CN112088697A

CN112088697A - Combined plant planting device for architectural design

Info

Publication number: CN112088697A
Application number: CN202011083066.3A
Authority: CN
Inventors: 王伟; 韩潇
Original assignee: Shanghe Linhai Garden Farm Co ltd
Current assignee: Shanghe Linhai Garden Farm Co ltd
Priority date: 2020-10-12
Filing date: 2020-10-12
Publication date: 2020-12-18
Anticipated expiration: 2040-10-12
Also published as: CN112088697B

Abstract

The invention relates to the technical field of green plant cultivation, and provides a combined plant planting device for architectural design. The transverse telescopic mechanism, the front and rear telescopic mechanism and the longitudinal telescopic mechanism adjust the planting position of the planting mechanism in a three-way manner through telescopic movement, and the planting mechanism adjusts the planting position through self rotation; the front and back telescopic mechanisms, the longitudinal telescopic mechanism and the planting mechanism are communicated with each other to form a conveying pipeline for plant seeds to pass through; the planting mechanism is provided with a plurality of branch conveying pipelines for the plant seeds to pass through, and the corresponding branch conveying pipelines are opened when the plant seeds with different sizes are planted; at the same time, the delivery duct and the branch delivery duct form a water or fertilizer supply duct. The invention has the beneficial effects that: the planting device can complete plant planting of a plurality of flowerpot positions on the same stepped surface of the building at one time, and does not need to be detached when planting flowerpot positions on other stepped surfaces of the building, so that the planting efficiency is improved.

Description

Combined plant planting device for architectural design

Technical Field

The invention relates to the technical field of green plant cultivation, in particular to a combined plant planting device for building design.

Background

Along with the improvement of living standard of people and the popularization of green urban areas and green building concepts, urban greening receives more and more attention from people. However, the amount of land available for greening in cities is less and less, and vertical greening using building facades, such as roof greening and building side greening, is receiving more and more attention.

The existing buildings are usually vertically installed and have higher height, but the surfaces of some buildings have step-shaped surfaces, the existing planting devices are used to be very inconvenient when the step-shaped surfaces are subjected to greening planting, the green planting species planted by the existing planting devices are single, the combined planting of plants cannot be realized, and the planting efficiency is low.

Disclosure of Invention

The invention aims to provide a combined plant planting device for architectural design, which aims to solve the technical problems in the prior art.

In order to achieve the purpose, the invention adopts the technical scheme that: a combined plant growing apparatus for architectural design, comprising: the planting device mechanism is detachably arranged on the top surface of the building mechanism; the planting device mechanism comprises a transverse telescopic mechanism, a front telescopic mechanism, a rear telescopic mechanism, a longitudinal telescopic mechanism and a planting mechanism; the transverse telescopic mechanism, the front-back telescopic mechanism and the longitudinal telescopic mechanism adjust the planting position of the planting mechanism in a three-way manner through telescopic movement, and the planting mechanism adjusts the planting position through rotation of the planting mechanism relative to the longitudinal telescopic mechanism; the front and back telescopic mechanisms, the longitudinal telescopic mechanism and the planting mechanism are communicated with each other to form a conveying pipeline for plant seeds to pass through; the planting mechanism is provided with a plurality of branch conveying pipelines for the plant seeds to pass through, and the corresponding branch conveying pipelines are opened when the plant seeds with different sizes are planted; at the same time, the delivery duct and the branch delivery duct form a water or fertilizer supply duct.

In an alternative embodiment, the transverse telescopic mechanism comprises a plurality of link mechanisms hinged with each other, and the transverse movement of the plurality of link mechanisms hinged with each other changes the distance between the adjacent link mechanisms; and a sucker mechanism is fixedly arranged below the middle hinge point of the plurality of mutually hinged connecting rod mechanisms and is used for fixing the planting device mechanism on the top surface of the building mechanism.

In an optional embodiment, the front and rear telescoping mechanisms are arranged at the front end of the transverse telescoping mechanism, each front and rear telescoping mechanism comprises an L-shaped telescoping tube mechanism, and one end of each L-shaped telescoping tube mechanism is connected to the front end hinge point of the corresponding link mechanisms which are hinged to each other.

In an optional embodiment, the longitudinal telescopic mechanism comprises a linear telescopic pipe mechanism, and one end of the linear telescopic pipe mechanism is connected to the other end of the L-shaped telescopic pipe mechanism.

