CN218007205U - Plant cultivation container - Google Patents

Abstract

The utility model provides a plant cultivation container, which comprises a storage box body; a holder coupled to the storage bin configured to receive at least one plant; a lighting assembly including a lamp body; it is characterized by also comprising: an external DC power supply; the storage box or the lighting assembly is configured to be provided with a first mounting part matched with the DC power supply, and an electric connecting terminal is arranged on the first mounting part; the DC power supply is configured to have a connection portion adapted to the first mounting portion, and a power supply terminal adapted to be connected with the electrical connection terminal; the lighting assembly is electrically connected to a DC power source by an electrical connection terminal. According to the technical scheme, the user directly adopts an external DC power supply to be directly coupled with the plant cultivation container, a power line does not need to be arranged and used, and the risk of being tied by the user due to the fact that the user pulls the line is avoided.

Description

Plant cultivation container

Technical Field

The utility model relates to a plant cultivation container.

Background

As is well known, in the prior art, various plant cultivation containers exist, water needs to be supplemented and replaced frequently during the growth process of plants, and the containers need to be cleaned after a period of time, but the traditional design of the plant cultivation container causes that the cleaning is very inconvenient, in particular to a cultivation container with plant illumination, during the cleaning process, because the container is integrally provided with an illumination assembly, the illumination assembly is connected with the container to be cleaned during the cleaning, at the moment, the illumination assembly restricts the container for cleaning a user, and the cleaning is inconvenient;

in addition, traditional cultivation container that has plant illumination is not only inconvenient in maintenance when illuminating lamp pearl is bad, can not maintain even, moreover, also can not change, leads to the user often just need change again after the lamp pearl is bad, buys again, and the wasting of resources is serious.

In addition, most of plant cultivation containers in various forms in the prior art are connected with an AC power supply, and need to be connected with a power line for power-on use, so that a user needs to consider wire pulling, and the potential danger of trip exists.

SUMMERY OF THE UTILITY MODEL

The utility model provides a plant cultivation container, which aims to solve the technical problem that a user does not need to consider a wire tie.

The utility model provides a pair of plant cultivation container 100, include:

a storage case 10;

a holder 20 connected to the storage tank 10 and configured to receive at least one plant;

a lighting assembly 30 including a lamp body;

an external DC power supply 200a;

the storage case 10 is configured to have a first mounting portion 400 adapted to the DC power supply 200a, and an electric connection terminal 500 is disposed on the first mounting portion 400;

the DC power supply 200a is configured to have a connection part 200a1 adapted to the first mounting part 400, and a power supply terminal (200 a 2) adapted to be connected with the electric connection terminal 500;

the lighting assembly 30 is electrically connected to the DC power supply 200a by the electrical connection terminal 500.

Further, the DC power supply 200a is detachably connected to the first mounting portion 400.

Further, a controller 600 is included in the storage case 10, and is electrically connected to the electrical connection terminal 500 and the illumination line in the illumination assembly 30, respectively.

Further, the lighting assembly 30 further includes a support rod 30b and a lamp body 30c;

the lamp body 30c is supported and connected to the upper side by the support rod 30b;

the lamp body 30c is connected to the controller 600 by a power line built in the support rod 30 b.

Further, the support rod 30b is adapted to be freely telescopic;

the storage box body 10 is matched with the lamp body 30c, and the lamp body 30c is suitable for moving to be contacted with and matched with the storage box body (10) under the action of the retraction and descending of the supporting rod 30 b.

A plant-growing container 100 comprising:

a storage case 10;

a holder 20 connected to the storage bin 10 and configured to receive at least one plant;

a lighting assembly 30 comprising a lamp body;

an external DC power supply 200a;

the lighting assembly 30 is configured to have a first mounting portion 400 adapted to the DC power source 200a, and an electrical connection terminal 500 is disposed on the first mounting portion 400;

the DC power supply 200a is configured to have a connection part 200a1 adapted to the first mounting part 400, and a power supply terminal 200a2 adapted to be connected with the electric connection terminal 500;

the lighting assembly 30 is electrically connected to the DC power supply 200a by the electrical connection terminal 500.

