CN108824678B - Light guide green plant curtain wall - Google Patents

Abstract

The invention discloses a light guide green plant curtain wall, which is characterized in that at least part of wallboards are provided with a light transmission area facing one side of a building, and a plurality of through holes are formed in the light transmission area and wallboards adjacent to the light transmission area; the steel skeleton is fixedly provided with a cultivation box, the top of the cultivation box is connected with a light transmission system and a ventilation pipe, and the other end of the light transmission system is arranged in a through hole of the light transmission area; the other end of the ventilation pipe is communicated with a through hole adjacent to the light transmission area; the region corresponding to the cultivation box is provided with a rotary door, and the rotary door is provided with a heat preservation layer and an interior decoration layer. According to the scheme, the outer wall can be fully utilized as an indoor and outdoor interface, the indoor air is introduced through the light pipe, cultivation and harvesting can be facilitated, and related operations are realized indoors, so that the method is convenient and safe.

Description

Light guide green plant curtain wall

Technical Field

The invention relates to a curtain wall, in particular to a green plant curtain wall.

Background

The existing curtain wall has a plurality of forms such as GRC curtain wall, glass curtain wall and the like, and along with the development of the green energy-saving building concept, the vertical greening technology receives unprecedented attention.

The existing green energy-saving curtain wall mainly has two forms, one is to design an outer wall body into a plant cultivation and climbing frame, and nutrition required by plant growth is ensured by arranging a cultivation substrate and a drip irrigation system outside. The second is a double-layer curtain wall, plants are cultivated in an inner layer, and the outer layer is made of glass and irrigated through a roof rainwater pipe. In the first prior art, the outer wall body carries the plant vines, the cultivation substrate and the water. Therefore, the construction process is complicated, and the exposed culture medium is easy to scatter or diffuse along the wall body to pollute other parts of the wall body. In the second kind double-deck curtain, the system itself is comparatively complicated, and the installation is realized very troublesome, and is comparatively high to workman's technical requirement, and glass curtain wall is the important basic of urban light pollution moreover, adopts the more and less of this kind of mode at present, and the greenhouse effect that double-deck glass curtain wall caused simultaneously makes the inside temperature of system very high, and the plant transpiration effect is big, hardly survives. In addition, double glazing curtain walls themselves are limited by building functional requirements such as light guiding, thermal insulation, and cannot be implemented in many houses and areas.

The two prior arts have the technical problems that the installation and maintenance are difficult, the workload of the later maintenance is too large, for example, the first technique needs to manually carry out the suspending operation outside the wall, and the workload is very large. The second technology can only be implemented in glass curtain walls, and the irrigation system is complex, so that the system of the whole building needs to be designed, and the post treatment of plant branches and leaves is troublesome.

Disclosure of Invention

The invention aims to: in order to solve the problems in the prior art, a light guide green plant curtain wall is provided.

The technical scheme is as follows: a light guide green plant curtain wall comprises a steel skeleton, a wallboard arranged on one side of the steel skeleton, and an insulation layer and an inner decoration layer arranged on the other side of the steel skeleton,

at least part of the wallboards are provided with a light-transmitting area facing one side of the building, and a plurality of through holes are formed in the light-transmitting area and wallboards adjacent to the light-transmitting area;

the steel skeleton is fixedly provided with a cultivation box, the top of the cultivation box is connected with a light transmission system and a ventilation pipe, and the other end of the light transmission system is arranged in a through hole of the light transmission area; the other end of the ventilation pipe is communicated with a through hole adjacent to the light transmission area;

a rotary door is arranged in a region corresponding to the cultivation box, and the rotary door is provided with a heat preservation layer and an inner decoration layer;

the wallboard is GRC wallboard, metal wallboard, stone wallboard or photoelectric curtain wall.

In a further embodiment, the cultivating box comprises a box body, a tray arranged on the inner side of the box body, a plurality of cultivating plates connected to the tray, and nozzles positioned above the cultivating plates.

