CN211064337U - Environment-friendly planting mechanism for light nursery stocks on inclined roof - Google Patents

Abstract

The utility model provides a mechanism is planted in inclined plane roof light nursery stock environmental protection belongs to green field of planting. The light seedling planting device comprises an inclined roof and is characterized in that a water storage cavity is arranged on the inclined roof, and a planting cavity for planting light seedlings is connected to one side, away from the top of the inclined roof, of the water storage cavity. The utility model discloses the advantage lies in being equipped with the planting chamber that can be used for planting the light nursery stock on the inclined plane roof among the device, can make full use of the space on roof and make the light nursery stock receive sufficient sunshine and shine.

Description

Environment-friendly planting mechanism for light nursery stocks on inclined roof

Technical Field

The utility model belongs to green field of planting especially relates to a mechanism is planted in environmental protection of inclined plane roof light nursery stock.

Background

The roof in the house of current folk house or suburb is triangle-shaped, and the roof can receive sunshine long-time and shine, can not be blocked sunshine by the wall, can utilize the roof of slope to plant light nursery stock, can effectively utilize the roof on the one hand, and on the other hand can green the environment, and light nursery stock weight is little, can not increase overweight bearing capacity for the roof, but this scheme has sufficient sunshine to shine, nevertheless need to solve the water of irritating and the water storage of light nursery stock.

For example, chinese patent document discloses a roof plantation [ patent application No.: CN201320025092.X ], which comprises cement preset plates, partition boards, waterproof bottom plates, retaining walls, reinforcing meshes, concrete layers and soil layers; the waterproof structure is characterized in that a cavity structure is arranged between the cement preset plate and the waterproof bottom plate, the waterproof bottom plate has inclination, the cavity structure is divided into a plurality of small chambers by partition plates, a reinforcing mesh is laid above the cement preset plate, a concrete layer is poured on the reinforcing mesh, the soil layer is uniformly laid above the concrete layer, a retaining wall higher than the soil layer is surrounded around the cement preset plate, and vent holes are formed in the bottom of the retaining wall corresponding to the small chambers; the utility model discloses make full use of idle space, production green health food have also reduced the cost of life simultaneously. The device utilizes a roof to make plants receive more sunlight, but the device does not have a water storage function.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem, provide inclined plane roof light nursery stock environmental protection planting mechanism.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides a mechanism is planted in inclined plane roof light nursery stock environmental protection, includes the inclined plane roof, its characterized in that, the inclined plane roof on be equipped with the retaining chamber, the retaining chamber keep away from one side at inclined plane roof top and be connected with the planting chamber that is used for planting the light nursery stock.

In the above-mentioned mechanism is planted in slope roof light nursery stock environmental protection, water storage chamber and planting chamber all place along the slope roof surface, and the inclination in water storage chamber and planting chamber is the same with the inclination on slope roof.

In foretell inclined plane roof light nursery stock environmental protection planting mechanism, the both ends of planting the chamber articulated have a plurality of to plant the fence, the side end face that the planting fence is close to the inclined plane roof can offset with the bottom end wall of planting the chamber, a plurality of plants the fence and places along planting the chamber end wall interval, is equipped with the planting basket that a plurality of is used for planting the light nursery stock in every planting fence.

In the environment-friendly planting mechanism for the light nursery stocks on the inclined plane roof, the planting fence is internally provided with the water storage tank, and the planting baskets are arranged in the water storage tank at intervals.

In the environment-friendly planting mechanism for the light nursery stocks on the inclined plane roof, the cross sections of the planting fences and the water storage tank are in an inverted trapezoid shape, the side end face, close to the top of the inclined plane roof, of each inverted trapezoid-shaped planting fence is provided with a water taking plate, and the thickness of each water taking plate is gradually reduced from one end, close to the end wall of the bottom of the planting cavity, to the other end.

In the environment-friendly planting mechanism for the light nursery stocks on the inclined plane roof, a plurality of rotating motors which are in one-to-one correspondence with the planting fences are arranged in the end walls of the planting cavities, and output shafts of the rotating motors are connected with the planting fences.

In the environment-friendly planting mechanism for the light seedlings on the inclined plane roof, the water storage plate movably connected with the inclined plane roof is arranged at the joint of the water storage cavity and the planting cavity, and the moving direction of the water storage plate is vertical to the end wall of the bottom of the water storage cavity.