Further, the DC power source 200a is disposed adjacent to the lamp body 30c of the lighting assembly 30.

Further, the DC power supply 200a is detachably connected to the first mounting portion 400.

Further, a controller 600 is included in the storage case 10, and is electrically connected to the electrical connection terminal 500 and the illumination line in the illumination assembly 30, respectively.

Compared with the prior art, the utility model has the advantages of: a user directly adopts an external DC power supply to be directly coupled with the plant cultivation container, and does not need to arrange and use a power line, so that the risk of wire binding of the user is avoided.

In addition, still relate to a plant cultivation container combination, including a plurality of plant cultivation containers, its characterized in that:

at least one of the plant-growing containers is configured with a mounting portion adapted to be fittingly connected to a DC power supply 200a, the DC power supply 200a being mechanically and electrically connected to the mounting portion and adapted to supply power to the lighting assembly 30;

the plant cultivation container also comprises a serial connection port electrically connected with the lighting assembly;

a serial line adapted to the serial port;

the serial line is correspondingly inserted into the serial ports to connect the plant cultivation containers in series;

the plant-cultivating container equipped with the DC power supply 200a is connected to a power supply to form any one of a series circuit, a parallel circuit and a series-parallel circuit.

Compared with the prior art, the plant cultivation container combination provided by the utility model has all the beneficial technical effects of the plant cultivation container;

in addition, a plurality of plant cultivation containers are connected in series and combined through a series connection line, and a power supply is connected through a certain plant cultivation container, so that lamp bodies in all lighting assemblies in the plant cultivation container combination are lightened.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1: the structure of the utility model is shown in the figure in the concrete embodiment 1;

FIG. 2: the utility model discloses a sectional structure view of a concrete embodiment 1;

FIG. 3: the utility model discloses a section explosion diagram of the concrete embodiment 1;

FIG. 4: the utility model discloses a structure rear view of the concrete embodiment 1;

FIG. 5: the utility model discloses a structure explosion diagram of the concrete embodiment 1;

FIG. 6: the utility model discloses embodiment 1 structural explosion diagram of another visual angle;

FIG. 7 is a schematic view of: the structure of the concrete embodiment 2 of the utility model is schematically shown;

FIG. 8: the utility model discloses a structure rear view of the concrete embodiment 2;

FIG. 9: the utility model discloses embodiment 2 coupling part and installation part separation sketch map;

FIG. 10: the utility model discloses a structure section view of the concrete embodiment 2;

FIG. 11: the structure of the utility model in the embodiment 2 is exploded;

FIG. 12: the structure of the concrete embodiment 3 of the utility model is schematically illustrated;

FIG. 13: the utility model discloses a sectional structure view of the concrete embodiment 3;

FIG. 14: the utility model discloses another section view of the embodiment 3;

FIG. 15: the utility model discloses a plant cultivation container combination schematic diagram;

FIG. 16: the plant cultivation container of the embodiment of the utility model is combined with another schematic diagram;

FIG. 17: the utility model discloses a plant cultivation container DC power built-in structure sketch map of the concrete embodiment;

FIG. 18 is a schematic view of: the utility model discloses another schematic diagram of a DC power supply built-in plant cultivation container;

FIG. 19: the utility model discloses a plant cultivation container DC power supply external schematic diagram;

FIG. 20: the utility model discloses a schematic diagram of the external connection principle of a DC power supply of a plant cultivation container;

FIG. 21: the utility model discloses another principle schematic diagram of external connection of plant cultivation container DC power is realized to the concrete embodiment.

Detailed Description

The technical solutions of the present invention will be described more clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

[ example 1 ]

Referring to fig. 1 to 6, a plant-cultivating container 100 includes a storage case 10, a holder 20, and a lighting assembly 30;

a holder 20 is built into the storage box 10, and is configured to accommodate at least one plant; specifically, partitions may be disposed inside the holder 20, and divide the holding space inside the holder 20 into a plurality of areas, which may be used for accommodating and planting a plurality of plants; it is understood that the aforementioned partition plates may be plural, and in particular, as shown in fig. 1, the partition plates are 2 pieces combined in a cross shape, and divide the holding space inside the holder 20 into 4 areas, which can be respectively used for accommodating the plants to be planted.

