CN110080568A - Assembled resource collects corridor - Google Patents

Abstract

The invention discloses an assembled resource collection gallery frame, which comprises a base, a supporting column arranged in the middle of the base, and a ceiling arranged on the top of the supporting column, and the ceiling is gradually concaved from the periphery to the center to form a cluster. Water diversion tank. The ceiling includes an outer frame, an inner frame and a plurality of connecting beams for connecting the outer frame and the inner frame; The four corners extend inward and are fixed to the top of the support column. A plurality of solar panels are covered and installed between two adjacent connecting beams on the ceiling, and both lateral ends of the solar panels are respectively fixedly connected to two adjacent connecting beams. The assembled resource collection gallery frame of the present invention can collect and reuse rainwater, and can also convert light energy into electric energy, thereby realizing sustainable utilization of resources.

Description

Prefabricated resource collection gallery

technical field

The invention belongs to the technical field of landscape gallery frames, and in particular relates to an assembled resource collection gallery frame.

Background technique

With the rapid development of my country's economy, in garden landscape design, the design of garden landscape corridors is often used to integrate various scenic spots, scenic spots, and residential areas in the garden, but too many corridor designs isolate people from sunlight, air, water and natural life. People are always alert to the increasingly prominent problems of environmental pollution and water resource shortages. Excellent garden landscape corridors should shift from pure formalism to intensification, industrialization, and modularization, which will solve environmental and efficiency problems. 1. Quality issues will be the focus of future design. The existing corridors mainly have the following shortcomings:

(1) Resource issues: Clean resources such as rainwater and sunlight cannot be wasted, and they are not converted into other forms of energy, and there is no awareness of sustainable development.

(2) Efficiency issues: Most of them use traditional materials such as concrete, stone, and wood. The traditional construction method has a large workload on site and a long construction period;

(3) Quality issues: In the engineering industry, the construction accuracy is not as good as that of industrial machinery processing products at the actual use site, and the general construction level of construction personnel is not high, and the construction quality and accuracy are difficult to control;

(4) Site problem: Due to material constraints, the actual use of beams and columns accounts for a large proportion of the area, which puts forward certain requirements for the area of the site, which affects the experience of use;

(5) Objective factors: Concrete is affected by seasons, temperature, and wetlands during the condensation process, so the construction period is difficult to guarantee, and the later maintenance is relatively difficult;

(6) Environmental problems: Concrete, masonry and other materials will inevitably be excavated and destroyed, and the operation site will generate noise pollution, dust pollution, mud pollution, light pollution and a large amount of construction waste solid waste, which will cause environmental damage. certain challenge;

(7) Recycling issues: It is difficult to form an industrial chain under market conditions for the recycling and resource utilization of traditional materials such as stone and concrete.

SUMMARY OF THE INVENTION

The purpose of the present invention is to solve the shortcomings of the above-mentioned background technology, and provide an assembled resource collection gallery, which can collect rainwater for reuse, and can also convert light energy into electric energy, realizing sustainable utilization of resources.

In order to achieve the above purpose, the technical solution adopted by the present invention is an assembled resource collection gallery, which includes a base, a support column arranged in the middle of the base, and a ceiling arranged on the top of the support column. Concave gradually to form water collection and diversion grooves.

As a preferred embodiment, the ceiling includes an outer frame, an inner frame, and a plurality of connecting beams for connecting the outer frame and the inner frame;

The inner frame is arranged directly below the inner side of the outer frame, and a plurality of connecting beams respectively connect the four corners corresponding to the outer frame and the inner frame and extend inward to be fixed to the top of the support column.

As a preferred embodiment, several solar panels are covered and installed between two adjacent connecting beams on the ceiling, and the two lateral ends of the solar panels are respectively fixedly connected to the adjacent two connecting beams. It is electrically connected with the storage battery buried in the ground through the power line.

As a preferred embodiment, the outer frame is composed of four main beams connected end to end, and two adjacent main beams are connected by a first connecting plate; the inner frame is a frame structure composed of four secondary beams, each The lateral ends of the secondary beam are respectively fixedly connected to the middle of the adjacent connecting beam through the second connecting plate; the top ends of the connecting beam are fixedly connected to the correspondingly arranged main beam through the third connecting plate.

As a preferred embodiment, the supporting column includes a hollow column body, the top of the column body is provided with a rainwater inlet, and a rain bucket is installed on the rainwater inlet; the top outer wall of the column body is provided with several blocks for Flanges fixedly connected to the connecting beam;

The lower part of the column body is provided with a column web for assembling with the base, a column water outlet and a column overflow are arranged in turn below the column web, and the column overflow is located below the column water outlet .

