CN210067292U - Ecological landscape stair handrail - Google Patents

Abstract

The utility model discloses an ecological landscape stair handrail, which comprises a wall body and a stair body, and further comprises upright columns respectively arranged at a higher end and a lower end of the stair body, two oppositely arranged between the upright columns and arranged along the height direction thereof One end of the support column is inclined to the ground, the two vertical columns are arranged at one end of the stair body away from the wall, and the upper surface of the support column is evenly distributed along its length direction with a number of planting plants for planting green plants A groove, the groove wall opposite to the planting groove and its groove is set as an inclined surface in the same direction as the length direction of the support column, and the bottom end of the groove wall adjacent to the planting groove and its groove is provided with a trickle opening, Several of the planting troughs are connected with each other at the beginning and the end; the stair handrail improves the vertical landscape lighting dimension without occupying a lot of commuter traffic space, and can improve the visible greening volume and air quality in a narrow space.

Description

Ecological landscape stair handrail

technical field

The utility model relates to the technical field of ecological landscape, in particular to an ecological landscape staircase handrail.

Background technique

The staircase is a component used for vertical traffic between floors in a building. It is used for the traffic connection between floors and when the height difference is large. It is composed of protective components, etc. The image of the heavy house on the bronze wares of the Warring States Period in China has been engraved with stairs. In Italy in the 15th and 16th centuries, the indoor stairs were liberated from the traditional closed space, making them rich in shape and decoration. Sexual architectural components.

At present, stair handrails are mostly forged or collaged with anti-corrosion wood material or metal material, both inside the building and on the exterior facade of the landscape. Although their safety protection ability can meet daily needs, their landscape lighting enhancement and ecological purification functions However, it has not been reflected. In closed or semi-closed buildings, the lack of landscape lighting improvement and ecological gas circulation has always been a difficult problem to solve.

For the closed building traffic space lacking reasonable landscape lighting improvement and ecological air purification, in the activity space inside the building, the space where the stair handrail is located may be the space with the highest density of people per unit time, but due to the long-term stay It may have a large amount of light space and vertical space, and the existing common stair handrails cannot meet the existing ecological and low-carbon living space requirements.

Utility model content

The purpose of this utility model is to provide an ecological landscape stair handrail. to boost.

The above-mentioned technical purpose of the present utility model is achieved through the following technical solutions:

An ecological landscape stair handrail, comprising a wall and a stair body, further comprising upright columns respectively arranged at a higher end and a lower end of the stair body, and two supporting columns oppositely arranged between the uprights and arranged along the height direction thereof. One end of the supporting column is inclined to the ground, the two vertical columns are arranged at one end of the stair body away from the wall, and the upper surface of the supporting column is evenly distributed with a number of planting grooves for planting green plants along its length direction. The trough wall opposite to the trough and its notch is set as an inclined surface in the same direction as the longitudinal direction of the support column, and the bottom end of the trough wall adjacent to the planting trough and its notch is provided with a trickle opening, and a plurality of the planting troughs are provided. The ends are connected to each other.

Through the above technical solution, green plants can be planted in the planting trough, and the setting of the trickle port realizes the interconnection between the four planting troughs and ensures the soil cultivation humidity in a single planting trough. Gravity promotes water circulation, realizes semi-automatic irrigation, and improves the maintenance effect of plants; the stair handrail formed by the above structure increases the amount of visible greening in narrow spaces without occupying a lot of commuter traffic space, improving the air quality.

The utility model is further configured as follows: the side wall of the support column facing away from the wall body is provided with a support plate along its length direction, the width dimension of the support plate is greater than the height dimension of the support column, and the support plate faces the side of the wall body The walls are provided with automatic irrigation components for irrigating plants.

Through the above technical solution, the automatic irrigation component is used to realize the automatic irrigation of the plants, improve the maintenance effect of the plants, and improve the air quality.

The utility model is further configured as follows: the automatic irrigation assembly comprises a water inlet pipe arranged on the side wall of the support plate facing the planting tank, an electronically controlled sprinkler, a humidity sensor arranged on the wall of the planting tank, and a water conduit connected with the electrically controlled sprinkler The water inlet pipe is provided with a plurality of through holes at equal intervals along its length direction, the end of the water conduit pipe away from the electronically controlled spray head is connected with the through holes, and the humidity sensor is electrically connected with the electronically controlled spray head.

Through the above technical solution, the humidity sensor can be used to detect the temperature value of the soil in the planting tank in real time. When the temperature value reaches the set value, the signal is immediately sent to the PLC control circuit, the electronically controlled sprinkler works, and the water inlet pipe can be connected to an external water source, using the water inlet pipe The water supply to the aqueduct and then to the electronically controlled sprinkler finally realizes the automatic watering of the plants, instead of manual watering, saving time and effort, improving the maintenance effect of the plants and improving the air quality.