In an optional embodiment, the planting mechanism comprises a rotary pipe mechanism, a first planting pipe mechanism and a second planting pipe mechanism, the rotary pipe mechanism is rotatably connected to the other end of the linear telescopic pipe mechanism, and the other end of the rotary pipe mechanism is connected with the first planting pipe mechanism and the second planting pipe mechanism; and an opening and closing device for controlling the opening and closing of the first planting pipe mechanism and the second planting pipe mechanism is arranged between the rotating pipe mechanism and the first planting pipe mechanism and between the rotating pipe mechanism and the second planting pipe mechanism.

In an optional embodiment, the front end of the longitudinal telescopic mechanism is further provided with a discharging bin mechanism, the discharging bin mechanism comprises a first bin mechanism and a second bin mechanism for storing seeds of different sizes, and the first bin mechanism and the second bin mechanism are respectively provided with an opening plate mechanism for controlling the opening of the first bin mechanism and the second bin mechanism.

In an alternative embodiment, the first bin mechanism and the second bin mechanism are used for storing water and fertilizer, respectively.

In an alternative embodiment, a blower mechanism is connected to the delivery duct for blowing the plant seeds.

In an alternative embodiment, the planting device mechanism is not less than four.

In an optional embodiment, the building mechanism has at least two steps, at least four flowerpot positions are arranged on each step, and the flowerpot positions on each step are consistent in size.

The invention has the beneficial effects that:

(1) the combined plant planting device for building design is provided with the plurality of groups of planting devices, plant planting of a plurality of flowerpot positions on the same step surface of a building can be completed at one time, the planting devices do not need to be disassembled when the flowerpot positions on other step surfaces of the building are planted, and planting efficiency is improved.

(2) Each group of planting devices in the combined plant planting device for building design can stretch out and draw back horizontally, back and forth and longitudinally to complete the adjustment of the planting position of the seeds, and furthermore, each planting mechanism can rotate relative to the longitudinal stretching mechanism, so that the accuracy of the planting position of the plant seeds is improved.

(3) Each planting mechanism of the combined plant planting device for building design is provided with a plurality of branch conveying pipelines, so that seeds of different types and sizes can be conveyed, and combined planting of plants is completed; meanwhile, the conveying pipeline for planting the seeds can be used for conveying water and fertilizer, so that the cost is saved.

(4) The combined plant planting device for building design can be telescopically adjusted on the whole, and an operator can lift the combined plant planting device to the top surface of a building to be fixedly installed and used through the sucking disc when using the combined plant planting device, and can directly store the combined plant planting device when not using the combined plant planting device, so that the attractiveness of the building is not influenced.

Drawings

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

Fig. 1 is a schematic overall structural diagram of a combined plant planting device for architectural design according to an embodiment of the present invention.

Fig. 2 is a schematic view of a part enlarged mechanism at a position a in the combined plant planting device for architectural design according to an embodiment of the present invention.

Fig. 3 is a schematic view of a part enlargement mechanism at a position B in the combined plant planting device for architectural design according to an embodiment of the present invention.

Wherein, the reference numbers in the figures are: 1. the flowerpot comprises a building, 2 parts of a first flowerpot, 3 parts of a second flowerpot, 4 parts of a planting device, 4-1 parts of a sucker, 4-2 parts of a connecting rod, 4-3 parts of an air blower, 4-4 parts of a discharging bin, 4-5 parts of an L-shaped telescopic pipe, 4-6 parts of a linear telescopic pipe, 4-7 parts of a rotating pipe, 4-8 parts of a first planting pipe, 4-9 parts of a second planting pipe, 4-10 parts of a first storage bin, 4-11 parts of an open-close board and 4-12 parts of a second storage bin.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly or indirectly secured to the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element. The terms "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positions based on the orientations or positions shown in the drawings, and are for convenience of description only and not to be construed as limiting the technical solution. The terms "first", "second" and "first" are used merely for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. The meaning of "plurality" is two or more unless specifically limited otherwise.

Referring to fig. 1-3, the present embodiment provides a combined plant planting device for architectural design, comprising: the planting device 4 is arranged on the top surface of the building 1 in a detachable mode; preferably, planting device 4 is no less than four groups, and the planting in a plurality of flowerpot positions can once be accomplished to multiunit planting device 4, has improved planting efficiency. The ladder of the building 1 is not less than two stages, at least four flowerpot positions are arranged on each stage of ladder, and the sizes of the flowerpot positions on each stage of ladder are consistent. Preferably, building 1 is last to be provided with the two-stage ladder, sets up a plurality of first flowerpot position 2 that have on the first step face, is provided with a plurality of second flowerpot positions 3 on the second stage ladder face.

