CN209845776U - Yanxi landscape style - Google Patents

Yanxi landscape style Download PDF

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Publication number
CN209845776U
CN209845776U CN201920064580.9U CN201920064580U CN209845776U CN 209845776 U CN209845776 U CN 209845776U CN 201920064580 U CN201920064580 U CN 201920064580U CN 209845776 U CN209845776 U CN 209845776U
Authority
CN
China
Prior art keywords
capillary fiber
planting
column body
soil
stream
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201920064580.9U
Other languages
Chinese (zh)
Inventor
刘迪
李曼
邢伟明
董晓明
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Henan Vocational College of Water Conservancy and Environment
Original Assignee
Henan Vocational College of Water Conservancy and Environment
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Henan Vocational College of Water Conservancy and Environment filed Critical Henan Vocational College of Water Conservancy and Environment
Priority to CN201920064580.9U priority Critical patent/CN209845776U/en
Application granted granted Critical
Publication of CN209845776U publication Critical patent/CN209845776U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses a brook landscape flower post, which comprises a hollow post body arranged at the bank side of the brook, wherein a plurality of layers of planting grooves for planting green plants or flowers are arranged outside the hollow post body along the radial direction at intervals; a total capillary fiber bundle is arranged at the center line of the inner tube, and clay is filled between the total capillary fiber bundle and the side wall of the inner tube; the lower end of the total capillary fiber bundle extends out of the inner pipe and is dispersed in the stream water; the total capillary fiber bundles are respectively connected with water supply capillary fiber bundles above each layer of planting grooves, and the tail ends of the water supply capillary fiber bundles are dispersed in soil in the planting grooves. The utility model discloses need not power device, can keep planting the soil in the groove for a long time and be in moist state, avoided the unstable phenomenon of manual watering. The illumination lamps and frosted surfaces provide an illuminated and aesthetically pleasing appearance. The staff can conveniently and rapidly master the temperature and the soil moisture content of the flower columns of the Yangxi landscape at each position through the display screen.

