CN114342696A - Planting system - Google Patents

Abstract

The invention discloses a planting system, comprising: the water dripping device comprises a water dripping assembly, the water dripping assembly comprises a first water storage part, and the first water storage part is provided with a first water storage cavity and a water dripping opening communicated with the first water storage cavity; the planting device is arranged below the water dripping opening and comprises a water collecting part, a planting part and a penetrating part, the planting part is provided with a planting area and an installation area, the water collecting part is arranged in the installation area and is used for collecting irrigation water dripping from the water dripping opening, and the penetrating part is used for introducing the irrigation water in the water collecting part into the planting area; and the water supply device is connected with the water dripping device and is used for providing an irrigation water source for the first water storage cavity. The planting system can solve the problem that indoor hanging planting products exist during planting.

Description

Planting system

Technical Field

The invention relates to the field of irrigation planting, in particular to a planting system.

Background

In the field of irrigation planting, indoor suspended planting products are popular among the public as landscape plants. Traditional indoor hanging plants the product and can't guarantee the accurate of plant irrigation water yield when planting and control, leads to unnecessary irrigation water to drop, not only produces the destruction to the indoor environment, causes the ulceration of roots of plants moreover easily, consequently hangs and plants the product or hangs the planting scheme and be difficult to at indoor wide application.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the planting system provided by the invention can solve the problem of indoor suspension of planting products during planting.

A planting system according to some embodiments of the invention, comprising: the water dripping device comprises a water dripping assembly, the water dripping assembly comprises a first water storage part, and the first water storage part is provided with a first water storage cavity and a water dripping opening communicated with the first water storage cavity; the planting device is arranged below the water dripping opening and comprises a water collecting part, a planting part and a penetrating part, the planting part is provided with a planting area and an installation area, the water collecting part is arranged in the installation area and is used for collecting irrigation water dripping from the water dripping opening, and the penetrating part is used for introducing the irrigation water in the water collecting part into the planting area; and the water supply device is connected with the water dripping device and is used for providing an irrigation water source for the first water storage cavity.

The planting system provided by the embodiment of the invention at least has the following technical effects:

in foretell planting system, water supply installation has played to first water storage cavity provides irrigation water source's effect, because the subassembly that drips among the water supply installation includes first retaining member, and first retaining member sets up the mouth that drips with first water storage cavity intercommunication, consequently enters into irrigation water in the first water storage cavity of first retaining member from water supply installation and can flow out through the mouth that drips. And the planting device is positioned below the water dripping opening, and the water collecting part is used for collecting the irrigation water in the water dripping part, so the irrigation water in the water dripping opening can flow into the water collecting part. And the infiltration piece is used for introducing the irrigation water in the water collection piece into the planting area, so that the irrigation water in the water collection piece can enter the planting area through the infiltration piece, and the aim of supplementing the irrigation water for plants in the planting area is fulfilled.

In addition, in the process, the planting member is provided with the mounting area and the planting area, and the water collecting member is arranged in the mounting area, so when the irrigation water drops into the water collecting member from the water dropping opening, the water dropping into the planting device from the water dropping opening can be prevented from directly watering the surface of the plant through the collecting action of the water collecting member. And the penetrating part can slowly introduce the irrigation water in the water collecting part to the roots of the plants, so that the phenomenon that the residual water drops due to the fact that the irrigation water directly dripped into the plants from the water dripping openings is excessive is avoided, and the phenomenon that the roots of the plants are festered due to the fact that the irrigation water is excessive is further avoided. Because the infiltration piece can continuously keep moist state at the in-process that slowly introduces the plant root with the irrigation water in the piece that catchments, consequently can make the regional soil of planting continuously keep moist state, for the plant provides good growing environment, avoided because the irrigation water that drops into in the plant from the drip department is less often leads to appearing the root of plant not absorb the phenomenon of abundant moisture to can realize carrying out more accurate the accuse to the irrigation water yield of plant.

According to some embodiments of the invention, the water collecting member is provided with an opening and a water collecting cavity communicated with the opening, the opening faces the water dripping opening, the water collecting cavity is located below the water dripping opening, a water outlet seam is formed in the bottom of the water collecting member, the penetrating member is laid in the planting area, and one side of the penetrating member penetrates through the water outlet seam.

