CN220068344U - Greening wall with water receiving structure - Google Patents

Abstract

The utility model relates to a greening wall with a water receiving structure, which belongs to the technical field of greening walls, and comprises a framework and flowerpots, wherein a plurality of placing plates are fixedly connected to the framework, each two placing plates are in a group, a gap is reserved between each two placing plates, cambered surfaces are arranged on the inner sides of each group of placing plates, a plurality of flowerpots are respectively positioned between the two cambered surfaces correspondingly, and the upper ends of the flowerpots are respectively hung at the upper ends of the placing plates; the board upper end all is equipped with the irrigation pipe, a plurality of irrigation pipes are corresponding with a plurality of flowerpots respectively, a plurality of board below of placing all is equipped with the water receiving box, a plurality of water receiving boxes all are through connecting plate and corresponding board fixed connection of placing, a plurality of water receiving box bottoms all are equipped with a plurality of limbers, irrigation water that spills outward in the irrigation process through the water receiving box is concentrated and is received, and the irrigation water that receives in the water receiving box still can irrigate the flowerpot of next floor automatically, not only prevented that the ground from being too moist because of the reason that spills outward of irrigation water, can also the water economy resource.

Description

Greening wall with water receiving structure

Technical Field

The utility model relates to a greening wall with a water receiving structure, and belongs to the technical field of greening walls.

Background

The greening wall is characterized in that different standing conditions are fully utilized, climbing plants and other plants are selected to be planted and attached or paved on various structures and other space structures, the greening wall can play roles of reducing noise, beautifying the environment, purifying air, improving the quality of urban environment and increasing greening coverage rate, and improving urban ecological environment, and mainly comprises an overpass, a building wall surface, a slope, a river bank, a roof, a court, a flower stand, a shed frame, a balcony, a corridor, a column, a fence, a dead tree and greening on various rockery, wherein the planting forms a framework which is generally provided with a framework+flowerpot, a modularized wall greening, a paving type wall greening and the like, the framework+flowerpot is generally attached to the wall surface or is constructed to be parallel to the wall surface by 5-10cm, a drip irrigation or sprinkling irrigation system is adopted, and the flowerpot which is well greening in advance is embedded in the framework space.

However, at present, in the automatic irrigation process, part of irrigation water is sprayed to the outer side of the flowerpot or the outer side of the framework placing plate, and a certain distance is reserved between the two flowerpots, so that part of irrigation water is sprayed to the outer side of the flowerpot, the irrigation water can directly fall on the ground in the falling process, so that not only is the road surface moist and inconvenient to walk, but also water resources are wasted.

Disclosure of Invention

The utility model aims to provide a greening wall with a water receiving structure, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the greening wall with the water receiving structure comprises a framework and flowerpots, wherein a plurality of placing plates are fixedly connected to the framework, every two placing plates are in a group, a gap is reserved between every two placing plates, cambered surfaces are arranged on the inner sides of the placing plates, a plurality of flowerpots are respectively positioned between the two cambered surfaces, and the upper ends of the flowerpots are respectively hung at the upper ends of the placing plates; the upper ends of the placing plates are respectively provided with an irrigation pipe, the irrigation pipes respectively correspond to the flowerpots, the lower parts of the placing plates are respectively provided with a water receiving box, the water receiving boxes are fixedly connected with the corresponding placing plates through connecting plates, the bottoms of the water receiving boxes are respectively provided with a plurality of water through holes, and the bottoms of the frameworks are fixedly connected with water collecting tanks; a plurality of the water receiving boxes are all provided with cleaning mechanisms, a plurality of the cleaning mechanisms are all stretched out of the framework, two adjacent cleaning mechanisms are all connected through transmission belts, motors are fixedly connected to the outer sides of the frameworks, and the motors are connected with one ends of the corresponding cleaning mechanisms.

Preferably, a plurality of clearance mechanism all includes pivot, reciprocating screw, two guide arms, movable block and cleaning brush, reciprocating screw rotates to be connected between two connecting plates, two equal fixed connection of guide arm is between two connecting plates, reciprocating screw one end fixedly connected with pivot, pivot one end runs through the skeleton and rotates with the skeleton to be connected, motor output and corresponding pivot one end fixed connection, a plurality of the drive belt is connected respectively between a plurality of pivots, movable block and reciprocating screw threaded connection, movable block cup joints with two guide arm activity, movable block bottom fixedly connected with cleaning brush, cleaning brush bottom and water receiving box bottom contact.

Preferably, the plurality of water receiving boxes are respectively corresponding to the plurality of flowerpots, and the widths of the plurality of water receiving boxes are larger than the maximum distance between the two corresponding placing plates.