The storage box 10 is provided with a mounting portion 10a corresponding to the illumination unit 30, and the illumination unit 30 has a coupling portion 30a facing the mounting portion 10a and is detachably coupled to the mounting portion 10a, as shown in fig. 3.

In this way, the lighting module 30 is detachably connected to the mounting portion 10a disposed on the storage box 10 through the coupling portion 30a, so that when a user cleans the cavity of the storage box 10a, the coupling portion 30a is separated from the mounting portion 10a, and the lighting module 30a is integrally removed, thereby solving the technical problem of inconvenient cleaning in the prior art.

In addition, when the illuminating lamp bead is broken as described in the background art, the plant cultivation container provided by the technical scheme only needs to replace the illuminating component, and the whole body is not required to be replaced.

Wherein, the lighting assembly 30 further comprises a lamp body 30c and a support rod 30b;

the lamp body 30c is supported and connected above the coupling part 30a by the support rod 30b;

the coupling portion 30a is provided with a power interface 40 adapted to be externally connected to a power source, and the power interface 40 is connected to the lamp body 30c by a power line 40a built in the support rod 30 b.

The lamp body 30c can be formed by combining a plurality of lamp beads, and on the one hand can be used for illumination, and on the other hand can be used for plant illumination, promotes vegetation, and this type of lamp body 30c is the prior art in this field, and its specific constitution can directly refer to prior art.

In addition, the supporting rod 30b is adapted to be freely extended and contracted for adjusting the lighting height of the lamp body 30c, it should be noted that the supporting rods 30b in the plant-cultivating container shown in fig. 1 to 6 are all in a contracted state, and it is understood that in this embodiment, the supporting rod 30b is also in an extended state, in which the multi-sectional rod units of the supporting rod 30b are extended from the original contracted state, so that the height between the lamp body 30c and the storage case 10 is increased.

With continued reference to fig. 1 and 2, the storage container 10 is adapted with the lamp body 30c, and the lamp body 30c is adapted to move into contact with and engage with the storage container 10 under the action of the support rod 30 b.

So, can make the wholeness that the plant cultivation container 100 that this technical scheme provided stronger, the user is not using or manufacturer in the transportation, can shrink bracing piece 30c to bracing piece 30 c's minimum height position department, reduces whole volume, and convenience of customers accomodates or makes things convenient for manufacturer's packing and transportation, reduces packing and transportation cost.

It is also worth mentioning that:

the power line 40a can be extended and retracted along with the extension and retraction of the support rod 30b, that is, when the support rod 30b is lifted under the action of force, the power line 40a is also extended and extended synchronously, and when the support rod 30b is lowered under the action of force, the power line 40a is also retracted and shortened synchronously.

Referring to fig. 1 to 4, the power interface 40 is disposed at the lower end of the coupling portion 30a and is adjacent to the bottom of the storage box 10;

the support rod 30b is inserted into the inner cavity of the coupling portion 30a from the upper end opening of the coupling portion 30a and is adjacent to the power source interface 40.

It should be noted that:

the power interface 40 is provided with a terminal portion electrically connected to the power line 40a, the power interface 40 is connected to the power line 40a via the terminal portion, the other end of the power line 40a is connected to the control board of the lamp body 30c, and the lamp body 30c is provided with at least a power switch electrically connected to the control board, so as to control the lamp body 30c to be turned on or off via the power switch.

The power source interface 40 is disposed at the lower end of the coupling portion 30a and adjacent to the bottom of the storage case 10, so that the support rod 30b has a larger installation space, especially a larger installation height, and the support rod 30b is inserted into the inner cavity of the coupling portion 30a from the upper opening of the coupling portion 30a and adjacent to the power source interface 40, it can be understood that the space occupied by the power source interface 40 is smaller, so that the support rod 30b occupies most of the inner cavity of the coupling portion 30a, especially the height space, so that the connection portion of the support rod 30b and the coupling portion 30a is larger, and the connection stability of the support rod 30b can be enhanced.