The utility model is further configured as follows: a cavity is arranged in the support column along its length direction, and a plurality of water seepage holes communicated with the cavity are arranged on the groove wall of the planting groove and its groove opposite to the groove.

Through the above technical solutions, the arrangement of the seepage holes prevents the excessive water in the planting tank from causing root rot of the plants, plays a role in ventilation, enhances the respiration of the plant roots, and promotes the growth of the plants.

The utility model is further configured as follows: the lower side of the stair body is provided with a water collecting tank, and the side walls of the lower ends of the two support columns are provided with a guide pipe communicating with the cavity, and the guide pipe The end remote from the cavity extends into the water collection tank.

Through the above technical solution, the water collecting tank is arranged to collect the water in the cavity to prevent the water flow from being stored for a long time, causing peculiar smell and affecting the growth environment of plants.

The utility model is further provided that: one end of the guide pipe away from the cavity is connected with a three-way pipe, and one end of the three-way pipe away from the guide pipe is provided with a confluence pipe and extends into the water collecting tank.

Through the above technical solution, the water in the two cavities can be concentrated into the confluence pipe by using the three-way pipe, and the effect of confluence is realized.

The utility model is further arranged as follows: a water pump is arranged on the top wall of the water collecting tank, a water pumping hole is arranged on the top wall of the water collecting tank, and a water pumping pipe of the water supply pump is inserted into the water supply pipe, and the water outlet pipe of the water pump is connected with the water inlet pipe, so The water pump is electrically connected with the electronically controlled nozzle.

Through the above technical solution, the water in the water collecting tank can be pumped into the water inlet pipe by the water pump, the water supply to the electronically controlled sprinkler can be watered, and the plants can be irrigated, finally realizing the recycling of water and saving water resources.

The utility model is further arranged as follows: the support column is a metal block, and an anti-corrosion layer is arranged on the groove wall of the planting groove.

Through the above technical solution, the support column is made of metal material, which enhances the comfort of people touching the support column, and the provision of the anti-corrosion layer can prevent the support column from being oxidized and improve the maintenance effect of plants.

To sum up, the utility model has the following beneficial effects:

1. Green plants can be planted in the planting trough. The setting of the trickle mouth realizes the interconnection between the four planting troughs and ensures the soil cultivation humidity in a single planting trough. The water circulation realizes semi-automatic irrigation and improves the maintenance effect of plants; the stair handrail formed by the above structure increases the amount of visible greenery in the narrow space and improves the air quality without taking up a lot of commuter traffic space. ;

2. The setting of seepage holes can prevent the excessive amount of water in the planting tank, which will lead to rotten roots of plants, and play a role in ventilation, enhance the respiration of plant roots, and promote the growth of plants;

3. The humidity sensor can be used to detect the temperature value of the soil in the planting tank in real time. When the temperature value reaches the set value, the signal is immediately sent to the PLC control circuit, and the electronically controlled sprinkler works. The water supply then supplies water to the electronically controlled sprinklers, and finally realizes the automatic watering of plants, instead of manual watering, saving time and effort, improving the maintenance of plants and improving air quality.

Description of drawings

FIG. 1 is a schematic diagram of the overall structure of this embodiment.

FIG. 2 is a schematic structural diagram for showing the positional relationship between the trickle opening and the planting tank in this embodiment.

FIG. 3 is a schematic structural diagram for embodying the automatic irrigation assembly in this embodiment.

FIG. 4 is a schematic structural diagram for embodying the connection relationship between the water collecting tank and the water inlet pipe in this embodiment.

Reference numerals: 1. Wall body; 2. Stair body; 3. Upright column; 4. Support column; 5. Planting trough; 6. Inclined surface; 7. Trickle mouth; 8. Support plate; 91, water inlet pipe; 92, electronic control nozzle; 93, humidity sensor; 94, water conduit; 10, through hole; 11, cavity; 12, seepage hole; 13, water collecting tank; 14, confluence pipe; 15, tee pipe; 16, diversion pipe; 17, water pump; 18, pumping hole; 19, pumping pipe; 20, outlet pipe; 21, anti-corrosion layer.

Detailed ways

The present utility model will be described in further detail below in conjunction with the accompanying drawings.

Example:

An ecological landscape staircase handrail, referring to FIG. 1 , includes a staircase body 2 and a wall body 1 .

1, the upper surface of the staircase body 2 away from the wall body 1 is provided with two uprights 3, the two uprights 3 are respectively arranged on the upper surface of the upper end and the lower end of the staircase body 2, and the lengths of the two uprights 3 are the same. , two up and down opposite support columns 4 are arranged between the two columns 3 along the height direction, the support column 4 is inclined between the two columns 3, the lower end of the support column 4 faces the ground, and the support column 4 is made of metal Material; the setting of the support column 4 plays the role of a handrail and protects the personnel going up and down the stairs; the support column 4 is made of metal material, which is ergonomic and improves the comfort of the hand holding the support column 4.

