CN220587148U - Hydroponic monomer and multilayer planting tower applying same - Google Patents

Abstract

The utility model discloses a hydroponic monomer and a multilayer planting tower using the same, wherein a splitter plate is added on the inner side of the conventional hydroponic monomer, a water guide groove extending towards the right rear of the hydroponic monomer and flow guide surfaces which are positioned on two sides of the water guide groove and incline downwards towards two sides of the splitter plate are formed on the upper surface of the splitter plate, so that the multilayer planting tower using the hydroponic monomer can better guide water flow sprayed onto the inner side wall of the hydroponic monomer, further, a planting basin can obtain more water quantity, the power of a water pump is reduced, and the effects of energy conservation and emission reduction are achieved.

Description

Hydroponic monomer and multilayer planting tower applying same

Technical Field

The utility model relates to the field of plant cultivation, in particular to a hydroponic monomer and a multilayer planting tower using the same.

Background

Vertical planting is also known as vertical planting, and by utilizing the longitudinal space, the land utilization efficiency can be improved. The product is mature at present, for example, a novel masonry tower planting structure disclosed in patent number 218337248U, and a three-dimensional multilayer planting tower water storage structure and a three-dimensional multilayer planting tower disclosed in patent number 218851550U. However, this type of patent has a drawback that although the inner side of the patent is provided with a guide plate above the water receiving tray for guiding water into the planting pot above the water receiving tray, the water left along the edge of the water receiving tray is not collected and directly drops into the cavity in the multi-layer planting tower, so that the water quantity required to be sprayed in one water spraying process is large, the water receiving tray and the planting pot can be ensured to obtain enough water quantity, the power of the motor can be increased, and the energy conservation and the environmental protection are not facilitated.

Disclosure of Invention

In order to solve the problems, the utility model aims to provide a novel water culture monomer and a multilayer planting tower using the same, so that water flow can be better guided, and the water quantity sprayed in a one-time spraying process can be more reserved, so that the working time of a water pump is shorter.

The utility model adopts the technical scheme that: a hydroponic unit comprising:

the mounting box board, thereby the protruding bellying that forms of mounting box board front side forward forms a recess that makes mounting box board rear side inwards sunken formation, bellying top forms a guide way that extends towards mounting box board rear side and upward slope, be provided with on the inclined plane and be linked together with the recess and be used for placing the mounting hole of planting the basin, the recess inner wall is provided with two sets of symmetry and arranges the support slot in the mounting hole both sides, and two sets of support slots are located the mounting hole below, the recess inner wall is provided with the twice and is located the mounting hole top and towards the deflector that the mounting hole was inclined, the recess inner wall is provided with the guide way that is located the mounting hole under and is located the support slot below, the deflector upper surface is provided with the guide way that extends towards mounting box board rear side and is located the guide way both sides and downward slope towards the deflector both sides respectively, the first screens are arranged along the direction to one side of mounting box board, the opposite side of mounting box board is arranged along the direction with the first joint portion with first screens block, mounting box board bottom is provided with the second screens down, the second screens are used for setting up with the second screens on one side of second screens.

As a further improvement of the technical scheme, a circle of downward extending clamping limiting plate is arranged at the rear side of the lower end of the mounting box plate, and a clamping positioning slot for movably inserting the clamping limiting plate into the guide plate is arranged at the top end of the guide plate.

As a further improvement of the technical scheme, the bottom of the clamping limiting plate is provided with a downwards extending clamping plate, and the second clamping position is arranged on the clamping plate.

As a further improvement of the above technical solution, the first clamping position includes: the fixing plate is arranged at the rear end of one side of the mounting box plate and extends outwards, the clamping block is arranged on the rear surface of the fixing plate, and a plurality of transverse positioning ribs are arranged on the rear surface of the fixing plate;

the first clamping portion includes: the second plate body is arranged at the rear end of the other side of the mounting box plate, the second plate body and the rear surface of the mounting box plate are enclosed to form a clamping groove with an outer opening, a plurality of transverse positioning notches for the transverse positioning ribs to be inserted and arranged in are formed in the second plate body, and clamping holes for the clamping blocks to be clamped in are formed in the inner side of the second plate body.

As a further improvement of the technical scheme, the bottom of the fixing plate is provided with a lower seepage-stopping block which extends outwards and is used for blocking the bottom of the clamping groove.