In a further embodiment, the cultivating plate is rotatably connected with the tray through a rotation shaft.

In a further embodiment, a sleeve extending to two ends of the through hole is arranged in the through hole in the light transmission area, the light transmission glass is tightly connected to the through hole through the internal thread cover at the outer side of the through hole, and the light guide pipe of the light transmission system is tightly connected with the sleeve through the fastening ring at the inner side of the through hole.

In a further embodiment, the light-transmitting region is formed of a plurality of basic units, each unit extending inwardly for a predetermined distance for the wall panel and then extending perpendicularly outwardly for a predetermined distance at the extended end to form an L-shaped structure.

In a further embodiment, the light-transmitting area is a through hole formed on the wall board, and the light-transmitting system extends outwards by a predetermined distance to form an inclined plane light guide structure.

In a further embodiment, a horizontal sliding rail is arranged on the steel skeleton, and two ends of the sliding rail are provided with stop parts; the cultivation box is provided with a sliding sleeve matched with the horizontal sliding rail.

In a further embodiment, the box is fixedly connected to the steel skeleton by a pallet.

In a further embodiment, the steel skeleton is provided with a hinge or a rotating connection hook, and the cultivation box is connected with the steel skeleton in a rotating manner.

In a further embodiment, a locking structure is provided on the steel skeleton, by which the cultivation box is fixed to the steel skeleton when the cultivation box is moved to a predetermined position.

The beneficial effects are that: the invention can fully utilize the outer wall as an indoor and outdoor interface, is introduced into the room through the light pipe, can facilitate cultivation and harvesting, and is convenient and safe because related operations are realized indoors; the invention has wide application range, can be used for various newly-built and built houses, is convenient to reform, basically has no damage, and can not influence the water tightness and the air tightness of the houses.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic view of the front partial structure of the present invention.

Fig. 3 is a schematic view of the rear partial structure of the present invention.

Fig. 4 is a schematic view of the structure in another state of the invention.

Fig. 5 is a schematic structural view of the light transmission system of the present invention.

In the drawings, each reference numeral is: wallboard 1, steel skeleton 2, tripe 3, air pipe 3a, light transmission area 4, sunshine 5, light pipe 7, heat preservation 8, interior trim 9, tee bend 10, light guide inlet 11, roof 12, spraying system 13, cultivation case 14, perforated plate 15, locking pin 15a, axis of rotation 15b, plant 16, tray 17, layer board 18, staple 19, floor 20, angle steel 21, open door 22, hinge 22a.

Detailed Description

The structural details and the working principle of the invention are described in connection with fig. 1 to 5. As shown in fig. 1, in the first embodiment of the present invention, the wall board 1 is fixed on the outer side (i.e. the side far from the building) of the steel skeleton 2 (e.g. the light steel keel), the insulation layer 8 and the inner decoration layer are fixed on the outer side (i.e. the side near the building) of the steel skeleton 2, and the connection fixing manner between the GRC wall board 1 and the steel skeleton 2, the insulation layer 8, the inner decoration layer and the steel skeleton 2 can be the existing manner. It is noted that in this embodiment the wall panel 1 is provided with a section of light-transmitting area 4 and ventilation holes, in which area the wall panel 1 is provided with a number of through holes. The through holes are preferably arranged in rows. The cultivation box 14 is fixedly connected to the steel skeleton 2, and specifically, a supporting plate 18 is fixed to the steel skeleton 2, and a reinforcing rib is arranged at the bottom of the supporting plate 18, and angle steel 21 is adopted in the embodiment. The supporting plate 18 is fixedly connected with the steel skeleton 2 or the connecting plate through the fixing nails 19, and can be directly connected to the steel skeleton 2/the floor slab 20 or can be fixedly connected to the steel skeleton 2 through the bearing connecting piece. The inside of the cultivating box 14 is provided with a tray 17 and a porous cultivating plate (porous plate 15) rotatably connected to the tray 17 through a rotation shaft 15b, whereby the light receiving angle of the plants 16 on the porous cultivating plate can be adjusted. An automatic nozzle is provided above the cultivating box 14, and the nozzle is fixed by a locking pin 15 a. The top of the cultivating box 14 is provided with light holes and ventilation holes. The light guide 7 in the light guide system has one end fixed in the through hole on the light transmitting area 4 of the wall plate 1 and the other end extending to the light transmitting hole at the top of the cultivating box 14, thereby guiding the light into the cultivating box 14. One end of the ventilating duct 3a is connected with a ventilating hole on the wallboard 1, the other end is communicated with a ventilating hole on the cultivation box 14, and a louver 3 is arranged at the ventilating hole part on the wallboard 1.