Description

Yanxi landscape style
Technical Field
The utility model relates to a garden engineering technical field.
Background
Garden art is an important component of the traditional culture of China. In recent years, with the continuous development of economic society of China, the demand of people on greening and garden landscapes is increasing day by day, for example, the application of Zhengzhou proposes the construction plan of '300 meters in green and 500 meters in garden' in the whole city. In 2018, over 1210 ten thousand square meters of greenbelt, 47 comprehensive parks, 400 micro-parks and small paradises are newly added in Zhengzhou city.
Water is an important link in landscape, such as lake water, river water or stream. In a small garden, a small lake creek is often artificially developed to add scenery to the garden. The landscape flower columns arranged along the stream are more delicate and beautiful than planting grass and flowers only on the ground. And because the flower column has multilayer soil and can not guarantee that the soil of each layer is sufficient to supply water through long-distance large tracts of land spraying watering, therefore view flower column needs often manual watering, and artifical consumption is great. If the watering is not carried out in time, the landscape flower column is easy to have the phenomena of water shortage, green plants or withered flowers.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a along xi view style, need not often the manual watering can guarantee green planting or flowers can not lack water withering.
In order to achieve the purpose, the stream landscape flower post comprises a hollow post body arranged at the bank side of the stream, a plurality of layers of planting grooves for planting green plants or flowers are arranged outside the hollow post body at intervals along the radial direction, the planting grooves surround the hollow post body to form a ring shape, soil is filled in the planting grooves, the bottom end of the hollow post body is connected with a base in an extending mode along the radial direction, and the base is fixed on the ground; the method is characterized in that: an inner pipe is arranged at the center line of the hollow column body, and the inner pipe extends downwards into soil below the ground and extends into the stream; a total capillary fiber bundle is arranged at the center line of the inner tube, and clay is filled between the total capillary fiber bundle and the side wall of the inner tube; the lower end of the total capillary fiber bundle extends out of the inner pipe and is dispersed in the stream water; the total capillary fiber bundles are respectively connected with water supply capillary fiber bundles above each layer of planting grooves, the water supply capillary fiber bundles extend out of the inner pipe and the hollow column body, and the tail ends of the water supply capillary fiber bundles extend and are uniformly dispersed in the soil in the planting grooves.
The hollow cylinder is made of transparent materials, and the outer surface of the hollow cylinder is a frosted surface; the top of the hollow column body is provided with a hemispherical lampshade, and a lighting lamp is arranged in the lampshade.
The inner surface of the lampshade is provided with a mirror surface for reflecting light.
A working chamber is arranged on the side of the stream bank, and an electric control device and a display screen connected with the electric control device are arranged in the working chamber;
the planting groove is provided with N layers, and N is a natural number; the bottommost planting groove is a first-layer planting groove, and the topmost planting groove is an Nth-layer planting groove;
when N is an odd number, a humidity sensor is arranged in the (N + 1)/2 th planting groove; when N is an even number, a humidity sensor is arranged in the soil of the planting groove on the Nth/2 th layer;
a temperature sensor is arranged on the hollow column body above the topmost planting groove;
the connecting circuit of the humidity sensor and the temperature sensor is introduced into the hollow column body and extends downwards into the soil below the ground, and the connecting circuit of the humidity sensor and the temperature sensor extends into the working chamber in the soil below the ground and is connected with the electric control device.
The stream landscape style is provided with a plurality of streams at even intervals along two banks of the stream, and the humidity sensor and the temperature sensor of each stream landscape style are connected with the electric control device.
The utility model discloses have following advantage:
when in use, the lower end of the total capillary fiber bundle absorbs stream water, and the water is absorbed into the clay in the inner tube under the action of capillary phenomenon. According to the 1984 edition of the project geology water book, the empirical height at which water can rise in clay under the action of capillary phenomena is 5-6 meters. Therefore, the clay can sufficiently make the water rise to the top of the hollow column body, and then the water can be conveyed to the planting grooves of each layer through the capillary phenomenon of each water supply capillary fiber bundle.
Therefore, the utility model discloses need not external power device, need not the frequent manual watering of staff, can keep the soil of planting the inslot in moist state for a long time automatically, greatly reduced staff's intensity of labour, avoided the unstable phenomenon of watering that relies on artifical watering to bring.
The light is turned on to illuminate the hollow cylinder and scatter light through the frosted surface. The setting of mirror surface can go out the light at utmost of light through hollow cylinder scattering, improves the luminance of light night. The frosted surface has a scattering effect on light, green plants or flowers on the flower column can be illuminated, visitors are prevented from directly seeing the structure inside the hollow column body, and the attractive visual effect is generated to the maximum extent.
The staff can conveniently and rapidly master the temperature and the soil moisture content of the flower columns of the Yangxi landscape at each position through the display screen in the working room, and correspondingly carries out checking treatment.