As the further improvement of above-mentioned technical scheme, the installation box board includes the front bezel body, is located the front bezel body both sides and outwards inclines towards the front bezel body rear side, is located the front bezel body top and with two curb plate body upper portion marginal connection's last plate body, front bezel body and curb plate body bottom flush, go up the plate body towards the rear side and upwards incline, go up plate body upper surface formation the inclined plane, the mounting hole set up in go up plate body surface, support the slot and set up in two curb plate body rear surfaces, the flow distribution plate set up in front bezel body rear surface and two curb plate body rear surfaces, the twice deflector set up in last plate body rear surface.

A multilayer planting tower using any one of the above water planting monomers, comprising:

the tower body is formed by stacking a plurality of single-layer tower groups in a staggered manner, each single-layer tower group is formed by connecting a plurality of water culture monomers end to form a ring shape, an inner cavity is formed in the tower body, a clamping block on one side of each single water culture monomer in each single-layer tower group is clamped into a clamping hole on the other side of the other water culture monomer adjacent to the single water culture monomer, the middle part of each single water culture monomer in the upper single-layer tower group is opposite to the connecting part of two water culture monomers in the lower single-layer tower group, a second clamping position on each water culture monomer in the upper single-layer tower group is clamped onto a second clamping position on the upper part of each water culture monomer in the lower single-layer tower group, and the edges of two guide surfaces on the inner sides of the water culture monomers in the upper single-layer tower group are opposite to the upper surfaces of the inner sides of the two adjacent water culture monomers in the lower single-layer tower group;

the water receiving disc is inserted into the supporting slot and is positioned below the mounting hole, and the port of the water guide groove on the inner side of the hydroponic monomer in the upper single-layer tower group is positioned right above the water receiving disc on the inner side of the hydroponic monomer in the lower single-layer tower group;

the upper cover is arranged at the top of the tower body;

the base, the base sets up in tower body bottom, the intracavity is provided with the shower nozzle that is used for spraying to the water planting monomer.

As a further improvement of the technical scheme, the water tank is arranged in the base, the water pump communicated with the water tank is arranged in the base, and the spray head is communicated with the water pump.

The beneficial effects of the utility model are as follows: through the multilayer planting tower that this scheme's water planting monomer combination formed, insert the planting basin along the mounting hole in the cavity during planting and lie in water collector top, the shower nozzle is water spray towards water planting monomer inboard, when water bumps to water planting monomer internal surface, in the planting basin is flowed into along the deflector and the accumulation is in the water collector, thereby water flows along water collector edge after the water collector is full of water, thereby the drip falls to the deflector on, the deflector upper surface of two water planting monomer inboard in adjacent in deflector both sides will water shunt to lower floor's individual layer tower group, thereby make water be collected by the planting basin on the water planting monomer in the individual layer tower group of lower floor, and be located water collector in the water planting monomer of lower floor between the tip of guiding gutter is directly over, thereby make along the water cup that the guiding gutter flows water collector in the water planting monomer of lower floor and planting basin collect. Through this structure, the guide rivers that can be better flow to make planting basin and water collector receive the efficiency of water higher.

Drawings

The utility model is further illustrated by the following description and examples of the embodiments in conjunction with the accompanying drawings.

FIG. 1 is a schematic diagram of a hydroponic unit according to the present utility model;

FIG. 2 is a second schematic structural diagram of the hydroponic unit of the present utility model;

FIG. 3 is a third schematic structural view of the hydroponic unit of the present utility model;

FIG. 4 is a schematic view of the structure after the cover is removed;

fig. 5 is a schematic view of a partial enlarged structure at B of fig. 4.

Detailed Description

Reference will now be made in detail to the present embodiments of the present utility model, examples of which are illustrated in the accompanying drawings, wherein the accompanying drawings are used to supplement the description of the written description so that one can intuitively and intuitively understand each technical feature and overall technical scheme of the present utility model, but not to limit the scope of the present utility model.

In the description of the present utility model, it should be understood that references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description of the present utility model and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, a number means one or more, a number means two or more, and greater than, less than, exceeding, etc. are understood to not include the present number, and above, below, within, etc. are understood to include the present number. The description of the first and second is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated. In the description of the present utility model, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present utility model can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

