CN201830697U - Sectional vertical wire drawing greening device for wall isolation - Google Patents

Abstract

The utility model relates to a wall-isolated segmented vertical drawing greening device, which comprises a planting trough, plants, a climbing net, an irrigation and fertilization system, and a connection support structure of the planting trough and the climbing net; The attached climbing net, the connection support structure of the planting tank and the climbing net is installed on the facade of the structure or building; the irrigation and fertilization system is above or on the side of the planting tank. The height between the connecting support structures of the planting grooves of each layer is determined according to the structure of the building and the height of the plants. The climbing nets of the adjacent two layers of planting grooves can be connected together with screws or hoop wires or tie wires. The utility model not only does not need to be planted in the ground, but also can be planted from any height of the structure. Because of the segmentation, the height is not subject to any restrictions, and because the climbing net is installed, the plants have a certain distance from the wall; industrial production can be realized, and the plant can be quickly planted. The required greening area turns green (only the construction period is required), and a variety of evergreen plants can be selected for planting in all seasons.

Description

A wall isolation segmented vertical wire drawing greening device

technical field

The utility model relates to a vertical wire-drawing greening device for wall isolation and segmentation, which belongs to the field of three-dimensional cultivation and greening. the

Background technique

In today's cities, especially large and medium-sized cities, there are many high-rise buildings and every inch of land is expensive. Most of the places that can be greened have been used. Further greening and beautifying the environment still need new space and technology. The facades of urban buildings are now mostly vacant and of enormous size. The sunlight received by this part of the area in summer is undesirable. The exterior walls made of reinforced concrete or bricks radiate a lot of heat at night after being irradiated by the sun during the day, resulting in high indoor and outdoor temperatures. Formed the urban heat island effect. the

At present, the three-dimensional greening on the vertical plane is to plant climbing vines on the edge of buildings or other structures, such as climbing wall tigers, Lingxiao, etc. This method has many disadvantages: one is that it must be planted underground; the other is the height Restricted (the solid root is underground, the highest can only climb 5-6 storeys, about 20 meters); the third is that it takes a long time to grow tall; the fourth is that the existing plants that can climb high lose their leaves in winter, only The remaining vines are ugly and affect the landscape effect. Fifth, they climb close to the wall, which can easily cause the wall to be damp and the roots to damage the wall. the

Contents of the invention

In order to change the existing three-dimensional greening that must be planted underground and climbed close to the wall, the height is limited and it takes a long time to grow and leaves fall in autumn and winter. The utility model provides a wall-isolated segmented vertical brushed greening device. The device not only does not need to be planted underground, but also can be planted from any height of the structure without any restriction on the height, and the plants have a certain distance from the wall. It can realize industrialized production, can quickly turn the required greening place green (only the construction period is required), and can also choose a variety of evergreen plants for planting in all seasons. the

The technical scheme of the utility model is: a wall-isolated segmented vertical drawing greening device, including planting tanks and plants, characterized in that it also includes climbing nets, irrigation and fertilization systems, and multiple connection supports for planting tanks and climbing nets Structure; each layer of planting tanks is installed with climbing nets for plant climbing and attachment, planting tanks, climbing nets are connected with connecting support structures, and connecting support structures are installed on the facades of structures or buildings; irrigation and fertilization systems are installed in the planting tanks above or to the side. the

The vertical wire drawing greening device for wall isolation as described above is characterized in that: the height between the planting grooves connecting the support structures of each layer is determined according to the structure of the structure or the building and the height of the plants. the

The above-mentioned wall-isolated segmented vertical wire drawing greening device is characterized in that: the climbing net is fixed on the connecting support structure with screws or hoop wires or tie wires. the

The wall-isolated segmented vertical wire drawing greening device as described above is characterized in that: the climbing nets of two adjacent layers of planting grooves are connected together by screws or hoop wires or tie wires. the

The wall-isolated segmented vertical wire drawing greening device is characterized in that: the connection support structure between the planting groove and the climbing net is a reinforced concrete structure or a steel or iron metal structure. the

The wall-isolated segmented vertical wire drawing greening device as described above is characterized in that an inspection and maintenance passage and a ladder are arranged on the connecting support structure. the

The wall-isolated segmented vertical wire drawing greening device as described above is characterized in that the planting groove is a water storage planting groove. the

The wall-isolated segmented vertical wire drawing greening device is characterized in that: part or all of the planting grooves are connected by drainage pipes. the

The beneficial effects of the utility model are: the utility model device can rapidly increase the three-dimensional greening area, create a new green environment and landscape, hold dust and reduce noise, purify the air, and can protect and insulate buildings (or structures). The role of heat, thereby saving energy. the

Description of drawings

Fig. 1 is a schematic structural view of an embodiment of the utility model. the

Detailed ways

Below in conjunction with accompanying drawing and embodiment the utility model is described further. the

Explanation of the marks in Fig. 1: 1-planting groove, 2-climbing net, 3-connecting support structure, 4-plant, 5-irrigation and fertilization system, 6-hoop wire or tie wire, 7-structure (building) stand surface, 8-expansion bolts or welded embedded parts. the