According to some embodiments of the invention, the material of the permeable member is a material having capillary action.

According to some embodiments of the invention, the water collecting member is provided with an opening and a water collecting cavity communicated with the opening, the opening faces the water dripping opening, the water collecting cavity is positioned below the water dripping opening, the planting device further comprises a humming component, the humming component is arranged in the water collecting cavity, and the humming component is positioned below the water dripping opening.

According to some embodiments of the invention, the howling assembly comprises a howling member, an elastic member, and a base, a bottom of the base is connected with a bottom wall of the water collecting chamber, a top of the base is connected with one end of the elastic member, the howling member is connected with the other end of the elastic member, and the howling member is located below the water dripping opening.

According to some embodiments of the invention, the howling member is a spring and the elastic member is a spring.

According to some embodiments of the present invention, the water dropping opening is opened at a bottom of the first water storage member, and the water dropping opening is replaceably mounted with a water dropping member.

According to some embodiments of the invention, the water supply device comprises a second water storage member, a water delivery pump and a water delivery pipeline, the second water storage member is provided with a second water storage cavity, the water delivery pipeline is provided with a water inlet end and a water outlet end, the water inlet end extends into the second water storage cavity, the water outlet end extends into the first water storage cavity, and the water delivery pump is used for pumping water in the second water storage cavity into the first water storage cavity through the water delivery pipeline.

According to some embodiments of the invention, the water dripping assembly further comprises a water level regulating valve, the water level regulating valve is arranged in the first water storage cavity, and the water level regulating valve is used for controlling the on-off of the water conveying pipeline according to the water level height in the first water storage cavity.

According to some embodiments of the present invention, the water dripping device further includes a light supplement assembly, the light supplement assembly includes a light supplement piece and an element accommodating piece, the light supplement piece and the element accommodating piece are both disposed on the bottom of the first water storage piece, the light supplement piece faces the planting area, and a circuit unit of the light supplement piece is disposed in the element accommodating piece.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic structural view of a planting system according to an embodiment of the present disclosure;

FIG. 2 is a schematic structural diagram of a water dripping device according to an embodiment of the present invention;

FIG. 3 is a schematic structural view of a planting device according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a water supply apparatus according to an embodiment of the present invention.

Reference numerals:

100. a water dripping device; 110. a drip assembly; 111. a first water storage member; 1111. a first water storage chamber; 1112. a water dripping port; 112. a dripping piece; 113. a water level regulating valve; 120. a light supplement component; 121. a light compensating piece; 122. an element accommodating member;

200. a planting device; 210. a water collection member; 211. a water collection cavity; 2111. opening the mouth; 212. water outlet seams; 220. a planting member; 221. a planting area; 222. an installation area; 230. a permeable member; 240. a whistling component; 241. a whistling piece; 242. an elastic member; 243. a base;

300. a water supply device; 310. a second water storage member; 311. a second water storage chamber; 320. a water delivery pump; 330. a water delivery pipeline; 331. a water inlet end; 332. and (5) a water outlet end.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1, an embodiment relates to a planting system, including: a dripping device 100, a planting device 200 and a water supply device 300.

Specifically, the water dropping device 100 includes a water dropping assembly 110, the water dropping assembly 110 includes a first water storage member 111, the first water storage member 111 is provided with a first water storage cavity 1111 and a water dropping opening 1112 communicated with the first water storage cavity 1111; the planting device 200 is arranged below the water dripping opening 1112, the planting device 200 comprises a water collecting part 210, a planting part 220 and a penetrating part 230, the planting part 220 is provided with a planting area 221 and a mounting area 222, the water collecting part 210 is arranged in the mounting area 222, the water collecting part 210 is used for collecting irrigation water dripping from the water dripping opening 1112, and the penetrating part 230 is used for introducing the irrigation water in the water collecting part 210 into the planting area 221; the water supply device 300 is connected to the water dropping device 100, and the water supply device 300 is used to supply irrigation water to the first water storage chamber 1111.