Referring to fig. 1 to 5, a hydroponic unit comprising:

the mounting box plate 10, thereby mounting box plate 10 front side is protruding forward to form a bellying, thereby makes mounting box plate 10 rear side inwards sunken formation cavity 14, bellying top forms a guide groove 41 that extends towards mounting box plate 10 rear side and upward slope, be provided with on the inclined plane with cavity 14 link to each other and be used for placing the mounting hole 131 of planting basin 90, cavity 14 inner wall is provided with two sets of symmetry and arranges in the support slot 20 of mounting hole 131 both sides, and two sets of support slot 20 are located mounting hole 131 below, cavity 14 inner wall is provided with the deflector 30 that two are located mounting hole 131 top and incline towards mounting hole 131, cavity 14 inner wall is provided with and is located the deflector 40 of support slot 20 below that is located mounting hole 131, deflector 40 upper surface is provided with guide groove 41 and the guide surface 42 that is located guide groove 41 both sides and be used for placing down slope respectively towards deflector 40 both sides, one side of mounting box plate 10 is arranged along the direction of height and is arranged first screens, the second screens 10 are arranged along the direction of height and are arranged to the second screens 10, and are provided with second screens 151 and are used for the second screens 10 to install the bottom.

And the multilayer planting tower comprises:

the tower body is formed by stacking a plurality of single-layer tower groups in a staggered manner, each single-layer tower group is formed by combining a plurality of water culture monomers end to form a ring shape, an inner cavity is formed in the tower body, a clamping block 51 on one side of each single water culture monomer in each single-layer tower group is clamped into a clamping hole 63 on the other side of the other water culture monomer adjacent to the single water culture monomer, the middle part of each single water culture monomer in the upper single-layer tower group is opposite to the joint of two water culture monomers in the lower single-layer tower group, a second clamping position 151 on each water culture monomer in the upper single-layer tower group is clamped onto a second clamping position on the upper part of each water culture monomer in the lower single-layer tower group, and the edges of two guide surfaces 42 on the inner sides of the water culture monomers in the upper single-layer tower group are opposite to the upper surfaces of guide plates 30 on the inner sides of two adjacent water culture monomers in the lower single-layer tower group;

a water pan 91, the water pan 91 being inserted into the support slot 20 so as to be located below the mounting hole 131;

the upper cover 80 is arranged at the top of the tower body, and the upper cover 80 is arranged at the top of the tower body;

the base 70, the base 70 sets up in the tower body bottom, the intracavity is provided with the shower nozzle that is used for spraying to the water planting monomer, preferably be provided with the water tank in the base 70, be provided with the water pump that is linked together with the water tank in the base 70, the shower nozzle is linked together with the water pump.

Through the multilayer planting tower that this scheme's water planting monomer combination formed, insert the planting basin 90 in the cavity 14 along mounting hole 131 and lie in water collector 91 top during planting, the shower nozzle is water spray towards water planting monomer inboard, when water bumped water planting monomer internal surface, in along deflector 30 inflow planting basin 90 and accumulate in water collector 91, after water collector 91 is full of water, thereby water along water collector 91 edge outflow drip to the deflector on, deflector both sides guide surface 42 will water flow to two adjacent water planting monomer inboard deflector 30 upper surfaces in the single layer tower group of lower floor, thereby make water be collected by the planting basin 90 on the water planting monomer in the single layer tower group of lower floor, and be located water collector 91 in the single layer water planting monomer of lower floor between the tip of water guide tank 41 and be directly over, thereby make along water collector 91 and planting basin 90 collect in the single layer water planting monomer of water cup lower floor down that flows of water guide tank 41. With this structure, the flow of water can be better guided, thereby making the efficiency of receiving water by the planting pot 90 and the water receiving tray 91 higher.

The structure of the multilayer planting tower is indirectly changed by improving the structure of the hydroponic monomer, so that the water obtaining efficiency of the planting pot 90 planted on the multilayer planting tower is higher. The water planting monomers can be produced in batches, only one set of die is needed to be changed, and the cost is lower.

In this scheme, in order to make the water planting monomer on upper strata and the water planting monomer on lower floor fixed more stable, preferably installation box board 10 lower extreme rear side is provided with round downwardly extending's block limiting plate 16, the deflector 30 top is provided with the block positioning slot 31 that supplies block limiting plate 16 activity to insert to locate in it to when making upper single-layer tower group stack up on lower floor single-layer tower group, not only there is the cooperation of second screens 151 and second joint portion 152 fixed, still inserts through the block limiting plate 16 of upper water planting monomer bottom and establishes to the block positioning slot 31 at deflector 30 top on the lower floor water planting monomer, and then accomplishes the secondary and fix.

Further preferably, the bottom of the locking limiting plate 16 is provided with a locking plate 15 extending downward, and the second locking position 151 is disposed on the locking plate 15.