1 and 2, the upper surface of the support column 4 is evenly distributed with a number of planting grooves 5 (preferably 5) for planting green plants along its length direction. The inclined surface 6, the lower end of the inclined surface 6 faces the ground, the adjacent planting grooves 5 and the bottom ends of the groove walls adjacent to the grooves are provided with mutually connected trickle ports 7, and the five planting grooves 5 are connected with each other end to end; The planting groove 5 can be used to grow green plants, and the setting of the trickle port 7 realizes the interconnection between the five planting grooves 5 and ensures the soil cultivation humidity in a single planting groove 5; at the same time, the setting of the inclined surface 6 utilizes the center of the earth. Gravity promotes water circulation and realizes semi-automatic irrigation; the stair handrails formed by the above structure increase the amount of visible greenery in narrow spaces and improve air quality without occupying a lot of commuter traffic space.

1 , the side wall of the support column 4 away from the wall 1 is provided with a support plate 8 along its length direction, the width dimension of the support plate 8 is greater than the height dimension of the support column 4, and the top end of the support plate 8 extends to the top of the support column 4 , the side wall of the support plate 8 facing the wall body 1 is provided with an automatic irrigation component 9 for irrigating plants; the automatic irrigation component 9 can be used to water the plants in the planting tank 5, which realizes automatic work, replaces the way of manual watering, reduces the It reduces the labor intensity of personnel, improves the maintenance effect of plants, increases the amount of visible greening in narrow spaces, and improves air quality.

1 and 3, the automatic irrigation assembly 9 includes a water inlet pipe 91 arranged on the support plate 8 extending above the support column 4 and facing the side wall of the planting tank 5, a number of electronically controlled sprinklers 92, and arranged on the wall of the planting tank 5. The humidity sensor 93 and the water conduit 94 connected with the electronically controlled spray head 92, the length direction of the inlet pipe is in the same direction as the length direction of the support plate 8, the water inlet pipe 91 is provided with a number of through holes 10 at equal intervals along its length direction, and the water conduit The end of 94 away from the electronically controlled sprinkler 92 is connected to the through hole 10, and the humidity sensor 93 is electrically connected to the electronically controlled sprinkler 92; the humidity sensor 93 can be used to detect the humidity value of the soil in the planting tank 5 in real time, and when the humidity value reaches the set lower limit When the value reaches the value, the signal is immediately sent to the PLC control circuit, an alarm signal is issued, the electronically controlled sprinkler 92 works, and finally the watering of the plants is realized; the automatic irrigation component 9 constituted by the above structure realizes the automatic work, replaces the manual watering, and saves the cost of watering. manpower, improve the conservation effect of plants, and improve air quality.

Referring to FIG. 2 , a cavity 11 is provided in the support column 4 below the planting groove 5. The length of the cavity 11 and the supporting column 4 are in the same direction. The water seepage hole 12 connected with 11; the setting of the water seepage hole 12 prevents too much water in the planting tank 5, which leads to root rot of the plant, plays a role in ventilation, enhances the respiration of the plant root, and promotes the growth of the plant.

Referring to FIG. 4 , the lower side of the staircase body 2 is provided with a water collection tank 13 , the water collection tank 13 is placed on the ground, and the side walls of the lower ends of the two support columns 4 are provided with a guide pipe that communicates with the cavity 11 . 16. The end of the guide pipe 16 away from the cavity 11 extends into the water collecting tank 13; the setting of the collecting tank 13 and the guide pipe 16 can discharge the water flow accumulated in the cavity 11 and avoid the water stagnation in the cavity 11 If the time is too long, it will cause odor and improve the maintenance effect of plants.

Referring to FIG. 4 , one end of the guide tube 16 away from the cavity 11 is connected with a tee tube 15 , and one end of the tee tube 15 away from the guide tube 16 is provided with a confluence tube 14 , and one end of the confluence tube 14 away from the tee tube 15 extends to the collector In the water tank 13; the arrangement of the three-way pipe 15 plays a role of confluence, so that the water flow in the cavity 11 flows into the water collecting tank 13 for collection.

4, a water pump 17 is provided on the top wall of the water collecting tank 13, and a water pumping hole 18 is provided on the top wall of the water collecting tank 13, into which the water supply pipe 19 is inserted, the water outlet pipe 20 of the water pump 17 is connected with the water inlet pipe 91, and the water pump 17 is The electronically controlled sprinkler 92 is electrically connected; when the electronically controlled sprinkler 92 is working, the water in the water collecting tank 13 can be sent into the water inlet pipe 91 by the water pump 17, thereby supplying water to the electronically controlled sprinkler 92, watering the plants, and finally It realizes the recycling of water and saves water resources.