Drawings
FIG. 1 is a schematic structural view of the present invention in use;
fig. 2 is a schematic structural diagram of the present invention;
fig. 3 is a control schematic diagram of the present invention.
Detailed Description
As shown in fig. 1 to 3, the flower pillar along the stream landscape of the present invention comprises a hollow cylinder 1 disposed at the bank of the stream, a plurality of layers of planting grooves 2 for planting green plants or flowers are radially arranged at intervals outside the hollow cylinder 1, the planting grooves 2 surround the hollow cylinder 1 and are annular, and soil (not shown in the figure, the soil in the planting grooves 2 is filled in the planting grooves 2), a base 3 is radially extended and connected to the bottom end of the hollow cylinder 1, and the base 3 is fixed on the ground; buried plate 4 is buried in the soil below base 3, and base 3 passes through rag bolt 5 and buried plate 4 fixed connection to more firmly fix hollow cylinder 1 subaerial. A plastic inner pipe 6 is arranged at the central line of the hollow column body 1, and the inner pipe 6 extends downwards into soil below the ground and extends into a stream 7; a total capillary fiber bundle 8 is arranged at the center line of the inner tube 6, and clay 9 is filled between the total capillary fiber bundle 8 and the side wall of the inner tube 6; the lower end of the total capillary fiber bundle 8 extends out of the inner pipe 6 and is dispersed in the water of the stream 7; the total capillary fiber bundle 8 is respectively connected with a water supply capillary fiber bundle 10 above each layer of planting groove 2, the water supply capillary fiber bundle 10 extends out of the inner pipe 6 and the hollow column body 1, and the tail end of the water supply capillary fiber bundle extends and is uniformly dispersed in the soil in the planting groove 2.
The total capillary fiber bundle 8 and the water supply capillary fiber bundle 10 are both cotton fiber bundles.
The hollow cylinder 1 is made of transparent materials, and the outer surface of the hollow cylinder is a frosted surface;
the top of the hollow column body 1 is provided with a hemispherical lampshade 11, and a lighting lamp 12 is arranged in the lampshade 11.
The inner surface of the lampshade 11 is provided with a mirror surface for reflecting light. The mirror is of conventional construction and is not shown.
The light 12 is turned on and illuminates the hollow cylinder 1 and scatters light through the frosted surface. The setting of mirror surface can go out the light maximum of light 12 through the scattering of hollow cylinder 1, improves the luminance of light 12 at night. The frosted surface has a scattering effect on light, green plants or flowers on the flower column can be illuminated, visitors are prevented from directly seeing the structure inside the hollow column body 1, and the attractive visual effect is generated to the maximum extent.
A working room is arranged on the bank side of the stream 7, and an electric control device 13 and a display screen 14 connected with the electric control device 13 are arranged in the working room; the working chamber is not shown.
The planting groove 2 is provided with N layers, and N is a natural number; the bottommost planting groove 2 is a first-layer planting groove 2, and the topmost planting groove 2 is an Nth-layer planting groove 2;
when N is an odd number, a humidity sensor 15 is arranged in the (N + 1)/2 th layer planting groove 2; when N is an even number, a humidity sensor 15 is arranged in the soil of the planting groove 2 at the Nth/2 th layer;
a temperature sensor 16 is arranged on the hollow column body 1 above the topmost planting groove 2;
the connection line between the humidity sensor 15 and the temperature sensor 16 opens into the hollow cylinder 1 and extends down into the soil below the ground, in which it extends into the working chamber and is connected to the electronic control device 13.
A plurality of stream landscape style columns are arranged along two banks of the stream 7 at even intervals, and the humidity sensor 15 and the temperature sensor 16 of each stream landscape style column are connected with the electric control device 13.
When in use, the lower end of the total capillary fiber bundle absorbs stream water, and the water is absorbed into the clay in the inner tube under the action of capillary phenomenon. According to the 1984 edition of the project geology water book, the empirical height at which water can rise in clay under the action of capillary phenomena is 5-6 meters. Therefore, the clay can sufficiently make the water rise to the top of the hollow column body, and then the water can be conveyed to the planting grooves of each layer through the capillary phenomenon of each water supply capillary fiber bundle.
When the sunshine is strong, the topmost planting groove 2 has the most unfavorable temperature (highest) because the sunlight is received the most; when the temperature of the ambient air flow is lower, the air flow at the topmost planting groove 2 is the strongest, and the temperature is the worst (lowest). Therefore, the temperature of the topmost planting groove 2 is monitored, and the temperature can be found and processed correspondingly in time when the temperature condition is unfavorable.
When the water is sprinkled and irrigated in a large area in a rainy or garden, the upper layer, particularly the topmost planting groove 2 receives more water; the soil humidity in the middle-layer planting groove 2 is monitored, and the reason can be found and correspondingly checked as soon as possible when the soil in the planting groove 2 is lack of water and watering is carried out.
The temperature and the soil moisture content of the flower columns of the Yangxi landscape at each position can be conveniently and rapidly mastered by the staff through the display screen 14 in the working room.
The above embodiments are only used for illustrating but not limiting the technical solutions of the present invention, and although the present invention is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that: the present invention may be modified or substituted with equivalents without departing from the spirit and scope of the invention, which should be construed as being limited only by the claims.