In the environment-friendly planting mechanism for the light seedlings on the inclined roof, the overflow-preventing plate is arranged on the upper side of the water storage cavity, and a gap is formed between the overflow-preventing plate and the water storage plate.

In foretell inclined plane roof light nursery stock environmental protection planting mechanism, the one end that the chamber was kept away from planting to the retaining chamber be connected with the water conservancy diversion chamber, the water conservancy diversion chamber be trapezoidal, just the end wall of water conservancy diversion chamber both sides be the slope form, the end wall of this slope form extends to the other end towards the direction of keeping away from planting the chamber central line with the one end that the planting chamber is connected.

In the environment-friendly planting mechanism for the light nursery stocks on the inclined roof, the diversion cavity is also connected with a water inlet pipe, and the end part of the water inlet pipe is connected with a water pump.

Compared with the prior art, the utility model has the advantages of:

1. the device is provided with a planting cavity on the sloping roof for planting the light nursery stock, and the space of the roof can be fully utilized to ensure that the light nursery stock is irradiated by sufficient sunlight.

2. The water storage cavity in the device can play the roles of water storage and irrigation, when raining, rainwater falling on a roof can flow into the water storage cavity, water in the water storage cavity can flow downwards into the planting cavity under the action of self gravity to irrigate the light nursery stock, and therefore the problems of water irrigation and water storage of the light nursery stock are solved.

Drawings

Fig. 1 is an overall schematic view of the present invention;

fig. 2 is a schematic cross-sectional view of a-a in fig. 1.

In the figure: the planting device comprises a sloping roof 10, a water storage cavity 11, a planting cavity 12, a planting fence 13, a planting basket 14, a water storage tank 15, a water taking plate 16, a rotating motor 17, a water storage plate 18, an anti-overflow plate 19, a diversion cavity 20 and a water inlet pipe 21.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1-2, the environment-friendly planting mechanism for light nursery stocks on the inclined plane roof comprises an inclined plane roof 10, wherein a water storage cavity 11 is arranged on the inclined plane roof 10, one side, far away from the top of the inclined plane roof 10, of the water storage cavity 11 is connected with a planting cavity 12 for planting the light nursery stocks, the water storage cavity 11 and the planting cavity 12 are both arranged along the surface of the inclined plane roof 10, and the inclination angles of the water storage cavity 11 and the planting cavity 12 are the same as the inclination angle of the inclined plane roof 10.

The roof in the house of current folk house or suburb is triangle-shaped, and the roof can receive sunshine long-time and shine, can not be blocked sunshine by the wall, can utilize the roof of slope to plant light nursery stock, can effectively utilize the roof on the one hand, and on the other hand can green the environment, and light nursery stock weight is little, can not increase overweight bearing capacity for the roof, but this scheme has sufficient sunshine to shine, nevertheless need to solve the water of irritating and the water storage of light nursery stock.

The utility model discloses in, plant the light nursery stock in the chamber 12, retaining chamber 11 can play the effect of water storage and watering, when raining, the rainwater that falls on the roof can flow in retaining chamber 11, when not raining, pour water into retaining chamber 11 from the underground water intaking, because the inclination of retaining chamber 11 and planting chamber 12 is the same with inclined plane roof 10's inclination, hydroenergy in retaining chamber 11 can flow in downwards under the effect of self gravity and plant chamber 12 watering light nursery stock, thereby solve the watering and the water storage problem of light nursery stock.

The planting cavity 12 is hinged with a plurality of planting fences 13 at two ends, the side end face of each planting fence 13 close to the inclined roof 10 can abut against the end wall of the bottom of the planting cavity 12, the planting fences 13 are arranged at intervals along the end wall of the planting cavity 12, and a plurality of planting baskets 14 for planting light nursery stocks are arranged in each planting fence 13.

Because water flows into the planting cavity 12 along the water storage cavity 11 under the action of the gravity of the water storage cavity 11, the water storage cavity 11 and the planting cavity 12 are obliquely arranged, however, in order to better receive sunlight irradiation of the light seedlings, the light seedlings need to be vertically arranged, and in rainy days, water arcs collected by a roof continuously flow into the planting cavity 12, if the end surfaces of the planting fence 13 are directly abutted against the end walls of the planting cavity 12, the water flowing into the planting cavity 12 can be directly poured into the planting fence 13, so that the light seedlings are soaked in the water for a long time to cause death of the light seedlings, in the example, the planting fence 13 is vertically arranged and hinged with the planting cavity 12, when the water needs to be poured, the planting fence 13 is rotated to directly abut against the end walls at the bottom of the planting cavity 12, so that the water flows into the planting fence 13 for pouring, and when the water is poured into the planting fence 13 sufficiently, turning back to plant fence 13, making rivers flow out the roof downwards along planting chamber 12, in addition, owing to plant the both ends of chamber 12 and articulate and have a plurality of to plant fence 13, a plurality of plants fence 13 and rotates in proper order and reaches the effect of watering.

