TWM645290U - Quickly combined water bank storage brick structure - Google Patents

Abstract

A fast combined water pump full of water storage brick structure, which is composed of combined building bricks and side plates. It is characterized in that: the combined building bricks are composed of flat plates and hollow pipe columns in a separate design. The flat block is provided with a pipe column fastening hole, and the pipe column fastening hole is provided with a stepped edge, and the hollow pipe column is provided with a buckle ring groove around the fastening end, and the buckle ring groove is used to assemble and fasten the flat block A brick is formed on the side plate; the side plate is provided with a through hole, and a buckle structure is provided at the side edge. The side plate is erected on the outside of the aforementioned combined brick by using the buckle structure to form a water-filled water storage structure.

Description

Quick combined water pump with water storage brick structure

This creation is about a quick combined water pump full of water storage brick structure, especially a kind of water storage space built underground as a water storage space. The hollow pipe column and the brick slab are designed to be separated, so that it can be easily molded and manufactured. The material collection simplifies the volume and is suitable for use as a water storage device constructed underground.

In recent years, extreme climate has become more and more serious. Heavy rains often occur in countries around the world, resulting in urban flooding. In order to combat global warming and reduce the environmental load and its negative impacts, experts from various countries have proposed corresponding adjustment measures at the World Climate Conference in recent years. and sustainable development policies, such as promoting sponge cities and energy transition policies. Sponge cities are a new type of urban planning and design that build flood control and waterlogging prevention in cities and have ecological and environmental protection functions; such as building permeable pavements to replace non-permeable pavements. , absorb water, store water, seep water, and purify water when it rains. When the climate is dry and hot, it can release water vapor to improve the heat island effect and prevent the gradual expansion of global warming.

Therefore, in order to combat global warming and reduce the environmental load and its negative impacts, Germany and the United States are gradually promoting Low Impact Development (LID) technology, which aims to protect, restore and maintain the environmental integrity of water resources. However, the maintenance cost of the low-impact development technology (LID) related equipment is relatively high. Therefore, it is more necessary to develop a cheap and effective related facility to promote the promotion of LID with a construction cost that can be easily accepted by the public, and attract Only by attracting more people to participate in LID can we develop the concept and model of sustainable management and sustain the power of environmental improvement and restoration. The purpose of LID is to maintain and restore the hydrologic regime of a developing watershed by creating an environment that mimics natural hydrologic functions (infiltration, runoff, and evapotranspiration). This is achieved through a series of LID site planning practices and stormwater treatment technologies that manage runoff volume and water quality. The more effectively the LID is integrated into the environment, the greater the site’s ability to replicate the land’s natural water storage to capture water and trap and recycle pollutants. The dispersed and discontinuous distribution of small-scale LID rainwater throughout the site will slow down surface runoff, allow rainwater to penetrate and reduce site discharge flow.

Generally, the traditional low-impact development technology includes permeable bricks with water permeability function and water-filled water storage function. However, the traditional water-filled bricks are integrally molded with flat plates and hollow pipe columns, making the volume large and difficult to open when the mold is opened. The cost is high, and the prices quoted for plastic processed products are also relatively high. In order to effectively promote the Low Impact Development (LID) technology and adapt to the focus of sustainable development, relatively low-priced environmentally friendly facility building materials are designed and developed to provide construction conditions for underground water storage equipment that are easily acceptable to the public and facilitate the construction of underground water storage equipment. Coupled with the construction of various permeable pavements on the ground, the rainwater introduced under the surface can be effectively stored and reused. It can actually provide specific measures and contributions to water conservation and water storage for environmental protection, which is the main motivation of this creation.

In view of this, the author of this case actively researched, designed and organized the above-mentioned needs, hoping to improve and develop a water pumping structure design with higher pressure resistance, so the present utility model came into being.

The main purpose of this creation is to provide a quick combined water-filled water storage brick structure, which can reduce the manufacturing cost of water-filled products, facilitate vigorous promotion, and protect the environment. water and water storage to achieve goals that are broadly acceptable to the public.

Another purpose of this invention is to provide a quick combined water pump and water storage brick structure, which can make the water pump product less consuming when preparing and storing materials, and is also easy to transport and handle in actual use. Due to the size of the floor, When it is necessary to cut the brick building blocks due to restrictions, the plate-shaped brick building blocks are relatively easy to cut to a suitable size, so that a good edge closing effect can be achieved in the limited construction area.

In order to achieve the above purpose, this invention creates a quick combined water pump full of water storage brick structure, which is composed of combined building bricks and side plates. The characteristic is: the combined building bricks are equipped with flat blocks and hollow pipe columns. It is composed of a separate design. There is a pipe string fastening hole on the flat block, and a step edge is provided on the pipe string fastening hole. The hollow pipe column is equipped with a buckling ring groove on the periphery of the fastening end. Using the buckle ring The groove assembly is fastened to the flat block to form a building brick; the side plate is provided with a through hole and a buckle structure at the side edge. The side plate is erected on the outside of the aforementioned combined building brick using the buckle structure to form a water Fill the water storage structure.