Further, the coupling portion 30a has the same or substantially the same height as the storage case 10, and specifically, as shown with continued reference to fig. 2, the coupling portion 30a has a height L1, the storage case 10 has a height L2, and the heights L1 and L2 are substantially the same, and have only a height difference of 1-2mm, which results from the storage case 10 having a microprotrusion to fit the lamp body 30c, it being understood that the microprotrusion is not necessary, and when the microprotrusion is not provided, the heights L1 and L2 will be the same.

Therefore, under the condition of ensuring the integrity of the appearance, the coupling part 30a has a larger or largest height space, the space of the connecting part of the support rod 30b and the coupling part 30a is further increased, particularly the size of the connecting part in the height direction of the support rod 30b is increased, and the connecting stability of the support rod 30b is further enhanced.

With continued reference to fig. 2 and 3, the reservoir tank 10 includes a cavity 10b configured to store a liquid;

a water level sensor 50 is arranged in the cavity 10b at a position close to the bottom of the cavity, and the water level sensor 50 is provided with a contact part 50a exposed on the outer wall surface of the mounting part 10a;

the coupling part 30a is correspondingly provided with a conduction part 60 connected with the controller;

the contact portion 50a is located on a movement path of the conductive portion 60 along a path direction in which the coupling portion 30a is fitted to or removed from the mounting portion 10 a.

The water level sensor 50 is used for monitoring the water level, when the water level in the cavity 10b is lower than the preset limit water level, the water level sensor 50 generates and sends a signal, and the signal can be displayed in a visual state to remind a user, and of course, the user can be reminded in other modes, such as voice reminding and the like.

When the lighting assembly 30 is mounted and connected to the mounting portion 10a through the coupling portion 30a in a matching manner, the conductive portion 60 disposed on the coupling portion 30a is in contact connection with the contact portion 50a disposed on the mounting portion 10a, and the conductive portion 60 is connected to the control board (controller) in the lamp body 30c, so that the water level sensor 50 generates and sends a signal to the control board (controller) in the lamp body 30c through the contact portion 50a and the conductive portion 60, and the signal is transmitted to the control board (controller) in the lamp body 30c, and the controller can display and remind a user in a visual state, such as a light display of a specific color.

It should be noted that:

the connection of the conduction part 60 to the control board (controller) of the lamp body 30c is also performed through the signal line passing through the support rod 30 b.

Referring to fig. 1, the outer surface of the coupling portion 30a forms a part of the outer surface of the storage container 10, and the junction between the outer surface of the storage container 10 and the outer surface of the coupling portion 30 is smooth. Specifically, the junction between the storage box 10 and the coupling portion 30a shown in fig. 1 is a curved surface, and the junction between the outer surface of the storage box 10 and the outer surface of the coupling portion 30 is smoothly transited to form a smooth curved surface.

As shown in fig. 5 and 6, a part of the outer wall surface of the storage box 10 extends and dents toward the inner side of the storage box 10 to form a mounting portion 10a;

the coupling portion 30a has a wall surface opposite to the mounting portion 10a, the wall surface being in surface contact with the mounting portion 10a to be positioned. Specifically, the wall surfaces come into surface contact with the mounting portion 10a to form positioning contact surfaces S1 and S2, as can be specifically seen in fig. 4.

Further, the mounting portion 10a at least includes a first contact surface 10A1 and a second contact surface 10A2 which are oppositely arranged, and the distance between the first contact surface and the second contact surface is gradually decreased from bottom to top, specifically, referring to fig. 4, the distance A1 is smaller than the distance A2, and the distance A2 is smaller than the distance A3;

the coupling portion 30a has a first wall surface 30a1 and a second wall surface 30a2 corresponding to the first contact surface 10a1 and the second contact surface 10a2, respectively;

the coupling part 30a is matched with the mounting part 10a along the axial direction from bottom to top, and/or;

the coupling part 30a is matched and separated with the mounting part 10a along the axial direction from top to bottom;

when the coupling portion 30a is mounted on or removed from the mounting portion 10a, the first wall surface 30a1 and the second wall surface 30a2 are in sliding contact with the first contact surface 10a1 and the second contact surface 10a2, respectively.

