accessible media compatible with data processing systems (e.g., computer systems), and / or may be performed in any order.

[0127] The structures and modules shown in the figures may be depicted as independent of each other and connected only to a few specific structures, without being connected to other structures. These structures may be combined with each other, may perform overlapping functions, or may be connected to other structures not shown in the figures. Therefore, the specification and / or figures should be considered exemplary rather than limiting.

Claims

1. A plant growth device, comprising: Water mist channels, formed by penetrating the planting wall, allow water mist to enter the planting chamber. The water mist channel is located at the top of the planting wall, and The planting chamber is formed by the planting wall, the right wall, the left wall and the front wall; Multiple drainage outlets are perforated in the planting wall to allow water to flow through a guide channel located behind the drainage outlets on the planting wall. The water outlet is located below the water mist channel; Multiple mounting brackets are connected to the planting wall. The plurality of mounting bases include a plurality of plant receiving portions. The plants are placed in the plurality of plant housings of the plurality of mounting bases, and The plant's root system occupies the root space formed by the planting wall and the plurality of mounting bases; Multiple overflow holes are provided on the multiple mounting bases. The multiple overflow holes allow water to flow down the planting wall from the drain outlet and then into the root space. The plurality of overflow holes allow a portion of the water to flow into a water tank beneath the plurality of mounting bases, and The water tank is formed by the base of the planting room, the left wall, the right wall, the rear wall and the front wall; A water tank, located behind the planting wall, is formed by a water tank wall, a rear wall, a left wall, and a right wall. The flow channel is located between the planting wall and the water tank wall. The water tank is located behind the flow channel, and The water tank supplies water to the guide channel by overflowing water over the tank wall into the guide channel, thereby causing water to flow out from the drain outlet; The inter-chamber space is located between the planting chamber and the water tank. The chamber space is formed by the left wall, the right wall, the back of the implantation wall, the front of the water tank wall, and the bottom of the guide channel. The flow channel is connected to at least one of the back of the planting wall and the front of the water tank wall; A return water channel connects the water pool and the water tank in the planting room. The return water channel can use a water pump to return water from the pool to the tank. The fogging device is at least partially located inside the water tank. The fogger utilizes water from the water tank to generate water mist, and The water mist is delivered to the planting room through the water mist channel.

2. The plant growth device as described in claim 1, wherein, The flow channel is connected to the back of the planting wall below the top of the water tank wall.

3. The plant growth device as described in claim 1, wherein, The flow channel is connected to the back of the planting wall at the top of the water tank wall.

4. The plant growth device as described in claim 1, further comprising: At least one partition inside the water tank The at least one partition forms at least two chambers within the water tank.

5. The plant growth device as described in claim 4, wherein, At least one of the at least two chambers in the water tank is filled with filter media.

6. The plant growth device as described in claim 1, wherein, The plurality of mounting bases are oriented at an angle of 10 to 70 degrees relative to the planting wall.

7. The plant growth device as described in claim 1, further comprising: Multiple openings are formed in the planting wall, and the multiple openings are adjacent to the root space of the mounting base and the multiple plant receiving portions. The plurality of openings accommodate the bottom of the plant.

8. The plant growth device as described in claim 7, wherein, The multiple openings are elliptical in shape.

9. The plant growth device as described in claim 1, wherein, The plurality of drain outlets include an upper slit and a lower slit. The upper slit is an opening on the implant wall located above the mounting base, and the width of the upper slit is greater than its height. The lower slit is an opening located on the implant wall, the width of the lower slit is greater than its height, and it is located above the plurality of mounting bases and below the upper slit.

10. The plant growth device as described in claim 9, wherein, At least one of the lower slits includes an arcuate notch located at the bottom edge of the lower slit.

11. The plant growth device as described in claim 1, further comprising: An internal filter located within the chamber space and including the water pump, The water pump delivers water from the water tank to the filter via a first pipe, and The water pump delivers the filtered water to the top of the water tank through a second pipe.