Specifically, the planting device 4 comprises a transverse telescopic mechanism, a front telescopic mechanism, a rear telescopic mechanism, a longitudinal telescopic mechanism and a planting mechanism; wherein, horizontal telescopic machanism, front and back telescopic machanism and vertical telescopic machanism are through the planting position of the three-dimensional adjustment planting mechanism of concertina movement, and above-mentioned guiding mechanism makes planting device 4 can once accomplish the plant planting of the same a plurality of flowerpot positions of ladder face of building 1, need not to dismantle planting device 4 when planting the flowerpot position of other ladder faces of building, and the position adjustment can be accomplished in the flexible of control planting device 4.

The transverse telescopic mechanism comprises a plurality of connecting rods 4-2 which are hinged with each other, and the distance between the adjacent connecting rods 4-2 is changed by the transverse movement of the connecting rods 4-2 which are hinged with each other; a sucker 4-1 is fixedly arranged below the middle hinge point of the connecting rods 4-2 which are mutually hinged, and the sucker 4-1 is used for fixing the planting device 4 on the top surface of the building 1. When the planting device 4 is used, an operator can lift the planting device 4 to the top surface of the building 1 and fixedly install the planting device through the sucking disc 4-1 for use, and when the planting device is not used, the planting device 4 is detached and directly stored, so that the attractiveness of the building 1 is not affected.

In addition, the front end of the transverse telescopic mechanism is provided with a front and rear telescopic mechanism, the front and rear telescopic mechanism comprises an L-shaped telescopic pipe 4-5, and one end of the L-shaped telescopic pipe 4-5 is connected with a front end hinge joint of a plurality of mutually hinged connecting rods 4-2. The longitudinal telescopic mechanism comprises a linear telescopic pipe 4-6, and one end of the linear telescopic pipe 4-6 is connected with the other end of the L-shaped telescopic pipe 4-5. Each group of planting devices 4 can stretch out and draw back horizontally, back and forth and longitudinally to complete the adjustment of the planting position of the seeds.

Furthermore, the front and back telescopic mechanisms, the longitudinal telescopic mechanism and the planting mechanism are internally communicated with each other to form a conveying pipeline for plant seeds to pass through, and the conveying pipeline is composed of an internal pipeline of the L-shaped telescopic pipe 4-5 and a linear telescopic pipe 4-6; the planting mechanism is provided with a plurality of branch conveying pipelines for plant seeds to pass through, and corresponding branch conveying pipelines are opened when plant seeds of different sizes are planted. In this embodiment, the conveying pipe is connected with an air blower 4-3, and the air blower 4-3 is used for blowing the plant seeds, conveying the seeds by wind power, and simultaneously preventing the seeds from being stuck in the conveying pipe.

It should be pointed out that the planting mechanism comprises a rotating pipe 4-7, a first planting pipe 4-8 and a second planting pipe 4-9, the rotating pipe 4-7 is rotatably connected with the other end of the linear telescopic pipe 4-6, and the rotating pipe 4-7 of the planting mechanism adjusts the planting position through rotating relative to the linear telescopic pipe 4-6 of the longitudinal telescopic mechanism by itself; every planting mechanism all can be rotatory for vertical telescopic machanism, has improved the accuracy of plant seed planting position. Pipeline and branch pipeline in this embodiment need not additionally to set up seed pipeline for accomplishing the flexible pipeline or the rotatory pipeline of planting position control, and structural design is ingenious, can make full use of current device, has reduced planting device's volume, facilitates the use and accomodates.

In the embodiment, the other end of the rotating pipe 4-7 is connected with a first planting pipe 4-8 and a second planting pipe 4-9; an opening and closing device for controlling the opening and closing of the first planting pipe 4-8 and the second planting pipe 4-9 is arranged between the rotating pipe 4-7 and the first planting pipe 4-8 and the second planting pipe 4-9, and the opening and closing of the first planting pipe 4-8 and the second planting pipe 4-9 can realize the conveying of seeds of different types and sizes to complete the combined planting of plants.

It is worth mentioning that the conveying pipeline and the branch conveying pipeline form a water or fertilizer supply pipeline, so that the overall cost of the planting device is saved.

In this embodiment, the front end of the longitudinal telescopic mechanism is further provided with a discharging bin 4-4, the discharging bin 4-4 comprises a first bin 4-10 and a second bin 4-12 for storing seeds of different sizes, and the first bin 4-10 and the second bin 4-12 are respectively provided with an opening plate 4-11 for controlling the opening of the first bin 4-10 and the second bin 4-12. Preferably, the first and second silos 4-10 and 4-12 are used for storing water and fertilizer, respectively.