As a preferred embodiment, the base includes a base body with an open top and a seat board mounted on the top of the base body;

The middle part of the base body is provided with an installation tube for installing a supporting column, and the outer ring of the installation tube is surrounded by several rainwater collection pools, and two adjacent rainwater collection pools are connected through communication ports.

As a preferred embodiment, the installation cylinder is provided with several base water inlets communicating with the column water outlets, and several base overflow ports communicating with the column overflow ports; the column water outlets are connected with the base inlets A rainwater pipe is arranged between the water outlets, and an overflow pipe is arranged between the column overflow port and the base overflow port.

As a preferred embodiment, several screw holes are opened on the web of the column, and the web of the column is fixedly connected to the installation cylinder through bolts installed on the screw holes.

As a preferred embodiment, the middle part of the support column is provided with a ring sound; the ceiling is provided with a temperature sensor for monitoring the air temperature and a humidity sensor for monitoring the air humidity, and the signal output terminals of the temperature sensor and the humidity sensor Connect with the signal input terminal of the external weather monitoring station.

As a preferred embodiment, the storage battery is respectively electrically connected to the ring speaker, the temperature sensor and the humidity sensor through power supply lines.

Compared with the prior art, the beneficial effects of the present invention are:

Firstly, the ceiling of the present invention is gradually concave from the surrounding to the center to form a water collection and diversion groove, which can collect rainwater, and the collected rainwater can not only alleviate the problem of urban rain and flood runoff, but also provide water for green irrigation and landscape water bodies, so as to achieve The purpose of comprehensive utilization of rainwater resources and water conservation can effectively reverse the unfavorable status quo of "waterlogging every time it rains, and drought after rain", and alleviate problems such as water resource shortages and water ecological damage. In addition, it can also reduce surface rainwater runoff. Play the role of reducing the flood peak, reduce the amount of rainwater discharged into the municipal pipe network from the total amount, reduce the pressure on the urban pipe network, and reduce the loss of life and property caused by flood disasters to the city

Second, the roof of the present invention is provided with a solar panel, which can convert solar energy into electric energy and store it in the storage battery. In addition, it can also be integrated into the national grid controller automatically or according to the "About Doing a Good Job of Distributed Power Grid-connected Service Work" It is an inevitable choice to ensure the security of energy supply and sustainable development in my country.

Third, the ceiling of the present invention adopts an assembled structure, and since the degree of mechanical participation is greatly improved, repetitive and heavy work such as formwork support, pouring, plastering, and paving in traditional construction is saved, and the labor intensity of construction workers is reduced.

Fourth, the base of the present invention is provided with two rainwater collection pools to form rainwater regulation and storage facilities to alleviate runoff, which is a specific measure for practicing the "sponge city".

Fifth, the gallery frame structure of the present invention can be applied to different special sites, and the basic units composed of squares can be freely spliced and combined in a variety of different ways, which brings greater flexibility, and Realize detachable and reassembled, modular, mass-customizable construction. make it have a longer life cycle.

Sixth, compared with other pavilions and corridors, the corridor frame of the present invention not only meets the most basic needs of sunshade, rain shelter and rest, but also adopts an inwardly gathered shape in shape, compared with the closed shape of the traditional conventional sloping roof shape. The space as a whole has a more open perspective and a light posture.

Seventh, compared with traditional buildings and structures, the corridor frame of the present invention overcomes the problems of foundation embedment depth, foundation inspection and reinforcement, modularizes the independent foundation load-bearing structure, and is a freely movable landscape bench. It is more flexible and brings favorable support for the flexible combination in the later stage.

Eighth, the post-maintenance of the corridor frame of the present invention is flexible. Compared with traditional materials, the main components of the present invention are all within the visible range of the outside. The modular processing method not only retains the necessary conditions for maintenance, but also can Disassembly is convenient for inspection of various problems, breaking the inspection defects of traditional concealed projects.

Nine, the construction efficiency of the gallery frame of the present invention is high, and the construction period is short. When working on site, structures such as beams, slabs, and columns do not need to be poured on site, which greatly reduces the time spent on the job site waiting for the concrete to reach the strength; All components can be modularized and customized in the factory. The production process has a very high degree of mechanical participation. The degree of labeling, batching, and refinement is much higher than that of manual labor, which improves the accuracy and quality of the work; on-site operation, no steel bar binding, cast-in-place concrete The process can be completed through the installation project, effectively avoiding noise pollution, dust pollution, mud pollution, light pollution and a large amount of construction waste solid waste, minimizing the pollution generated during the construction process, and greatly improving the environment. improve.