In this scheme, the first clamping position and the first clamping portion may adopt a conventional manner, for example, the fixing structure disclosed in patent nos. 218337248U and 218851550U, but there is a problem that a gap penetrating the inside and the outside is formed between two adjacent hydroponic monomers, so that water is easy to permeate. For this purpose, the first latching means preferably comprise: the fixing plate 50 is arranged at the rear end of one side of the mounting box plate 10 and extends outwards, the clamping block 51 is arranged on the rear surface of the fixing plate 50, and the rear surface of the fixing plate 50 is provided with a plurality of transverse positioning ribs 52; the first clamping portion includes: the second plate body 60 is arranged at the rear end of the other side of the mounting box plate 10, the second plate body 60 and the rear surface of the mounting box plate 10 are surrounded to form a clamping groove 61 with an outer opening, a plurality of transverse positioning notches 62 for inserting the transverse positioning ribs 52 are arranged on the second plate body 60, clamping holes 63 for clamping the clamping blocks 51 are arranged on the inner side surface of the second plate body 60, the fixing plate 50 is inserted into the clamping groove 61 during combination, the transverse positioning ribs 52 are inserted into the transverse positioning notches 62, when the fixing plate is fixed in place, the clamping blocks 51 are clamped into the clamping holes 63 to play a limiting role, two adjacent hydroponic monomers are prevented from being separated, and meanwhile the clamping blocks 51 and the transverse positioning ribs 52 play a role of reinforcing ribs, so that the fixing plate 50 is kept straight. Through this structure, the clamping groove 61 and the fixing plate 50 form a C-shaped sealing position, so that water inside the hydroponic monomers is more difficult to seep out through a gap between the two hydroponic monomers, preferably, the bottom of the fixing plate 50 is provided with a lower seepage-stopping block 53 which extends outwards and is used for blocking the bottom of the clamping groove 61, and therefore, when the fixing plate 50 is inserted into the clamping groove 61, the lower seepage-stopping block 53 is positioned at the bottom of the clamping groove 61 for blocking.

In the above embodiment, if the structure is simplified, the first locking portion may be only the fixing plate 50, and the first locking portion may be only the locking groove 61.

Meanwhile, the cooperation of the clamping limiting plate 16 and the clamping positioning slot 31 also has the effect of limiting water from seeping out from the gap between the upper layer of water culture monomer and the lower layer of water culture monomer.

In this solution, preferably, the mounting box board 10 includes a front board 11, side boards 12 located at two sides of the front board 11 and inclined outwards towards the rear side of the front board 11, and an upper board 13 located at the top of the front board 11 and connected to the upper edges of the two side boards 12, where the front board 11 and the bottom of the side boards 12 are flush, the upper board 13 is inclined upwards towards the rear side, the upper surface of the upper board 13 forms the inclined surface, the mounting hole 131 is arranged on the surface of the upper board 13, the supporting slot 20 is arranged on the rear surface of the two side boards 12, the splitter plate 40 is arranged on the rear surface of the front board 11 and the rear surface of the two side boards 12, and the two guide plates 30 are arranged on the rear surface of the upper board 13.

Of course, in other embodiments, the front end of the mounting box board 10 may have various shapes, such as diamond-shaped, triangular pyramid-shaped, and other protruding structures.

The foregoing description of the preferred embodiments of the present utility model should not be construed as limiting the scope of the utility model, but rather should be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model as defined by the following description and drawings or any application directly or indirectly to other relevant art(s).

Claims (8)

1. A hydroponic monomer, comprising:

the mounting box plate (10), thereby the front side of the mounting box plate (10) is protruding forward to form a protruding part, and the rear side of the mounting box plate (10) is recessed inwards to form a cavity (14), the protruding part top forms an inclined plane which is positioned right below the mounting box plate (10) and is inclined upwards, the inclined plane is provided with a mounting hole (131) which is communicated with the cavity (14) and is used for placing the planting basin (90), the inner wall of the cavity (14) is provided with two groups of supporting slots (20) which are symmetrically arranged at two sides of the mounting hole (131), the two groups of supporting slots (20) are positioned below the mounting hole (131), the inner wall of the cavity (14) is provided with two guide plates (30) which are positioned above the mounting hole (131) and are inclined towards the mounting hole (131), the inner wall of the cavity (14) is provided with a diversion plate (40) which is positioned right below the mounting hole (131), the upper surface of the diversion plate (40) is provided with a water guide groove (41) which extends right behind the mounting box plate (10) and two groups of diversion plates (41) which are positioned at two sides of the diversion plate (40) and are positioned at two sides of the diversion plate (40) respectively arranged towards the second side of the mounting box (10) along the direction of the first side of the installation box (10), the bottom of the installation box plate (10) is provided with a second clamping position (151) downwards, and the upper end of one side of the installation box plate (10) is provided with a second clamping part (152) for being clamped with the second clamping position (151).