The planting fence 13 is internally provided with a water storage tank 15, and a plurality of planting baskets 14 are arranged in the water storage tank 15 at intervals. The water holding tank 15 can store water flowing into the planting fence 13, and in this example, the height of the planting basket 14 is higher than that of the planting fence 13, so that the water in the water holding tank 15 can submerge the planting basket 14 with a certain thickness but can not submerge the root of the light nursery stock, and the water in the water holding tank 15 can continuously provide water for the light nursery stock when not raining.

The cross sections of the planting bars 13 and the water storage tank 15 are in an inverted trapezoid shape, a water taking plate 16 is arranged on the side end face, close to the top of the inclined roof 10, of the inverted trapezoid planting bar 13, and the thickness of one end, close to the end wall of the bottom of the planting cavity 12, of the water taking plate 16 is gradually reduced and extends to the other end.

When turning to plant fence 13 and will plant the terminal surface of fence 13 and directly offset with the bottom end wall of planting chamber 12, rivers earlier with the less one end contact of 16 thickness of fetching water board, because the less difference in height between the less one end of 16 thickness of fetching water board and the bottom end wall of planting chamber 12 can neglect, therefore rivers can be directly through fetching water board 16 flow into plant fence 13 in, be more water of storage tank 15 of falling trapezoidal can save.

The end wall of the planting cavity 12 is internally provided with a plurality of rotating motors 17 which are in one-to-one correspondence with the planting bars 13, and the output shafts of the rotating motors 17 are connected with the planting bars 13.

When the planting bars 13 need to be rotated, the rotating motor 17 works to drive the corresponding planting bars 13 to rotate, so that the end surfaces of the planting bars 13 are directly abutted against the end walls of the bottoms of the planting cavities 12.

The junction of the water storage cavity 11 and the planting cavity 12 is provided with a water storage plate 18 movably connected with the inclined roof 10, and the moving direction of the water storage plate 18 is vertical to the end wall of the bottom of the water storage cavity 11.

The sloping roof 10 is internally provided with a driver which can drive the water storage plate 18 to move, when the planting fence 13 stores water and does not need to be irrigated, and water is formed all the time in rainy days and flows on the sloping roof 10 at the moment, the driver works to drive the water storage plate 18 to move out of the sloping roof 10, so that partial water flow can be resisted and the partial water can be stored, and when the water stored in the planting fence 13 is used up, the driver works to drive the water storage plate 18 to move downwards and extend into the sloping roof 10, so that the water flows into the planting cavity 12 and flows into the planting fence 13.

An anti-overflow plate 19 is arranged on the upper side of the water storage cavity 11, and a gap is formed between the anti-overflow plate 19 and the water storage plate 18. The water blocked by the water storage plate 18 is stored in the cavity formed by the water storage cavity 11 and the anti-overflow plate 19, when the water in the cavity is excessive, the excessive water can flow out of the water storage cavity 11 through the gap between the anti-overflow plate 19 and the water storage plate 18 and directly flow out of the sloping roof 10 through the planting cavity 12.

One end of the water storage cavity 11, which is far away from the planting cavity 12, is connected with a flow guide cavity 20, the flow guide cavity 20 is trapezoidal, end walls on two sides of the flow guide cavity 20 are inclined, and one end, which is connected with the planting cavity 12, of the inclined end wall extends to the other end in the direction far away from the center line of the planting cavity 12.

The diversion cavity 20 has a diversion function, raindrops falling on the diversion cavity 20 flow into the water storage cavity 11 under the guide of the inclination of the inclined roof 10 and the guide of the end walls at the two sides of the diversion cavity 20, the diversion cavity 20 is trapezoidal, the width of the diversion cavity 20 closer to the top of the inclined roof 10 is larger, and more rainwater can be collected.

The diversion cavity 20 is also connected with a water inlet pipe 21, and the end part of the water inlet pipe 21 is connected with a water pump.