Claims (5)

1. The brook landscape flower column comprises a hollow column body arranged on the bank side of a brook, wherein a plurality of layers of planting grooves for planting green plants or flowers are arranged outside the hollow column body at intervals along the radial direction, the planting grooves surround the hollow column body to form a ring shape, soil is filled in the planting grooves, the bottom end of the hollow column body is connected with a base in a radially extending mode, and the base is fixed on the ground; the method is characterized in that: an inner pipe is arranged at the center line of the hollow column body, and the inner pipe extends downwards into soil below the ground and extends into the stream; a total capillary fiber bundle is arranged at the center line of the inner tube, and clay is filled between the total capillary fiber bundle and the side wall of the inner tube; the lower end of the total capillary fiber bundle extends out of the inner pipe and is dispersed in the stream water; the total capillary fiber bundles are respectively connected with water supply capillary fiber bundles above each layer of planting grooves, the water supply capillary fiber bundles extend out of the inner pipe and the hollow column body, and the tail ends of the water supply capillary fiber bundles extend and are uniformly dispersed in the soil in the planting grooves.
2. The brook landscape style of claim 1, wherein: the hollow cylinder is made of transparent materials, and the outer surface of the hollow cylinder is a frosted surface; the top of the hollow column body is provided with a hemispherical lampshade, and a lighting lamp is arranged in the lampshade.
3. The brook landscape style of claim 2, wherein: the inner surface of the lampshade is provided with a mirror surface for reflecting light.
4. The brook landscape style of claim 2, wherein: a working chamber is arranged on the side of the stream bank, and an electric control device and a display screen connected with the electric control device are arranged in the working chamber;
the planting groove is provided with N layers, and N is a natural number; the bottommost planting groove is a first-layer planting groove, and the topmost planting groove is an Nth-layer planting groove;
when N is an odd number, a humidity sensor is arranged in the (N + 1)/2 th planting groove; when N is an even number, a humidity sensor is arranged in the soil of the planting groove on the Nth/2 th layer;
a temperature sensor is arranged on the hollow column body above the topmost planting groove;
the connecting circuit of the humidity sensor and the temperature sensor is introduced into the hollow column body and extends downwards into the soil below the ground, and the connecting circuit of the humidity sensor and the temperature sensor extends into the working chamber in the soil below the ground and is connected with the electric control device.
5. The brook landscape style of claim 4, wherein: the stream landscape style is provided with a plurality of streams at even intervals along two banks of the stream, and the humidity sensor and the temperature sensor of each stream landscape style are connected with the electric control device.
CN201920064580.9U 2019-01-15 2019-01-15 Yanxi landscape style Expired - Fee Related CN209845776U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201920064580.9U CN209845776U (en) 2019-01-15 2019-01-15 Yanxi landscape style

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201920064580.9U CN209845776U (en) 2019-01-15 2019-01-15 Yanxi landscape style

Publications (1)

Publication Number Publication Date
CN209845776U true CN209845776U (en) 2019-12-27

Family

ID=68930225

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201920064580.9U Expired - Fee Related CN209845776U (en) 2019-01-15 2019-01-15 Yanxi landscape style

Country Status (1)

Country Link
CN (1) CN209845776U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111945659A (en) * 2020-08-03 2020-11-17 山东黄河河务局黄河河口管理局 River course dykes and dams afforestation water transfer flood fighting device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111945659A (en) * 2020-08-03 2020-11-17 山东黄河河务局黄河河口管理局 River course dykes and dams afforestation water transfer flood fighting device

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GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20191227