2. A hydroponic monomer according to claim 1, wherein:

the rear side of the lower end of the mounting box plate (10) is provided with a circle of downward extending clamping limiting plate (16), and the top end of the guide plate (30) is provided with a clamping positioning slot (31) for movably inserting the clamping limiting plate (16) into the guide plate.

3. A hydroponic monomer according to claim 2, wherein:

the bottom of the clamping limiting plate (16) is provided with a clamping plate (15) extending downwards, and the second clamping position (151) is arranged on the clamping plate (15).

4. A hydroponic monomer according to claim 1, wherein:

the first clamping position comprises: the fixing plate (50) is arranged at the rear end of one side of the mounting box plate (10) and extends outwards, the clamping block (51) is arranged on the rear surface of the fixing plate (50), and a plurality of transverse positioning ribs (52) are arranged on the rear surface of the fixing plate (50);

the first clamping portion includes: the second plate body (60) is arranged at the rear end of the other side of the mounting box plate (10), the second plate body (60) and the rear surface of the mounting box plate (10) are enclosed to form a clamping groove (61) with an outer opening, a plurality of transverse positioning notches (62) for inserting the transverse positioning ribs (52) into the second plate body (60) are formed in the second plate body (60), and clamping holes (63) for clamping the clamping blocks (51) into the second plate body are formed in the inner side surface of the second plate body (60).

5. A hydroponic unit as defined in claim 4, wherein:

the bottom of the fixing plate (50) is provided with a lower seepage-proof block (53) which extends outwards and is used for blocking the bottom of the clamping groove (61).

6. A hydroponic monomer as claimed in claim 1 or 2 or 3 or 4 or 5, wherein:

the mounting box board (10) comprises a front board body (11), side board bodies (12) which are arranged on two sides of the front board body (11) and incline outwards towards the rear sides of the front board body (11), an upper board body (13) which is arranged on the top of the front board body (11) and connected with the upper edges of the two side board bodies (12), the front board body (11) and the bottom of the side board body (12) are flush, the upper board body (13) inclines upwards towards the rear side, the upper surface of the upper board body (13) forms an inclined surface, mounting holes (131) are formed in the surface of the upper board body (13), supporting slots (20) are formed in the rear surfaces of the two side board bodies (12), and a splitter plate (40) is arranged on the rear surface of the front board body (11) and the rear surfaces of the two side board bodies (12), and two guide plates (30) are arranged on the rear surfaces of the upper board body (13).

7. A multi-layer planter using the hydroponic monomer of any one of claims 1 to 6 comprising:

the tower body is formed by stacking a plurality of single-layer tower groups in a staggered manner, each single-layer tower group is formed by combining a plurality of water culture monomers end to form a ring shape, an inner cavity is formed in the tower body, a clamping block (51) on one side of each single water culture monomer in each single-layer tower group is clamped into a clamping hole (63) on the other side of the other water culture monomer adjacent to the single water culture monomer, the middle part of each single water culture monomer in the upper single-layer tower group is opposite to the connecting part of two water culture monomers in the lower single-layer tower group, a second clamping position (151) on each water culture monomer in the upper single-layer tower group is clamped onto a second clamping position on the upper part of each water culture monomer in the lower single-layer tower group, and the edges of two guide surfaces (42) on the inner sides of the water culture monomers in the upper single-layer tower group are opposite to the upper surfaces of guide plates (30) on the inner sides of two water culture monomers in the lower single-layer tower group;

the water receiving disc (91) is inserted into the supporting slot (20) so as to be positioned below the mounting hole (131), and a port of the water guide groove (41) on the inner side of the hydroponic monomer in the upper-layer single-layer tower group is positioned right above the water receiving disc (91) on the inner side of the hydroponic monomer in the lower-layer single-layer tower group;

the upper cover (80) is arranged at the top of the tower body;

the base (70), base (70) set up in the tower body bottom, be provided with the shower nozzle that is used for spraying to the water planting monomer in the inner chamber.

8. A multi-layered planter according to claim 7 wherein:

the water tank is arranged in the base (70), a water pump communicated with the water tank is arranged in the base (70), and the spray head is communicated with the water pump.