Preferably, a sealing plug is inserted at the water outlet at one side of the bottom end of the water collecting tank, and one end of the sealing plug extends out of the framework.

Preferably, the lengths of the cleaning brushes are matched with the inner width of the corresponding water receiving box.

Compared with the prior art, the utility model has the beneficial effects that: the irrigation water sprayed out of the irrigation process can be received in a concentrated mode through the water receiving box, and the irrigation water received in the water receiving box can automatically irrigate the flowerpot on the next layer, so that the ground is prevented from being excessively moist due to the fact that the irrigation water is sprayed out of the water receiving box, and water resources can be saved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a cleaning mechanism according to the present utility model;

fig. 3 is a schematic view of a placement plate structure according to the present utility model.

In the figure: 1. a skeleton; 2. placing a plate; 3. a flower pot; 4. irrigation pipes; 5. a connecting plate; 6. a water through hole; 7. a water receiving box; 8. a cleaning mechanism; 81. a rotating shaft; 82. a reciprocating screw rod; 83. a guide rod; 84. a moving block; 85. cleaning brushes; 9. a transmission belt; 10. a motor; 11. a sealing plug; 12. a water collection tank; 13. a cambered surface.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present utility model provides a technical solution: the greening wall with the water receiving structure comprises a framework 1 and flowerpots 3, wherein a plurality of placing plates 2 are fixedly connected to the framework 1, each two placing plates 2 are in a group, a gap is reserved between each two placing plates 2, cambered surfaces 13 are arranged on the inner sides of each group of placing plates 2, a plurality of flowerpots 3 are respectively positioned between the two cambered surfaces 13 correspondingly, and the upper ends of the flowerpots 3 are respectively hung at the upper ends of the placing plates 2; the upper ends of the plurality of placing plates 2 are respectively provided with an irrigation pipe 4, the plurality of irrigation pipes 4 respectively correspond to the plurality of flowerpots 3, water receiving boxes 7 are respectively arranged below the plurality of placing plates 2, the plurality of water receiving boxes 7 are fixedly connected with the corresponding placing plates 2 through connecting plates 5, a plurality of water through holes 6 are respectively arranged at the bottoms of the plurality of water receiving boxes 7, and a water collecting tank 12 is fixedly connected to the bottom of the framework 1; the cleaning mechanism 8 is arranged at the upper end of the water receiving box 7, one ends of the cleaning mechanisms 8 are extended out of the framework 1, two adjacent cleaning mechanisms 8 are connected through the transmission belt 9, a motor 10 is fixedly connected to the outer side of the framework 1 and connected with one end of the corresponding cleaning mechanism 8, irrigation water sprayed out of the water receiving box 7 in the irrigation process can be received in a concentrated mode, irrigation water received in the water receiving box 7 can automatically irrigate the flowerpot 3 on the next layer, and the situation that the ground is too wet due to the fact that the irrigation water is sprayed out of the ground can be prevented, and water resources can be saved.

The cleaning mechanisms 8 comprise rotating shafts 81, reciprocating screw rods 82, two guide rods 83, moving blocks 84 and cleaning brushes 85, the reciprocating screw rods 82 are rotationally connected between the two connecting plates 5, the two guide rods 83 are fixedly connected between the two connecting plates 5, one end of each reciprocating screw rod 82 is fixedly connected with the rotating shaft 81, one end of each rotating shaft 81 penetrates through the framework 1 and is rotationally connected with the framework 1, the output end of each motor 10 is fixedly connected with one end of the corresponding rotating shaft 81, the driving belts 9 are respectively connected between the rotating shafts 81, the moving blocks 84 are in threaded connection with the reciprocating screw rods 82, the moving blocks 84 are movably sleeved with the two guide rods 83, the bottom ends of the moving blocks 84 are fixedly connected with the cleaning brushes 85, the bottom ends of the cleaning brushes 85 are in contact with the bottoms of the corresponding water receiving boxes 7, the motors 10 can simultaneously drive the reciprocating screw rods 82 to rotate through the driving belts 9, the moving blocks 84 can drive the cleaning brushes 85 to reciprocate in the corresponding water receiving boxes 7, sundries such as leaves at the bottoms of the corresponding water receiving boxes 7 are concentrated to one place, and the sundries are prevented from being excessively dispersed to influence the outflow of irrigation water in the water receiving boxes 7; the plurality of water receiving boxes 7 are respectively corresponding to the plurality of flowerpots 3, and the widths of the plurality of water receiving boxes 7 are larger than the maximum distance between the two corresponding placing plates 2, so that irrigation water dripped from the outer sides of the placing plates 2 can be accurately dripped into the water receiving boxes 7; a sealing plug 11 is inserted at a water outlet at one side of the bottom end of the water collecting tank 12, one end of the sealing plug 11 extends out of the framework 1, and irrigation water received in the water collecting tank 12 can be recycled, or the sealing plug 11 is opened to drain the irrigation water; the length of each cleaning brush 85 is matched with the inner width of the corresponding water receiving box 7, so that the cleaning effect of the cleaning brush 85 on the inner portion of the water receiving box 7 is guaranteed.