When the lighting assembly 30 needs to be assembled and installed, the supporting rod 30b is extended and lengthened, the coupling part 30a slides into the installation part 10a from bottom to top along the axial direction, and at the moment, in the process of sliding into the installation part upwards, the distance between the wall surfaces (30 a1 and 30a 2) and the contact surfaces (10 a1 and 10a 2) is gradually reduced until the wall surfaces are positioned; when the lighting assembly 30 needs to be disassembled, the coupling part only needs to slide downwards along the axial direction, at the moment, the first wall surface 30a1 and the second wall surface 30a2 respectively slide downwards along the first contact surface 10a1 and the second contact surface 10a2, and in the sliding process, the distance between the wall surfaces (30 a1 and 30a 2) and the contact surfaces (10 a1 and 10a 2) is gradually increased until the wall surfaces are separated from each other.

Further, a stopper portion configured to prevent the coupling portion 30a from being displaced in the direction transverse to the axis is further provided between the mounting portion 10a and the coupling portion 30 a.

Specifically, referring to fig. 5 and 6, the contact surfaces (10 a1, 10a 2) of the mounting portion 10a are provided with a limiting recess 10a4, and correspondingly, the wall surfaces (30 a1, 30a 2) of the coupling portion 30a are provided with a limiting rib 30a4, when the lighting assembly 30 is assembled and mounted, the support rod 30b is extended and elongated, the coupling portion 30a slides into the mounting portion 10a from the bottom along the axial direction, and at this time, in the process of sliding into the mounting portion upwards, the limiting rib 30a4 is gradually inserted into the limiting recess 10a4 until positioning as the distance between the wall surfaces (30 a1, 30a 2) and the contact surfaces (10 a1, 10a 2) is gradually reduced, so that the limiting engagement can prevent the coupling portion 30a from being displaced along the direction transverse to the axial direction, that is, and the coupling portion 30a can be prevented from being displaced along the radial direction shown in fig. 5 and 6.

In order to facilitate more applications, a wall hanging hole 30a5 (shown in fig. 4, 5, and 6) and/or a magnet is disposed on a side of the coupling portion 30a facing the outside, the wall hanging hole 30a5 may be used to hang on a wall or a desk, and the magnet may be used to magnetically attract a metal surface, such as a wall of a refrigerator, more conveniently.

Further, it should be noted that:

the plant cultivation container 100 is further provided with a liquid level observation window for allowing a user to observe a water level or water quality, and specifically, the surface of the storage box 10 is provided with a see-through observation window 70, as shown in fig. 3, and further, a floating ball is correspondingly disposed inside the observation window 70, and the height of the floating ball changes with the change of the water level.

[ example 2 ]

Referring to fig. 7 to 11, the present embodiment is basically similar in structure and principle to embodiment 1 described above, and differs therefrom in that:

in the present embodiment, the shape of the storage case 10 is different from that of the storage case in embodiment 1 described above, and 2 holders 20 are arranged in the storage case 10, and it should be noted that:

the holder 20 is supported and positioned by a support plate 80, and the support plate 80 may be detachably disposed at the open end of the storage case 10.

In addition, in order to facilitate water injection and plant respiration, the supporting plate 80 is further provided with a hole 80a, and further, an arrangement area of the hole 80a is recessed downward to form a water injection area, which facilitates water injection for a user, and as shown in fig. 7 and 10.

It should also be noted that:

the plant-cultivating containers shown in fig. 7 to 11 are each schematically illustrated by extending the support rod 30a, and it is understood that the design of the support plate 80 and the hole 80a can be applied to the embodiment 1.

[ example 3 ]

Referring to fig. 12 to 14, the present embodiment is also basically similar in structure and principle to the above-described embodiments 1 and 2, and is different in that:

in the present embodiment, the shape of the storage case 10 is different from those in the above-described embodiments 1 and 2, and 4 holders 20 are arranged in the storage case 10, and in particular, the positions provided corresponding to the mounting portions 10a of the illumination assemblies 30 are different from those in the above-described embodiments 1 and 2, specifically:

a mounting part 10a with the shape and size corresponding to the shape and size of the coupling part 30a is formed by extending and protruding a part of the inside of the cavity 10b of the storage box body 10 along the upward axial direction;

the coupling portion 30a is inserted into the inner cavity of the mounting portion 10a to be positioned corresponding to the upper opening of the mounting portion 10 a.