Referring to FIG. 4 , the surrounding groove walls of the planting tank 5 are coated with an anti-corrosion layer 21 ; since the support column 4 is made of metal, the setting of the anti-corrosion layer 21 can prevent the planting tank 5 from being oxidized and affect the growth of plants.

The working principle of the utility model is as follows: first, the humidity sensor 93 is used to detect the humidity value of the soil in the planting tank 5 in real time, and when the humidity value reaches the set value, the signal is immediately sent to the PLC control circuit, and the electronically controlled sprinkler 92 is operated, and at the same time through the air pump The water in the water collecting tank 13 is pumped into the water inlet pipe 91, and the plants are watered through the electronically controlled sprinkler 92; When the amount of water in the planting tank 5 is too much, it can be discharged into the cavity 11 through the water seepage hole 12, and the electric control valve is opened, so that the water flow in the cavity 11 enters the water collecting tank 13 through the three-way pipe 15, and finally Realize the recycling of water resources.

This specific embodiment is only an explanation of the present utility model, and it is not a limitation of the present utility model. Those skilled in the art can make modifications to the present embodiment without creative contribution as needed after reading this specification, but as long as the utility model is used in the present invention All new types of claims are protected by the patent law.

Claims (8)

1. The utility model provides an ecological landscape stair railing, includes wall body (1) and stair body (2), its characterized in that: the novel stair is characterized by further comprising stand columns (3) respectively arranged at the higher end and the lower end of the stair body (2), and two support columns (4) oppositely arranged between the stand columns (3) and arranged along the height direction of the stand columns, wherein one ends of the support columns (4) are inclined towards the ground, the stand columns (3) are arranged at one ends, far away from the wall body (1), of the stair body (2), a plurality of planting grooves (5) used for planting green plants are uniformly distributed on the upper surface of each support column (4) along the length direction of the support column, the groove walls, opposite to the groove openings of the planting grooves (5), are arranged into inclined planes (6) which are in the same direction with the length direction of the support columns (4), the planting grooves (5) are adjacent to the groove openings of the planting grooves, trickle ports (7) are arranged at the bottom ends of the groove walls.

2. The ecological landscape stair railing of claim 1, wherein: support column (4) are equipped with backup pad (8) along its length direction on deviating from the lateral wall of wall body (1), the width dimension of backup pad (8) is greater than the height dimension of support column (4), backup pad (8) are equipped with automatic irrigation subassembly (9) that are used for irrigating the plant towards the lateral wall of wall body (1).

3. The ecological landscape stair railing of claim 2, wherein: automatic irrigation subassembly (9) including setting up inlet tube (91), automatically controlled shower nozzle (92), setting in backup pad (8) orientation planting groove (5) lateral wall on humidity transducer (93) and aqueduct (94) that link to each other with automatically controlled shower nozzle (92) planting groove (5) cell wall, it is equipped with a plurality of through-holes (10) to follow its length direction equidistant on inlet tube (91), the one end that automatically controlled shower nozzle (92) was kept away from in aqueduct (94) links to each other with through-hole (10), humidity transducer (93) and automatically controlled shower nozzle (92) electric connection.

4. The ecological landscape stair railing of claim 1, wherein: a cavity (11) is arranged in the supporting column (4) along the length direction of the supporting column, and a plurality of water seepage holes (12) communicated with the cavity (11) are arranged on the groove wall of the planting groove (5) opposite to the notch of the planting groove.

5. The ecological landscape stair railing of claim 1, wherein: the lower one side of stair body (2) is equipped with header tank (13), two the lateral wall of the lower one end of support column (4) all is equipped with honeycomb duct (16) that are linked together with cavity (11), the one end that cavity (11) were kept away from in honeycomb duct (16) extends to header tank (13).

6. The ecological landscape stair railing of claim 5, wherein: one end of the draft tube (16) far away from the cavity (11) is connected with a three-way pipe (15), and one end of the three-way pipe (15) far away from the draft tube (16) is provided with a flow merging pipe (14) and extends into the water collecting tank (13).

7. The ecological landscape stair railing of claim 6, wherein: be equipped with water pump (17) on the roof of header tank (13), the roof of header tank (13) is equipped with drinking-water pipe (19) male pumping hole (18) of feed pump (17), outlet pipe (20) and inlet tube (91) of water pump (17) link to each other, water pump (17) and automatically controlled shower nozzle (92) electric connection.

8. The ecological landscape stair railing of claim 1, wherein: the support column (4) is a metal block, and an anticorrosive layer (21) is arranged on the wall of the planting groove (5).

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