Tenth, the gallery frame of the present invention has huge economic benefits. Rainwater collection reduces the water consumption of municipal irrigation, and then reduces the municipal water expenditure. The perfect combination of solar panels and the gallery frame can not only generate electricity but also be used as building materials and decoration Materials can make full use of material resources and play a variety of functions, which not only helps to reduce construction costs, but also diversifies the functions of buildings.

Description of drawings

Fig. 1 is a schematic structural view of the assembled resource collection gallery frame of the present invention;

Fig. 2 is a schematic structural diagram of the assembled resource collection gallery shown in Fig. 1 during assembly;

Figure 3 is a schematic diagram of the assembly node structure between the main beam and the connecting beam;

Fig. 4 is a schematic diagram of the assembly node structure between the secondary beam and the connecting beam;

Fig. 5 is a schematic diagram of the assembly node structure between the wing plate and the connecting beam;

Fig. 6 is a schematic diagram of the assembly node structure between the solar panel and the connecting beam;

Fig. 7 is the enlarged structural schematic diagram of support column;

Figure 8 is a schematic diagram of the enlarged structure of the base;

Fig. 9 is a schematic diagram of the circuit connection of the assembled resource collection gallery of the present invention;

In the figure: 1-base, 1.1-base body, 1.2-seat stool, 1.3-installation cylinder, 1.4-rainwater collection tank, 1.5-communication port, 1.6-base water inlet, 1.7-base overflow port , 2-support column, 2.1-column body, 2.2-rainwater inlet, 2.3-rain bucket, 2.4-wing plate, 2.5-column web, 2.6-column outlet, 2.7-column overflow, 2.8-screw hole, 3-ceiling, 3.1-outer frame, 3.11-main beam, 3.12-first connecting plate, 3.2-inner frame, 3.21-secondary beam, 3.22-second connecting plate, 3.3-connecting beam, 3.31-third connecting plate, 3.4-Solar panel, 4-Water collection and diversion tank, 5-Battery, 6-Rainwater pipe, 7-Overflow pipe, 8-Ring sound, 9-Temperature sensor, 10-Humidity sensor, 11-National grid, 12-Weather Monitoring station, 13-connector.

Detailed ways

The present invention will be further described in detail below in conjunction with the accompanying drawings and specific embodiments to facilitate a clear understanding of the present invention, but they do not limit the present invention.

As shown in Figure 1, an assembled resource collection gallery frame of the present invention includes a base 1, a support column 2 arranged in the middle of the base 1, and a ceiling 3 arranged on the top of the support column 2, and the ceiling 3 is composed of The water collection and diversion groove 4 is gradually concaved from the surrounding to the center. The cross section of the water collection and diversion groove 4 is a "V"-shaped structure. "" shape allows rainwater to fully flow down the slope, and it is easier to organize rainwater collection and flow into the centralized area.

As shown in Figure 2, the ceiling 3 includes an outer frame 3.1, an inner frame 3.2, and a plurality of connecting beams 3.3 for connecting the outer frame 3.1 and the inner frame 3.2; the inner frame 3.2 is arranged directly below the inner side of the outer frame 3.1, A plurality of connecting beams 3.3 respectively connect the four corners of the outer frame 3.1 and the inner frame 3.2 and extend inward to be fixed to the top of the support column 2 . Several solar panels 3.4 are covered and installed between two adjacent connecting beams 3.3 on the ceiling 3, and the lateral ends of the solar panels 3.4 are respectively fixedly connected to two adjacent connecting beams 3.3. As shown in Fig. 6, a connecting piece 13 is embedded in the bottom of the solar panel 3.4, and the connecting piece 13 is fixedly connected to the connecting beam 3.3 by bolts. The solar panel 3.4 is electrically connected with the storage battery 5 buried in the ground through a power line and/or is connected to the grid with the national grid 11. When it is sunny, the solar panel 3.4 can absorb solar energy more evenly. When the photodiode is used, the photodiode will convert the sun's light energy into electrical energy, store the converted electrical energy in the battery and supply power to the temperature sensor, humidity sensor and ring audio, and can also transfer the electricity to the national grid controller through the "Automatically Incorporate" "Or according to the "Opinions on Doing a Good Job of Distributed Power Grid-connected Services", it is an inevitable choice to connect with the national grid and switch nearby to ensure the safety and sustainable development of my country's energy supply.