In the above-mentioned planting system, the water supply device 300 functions to provide the irrigation water source to the first water storage cavity 1111, and since the water dropping assembly 110 of the water dropping device 100 comprises the first water storage member 111, and the first water storage member 111 is provided with the water dropping opening 1112 communicating with the first water storage cavity 1111, the irrigation water entering the first water storage cavity 1111 of the water dropping member 112 from the water supply device 300 can flow out through the water dropping opening 1112. Also, since the planting device 200 is located below the water dropping opening 1112 and the water collection member 210 is used for collecting the irrigation water in the water dropping member 112, the irrigation water in the water dropping opening 1112 can flow into the water collection member 210. Since the penetration member 230 is used for introducing the irrigation water in the water collection member 210 into the planting region 221, the irrigation water in the water collection member 210 can enter the planting region 221 through the penetration member 230, so that the purpose of supplementing the irrigation water to the plants in the planting region 221 is achieved.

In addition, in the process, since the planting members 220 are provided with the mounting regions 222 and the planting regions 221, and the water collecting member 210 is arranged in the mounting regions 222, when irrigation water drops into the water collecting member 210 from the water dropping openings 1112, the water dropping into the planting device 200 from the water dropping openings 1112 can be prevented from directly watering the surface of the plant by the collecting action of the water collecting member 210. And the infiltration part 230 can slowly introduce the irrigation water in the water collection part 210 to the roots of the plants, so that the phenomenon that the residual water drops due to the excessive irrigation water directly dripped into the plants from the water dripping openings 1112 is avoided, and the phenomenon that the roots of the plants are festered due to the excessive irrigation water is further avoided. And because the infiltration part 230 can continuously keep the moist state in the process of slowly introducing the irrigation water in the water collection part 210 into the roots of the plants, the soil of the planting area 221 can continuously keep the moist state, a good growing environment is provided for the plants, the phenomenon that the roots of the plants do not absorb sufficient water due to the fact that the irrigation water dripped into the plants from the water dripping openings 1112 is less is avoided, and the irrigation water quantity of the plants can be accurately controlled.

As shown in fig. 1 and 3, in one embodiment, the water collecting member 210 has an opening 2111 and a water collecting cavity 211 communicating with the opening 2111, the opening 2111 faces the water dropping opening 1112, the water collecting cavity 211 is located below the water dropping opening 1112, the bottom of the water collecting member 210 is opened with a water outlet gap 212, the penetrating member 230 is laid in the planting area 221, and one side of the penetrating member 230 penetrates through the water outlet gap 212.

Specifically, the penetration member 230 is laid at the root of the plant, and one side of the penetration member 230 is inserted through the water outlet seam 212 and extends into the water collecting cavity 211.

Since the water collecting member 210 is provided with the opening 2111 and the water collecting cavity 211 communicated with the opening 2111, the opening 2111 of the water collecting member 210 faces the water dropping opening 1112, and the water collecting cavity 211 is located below the water dropping opening 1112, the water in the first reservoir cavity 1111 can drop into the water collecting cavity 211 of the water collecting member 210 through the water dropping opening 1112. The arrangement of the opening 2111 can enable water drops to be gathered, and when the water drops receive air flow and the dropping route of the water drops deviates, the water drops can be collected in the water collecting cavity 211. Therefore, the water in the first water storage cavity 1111 can be prevented from directly dripping to the surface of the plant from the water dripping port 1112, and the phenomenon that the residual water falls or the water is not absorbed by the plant due to the fact that the control of the irrigation water quantity is not accurate enough is avoided. And because the bottom of the water collecting piece 210 is provided with the water outlet seam 212, the penetrating piece 230 paved in the planting area 221 can enter the water collecting cavity 211 through the water outlet seam 212, and therefore, the penetrating piece 230 can lead the water in the water collecting cavity 211 into the planting area 221.

More specifically, the material of the penetrating member 230 may be any material having a capillary penetration effect, such as a penetration filter, a fiber cloth, and a non-woven cloth.