In one embodiment, it further includes a through pipe, and a through pipe fastening hole is provided on the flat plate block so that the through pipe can be engaged with the flat plate.

The effective gain of this new type is that the combined bricks are formed into flat blocks and the hollow pipe columns are connected in a snap-fit manner, making the flat blocks easy to mold and form. Each hollow pipe column is only a simple tapered pipe section. The manufacturing cost of each component is greatly reduced, so that when combined with the side plate to form a water storage tank filled with water, the manufacturing cost is greatly reduced. Therefore, for the Low Impact Development (LID) technology to be promoted to combat global warming and reduce environmental load, the related water conservation and water storage equipment that need to be developed provide an easily accepted willingness to participate, and create excellent environmental and ecological protection Opportunities for restoration.

Other features and specific embodiments of this invention can be further understood in the following detailed description accompanied by the accompanying drawings.

10: Combined brick building

11: Flat block

12:Through pipe

13:Through hole

14:Hollow pipe column

15: Tenon

16: Tongue and groove

17: Fastening groove

18: Positioning bumps

19: Positioning groove

20:Side panel

21:Through hole

22:Elastic buckle

30: Column fastening hole

31: Pipe fastening hole

40:Concrete mortar

50: Permeable paving

121, 141: Buckle groove

301, 311: Class connection

Figure 1 is an exploded diagram of the combined brick structure of this creation.

Picture 2 shows the appearance of the combined bricks of this creation.

Figure 2A is a partial structural cross-sectional view of Figure 2 of this creation.

Figure 2B shows the appearance of another embodiment of the invention after the bricks are assembled.

Picture 3 is a schematic diagram of the overlap and overlap of the upper and lower bricks of this creation.

Figure 3A is a schematic diagram of the relative overlapping of the upper and lower bricks in Figure 2B.

Picture 4 is a schematic diagram of this creative combination where most of the bricks are piled up to form a large water bank.

Figure 5 is a schematic diagram of this creation filled with water and covered with concrete mortar or backfill soil.

Figure 6 is a schematic diagram of this invention in which water is poured into the column concrete mortar to form an underground water storage structure, and then permeable materials are laid on top to form a road surface.

Figure 7 is a partial structural cross-section diagram of Figure 6 of this creation.

Please refer to Figures 1, 2 and 4. This invention's quick combined water pump full of water storage brick structure is composed of combined building bricks 10 and side plates 20.

The combined brick building block 10 is composed of a flat block 11 and a hollow pipe column 14 in a separate design. The flat block 11 is provided with a through hole 13 so that water can penetrate into the flat block 11 at the through hole 13, and The flat block 11 is provided with buckle structures around the four sides of the upper plane frame plate, such as tenons 15 and tenon grooves 16 that can be relatively fastened. Two adjacent modular building blocks 10 use the tenon 15 and tenon grooves 16 Can be joined together with tenons are connected together, and fastening grooves 17 are also provided around the frame plate of the flat block 11. There is also a pipe string fastening hole 30, a stepped edge 301 is provided on the pipe string fastening hole 30 (as shown in Figure 2A), and the hollow pipe column 14 is provided with a buckling ring groove 141 on the periphery of the fastening end. The buckle groove 141 is used to assemble and buckle the flat block to form a combined building block 10 .

Please refer to Figures 2B and 3A. In another embodiment, the building block 10 is composed of a flat block 11, a pipe 12 and a hollow pipe column 14 in a separate design. The flat block 11 is also provided with There is a through hole 13, so that water can penetrate into the flat block 11 at the through hole 13, and the flat block 11 is provided with snap-on structure tenons 15 and tenon grooves 16 around the upper plane frame plate, and the flat block 11 frame plate Fastening grooves 17 are also provided all around. In addition to the pipe column fastening holes 30, the flat block 11 is also provided with a pipe fastening hole 31. The pipe fastening hole 31 can be set at any position, such as As shown in the figure, the through-tube fastening hole 31 is set in the center, and a stepped edge 311 is provided on the through-tube fastening hole 31. The through-tube 12 can be assembled by using the bottom buckle ring groove 121 to assemble the fastening stepped edge 311. Because the 12 pipes can be connected to the upper and lower levels, the position of the pipes can be assembled and adjusted according to changes in underground pipeline requirements on site.

The side plate 20 is provided with a through hole 21 and a buckle structure at the side edge. The side plate is erected on the outside of the aforementioned combined bricks using the buckle structure to form a water-filled water storage structure.

Please refer to Figures 3 and 4. This creation is combined into a water-filled hollow body to form a porous hollow body, which is further buried underground to form an underground water storage space. Multiple water-filled hollow bodies can be assembled with each other to form a larger area of storage space. water space. The water filling structure design is composed of two combined building bricks 10 and four side panels 20 . When assembled, two modular bricks 10 of the same structure overlap each other upper and lower, and four side plates 20 are fastened around the bricks 10 to form a hollow body.