In this figure, the exterior features of the light-transmitting zone 4 and the ventilation holes are shown, as can be seen in this figure, the light-transmitting zone 4 and the ventilation zone are aesthetically pleasing in form, without affecting the overall performance of the wall panel 1.

Next, fig. 3 is described, in which it can be seen that the wall panel 1 forms a sealed whole from an indoor point of view, and that the incubator 14 is positioned for convenient operation by indoor personnel.

Turning to fig. 4, which shows the effect of opening the thermal insulation layer 8 and the interior decoration layer 9, the interior decoration layer 9 and the thermal insulation layer 8 are made into an opening door 22, or the opening door is provided with the thermal insulation layer 8 and the interior decoration layer, and the connecting end of the opening door 22 is connected through a hinge 22a. The rotating connection, the free end is provided with a seal, which when closed forms a sealing contact. In this figure it can be seen that the incubator opening door 14a can also be opened, which is rotatably connected to the incubator body by means of the hinge 14 b.

Finally, in fig. 5, the sealing connection structure of the light guide system and the wallboard 1 is described, the light guide 7 of the light transmission system extends to the light transmission hole, the sleeve 4b is arranged in the light transmission hole, the light guide 7 is sleeved on the periphery of the sleeve, and the light guide 7 is fastened and connected by the fastening ring 4d after being accommodated. Outside, the light hole is covered with a glass, fixed at the through hole by an internal screw cap 4a, and provided with a sealant 4c.

In the above embodiment, the light-transmitting region 4 is constituted by a plurality of basic units, each of which is an inward extension of the wall panel 1 and is extended by a predetermined distance, and then extends perpendicularly outward by a predetermined distance at the extended end, forming an L-shaped structure. One or more zigzagged regions are formed. The structure is not only beneficial to forming a plurality of models and reflecting the artistic effect of the wallboard 1, but also can form the structure for preventing the photoconductive glass from being damaged by external objects. Meanwhile, the waterproof effect is better.

In a further embodiment, the bending extension part of the light-transmitting area forms an included angle of 26-40 degrees with the vertical direction, so that light can enter along a certain angle, and the receiving and incidence efficiency of the light is improved. Meanwhile, the part extending outwards perpendicularly from the extending end forms a preset included angle, so that sundry dust cannot gather, and the cleanness of the light inlet is kept.

In other embodiments, the light-transmitting area 4 may also be designed as a through hole opened on the wall panel 1, and the light-transmitting system extends outwards by a predetermined distance to form a slant light-guiding structure.

In the above embodiment, the light pipes 7 are multiple groups, one ends of each light pipe are connected and fixed with the light holes, and the other ends of each light pipe are fixed through the tee joint 10 or the multiple channels and then extend into the cultivation box 14 through the light guiding inlet system 11.

In a further embodiment, the roof 12 of the incubator is provided with an automatic spray or drip tube system, the water tank and water pump of which are provided indoors, windowsill or fixed to a steel skeleton.

Next, other embodiments will be described in which the cultivating box 14 is fixedly connected to the steel skeleton 2 in the above-described embodiment. In the following embodiments, other connection and fixation manners may be adopted according to the working conditions.