The water in the water collecting cavity 211 can slowly permeate into the planting area 221 from the water collecting cavity 211 through the capillary action of the permeating part 230, so that the phenomenon that the roots of the plants are ulcerated due to overlarge irrigation water quantity can be avoided. And because the soil in the planting area 221 can be kept in a wet state due to the penetration of the penetrating member 230, a good growing environment can be provided for the plants in the growing process of the plants, and the plants can fully absorb moisture.

As shown in fig. 1 and 3, in one embodiment, the planting device 200 further comprises a howling component 240, the howling component 240 is disposed in the water collection cavity 211, and the howling component 240 is located below the drip opening 1112.

Specifically, the waist of the water collection member 210 is a bee-waist shape.

Since the howling component 240 is disposed in the water collecting cavity 211 and the howling component 240 is located below the water dropping opening 1112, water dropping from the water dropping opening 1112 can fall onto the howling component 240 through the opening 2111 of the water collecting member 210 and then fall from the howling component 240 into the water collecting cavity 211. When water drops fall from the drip port 1112, the water drops fall on the whistling assembly 240 to generate a crisp rain sound, thereby enhancing the feeling of rain dripping and the output of mood and infection. Since the waist of the water collector 210 is of a waisted shape, when water drops onto the sounding component 240, the waist of the water collector 210 can provide a protection against raveling, so that the water drops cannot burst out of the opening 2111 after dropping onto the sounding component 240.

More specifically, the howling assembly 240 includes a howling member 241, an elastic member 242, and a base 243, the bottom of the base 243 is connected to the bottom wall of the water collecting chamber 211, the top of the base 243 is connected to one end of the elastic member 242, the howling member 241 is connected to the other end of the elastic member 242, and the howling member 241 is located below the drip port 1112. In this way, the water drops dropping from the water dropping port 1112 can fall on the sounding member 241. Since the kinetic energy of the water drops generated during the falling process is increased, when the water drops fall onto the sounding member 241, the water drops impact the sounding member 241, so that the sounding member 241 can move downward under the impact of the water drops, and further the elastic member 242 connected to the sounding member 241 and located below the sounding member 241 is contracted. Since the base supports the elastic member 242 and the elastic member 242 itself has a resilient force, the elastic member 242 can return to the original state from the contracted state, i.e., the elastic member moves upward, and further the elastic member 242 can drive the sounding member 241 to move upward. In the process, the echo piece 241 reciprocates upwards and downwards to continuously collide with water drops, so that echo can be generated, and the effect of winding after-sound is further generated.

More specifically, the sounding element 241 is a spring plate made of 301 stainless steel, and the elastic element 242 is a spring.

301 stainless steel has difficult elasticity and tired, the characteristics of difficult deformation, and is not fragile when receiving the impact that the water droplet dropped for a long time, is difficult for taking place deformation.

In addition, the plate-shaped structure whistle 241, and the three-dimensional structure whistle 241 may be any materials that can generate a whistle and can achieve a whistle effect, and the material of the whistle 241 may be any material that can generate a whistle and can achieve a whistle effect.

As shown in fig. 1 and 2, in one embodiment, a drip port 1112 is opened at a bottom of the first water storage member 111, and a drip member 112 is replaceably mounted at the drip port 1112.

Specifically, the drip member 112 is a drip head, and drip heads of different amounts are replaceably mounted at the drip opening 1112.

Since the drip port 1112 is provided at the bottom of the first water storage member 111, the water in the first water storage chamber 1111 may fall down at the drip port 1112 by its own weight, so that a driving device for driving the water to drip down may be omitted, and the structure of the planting system may be simplified. Since the drip irrigation heads with different water drops are replaceably mounted at the water dropping port 1112, the flow rate of the water dropping from the drip irrigation heads can be adjusted, and the flow rate of the water dropping from the drip irrigation heads to the water collecting member 210 can be adjusted according to the water absorbing characteristics of different plants and the water collecting members 210 with different sizes.

As shown in fig. 1 and 4, in one embodiment, the water supply device 300 includes a second water storage 310, a water delivery pump 320 and a water delivery pipe 330, the second water storage 310 has a second water storage cavity 311, the water delivery pipe 330 has a water inlet 331 and a water outlet 332, the water inlet 331 extends into the second water storage cavity 311, the water outlet 332 extends into the first water storage cavity 1111, and the water delivery pump 320 is configured to pump water in the second water storage cavity 311 into the first water storage cavity 1111 through the water delivery pipe 330.