12. The plant growth device as described in claim 1, further comprising: The second water pool is formed by the left wall, the right wall, the water tank wall, and the partition. The second water tank is located at a position higher than the first water tank. The partition separates the second water tank from the first water tank, and The partition includes at least one drain outlet, which includes a filter screen to filter water discharged from the second pool into the pool.

13. The plant growth apparatus of claim 12, further comprising: At least one pool support, The pool support includes at least one leg and multiple second plant housings. When the plant is located in the second plant housing, the pool support allows the plant to be at least partially submerged in the pool.

14. A plant growth device, comprising: A planting chamber, which is formed by a planting wall, a left wall, a right wall and a front wall; A water mist channel is formed by penetrating the planting wall to allow water mist to enter the planting chamber. Wherein, the width of the water mist channel is greater than its height; Multiple drainage outlets are perforated in the planting wall to allow water to flow through a guide channel located behind the drainage outlets on the planting wall. The plurality of drain outlets include a plurality of upper slits and a plurality of lower slits. Wherein, the width of the plurality of upper slits is greater than the height, and the width of the plurality of lower slits is greater than the height; Multiple growth pad supports are connected to the planting wall. Each of the plurality of growth pad supports at least one growth pad in a manner that abuts against the planting wall; The water tank is formed by the tank wall, the rear wall, the left wall, and the right wall. The water tank supplies water to the guide channel and allows the water to flow out from the drain outlet. Water flows downwards from the drain outlet along the planting wall. Water flows down the planting wall into the pool. The water tank is formed by the left wall, the right wall, the planting wall, and the front wall of the planting chamber. The water tank is divided into a left side, a middle section, and a right side by a first partition and a second partition; The chamber space is formed by the left wall, the right wall, the back of the implantation wall, the front of the water tank wall, and the bottom of the flow channel. The flow channel is connected to the back of the planting wall and the front of the water tank wall. The flow guide channel is located below the top of the water tank wall; A return water channel connects the water pool and the water tank in the planting room. The return water channel can use a water pump to return water from the pool to the water tank. The water pump delivers water from the water tank to the filtration system located in the inter-chamber space via a first pipe. The water pump delivers purified water from the filtration system to the top of the water tank via a second pipe. The fogging device is at least partially located inside the water tank. The fogger utilizes water from the water tank to generate water mist, and The water mist is delivered to the planting room through the water mist channel.

15. A method for forming a plant growth device, comprising: A water mist channel is formed by penetrating the planting wall, allowing water mist to enter the planting room. The water mist channel is located at the top of the planting wall, and The planting chamber is formed by the planting wall, the right wall, the left wall and the front wall; Multiple drainage outlets are formed by perforating the planting wall, allowing water to flow out from a guide channel located behind the drainage outlets on the planting wall. The water outlet is located below the water mist channel; Secure multiple mounting brackets to the planting wall. The plurality of mounting bases are provided with multiple plant accommodating sections to form root space. The plants are placed in the plurality of plant housings of the mounting base. The root system of the plant occupies the root space formed by the planting wall and the mounting base; Multiple overflow holes are provided on the multiple mounting bases. The plurality of overflow holes allow water to flow down the planting wall from the drain outlet and into the root space, and The plurality of overflow holes allow a portion of the water to flow into a pool below the plurality of mounting bases; A water tank is formed behind the planting wall using the water tank wall, rear wall, left wall, and right wall. The flow channel is located between the planting wall and the water tank wall. The water tank is located behind the flow channel, and The water tank supplies water to the guide channel by overflowing water over the tank wall into the guide channel, thereby causing water to flow out from the drain outlet; A chamber space is provided between the planting room and the water tank. The chamber space is formed by the left wall, the right wall, the back of the implantation wall, the front of the water tank wall, and the bottom of the guide channel. The flow channel is connected to at least one of the back of the planting wall and the front of the water tank wall; The water pool and the water tank in the planting room are connected by a return water channel. The return water channel can use a water pump to return water from the pool to the tank. The fogger is placed at least partially inside the water tank. The fogger utilizes water from the water tank to generate water mist, and The water mist is delivered to the planting room through the water mist channel.