In addition, as shown in fig. 15, the present invention further relates to a combination of plant cultivation containers, including a plurality of plant cultivation containers 100, wherein:

the plant cultivation container 100 is as described above;

the plant-growing container 100 also includes a serial port electrically connected to the illumination assembly 30 a;

a serial line 300 adapted to the serial port;

the serial connection line 300 is inserted into the serial port correspondingly to connect the plurality of plant cultivation containers 100 in series;

one of the plant-cultivating containers 100 is connected to a power supply 200 to form any one of a series circuit, a parallel circuit and a series-parallel circuit.

Therefore, the plant cultivation containers are connected in series and combined through the series connection line, and the power supply is connected through one plant cultivation container, so that the lamp bodies in all the lighting assemblies in the plant cultivation container combination are lightened.

Specifically, as shown in fig. 15, the serial port is disposed on the storage box 10, preferably near the power interface 40, and in addition, the serial port can also be disposed on the lamp body 30c, as shown in fig. 16, and in addition, it is worth mentioning that:

the power supply 200 may be an AC power supply or a DC power supply, when the power supply 200 is an AC power supply, the general power supply 200 is externally disposed, and in the prior art, such an arrangement is mostly adopted, when the power supply 200 is a DC power supply, the power supply 200 may be externally disposed, preferably, the DC power supply adopted by the power supply 200 is internally disposed in the storage box 10, specifically, as shown in fig. 17 and 18, at this time, the lighting assembly 30 is electrically connected to the DC power supply, and in addition, when the power supply 200 is a DC power supply, an external connection may also be adopted, as shown in fig. 19, a mounting portion of the DC power supply 200a is correspondingly disposed on an outer wall of the storage box 10, an electrical connection terminal is correspondingly disposed on the mounting portion, the DC power supply adapted to the mounting portion has a connection portion adapted to the mounting portion, and a power terminal electrically connected to the corresponding electrical connection terminal, and when the DC power supply is mounted and connected to the mounting portion, the corresponding electrical connection terminal is electrically connected to the power terminal; the lighting assembly 30 is electrically connected to the DC power source through electrical connection terminals at the mounting portion.

Specifically, referring to fig. 20, a plant cultivation container 100 includes:

a storage case 10;

a holder 20 connected to the storage bin 10 and configured to receive at least one plant;

a lighting assembly 30 comprising a lamp body;

an external DC power supply 200a;

the storage case 10 is configured to have a first mounting portion 400 adapted to the DC power supply 200a, and an electric connection terminal 500 is disposed on the first mounting portion 400;

the DC power supply 200a is configured to have a connection part 200a1 adapted to the first mounting part 400, and a power supply terminal (200 a 2) adapted to be connected with the electric connection terminal 500;

the lighting assembly 30 is electrically connected to the DC power supply 200a by the electrical connection terminal 500.

The DC power supply 200a is detachably connected to the first mounting portion 400.

Further comprising a controller 600 disposed in the storage case 10, the controller electrically connecting the electrical connection terminal 500 and the illumination line in the illumination module 30, respectively.

The lighting assembly 30 further comprises a support rod 30b and a lamp body 30c;

the lamp body 30c is supported and connected to the upper side by the support rod 30b;

the lamp body 30c is connected to the controller 600 by a power line built in the support rod 30 b.

The support rod 30b is adapted to freely extend and retract;

the storage box body 10 is matched with the lamp body 30c, and the lamp body 30c is suitable for moving to be contacted with and matched with the storage box body (10) under the action of the retraction and descending of the supporting rod 30 b.

Referring to fig. 21, a plant cultivation container 100 includes:

a storage case 10;

a holder 20 connected to the storage bin 10 and configured to receive at least one plant;

a lighting assembly 30 comprising a lamp body;

an external DC power supply 200a;

the lighting assembly 30 is configured to have a first mounting portion 400 adapted to the DC power supply 200a, and an electrical connection terminal 500 is configured on the first mounting portion 400;

the DC power supply 200a is configured to have a connection part 200a1 adapted to the first mounting part 400, and a power supply terminal 200a2 adapted to be connected with the electric connection terminal 500;

the lighting assembly 30 is electrically connected to the DC power supply 200a by the electrical connection terminal 500.