For example, in some implementations, a horizontal slide rail may be provided on the steel skeleton 2, and two ends of the slide rail are provided with stop portions; the cultivation box 14 is provided with a sliding sleeve which is matched with the horizontal sliding rail. Thus, the cultivation box 14 can be installed at a less convenient place, instead of providing the cultivation box 14 only at a place facing the indoor user. In this embodiment, the light pipe 7 is adapted to have an extendable length to facilitate movement of the incubator 14.

In a further preferred embodiment, the lower part of the steel skeleton 2 is provided with a carrier plate and a slide rail, the upper part is fixedly connected with a slide bar, the slide bar is provided with a slide ring, the slide ring is provided with a fixing part, the bottom of the cultivation box 14 moves along the slide rail through a slide sleeve, the upper part is connected with the fixing part of the slide ring, and the cultivation box moves along the slide bar at the upper part through the slide ring. In this embodiment, the mounting and dismounting of the incubator 14 is facilitated. And a plurality of cultivation boxes 14 may be provided to form a dynamic cultivation process.

In a further embodiment, the steel skeleton 2 is provided with a hinge or a rotating connection hook, and the cultivating box 14 can be rotated to a certain orientation, so that at least part of the area is positioned indoors or at a position where an indoor operator is convenient to contact, thereby facilitating the maintenance of the plants 16 in the cultivating box 14.

In a further embodiment, the steel skeleton 2 is provided with a set of sliding bars, up and down, on which a positioning hook or locking device is provided, which is moved along the sliding bars by means of bearings, for example sliding or rolling bearings. The cultivating box 14 is provided with a locating hole or locating structure adapted thereto, and can be connected with a locating hook or locking device, thereby being fixed on the frame.

In a further embodiment, the steel skeleton is provided with a sliding rail or a hanging rod correspondingly from top to bottom, a sliding sleeve or a sliding ring is sleeved on the sliding rail or the hanging rod respectively, a lock catch or an installation connecting part is arranged on the sliding sleeve or the sliding ring, and a fixing structure or a part is correspondingly arranged on the cultivation box from top to bottom. The cultivation box is fixed through the installation of the upper part and the lower part, a sliding structure is formed, and the cultivation box can be conveniently moved to a certain position on one side of the opening door.

In a further embodiment, the steel skeleton is provided with locking buckles or locking ropes, which lock the cultivation boxes when slid to a certain position, forming a relatively fixed connection.

In a further embodiment, a light shield is rotatably connected to the top of the inside of the cultivating box, the light shield covering at least part of the light pipe light outlet. When the sunlight is strong, the light shielding plate is rotated, so that the intensity of incident light is reduced, and the growth environment of plants is ensured.

In practice, the wall panel itself is reserved with light transmitting and ventilation structures, i.e. the GRC wall panel installed in the relevant area is designed in the shape and structure of the above described embodiments. Relevant fixed structure is welded in advance on the steel skeleton, the door is opened in advance, and a user can directly install and fix the structure required by cultivation when implementing.

The curtain wall structure which is already installed can be constructed indoors, relevant fixing structures are welded, and the cultivation container is installed. Therefore, the method is very convenient to preassemble or reform, construction is not needed outdoors, related operation can be completed indoors, construction is safe, and operation is convenient.