When no water source is caused by long-time rain, the water in the mountains can be pumped up to the diversion cavity 20 by the water pump, so that the water is filled.

The utility model discloses a theory of operation does: when the light nursery stock is needed to be irrigated, the rotating motor 17 is sequentially driven to rotate the corresponding planting fence 13, so that the end face of the planting fence 13 directly abuts against the bottom end wall of the planting cavity 12, and at the moment, the driver works to drive the water storage plate 18 to move downwards and extend into the inclined roof 10, and water flows into the planting cavity 12 and flows into the planting fence 13.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the use of a sloped roof 10, an impoundment cavity 11, a planting cavity 12, a planting fence 13, a planting basket 14, a water holding tank 15, a water intake plate 16, a rotation motor 17, a water storage plate 18, an overflow prevention plate 19, a diversion cavity 20, a water intake pipe 21, etc., is used herein more often, these terms are used only for the purpose of more conveniently describing and explaining the essence of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. The utility model provides a mechanism is planted in inclined plane roof light nursery stock environmental protection, includes inclined plane roof (10), its characterized in that, inclined plane roof (10) on be equipped with retaining chamber (11), retaining chamber (11) keep away from one side at inclined plane roof (10) top and be connected with planting chamber (12) that are used for planting light nursery stock.

2. The environment-friendly planting mechanism for lightweight nursery stocks on a sloping roof as claimed in claim 1, wherein the water storage chamber (11) and the planting chamber (12) are both arranged along the surface of the sloping roof (10), and the inclination angles of the water storage chamber (11) and the planting chamber (12) are the same as the inclination angle of the sloping roof (10).

3. The environment-friendly planting mechanism for the light nursery stocks on the sloping roof as claimed in claim 2, wherein a plurality of planting fences (13) are hinged to two ends of the planting cavity (12), the side end faces of the planting fences (13) close to the sloping roof (10) can abut against the end wall of the bottom of the planting cavity (12), the planting fences (13) are arranged at intervals along the end wall of the planting cavity (12), and a plurality of planting baskets (14) for planting the light nursery stocks are arranged in each planting fence (13).

4. The environment-friendly planting mechanism for light nursery stocks on inclined roof as claimed in claim 3, wherein a water storage tank (15) is arranged in the planting fence (13), and a plurality of planting baskets (14) are arranged in the water storage tank (15) at intervals.

5. The environment-friendly planting mechanism for light nursery stocks on a sloping roof as claimed in claim 4, wherein the cross section of the planting fence (13) and the water storage tank (15) is in the shape of an inverted trapezoid, a water taking plate (16) is arranged on the side end face of the planting fence (13) in the shape of the inverted trapezoid, which is close to the top of the sloping roof (10), and the thickness of the water taking plate (16) is gradually reduced from one end close to the bottom end wall of the planting cavity (12) to the other end.

6. The environment-friendly planting mechanism for light nursery stocks on inclined roof as claimed in claim 3, wherein a plurality of rotating motors (17) corresponding to the planting fences (13) one by one are arranged in the end wall of the planting cavity (12), and the output shafts of the rotating motors (17) are connected with the planting fences (13).

7. The environment-friendly planting mechanism for light nursery stocks on a sloping roof as claimed in claim 1, wherein a water storage plate (18) movably connected with the sloping roof (10) is arranged at the joint of the water storage cavity (11) and the planting cavity (12), and the moving direction of the water storage plate (18) is vertical to the end wall of the bottom of the water storage cavity (11).

8. The environment-friendly planting mechanism for light nursery stocks on sloping roof as claimed in claim 1, wherein an overflow prevention plate (19) is arranged on the upper side of the water storage cavity (11), and a gap is formed between the overflow prevention plate (19) and the water storage plate (18).

9. The environment-friendly planting mechanism for light nursery stocks on inclined roof as claimed in claim 1, wherein the end of the water storage cavity (11) far away from the planting cavity (12) is connected with a diversion cavity (20), the diversion cavity (20) is trapezoidal, the end walls on both sides of the diversion cavity (20) are inclined, and the end wall connected with the planting cavity (12) extends to the other end in the direction far away from the center line of the planting cavity (12).

10. The environment-friendly planting mechanism for light nursery stocks on inclined roof as claimed in claim 9, wherein the diversion chamber (20) is further connected with a water inlet pipe (21), and the end of the water inlet pipe (21) is connected with a water pump.

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