Because the water delivery pump 320 can pump the water in the second water storage cavity 311 into the first water storage cavity 1111 through the water delivery pipeline 330, when the plants in the planting device 200 need to be irrigated, only the water delivery pump 320 needs to be started, an irrigation water source can be provided for the water dripping device 100, the water entering the water dripping device 100 further drips from the water dripping port 1112 to the planting device 200, and the purpose of irrigating the plants in the planting device 200 is achieved.

Specifically, the water in the second water storage cavity 311 can be added manually, and the water can be supplemented to the second water storage cavity 311 by connecting a tap water spare joint (not shown) with a tap water pipe.

As shown in fig. 1 and 2, in one embodiment, the water dropping assembly 110 further includes a water level regulating valve 113, the water level regulating valve 113 is disposed in the first water storage cavity 1111, and the water level regulating valve 113 is used for controlling the water conveying pipeline 330 to be switched on or off according to the water level in the first water storage cavity 1111.

Specifically, the water level adjusting valve 113 is fixed on a mounting base (not shown) reserved inside the first water storage cavity 1111, and the mounting height of the water level adjusting valve 113 can be adjusted up and down according to the required water storage height, and is connected with the water outlet end 332 of the water conveying pipeline 330 after being fixed.

More specifically, the water level regulating valve 113 is a ball float valve, one end of a float of the ball float valve is connected with the water outlet end 332 of the water conveying pipeline 330, when the water level in the first water storage cavity 1111 rises to the height of the float, the float rises along with the rise of the water level, and when the water level rises to a certain height, the end, connected with the water outlet end 332, of the float can block the water outlet end 332, so that the water conveying pipeline is disconnected; when the water level in the first water storage cavity 1111 descends, the floater descends along with the descending of the water level, and when the water level descends to a certain height, the water outlet end 332 can be opened by the end connected with the water outlet end 332, so that the water conveying pipeline is communicated.

When water flows through the water conveying pipeline 330, water can be stored in the first water storage cavity 1111, when the water level rises to a required height, the water level regulating valve 113 disconnects the water conveying pipeline 330 to work, at this time, even if water flows through the water conveying pipeline 330, the water level in the first water storage cavity 1111 cannot be increased continuously because the water level regulating valve 113 closes the channel between the water conveying pipeline 330 and the first water storage cavity 1111.

Along with the water drop of the water dropping port 1112, the water level in the first water storage cavity 1111 will slowly drop, when the water level reaches the opening water level of the water level adjusting valve 113, the water level adjusting valve 113 will communicate with the water pipe 330 to work, if the water pipe 330 has water at this time, the water pipe 330 will continue to supply water to the first water storage cavity 1111, and if the water pipe 330 has no water at this time, the water pump 320 can be started to pump the water in the second water storage cavity 311 into the first water storage cavity 1111 through the water pipe 330.

As shown in fig. 1 and 2, in one embodiment, the dripping device 100 further includes a light supplementing assembly 120, the light supplementing assembly 120 includes a light supplementing element 121 and an element accommodating element 122, the light supplementing element 121 and the element accommodating element 122 are both disposed on the bottom of the first water storage 111, the light supplementing element 121 faces the planting area 221, and a circuit unit of the light supplementing element 121 is disposed in the element accommodating element 122.

Specifically, the light supplement member 121 is powered by a safe low voltage, and isolation measures are provided between the light supplement member 121 and the element accommodating member 122 and the first water storage cavity 1111.

The element accommodating member 122 is configured to provide a light supplement function for plants, and a related circuit unit of the light supplement member 121 may be disposed in the element accommodating member 122. Because the light supplementing piece 121 adopts safe low-voltage power supply, and isolation measures are provided between the light supplementing piece 121 and the element accommodating piece 122 and the first water storage cavity 1111, the safe operation of the light supplementing assembly 120 can be ensured. Meanwhile, different illumination intensities can be set according to different requirements of different plants on light, and the environment required by the growth of the plants is met.