In the above implementation, it can be seen that, in each aspect of the present application, the outstanding features include at least the following points: 1. the whole structure of the curtain wall has no great influence, does not influence the physical properties of the curtain wall (including airtight, heat preservation, wind resistance and the like), is convenient to construct and install, can be carried out indoors, is safe and quick, has no isolation in some design schemes, and has the advantages that the climbing frame of plants is arranged on the outer side of the curtain wall, the physical structure of the outer side of the curtain wall is changed by the vines and branches and leaves of the plants, the wind resistance and the whole weight of the curtain wall are improved (especially in the south and southeast coastal areas with more weather days), the service life and the use safety of the curtain wall are adversely affected, and the application and popularization are very difficult. 2. Various maintenance works of indoor operators are all indoor, the maintenance works are not needed to be carried out indoors, and the maintenance work is safe, convenient and easy to realize and popularize. 3. The cultivating box 14 is a relatively sealed structure, and water vapor thereof does not enter the inside of the curtain wall, so that the steel structure inside the curtain wall is ensured not to be corroded by the water vapor, which is very important for the current curtain wall structural system. Since the green curtain wall including the plant curtain wall belongs to an additional functional design, the green curtain wall does not affect the basic functions of the curtain wall, such as air tightness, water tightness and heat preservation performance, otherwise, the green curtain wall is indelible and difficult to apply and popularize. In some current designs, plants are directly cultivated in a steel skeleton or a double-layer glass curtain wall, the growth space of the plants is not limited, and water vapor and corrosive substances caused by respiration and transpiration of the plants have adverse effects on the curtain wall, so that the plants are not accepted by the market, and in the invention, the problems do not exist. 4. The thickness of curtain is not increased to this scheme, does not influence the design of curtain, and is very favorable to popularization and application. 5. The control of the vapor sunlight 5 in the cultivation box 14 can be operated and realized indoors, and the automatic cultivation can be realized.

The specific features described in the above embodiments may be combined in any suitable manner without contradiction. The various possible combinations of the invention are not described in detail in order to avoid unnecessary repetition. Moreover, any combination of the various embodiments of the invention can be made without departing from the spirit of the invention, which should also be considered as disclosed herein.

Claims (7)

1. A light guide green plant curtain wall comprises a steel skeleton, a wallboard arranged on one side of the steel skeleton, and an insulation layer and an inner decoration layer arranged on the other side of the steel skeleton, and is characterized in that,

at least part of the wallboards are provided with a light-transmitting area facing one side of the building, and a plurality of through holes are formed in the light-transmitting area and wallboards adjacent to the light-transmitting area;

the steel skeleton is fixedly provided with a cultivation box, the top of the cultivation box is connected with a light transmission system and a ventilation pipe, and the other end of the light transmission system is arranged in a through hole of the light transmission area; the other end of the ventilation pipe is communicated with a through hole adjacent to the light transmission area;

a rotary door is arranged in a region corresponding to the cultivation box, and the rotary door is provided with a heat preservation layer and an inner decoration layer;

the wallboard is GRC wallboard, metal wallboard, stone wallboard or photoelectric curtain wall;

the through hole in the light transmission area is provided with sleeves extending to two ends of the through hole, the outside of the through hole is tightly connected with the light transmission glass on the through hole through the internal thread cover, the inner side of the through hole is tightly connected with the light guide pipe of the light transmission system and the sleeve through the fastening ring;

the light-transmitting area is composed of a plurality of basic units, each unit is formed by extending a wallboard inwards and extending a preset distance, and then extending outwards perpendicularly at the extending end for a preset distance to form an L-shaped structure;

a horizontal sliding rail is arranged on the steel skeleton, and two ends of the sliding rail are provided with stop parts; the cultivation box is provided with a sliding sleeve matched with the horizontal sliding rail.

2. The light directing green plant curtain wall of claim 1, wherein the cultivating box comprises a box body, a tray disposed inside the box body, a plurality of cultivating plates connected to the tray, and nozzles located above the cultivating plates.

3. The light-directing green plant curtain wall of claim 2, wherein the cultivating plate is rotatably connected to the tray by a rotation shaft.

4. The light-guiding green plant curtain wall according to claim 1, wherein the light-transmitting area is a through hole formed in the wall panel, and the light-transmitting system extends outwardly a predetermined distance to form a beveled light-guiding structure.

5. The light-directing green plant curtain wall of claim 2, wherein the box is fixedly connected to the steel skeleton by a pallet.

6. The photoconductive green plant curtain wall of claim 1, wherein the steel skeleton is provided with a hinge or a rotary connection hook, and the cultivation box is rotatably connected with the steel skeleton.

7. The light-guiding green plant curtain wall according to claim 1 or 6, wherein a locking structure is provided on the steel skeleton, and the cultivation box is fixed with the steel skeleton by the locking structure when the cultivation box is moved to a predetermined position.