CN218479250U - Green subway station construction module - Google Patents

Abstract

The utility model relates to a green subway station construction module, which relates to the field of construction engineering and aims to solve the problem that the energy consumption is high because the current subway station road surface station only needs to be supplied with power through the urban power grid in a centralized way; and the umbrella cover is provided with a solar power storage system. The application has the effect of reducing the energy consumption of the subway station.

Description

Green subway station construction module

Technical Field

The application relates to the field of constructional engineering, in particular to a green subway station construction module.

Background

The subway station is used for passengers to take on and off, transfer and wait.

The subway ground station has huge energy consumption, high power consumption of internal air conditioners, informatization, strong electricity and the like, and subway passenger flow has a tidal effect, so that commuting is relatively centralized, a large number of motor vehicles and electric bicycles are gathered around the subway station, and the charging requirements of the motor vehicles and the electric bicycles are also huge.

At present, the subway station road surface station is only powered by the urban power grid in a centralized way, so that the energy consumption is high, and improvement is needed.

SUMMERY OF THE UTILITY MODEL

In order to reduce the energy consumption of subway stations, the application provides a green subway station construction module.

The application provides a green subway station construction module adopts following technical scheme:

a green subway station construction module comprises an umbrella post and an umbrella cover covering the umbrella post, wherein an opening of the umbrella cover is arranged to form a water collecting cavity, the umbrella post is hollow to form a water filtering cavity, and the water collecting cavity is communicated with the water filtering cavity; and the umbrella cover is provided with a solar power storage system.

Through adopting the above technical scheme, rainwater weather, the rainwater flows into the drainage chamber behind the chamber of catchmenting and carries out the filter chamber, collect filterable rainwater and can supply subway system to use, the canopy only supports through the umbrella pole, make and leave more activity space under the canopy, the solar energy electrical storage system at canopy top can change light energy into electric energy storage, supply subway station construction module to use, through catchmenting the chamber, solar energy electrical storage system's cooperation, the service function of platform has been increased, the energy consumption of subway station has been reduced, the practicality of subway station construction module has been improved.

Optionally, solar energy power storage system is including support rack, accumulator box and a plurality of solar panel, support rack lid is established at the top of canopy, and is a plurality of solar panel sets up in support rack top, the accumulator box sets up in drainage chamber bottom.

Through adopting above-mentioned technical scheme, at first pass through welded fastening at the inside wall in catchment chamber with the edge of support rack, then set up the top at the support rack with the solar panel interval, fix solar panel in the top of support rack through the bolt, pass through the bolt fastening with the accumulator box in straining water chamber bottom, link to each other through the wire between accumulator box and a plurality of solar panel, a plurality of solar panels change light energy into the electric energy storage and supply subway station to construct the module and use in the battery daytime, can save the spending for subway station operation mechanism, and solar energy is clean energy, environmental pollution has been reduced.

Optionally, be provided with green system of planting on the canopy, green system of planting is located the below of supporting the rack.

Through adopting above-mentioned technical scheme, be provided with green system of planting in the catchment intracavity, catchment intracavity space is great, and green system of planting sets up in catchment intracavity rational utilization space, and green system of planting can convert partial carbon dioxide into oxygen, provides fresh air for waiting to take advantage of under the canopy.

Optionally, the green system of planting is including planting board and a plurality of planting net box, the planting board is located and supports between rack and the canopy, a plurality of even water elongated slot and a plurality of planting groove have been seted up to the planting board roof, and is a plurality of even water elongated slot is alternately just the intercommunication sets up, and is a plurality of even water elongated slot encloses to be established around planting the groove, and is a plurality of the planting tank bottom runs through and has seted up a plurality of infiltration holes, and is a plurality of the planting net box is set up and is located planting groove department at the planting board.

By adopting the technical scheme, in the rainy day, part of rainwater directly falls into the planting net box or the planting groove through the gap between the solar panels, and finally flows into the water collecting cavity through the water seepage holes; part of rainwater falls into the water uniformly distributing long grooves, and when the rainwater in the water uniformly distributing long grooves is fully collected, if the rainwater continues to fall into the water uniformly distributing long grooves, the rainwater can overflow from the water uniformly distributing long grooves and fall into the planting groove; through the water homogenizing effect of the water homogenizing elongated grooves, plants in the planting net boxes shielded by the solar panels can be irrigated by rainwater, and the situation that the plants in the planting net boxes shielded by the solar panels cannot be irrigated by rainwater for a long time and need to be irrigated manually is reduced.