As shown in Figures 3 to 5, the outer frame 3.1 is composed of four main beams 3.11 connected end to end, two adjacent main beams 3.11 are connected by a first connecting plate 3.12, and the first connecting plate 3.12 is connected to two adjacent main beams 3.11. The main beam 3.11 is fixed by riveting; the inner frame 3.2 is a frame structure composed of four secondary beams 3.21, and the lateral ends of each secondary beam 3.21 are connected to the middle of the adjacent connecting beam 3.3 through the second connecting plate 3.22 Fixed connection, the second connecting plate 3.22 is fixed with the secondary beam 3.21 and the connecting beam 3.3 by riveting; the top of the connecting beam 3.3 is fixedly connected with the correspondingly arranged main beam 3.11 through the third connecting plate 3.31, and the third connecting plate 3.31 is connected with the connecting beam 3.31. Beam 3.3 and main beam 3.11 are fixed by riveting. The main beam 3.11, the secondary beam 3.21, and the connecting beam 3.3 adopt H-section steel structure. Compared with traditional materials, the steel structure makes the cross-section of the beam and column smaller, so that more usable area can be obtained. The processed modules are transported to the site After that, just assemble and fix in order.

As shown in Figure 7, the supporting column 2 is made of steel structural material, including a hollow column body 2.1, the top of the column body 2.1 is provided with a rainwater inlet 2.2, and a rainwater bucket 2.3 is installed on the rainwater inlet 2.2; The top outer wall of the column body 2.1 is provided with several wing plates 2.4 for fixed connection with the connecting beam 3.3; the lower part of the column body 2.1 is provided with a column web 2.5 for assembling with the base 1, which is located at the column web A column water outlet 2.6 and a column overflow port 2.7 are sequentially arranged below the plate 2.5, and the column overflow port 2.7 is located below the column water outlet 2.6. The supporting column 2 utilizes the hollow structure to form a vertical rainwater collection pipe, and the rainwater collected from the ceiling flows down through the rainwater bucket and is diverted into the supporting column 2, and then is discharged into the rainwater collection pool or through the water inlet arranged on the supporting column 2 Municipal storm water pipes.

As shown in Figure 8, the base 1 includes a base body 1.1 with an open top and a stool board 1.2 installed on the top of the base body 1.1; the base body 1.1 is prefabricated with a hexagonal column structure by reinforced concrete, Placed on the ground, without foundation burial depth and backfilling, directly on the finished surface of the site, the exposed prefabricated concrete on the top meets the needs of the seat bench 1.2, and uses anti-corrosion wood to fully pave the joints to form an anti-corrosion and moisture-proof seat bench 1.2, the base body 1.1 The height is 450mm, meeting the height requirements of ergonomic seats. The middle part of the base body 1.1 is provided with an installation tube 1.3 for installing the support column 2, and the outer ring of the installation tube 1.3 is surrounded by several rainwater collection pools 1.4, between two adjacent rainwater collection pools 1.4 It is connected through the communication port 1.5.

The installation cylinder 1.3 is provided with several base water inlets 1.6 connected with the column water outlet 2.6, and several base overflow ports 1.7 connected with the column overflow port 2.7; the column water outlet 2.6 is connected with the base inlet A rainwater pipe 6 is provided between the water outlets 1.6, and an overflow pipe 7 is provided between the column overflow port 2.7 and the base overflow port 1.7. Several screw holes 2.8 are opened on the column web 2.5, and the column web 2.5 is fixedly connected with the installation cylinder 1.3 through bolts installed on the screw holes 2.8.

The middle part of the support column 2 is provided with a ring sound 8, in case of special extreme weather, a broadcast signal is received, and the sound is connected to send a disaster warning message to remind people to take emergency measures to reduce property losses. Described ceiling 3 is provided with the temperature sensor 9 that is used to monitor air temperature and the humidity sensor 10 that is used to monitor air humidity, as shown in Figure 9, the signal output terminal of described temperature sensor 9 and humidity sensor 10 and the meteorological monitoring of the outside world The signal input terminal of the station 12 is connected, and the storage battery 5 is electrically connected with the ring audio system 8, the temperature sensor 9 and the humidity sensor 10 respectively through the power supply line. The temperature sensor 9 and the humidity sensor 10 convert the temperature and humidity into available output signals and send them to the meteorological monitoring station, which is convenient for the meteorological monitoring station to monitor refined meteorological data such as temperature changes and humidity.