The working principle of the planting system is as follows: plants are planted in the planting area 221 of the planting member 220, the water delivery pump 320 in the water supply device 300 is started, the water delivery pump 320 pumps the irrigation water source in the second water storage cavity 311 into the first water storage cavity 1111 through the water delivery pipeline 330, after the irrigation water source enters the first water storage cavity 1111, the irrigation water source drops onto the whistle member 241 in the water collection member 210 through the water dropping port 1112 communicated with the first water storage cavity 1111, then drops to the bottom of the water collection cavity 211 through the whistle member 241, and finally water in the water collection cavity 211 permeates into the planting area 221 through the penetration member 230.

When the water level in the first water storage cavity 1111 reaches a certain height, the water level regulating valve 113 disconnects the water transmission pipeline 330, the water level in the first water storage cavity 1111 does not rise any more, and when the water level in the first water storage cavity 1111 falls to a certain height, the water level regulating valve 113 connects the water transmission pipeline 330, and the water transmission pipeline 330 continues to store water into the first water storage cavity 1111.

The water delivery pump 320 can set different water pumping frequencies according to the growth characteristics of different plants and the water collecting member 210 with different capacities, thereby ensuring that the water dropped from the water dropping opening 1112 into the water collecting member 210 is not overflowed from the water collecting member 210.

The light compensating part 121 can set different illumination intensities according to different requirements of different plants on illumination, and meets the environment required by the growth of the plants.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A planting system, comprising:

the water dripping device comprises a water dripping assembly, the water dripping assembly comprises a first water storage part, and the first water storage part is provided with a first water storage cavity and a water dripping opening communicated with the first water storage cavity;

the planting device is arranged below the water dripping opening and comprises a water collecting part, a planting part and a penetrating part, the planting part is provided with a planting area and an installation area, the water collecting part is arranged in the installation area and is used for collecting irrigation water dripping from the water dripping opening, and the penetrating part is used for introducing the irrigation water in the water collecting part into the planting area;

and the water supply device is connected with the water dripping device and is used for providing an irrigation water source for the first water storage cavity.

2. The planting system of claim 1, wherein the water collecting member is provided with an opening and a water collecting cavity communicated with the opening, the opening faces the water dripping opening, the water collecting cavity is located below the water dripping opening, a water outlet seam is formed in the bottom of the water collecting member, the penetrating member is laid in the planting area, and one side of the penetrating member penetrates through the water outlet seam.

3. The planting system of claim 2, wherein the material of the porous member is a material having a capillary action.

4. The planting system of claim 1, wherein the water collection member is provided with an opening facing the water dripping opening and a water collection chamber in communication with the opening, the water collection chamber being located below the water dripping opening, the planting device further comprising a humming assembly disposed within the water collection chamber, the humming assembly being located below the water dripping opening.

5. The planting system of claim 4, wherein the squeal assembly comprises a squeal member, a resilient member, and a base, a bottom of the base connected to a bottom wall of the water collection chamber, a top of the base connected to one end of the resilient member, the squeal member connected to another end of the resilient member, the squeal member positioned below the drip opening.

6. The planting system of claim 5, wherein the ringing member is a spring and the resilient member is a spring.

7. The growing system of claim 1, wherein said drip opening opens at a bottom of said first water storage member, said drip opening being replaceably mounted with a drip member.

8. The growing system of claim 1, wherein said water supply means comprises a second water reservoir having a second water reservoir cavity, a water conduit having an inlet end and an outlet end, said inlet end extending into said second water reservoir cavity and said outlet end extending into said first water reservoir cavity, and a water conduit for pumping water from said second water reservoir cavity into said first water reservoir cavity through said water conduit.

9. The planting system of claim 8, wherein the drip assembly further comprises a water level regulating valve disposed within the first water storage cavity, the water level regulating valve configured to control the opening and closing of the water delivery conduit according to a water level within the first water storage cavity.

10. The planting system of claim 1, wherein the drip device further comprises a light supplement assembly, the light supplement assembly comprises a light supplement member and an element accommodating member, the light supplement member and the element accommodating member are both disposed on the bottom of the first water storage member, the light supplement member faces the planting area, and a circuit unit of the light supplement member is disposed in the element accommodating member.

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