Optionally, the joint groove has been seted up to the department that plants the board top and be close to planting the groove, it is protruding to be provided with the joint that corresponds with the joint groove on the planting net box lateral wall, the planting net box is taken through the joint between joint arch and the joint groove and is established on planting the board.

Through adopting above-mentioned technical scheme, will plant the net box and remove the top of planting the groove when installing the planting net box, adjust the position of planting the net box for the joint groove on the planting board is aimed at to the joint arch, and last vertical removal plants the net box, and when the bellied diapire of joint and the diapire in joint groove pasted mutually, the planting groove installation was accomplished, and the joint groove can be spacing to the joint arch, thereby makes the planting net box more stable on planting the board installation.

Optionally, a plurality of illuminating lamps are arranged at the bottom of the umbrella cover, and the illuminating lamps are electrically connected with the storage battery.

Through adopting above-mentioned technical scheme, when the light around the subway station construction module was not enough, open the light, utilize the light to supply the light under the canopy.

Optionally, a plurality of charging sockets are arranged on the umbrella post, and the plurality of charging sockets are electrically connected with the storage battery.

Through adopting above-mentioned technical scheme, the working clan can insert the charging socket with the charging plug of storage battery car and charge to the storage battery car, has alleviated the difficult difficulty of storage battery car external charging to a certain extent.

Optionally, the umbrella pole side wall is further provided with a billboard.

By adopting the technical scheme, the characteristic that the passenger flow around the subway station building module is large is utilized, a subway operator can rent the advertising board, and certain income can be brought to the subway operator by renting the advertising board.

In summary, the present application includes at least one of the following beneficial technical effects:

1. in the rain weather, rainwater flows into the water filtering cavity to filter the cavity after falling into the water collecting cavity, the collected and filtered rainwater can be used by a subway system, the umbrella cover is only supported by the umbrella posts, so that more movable space is reserved under the umbrella cover, the solar energy storage system at the top of the umbrella cover can convert light energy into electric energy to be stored for the subway station building module to use, the service function of the platform is increased through the cooperation of the water collecting cavity and the solar energy storage system, the energy consumption of the subway station is reduced, and the practicability of the subway station building module is improved;

2. the method comprises the following steps that firstly, the edge of a supporting net rack is fixed on the inner side wall of a water collecting cavity in a welding mode, then solar panels are arranged above the supporting net rack at intervals, the solar panels are fixed above the supporting net rack through bolts, a storage battery box is fixed at the bottom of a water filtering cavity through bolts, the storage battery box is connected with the solar panels through wires, the solar panels convert light energy into electric energy and store the electric energy in a storage battery for a subway station building module to use in daytime, expenditure can be saved for subway station operating mechanisms, and the solar energy is clean energy, so that environmental pollution is reduced;

3. the planting net box is moved to the top of the planting groove when the planting net box is installed, the position of the planting net box is adjusted, the clamping protrusions are aligned to the clamping grooves in the planting plate, the planting net box is vertically moved downwards at last, when the bottom wall of the clamping protrusions and the bottom wall of the clamping grooves are attached to each other, the planting groove is installed and completed, the clamping grooves can limit the clamping protrusions, and therefore the planting net box is more stable in installation place on the planting plate.

Drawings

Fig. 1 is a schematic structural diagram of a green subway station building module according to an embodiment of the present application.

Fig. 2 is a schematic sectional view for illustrating a positional relationship between a water collecting chamber and a water filtering chamber in an embodiment of the present application.

Fig. 3 is a schematic sectional view for showing the positional relationship between the planting plate and the planting net box in the embodiment of the application.

Description of reference numerals: 1. an umbrella post; 11. a water filtering cavity; 2. an umbrella cover; 21. a water collection cavity; 3. a solar power storage system; 31. a support net rack; 32. an accumulator case; 33. a solar panel; 4. a green plant system; 41. planting a plate; 411. water homogenizing long grooves; 412. planting grooves; 413. a water seepage hole; 414. a clamping groove; 42. planting net boxes; 421. clamping the bulges; 5. an illuminating lamp; 6. a charging socket; 7. a billboard.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a green subway station construction module. Referring to fig. 1 and 2, green subway station construction module includes rectangle umbrella pole 1 and umbrella pole 1 top integrated into one piece's canopy 2, and canopy 2 is uncovered to be set up and is formed catchment chamber 21, and water filtering chamber 11 has been seted up at umbrella pole 1 top, installs the cotton filter core of pp in water filtering chamber 11 in this embodiment, catchment chamber 21 and water filtering chamber 11 intercommunication setting, is provided with solar electric power storage system 3 and green system 4 of planting on the canopy 2.