Please refer to Figures 3A and 5, when the upper and lower modular bricks 10 are connected to each other Combined, the two pipes 12 are paired to form a grouting pipe, and the two opposite hollow pipe columns 14 are positioned to overlap each other with positioning protrusions 18 and positioning grooves 19. The side plates 20 are erected around the periphery of the combined building bricks 10 to form a water storage Use hollow body. When two adjacent bricks are overlapped, the convex tenon 15 and the tenon groove 16 provided around the bricks can be used to fasten and connect them together.

The side plate 20 is provided with a through hole 21 to allow water to be poured into the side plate, and an elastic buckle 22 is provided at the side edge. The position of the elastic buckle is corresponding to the fastening groove 17 of the brick 11 for the side plate. 20 can be buckled on the outside of the stacking brick 10 to form a water-filled structure.

Therefore, after the floor is finished, concrete mortar 40 is poured above each water pump formed in series. The concrete mortar 40 will enter from the pipe 12 to the lower water pump combined bricks 10 to form an underground water storage. space. It is also possible to fill the combined bricks 10 with water without pouring concrete mortar and directly cover the top with backfill soil, and then lay the subsequent roadbed paving materials.

Please refer to Figures 5 to 7. After the solid groundwater is constructed to fill the water storage space, permeable materials can be used to pave a permeable asphalt pavement 50 or a permeable concrete pavement above the water, and additional water pumping equipment can be installed. You can extract water at any time and fill it up to store water to achieve the effect of recovering rainwater and reusing it.

It can be seen from the above that this creation has the following practical advantages:

1. By overlapping the water pump with combined bricks and side panels, the inventory materials can occupy less space, and it is also easy to transport. When the size, length and width of the construction site do not match the total length of the water pump series, it can It is easy to cut out the flat bricks and assemble them, so that the construction area can obtain a good edge effect.

2. The plastic injection mold of water-filled bricks can be reduced in size, reducing mold opening and plastic parts manufacturing costs.

3. A large underground rainwater storage space can be provided for subsequent use to fully reserve water resources and recycle them.

To sum up, in this creative design, the water-filled bricks are designed into combined building bricks, which are overlapped with the side panels to form a water-filled building. The combined building bricks are composed of flat plates, hollow pipe columns, and separate designs. , the flat block is provided with hollow pipe column fastening holes, and the hollow pipe columns are fastened together to form a brick, which can greatly reduce the relative manufacturing cost; it can also be provided with an upper and lower through-tube to buckle with the flat plate. Overlap and assemble the pipes according to the changes in demand for underground pipelines on site to serve as route passages. Concrete mortar is poured over the water and then solidifies to form a highly supportive underground water storage space. It has the value of industrial utilization. Yuan has filed a patent application in accordance with the law. .

The above are only preferred embodiments of this invention, and should not be used to limit the scope of implementation of this invention; therefore, any simple equivalent changes and modifications made based on the patent scope of this invention and the content of the invention description, All should still be within the scope of this creative patent.

10: Combined brick building

11: Flat block

13:Through hole

14:Hollow pipe column

15: Tenon

16: Tongue and groove

17: Fastening groove

18: Positioning bumps

19: Positioning groove

30: Column fastening hole

141:Buckle groove

301: Class connection

Claims (6)

A fast combined water pump full of water storage brick structure, which is composed of combined building bricks and side panels. It is characterized by: This modular building brick is composed of flat blocks and hollow pipe columns in a separate design. The flat blocks are provided with pipe column fastening holes, and the pipe column fastening holes are provided with stepped edges, and the hollow pipes are The column is provided with a buckle groove on the periphery of the fastening end, and the buckle groove is used to assemble and buckle the flat block to form a brick; The side plate is provided with a through hole and a buckle structure at the side edge. The side plate is erected on the outside of the aforementioned combined building bricks using the buckle structure to form a water-filled water storage structure. As described in item 1 of the patent application, there is a quick combined water pump full of water storage brick structure, in which the combined building bricks have perforations on the flat blocks. As described in item 1 of the patent application, the quick combined water pump is filled with water and stored with bricks, in which fastening grooves are provided around the combined flat bricks. As described in item 1 of the patent application, the quick-assembly water pump filled with water storage brick structure has positioning protrusions and positioning grooves at the bottom of the hollow pipe column. As described in item 1 of the patent application, the quick-assembly water pump is filled with water and has a brick structure, wherein the side plate is provided with a buckle structure as an elastic buckle on the side edge. The quick-assembly water pump filled with water storage brick structure described in any one of items 1 to 5 of the patent application further includes a through pipe, and a through pipe fastening hole is provided on the flat block to allow the through pipe to pass through. The tube can snap into place with the flat plate.

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