The above is only a specific embodiment of the present invention, and it should be pointed out that the rest that is not described in detail is the prior art. Any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in the present invention are all Should be covered within the protection scope of the present invention.

Claims (10)

1. a kind of assembled resource collects corridor, it is characterised in that: vertical including pedestal (1), the support being arranged in the middle part of pedestal (1) Column (2) and the ceiling (3) being arranged at the top of support post (2), the ceiling (3) is by four circumferential center gradually recessed formation It catchments diversion trench (4).

2. assembled resource according to claim 1 collects corridor, it is characterised in that: the ceiling (3) includes outer framework (3.1), inner frame (3.2) and more are for connecting the attachment beam (3.3) of outer framework (3.1) and inner frame (3.2)；

The underface that the inner frame (3.2) is arranged on the inside of outer framework (3.1), the more attachment beams (3.3) are separately connected Outer framework (3.1) and corresponding four angles of inner frame (3.2) and extending internally is fixed with the top of support post (2).

3. assembled resource according to claim 2 collects corridor, it is characterised in that: adjacent two on the ceiling (3) Covering is equipped with several pieces of solar panels (3.4), the transverse ends point of the solar panels (3.4) between root attachment beam (3.3) It is not fixedly connected with adjacent two attachment beams (3.3), the solar panels (3.4) pass through power supply line and the electric power storage for being embedded in underground Pond (5) electrical connection and/or it is access grid-connected with national grid.

4. assembled resource according to claim 3 collects corridor, it is characterised in that: outer framework (3.1) You Sigen Girder (3.11) joins end to end composition, is connected between adjacent two girders (3.11) by the first connecting plate (3.12)；In described Frame (3.2) is the frame structure of four secondary beams (3.21) composition, and the transverse ends of the every secondary beam (3.21) pass through respectively It is fixedly connected in the middle part of second connecting plate (3.22) and adjacent attachment beam (3.3)；The top of the attachment beam (3.3) passes through the Three connecting plates (3.31) are fixedly connected with the girder (3.11) of corresponding arrangement.

5. assembled resource according to claim 4 collects corridor, it is characterised in that: during the support post (2) includes Rain import (2.2) are arranged in the top of empty column ontology (2.1), the column ontology (2.1), the rainwater import (2.2) roof drain (2.3) are installed on；The top exterior walls of the column ontology (2.1) are provided with several pieces and are used for and attachment beam (3.3) wing plate (2.4) being fixedly connected；

The lower part of the column ontology (2.1) is provided with the column web (2.5) for assembling with pedestal (1), is located at described vertical Column water outlet (2.6) and column overflow port (2.7), the column overflow port are disposed with below column web (2.5) (2.7) it is located at the lower section of column water outlet (2.6).

6. assembled resource according to claim 5 collects corridor, it is characterised in that: the pedestal (1) is opened including top The base body (1.1) of mouth and the stool plate (1.2) being mounted at the top of base body (1.1)；

The mounting cylinder (1.3) for installing support post (2), the mounting cylinder are provided in the middle part of the base body (1.1) (1.3) outer ring is surrounded with several rainwater collection pools (1.4), leads between the two neighboring rainwater collection pool (1.4) Cross communication port (1.5) connection.

7. assembled resource according to claim 6 collects corridor, it is characterised in that: be arranged on the mounting cylinder (1.3) The pedestal water inlet (1.6) that has several to be connected to column water outlet (2.6), several are connected to column overflow port (2.7) Pedestal overflow port (1.7)；It is provided with rain pipe (6) between the column water outlet (2.6) and pedestal water inlet (1.6), it is described Overflow pipe (7) are provided between column overflow port (2.7) and pedestal overflow port (1.7).

8. assembled resource according to claim 7 collects corridor, it is characterised in that: opened on the column web (2.5) Equipped with several screw holes (2.8), the column web (2.5) passes through the bolt being mounted on screw hole (2.8) and mounting cylinder (1.3) It is fixedly connected.

9. the assembled resource according to claim 8 collects corridor, it is characterised in that: the support post (2) Middle part is provided with annular sound equipment (8)；It is provided with the temperature sensor (9) for monitoring air themperature on the ceiling (3) and uses In the humidity sensor (10) of monitoring air humidity, the signal output end of the temperature sensor (9) and humidity sensor (10) It is connect with the signal input part of extraneous weather monitoring station.

10. the assembled resource according to claim 9 collects corridor, it is characterised in that: the battery (5) is logical Supply lines is crossed to be electrically connected with annular sound equipment (8), temperature sensor (9) and humidity sensor (10) respectively.