Referring to fig. 1 and 2, the umbrella cover 2 can provide a place for a passenger to take the umbrella to shade sun and rain, the solar power storage system 3 can convert solar energy into electric energy and store the electric energy, and the green planting system 4 can convert carbon dioxide into oxygen to achieve the effect of purifying air; in rain weather, the water collecting cavity 21 collects rain water at the top and guides the collected rain water into the water filtering cavity 11; through the cooperation of solar energy electric power storage system 3 and green system 4 of planting, can increase the service function of green subway station construction module, reduced the energy consumption of subway station.

Referring to fig. 2, the solar power storage system 3 includes a support frame 31, a power storage box 32 and a plurality of solar panels 33, the support frame 31 is disposed on the umbrella cover 2, the plurality of solar panels 33 are disposed on the support frame 31 at intervals, the solar panels 33 are connected to the support frame 31 through bolts, and the power storage box 32 is fixed to the bottom of the water filtering cavity 11 through bolts.

Referring to fig. 1 and 2, a plurality of illuminating lamps 5 are fixed at the bottom of the umbrella cover 2 through bolts, the illuminating lamps 5 are circumferentially distributed along the side wall of the umbrella cover 2, and each illuminating lamp 5 is connected with a storage battery box 32 through a lead; at night or when the weather is dim, the illuminating lamp 5 is turned on to provide illumination for passengers, the electric energy in the accumulator box 32 is converted into light energy, and the operation cost is saved.

Referring to fig. 1, advertising boards 7 are fixed on each side wall of an umbrella post 1 through bolts, and the advertising boards 7 are connected with an accumulator box 32 through bronze drum leads; the electric energy in the accumulator box 32 can be used for illuminating the billboard 7 or turning pages, thereby further saving the operation cost and bringing certain economic benefit.

Referring to fig. 1, the sidewall of the umbrella post 1 is further provided with a plurality of charging sockets 6 through bolts, and the charging sockets 6 are connected with the storage battery box 32 through wires; the waiting personnel can insert the charging plug of electronic products such as mobile phones into the charging socket 6 to charge the mobile phones, or insert the charging plug of the battery car into the charging socket 6 to charge the battery car, so that the waiting personnel has a good convenience effect.

Referring to fig. 2 and 3, the green planting system 4 includes a planting plate 41 and a planting net box 42, the planting plate 41 is located between the supporting net rack 31 and the umbrella cover 2, the supporting net rack 31 is fixed on the planting plate 41 by welding, the bottom wall of the planting plate 41 is fixed on the top wall of the umbrella cover 2 by welding, the top wall of the planting plate 41 is provided with a plurality of elongated water-homogenizing long grooves 411 and a plurality of rectangular planting grooves 412, the plurality of water-homogenizing long grooves 411 are vertically and crosswise arranged, the intersections of the two water-homogenizing long grooves 411 are communicated with each other, every four water-homogenizing long grooves 411 are surrounded on the periphery of one planting groove 412, the planting grooves 412 are in one-to-one correspondence with the planting net box 42, and the bottom of the planting groove 412 is provided with a plurality of water seepage holes 413.

Referring to fig. 3, a clamping groove 414 is formed around the planting plate 41 close to the planting groove 412, the clamping groove 414 is communicated with the planting groove 412, the planting net box 42 is open and has an upward opening, the cross-sectional area of the planting net box 42 is smaller than that of the planting groove 412, clamping protrusions 421 are formed around the planting net box 42 in an integrated manner, when the planting net box 42 is erected at the position where the planting plate 41 is located in the planting groove 412, the bottom wall of the clamping protrusions 421 is attached to the bottom wall of the clamping groove 414, the bottom wall of the planting net box 42 is attached to the bottom wall of the planting groove 412, and a certain gap is left between the side wall of the planting net box 42 and the inner side wall of the planting groove 412.

Referring to fig. 3, after the planting net box 42 is fully planted with plants, the planting net box 42 is erected on the planting plate 41 and is positioned in the planting groove 412, in rainy days, part of rainwater directly falls onto the planting net box 42, part of rainwater falls into the water uniformizing long groove 411, when the water level in the water uniformizing long groove 411 is flush with the planting plate 41, if the rainwater continues to fall into the water uniformizing long groove 411, the water in the water uniformizing long groove 411 can diffuse into the planting groove 412, and the water flows into the water converging cavity 21 from the water seepage hole 413 after passing through the planting net box 42, and finally flows into the water filtering cavity 11; through the water-homogenizing effect of the water-homogenizing long groove 411, the planting net box 42 which is shielded by the solar panel 33 at the top can be irrigated by rainwater, and the possibility that the planting net box 42 needs to be irrigated manually is reduced.