The working process of the planting device provided by the invention is as follows: firstly, lifting a planting device to the top of a building 1, fixing the planting device on the top surface of the building 1 by using a sucker 4-1, then respectively placing two plant seeds with different types and sizes in a first bin 4-10 and a second bin 4-12, adjusting the telescopic distance of an L-shaped telescopic pipe 4-5 and a linear telescopic pipe 4-6 and the rotation angle of a rotating pipe 4-7, finding the corresponding planting position of a flowerpot position, opening one of the bins and one of the planting pipes at the moment, starting an air blower 4-3, conveying the seeds to the planting position in the flowerpot position, adjusting the linear telescopic pipe 4-6 again at the moment, and inserting the seeds into the flowerpot position; when planting seeds of another size and kind, opening another stock bin and another planting pipe, adjusting the linear telescopic pipes 4-6, and inserting the seeds into the same flowerpot position again to complete the combined planting of different plants. When watering and fertilizing are needed, a stock bin and a planting pipe are respectively opened to finish watering and fertilizing in the same way as the planting process without working of an air blower 4-3. And finally, taking down the planting device and collecting.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A combined plant growing apparatus for architectural design, comprising: the planting device is arranged on the top surface of the building (1) in a detachable mode, and comprises a planting device (4) which is arranged on a flowerpot position on the building (1) in a stepped mode;

the method is characterized in that: the planting device (4) comprises a transverse telescopic mechanism, a front telescopic mechanism, a rear telescopic mechanism, a longitudinal telescopic mechanism and a planting mechanism; the transverse telescopic mechanism, the front-back telescopic mechanism and the longitudinal telescopic mechanism adjust the planting position of the planting mechanism in a three-way manner through telescopic movement, and the planting mechanism adjusts the planting position through rotation of the planting mechanism relative to the longitudinal telescopic mechanism;

the front and back telescopic mechanisms, the longitudinal telescopic mechanism and the planting mechanism are communicated with each other to form a conveying pipeline for plant seeds to pass through; the planting mechanism is provided with a plurality of branch conveying pipelines for the plant seeds to pass through, and the corresponding branch conveying pipelines are opened when the plant seeds with different sizes are planted;

at the same time, the delivery duct and the branch delivery duct form a water or fertilizer supply duct.

2. The modular plant growing apparatus for architectural design according to claim 1, wherein said transverse telescoping mechanism comprises a plurality of links (4-2) hinged to each other, and wherein the transverse movement of said plurality of links (4-2) hinged to each other changes the distance between adjacent links (4-2); and suction cups (4-1) are fixedly arranged below the middle hinge points of the connecting rods (4-2) which are hinged with each other, and the suction cups (4-1) are used for fixing the planting device (4) on the top surface of the building (1).

3. The combined plant-planting device for architectural design according to claim 2, wherein said front and rear telescoping mechanisms are provided at the front ends of said lateral telescoping mechanisms, and said front and rear telescoping mechanisms comprise L-shaped telescoping tubes (4-5), and one ends of said L-shaped telescoping tubes (4-5) are connected to the front end hinge points of said plurality of mutually hinged connecting rods (4-2).

4. A combined plant growing device for architectural design according to claim 3, characterized in that said longitudinal telescoping mechanism comprises a linear telescoping tube (4-6), one end of said linear telescoping tube (4-6) being connected to the other end of said L-shaped telescoping tube (4-5).

5. The combined plant-planting device for architectural design according to claim 4, wherein said planting mechanism comprises a rotary pipe (4-7), a first planting pipe (4-8) and a second planting pipe (4-9), said rotary pipe (4-7) is rotatably connected to the other end of said linear telescopic pipe (4-6), and said first planting pipe (4-8) and said second planting pipe (4-9) are connected to the other end of said rotary pipe (4-7); an opening and closing device for controlling the opening and closing of the first planting pipe (4-8) and the second planting pipe (4-9) is arranged between the rotating pipe (4-7) and the first planting pipe (4-8) and between the rotating pipe and the second planting pipe (4-9).

6. The combined plant planting device for architectural design according to claim 5, wherein the front end of the longitudinal stretching mechanism is further provided with a discharging bin (4-4), the discharging bin (4-4) comprises a first bin (4-10) and a second bin (4-12) for storing seeds with different sizes, and the first bin (4-10) and the second bin (4-12) are respectively provided with an opening plate (4-11) for controlling the opening of the first bin and the second bin.

7. The combined plant-growing installation for architectural design according to claim 6, characterized in that said first silo (4-10) and said second silo (4-12) are used for storing water and fertilizer, respectively.

8. The modular plant growing installation for architectural design according to claim 7, wherein a blower (4-3) is connected to said transport duct, said blower (4-3) being used to blow said plant seeds.

9. The combined plant-planting device for architectural design according to claim 8, wherein said planting devices (4) are not less than four groups.

10. The combined plant planting device for bone building design according to claim 9, wherein the building (1) has not less than two steps, each step having at least four pot positions, and the pot positions on each step have the same size.