Specifically, when the utility model is used, when vegetation in a plurality of flowerpots 3 is irrigated, part of the irrigated water is sprayed to the outer side of the flowerpots 3 or the irrigated water outside the placing plates 2 falls into the water receiving box 7 arranged at the bottom end, as the width of the water receiving box 7 is larger than the maximum distance between the two placing plates 2, the irrigated water which drops from the outer sides of the placing plates 2 can accurately drop into the water receiving box 7, the irrigated water in the water receiving box 7 can flow into vegetation in a plurality of flowerpots 3 at the next layer through the water through holes 6, the irrigated water at the lowest layer of flowerpots 3 and the irrigated water which drops from the placing plates 2 can be concentrated into the water collecting tank 12, the irrigated water can be repeatedly utilized, or the sealing plug 11 is opened to discharge the irrigated water which is sprayed out of the flowerpot 3 at the next layer, the reason that the irrigated water is sprayed out of the irrigated water is too wet is prevented, meanwhile, the motor 10 is driven by the driving of the water receiving box 7 to move back and forth through the driving belt 9, the water receiving box 84 can be prevented from being too wet, and the sundries are prevented from being removed from the water collecting box 85 to the bottom of a plurality of the water receiving boxes, and the water receiving boxes are moved back and forth, and the water is prevented from being scattered in the water receiving box 7 is moved to be too much by the water receiving box 7, and the water is moved to be moved to the water is caused by the water is left to be too wet.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. Greening wall with water receiving structure, including skeleton (1) and flowerpot (3), its characterized in that: a plurality of placing plates (2) are fixedly connected to the framework (1), every two placing plates (2) are in a group, a gap is reserved between every two placing plates (2), cambered surfaces (13) are arranged on the inner sides of the placing plates (2), a plurality of flowerpots (3) are respectively positioned between the two cambered surfaces (13), and the upper ends of the flowerpots (3) are respectively hung at the upper ends of the placing plates (2); a plurality of irrigation pipes (4) are arranged at the upper ends of the placement plates (2), a plurality of irrigation pipes (4) are respectively corresponding to a plurality of flowerpots (3), a plurality of water receiving boxes (7) are arranged below the placement plates (2), the water receiving boxes (7) are fixedly connected with the corresponding placement plates (2) through connecting plates (5), a plurality of water through holes (6) are formed in the bottoms of the water receiving boxes (7), and a water collecting tank (12) is fixedly connected to the bottoms of the frameworks (1); a plurality of water receiving box (7) upper end all is equipped with clearance mechanism (8), and a plurality of clearance mechanism (8) one end all stretches out skeleton (1), adjacent two all pass through drive belt (9) transmission between clearance mechanism (8) and connect, skeleton (1) outside fixedly connected with motor (10), motor (10) are connected with corresponding clearance mechanism (8) one end.

2. A green wall with water receiving structure according to claim 1, wherein: a plurality of clearance mechanism (8) all include pivot (81), reciprocating lead screw (82), two guide arms (83), movable block (84) and clearance brush (85), reciprocating lead screw (82) rotate and connect between two connecting plates (5), two equal fixedly connected with of guide arm (83) is between two connecting plates (5), reciprocating lead screw (82) one end fixedly connected with pivot (81), pivot (81) one end runs through skeleton (1) and rotates with skeleton (1) to be connected, motor (10) output and corresponding pivot (81) one end fixed connection, a plurality of drive belt (9) are connected respectively between a plurality of pivots (81), movable block (84) and reciprocating lead screw (82) threaded connection, movable block (84) cup joint with two guide arms (83) activity, movable block (84) bottom fixedly connected with clearance brush (85), clearance brush (85) bottom and water receiving box (7) bottom contact.

3. A green wall with water receiving structure according to claim 1, wherein: the water receiving boxes (7) are respectively corresponding to the flowerpots (3), and the widths of the water receiving boxes (7) are larger than the maximum distance between the two corresponding placing plates (2).

4. A green wall with water receiving structure according to claim 1, wherein: a sealing plug (11) is inserted at a water outlet at one side of the bottom end of the water collecting tank (12), and one end of the sealing plug (11) extends out of the framework (1).

5. A green wall with water receiving structure according to claim 2, wherein: the lengths of the cleaning brushes (85) are matched with the inner width of the corresponding water receiving box (7).