The implementation principle of the green subway station building module in the embodiment of the application is as follows: in the daytime, the solar panels 33 convert light energy into electric energy to be stored in the storage battery box 32, and at night or in dark weather, the illuminating lamp 5 is turned on, the illuminating lamp 5 converts the electric energy in the storage battery box 32 into the light energy to supplement the light rays under the umbrella cover 2, so that the light rays are provided for passengers to take; the office worker who utilizes the storage battery car to commute can insert charging plug in the socket 6 that charges to the storage battery car.

Subway operators can rent out the advertising board 7 to obtain certain economic benefits.

Before the planting net box 42 is installed, plants are fully planted in the planting net box 42, then the planting net box 42 is moved to the position above the planting groove 412, the axes of the planting net box 42 and the planting groove 412 are collinear, the clamping protrusions 421 on the periphery of the planting net box 42 are aligned to the clamping grooves 414 on the periphery of the planting groove 412, then the planting net box 42 is moved downwards along the axis of the planting groove 412 until the bottom wall of the clamping protrusions 421 and the bottom wall of the clamping grooves 414 are attached to each other, and the installation of the planting net box 42 is completed.

In the rain weather, part of the rain water directly falls into the planting net box 42 or the gap between the planting net box 42 and the planting groove 412 through the gap between the solar panels 33, then enters the water collecting cavity 21 through the water seepage holes 413 and finally enters the water filtering cavity 11 for filtering, part of the rain water flows into the water uniformly distributing long groove 411, and when the rain water in the water uniformly distributing long groove 411 is full, if the rain water continuously falls into the water uniformly distributing long groove 411, the rain water falls into the planting groove 412 from the water uniformly distributing long groove 411, so that the planting groove 412 shielded by the solar panels 33 is watered with the rain water.

Through setting up solar panel 33 and accumulator case 32, reduced the energy consumption of subway station, improved the practicality of subway station construction module.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A green subway station building module is characterized in that: the umbrella comprises an umbrella post (1) and an umbrella cover (2) covered on the umbrella post (1), wherein an opening of the umbrella cover (2) is arranged to form a water collecting cavity (21), the umbrella post (1) is arranged in a hollow mode to form a water filtering cavity (11), and the water collecting cavity (21) is communicated with the water filtering cavity (11); the umbrella cover (2) is provided with a solar energy power storage system (3).

2. The green subway station building module as claimed in claim 1, wherein: solar energy electric power storage system (3) are including support rack (31), battery box (32) and a plurality of solar panel (33), the top at canopy (2) is established to support rack (31) lid, and is a plurality of solar panel (33) are set up in support rack (31) top, battery box (32) set up in drainage chamber (11) bottom.

3. The green subway station building module as claimed in claim 2, wherein: be provided with green system (4) of planting on canopy (2), green system (4) of planting is located the below of support rack (31).

4. A green subway station building module as claimed in claim 3, wherein: green system of planting (4) is including planting board (41) and a plurality of planting net box (42), planting board (41) are located and support between rack (31) and canopy (2), planting board (41) roof has seted up a plurality of even water elongated slot (411) and a plurality of planting groove (412), and is a plurality of even water elongated slot (411) are crossing and the intercommunication sets up, and is a plurality of even water elongated slot (411) enclose establish around planting groove (412), and is a plurality of planting groove (412) bottom is run through and has been seted up a plurality of infiltration holes (413), and is a plurality of planting net box (42) are set up and are located planting groove (412) department at planting board (41).

5. The green subway station building module as claimed in claim 4, wherein: planting board (41) top is close to the department of planting groove (412) and has seted up joint groove (414), it is protruding (421) with the joint that joint groove (414) correspond to be provided with on planting net box (42) lateral wall, planting net box (42) are taken through the joint between protruding (421) of joint and joint groove (414) and are established on planting board (41).

6. The green subway station building module as claimed in claim 2, wherein: the umbrella cover is characterized in that a plurality of illuminating lamps (5) are arranged at the bottom of the umbrella cover (2), and the illuminating lamps (5) are electrically connected with the storage battery.

7. The green subway station building module as claimed in claim 2, wherein: a plurality of charging sockets (6) are arranged on the umbrella post (1), and the charging sockets (6) are electrically connected with the storage battery.

8. The green subway station building module as claimed in claim 2, wherein: the side wall of the umbrella post (1) is also provided with a billboard (7).

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