The structural diagram of the vertical wire drawing greening device of the wall surface isolation section of the embodiment of the utility model is shown in Figure 1, including the planting tank 1, the climbing net 2, the connecting support structure 3, the plant 4, the irrigation and fertilization system 5, the hoop wire or the tying Wire 6, structure or building facade 7 and expansion bolts or welded embedded parts 8;

Expansion bolts or welded embedded parts 8 and connecting support structures 3 are installed on the structure or building facade 7; some or all of the planting tanks 1 can be connected by drainage pipes, and the irrigation and fertilization system 5 is on the top or side of the planting tank 1 , connected with water supply pipe and control system. Climbing nets 2 are installed between the planting tanks 1 on each layer, and the planting tanks 1 and the climbing nets 2 are fixed on the connection support structure 3. The height between the climbing nets 2 and the connection support structures 3 of each layer of planting tanks depends on the structure. Or the structure of the building facade 7 and the needs of the plants 4 are determined. The climbing nets 2 between adjacent two layers of planting grooves can be connected together with screws or hoop wires or tie wires 6 and connected to the connection support structure 3, and the hoop wires or tie wires 6 can be connected to each layer of climbing nets 2 and can be connected to each other. Fix the plants; if the climbing nets 2 of the adjacent two layers are separated, they only need to be fixed on the connecting support structure 3.

The connecting support structure 3 of the planting groove and the climbing net is a reinforced concrete structure or a steel or iron metal structure. The connecting support structure 3 can be provided with an inspection and maintenance channel and a ladder. the

Embodiment 1 is as follows:

(1), plant the selected plants 4 in the planting tank 1, and maintain them for later use. Planting 4 can also be planted after planting groove 1 is installed. the

(2) Vertically install expansion bolts or welded embedded parts 8 and connection support structure 3 on the structure or building facade 7 (the structure can also be designed in advance, and the connection support structure can be constructed). the

(3), planting groove 1 is installed on every floor (also available drainage pipe etc. are connected between planting groove 1). There may or may not be a certain distance between the planting groove 1 and the structure or building facade 7 . the

(4), install the climbing net 2 (silk or bar, grille etc., various materials all can be as metal, cotton rope, fiber etc.) . The climbing net 2 that the plant climbs and attaches to is connected and fixed on the connection support structure 3 with screws or tie wires 6 . the

(5), cooperate with special-purpose vertical greening irrigation and fertilization system 5, water or fertilize each planting tank 1, make later maintenance very convenient. the

Embodiment 2: The difference from Embodiment 1 is that the planting tank 1 is a water storage planting container. the

Embodiment 3: The difference from Embodiment 1 is that the planting tank 1 is partly or entirely connected with drainage pipes to form a whole, and water storage tanks and water pumps can be added to form water recycling. the

Embodiment 4: The difference from Embodiment 1 is that the dedicated vertical greening irrigation and fertilization system 5 is equipped with an automatic control system, which automatically waters or fertilizes each planting tank 1 at a fixed time and in a quantitative manner. the

The device of the embodiment of the utility model not only does not need to be planted underground, but also can be planted at any height from the structure or building facade 7. Because of the segmentation, the height is not subject to any restrictions, because the climbing net 2 is installed, and the plant 4 has a distance from the wall. At a certain distance, plant 4 can have multiple options. the

Claims (7)

1. a sectional vertical wire drawing greening device for wall isolation comprises planting groove and plant, it is characterized in that: also comprise a plurality of connected support structures of seeking connections with net, irrigation and fertilization system and planting groove and seeking connections with net; The net of seeking connections with that the plant climbing depends on is installed between every layer of planting groove, planting groove and seek connections with net and be connected on the connected support structure, connected support structure be installed in construct or thing building facade on; Irrigation and fertilization system is installed in top or the side of planting groove.

2. sectional vertical wire drawing greening device for wall isolation according to claim 1 is characterized in that: seek connections with net and be fastened on the connected support structure with screw or hoop wire, bundle silk.

3. sectional vertical wire drawing greening device for wall isolation according to claim 1 is characterized in that: the net of seeking connections with of adjacent two layers planting groove links together with screw or hoop wire, bundle silk.

4. metope according to claim 1 is isolated the vertical wire drawing afforestation equipment of segmentation, it is characterized in that: planting groove is reinforced concrete structure or steel, ferrous metal structure with the supporting construction that is connected of seeking connections with net.

5. sectional vertical wire drawing greening device for wall isolation according to claim 1 is characterized in that: repair and maintenance passage and cat ladder are set on the connected support structure.

6. metope according to claim 1 is isolated the vertical wire drawing afforestation equipment of segmentation, and it is characterized in that: planting groove is the retaining planting groove.

7. according to claim 1 or 6 described sectional vertical wire drawing greening device for wall isolations, it is characterized in that: partly or entirely connect with drainage pipeline between the planting groove.

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