The DC power source 200a is disposed adjacent to the lamp body 30c of the lighting assembly 30.

The DC power supply 200a is detachably connected to the first mounting portion 400.

Further comprising a controller 600 disposed in the storage case 10, the controller electrically connecting the electrical connection terminal 500 and the illumination line in the illumination module 30, respectively.

In addition, still relate to a plant cultivation container combination, including a plurality of plant cultivation containers, its characterized in that:

at least one of the plant-growing containers is configured with a mounting portion adapted to be fittingly connected to a DC power supply 200a, the DC power supply 200a being mechanically and electrically connected to the mounting portion and adapted to supply power to the lighting assembly 30;

the plant cultivation container also comprises a serial connection port electrically connected with the lighting assembly;

a serial line adapted to the serial port;

the serial line is correspondingly inserted into the serial ports to connect the plant cultivation containers in series;

the plant cultivation container provided with the DC power supply 200a is connected to a power supply to form any one of a series circuit, a parallel circuit and a series-parallel circuit.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims (9)

1. A plant growing container comprising:

a storage tank (10);

a holder (20) connected to the storage bin (10) configured to receive at least one plant;

a lighting assembly (30) comprising a lamp body;

it is characterized by also comprising:

an external DC power supply (200 a);

the storage case (10) is configured to have a first mounting portion (400) adapted to the DC power supply (200 a), and an electric connection terminal (500) is arranged on the first mounting portion (400);

the DC power supply (200 a) is configured to have a connection part (200 a 1) adapted to the first mounting part (400), and a power supply terminal (200 a 2) adapted to be connected with the electric connection terminal (500);

the lighting assembly (30) is electrically connected to the DC power source (200 a) by the electrical connection terminal (500).

2. A plant growing container according to claim 1, wherein: the DC power supply (200 a) is detachably connected to the first mounting part (400).

3. A plant-cultivation container as claimed in claim 1 or 2, wherein: the storage box body (10) is provided with a controller (600), and the controller is electrically connected with the electric connecting terminal (500) and a lighting circuit in the lighting assembly (30).

4. A plant growing container according to claim 3, wherein:

the lighting assembly (30) further comprises a support rod (30 b) and a lamp body (30 c);

the lamp body (30 c) is supported and connected to the upper part by the supporting rod (30 b);

the lamp body (30 c) is connected to the controller (600) by a power line built in the support rod (30 b).

5. A plant-cultivation container as claimed in claim 4, wherein:

the supporting rod (30 b) is suitable for freely extending and contracting;

the storage box body (10) is matched with the lamp body (30 c), and the lamp body (30 c) is suitable for moving to be in contact with and matched with the storage box body (10) under the action of the retraction and descending of the supporting rod (30 b).

6. A plant-growing container comprising:

a storage tank (10);

a holder (20) connected to the storage tank (10) and configured to receive at least one plant;

a lighting assembly (30) comprising a lamp body;

it is characterized by also comprising:

an external DC power supply (200 a);

the lighting assembly (30) is configured to have a first mounting portion (400) adapted to the DC power source (200 a), and an electrical connection terminal (500) is configured on the first mounting portion (400);

the DC power supply (200 a) is configured to have a connection part (200 a 1) adapted to the first mounting part (400), and a power supply terminal (200 a 2) adapted to be connected with the electric connection terminal (500);

the lighting assembly (30) is electrically connected to the DC power source (200 a) by the electrical connection terminal (500).

7. The plant-cultivation container as claimed in claim 6, wherein: the DC power source (200 a) is configured to be adjacent to a lamp body (30 c) of the lighting assembly (30).

8. A plant growing container according to claim 6, wherein: the DC power supply (200 a) is detachably connected to the first mounting portion (400).

9. A plant cultivation container as claimed in claim 6 or 7 or 8, wherein: the storage box body (10) is provided with a controller (600), and the controller is electrically connected with the electric connecting terminal (500) and a lighting circuit in the lighting assembly (30).

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