TWM646628U - Highly supportive beam-column integrated pour-molded underground water filling structure - Google Patents

Highly supportive beam-column integrated pour-molded underground water filling structure Download PDF

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TWM646628U
TWM646628U TW112203268U TW112203268U TWM646628U TW M646628 U TWM646628 U TW M646628U TW 112203268 U TW112203268 U TW 112203268U TW 112203268 U TW112203268 U TW 112203268U TW M646628 U TWM646628 U TW M646628U
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bricks
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water
buckle
pipe
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陳瑞文
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陳瑞文
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Abstract

一種高支撐性樑柱一體灌注成型地下水撲滿構造,設有積磚與側板所組成,於積磚上平面設有凹槽,於凹槽中設有混凝土砂漿灌注流料通管相連通,同時積磚上平面設有透孔及底側設有突伸中空管柱,使流料通管及中空管柱可因兩積磚相對而搭接,再於積磚側緣設有扣固槽,供側板能卡扣搭設於積磚外側,組成一水撲滿結構;藉此,當積磚鋪設於地坪結合側板後,於所搭組成的水撲滿上方灌注混凝土砂漿,構築成一包含設有樑與柱結構的堅固型地下水撲滿築體構造。 A highly supportive beam-column integrated pour-molding underground water filling structure, which is composed of bricks and side panels. There is a groove on the upper surface of the bricks, and a concrete mortar pouring flow pipe is connected in the groove. At the same time, the bricks are There are through holes on the upper surface of the bricks and protruding hollow pipe columns on the bottom side, so that the flow pipe and the hollow pipe column can be overlapped because the two bricks face each other, and there are fastening grooves on the side edges of the bricks. , the side panels can be snap-fitted on the outside of the bricks to form a water-filled structure; thereby, when the bricks are laid on the floor and combined with the side panels, concrete mortar is poured on top of the formed water-filled walls to form a structure with beams. Solid groundwater-filled building structure with column structure.

Description

高支撐性樑柱一體灌注成型地下水撲滿構造 Highly supportive beam-column integrated pour-molded underground water filling structure

本創作是有關於一種高支撐性樑柱一體灌注成型地下水撲滿構造,尤指一種建構於地下作為儲水空間,同時因灌注混凝土砂漿構築成具有樑與柱結構的水撲滿,適合於應用作為符合耐重承載的地下儲水設備。 This creation is about a highly supportive beam-column integrated pour-molded underground water filling structure, specifically a water filling structure constructed underground as a water storage space. At the same time, a water filling structure with a beam and column structure is constructed by pouring concrete mortar. It is suitable for use as a conforming Heavy-duty underground water storage equipment.

近年來極端氣候愈來愈嚴重,世界各國經常發生暴雨以致於產生都市型水患,為對抗地球暖化減輕環境負荷及其造成的負面衝擊,所以世界氣候會議近年來各國專家紛紛提出對應的調適措施及永續發展政策,例如推動海綿城市及能源轉型等政策,海綿城市是一種在城市中建設防洪防澇,並兼有生態環保功能的新型城市規劃設計;比如興建透水路面以代替非透水的路面,下雨時吸水、蓄水、滲水、淨水,氣候乾燥炎熱時,可釋放水氣改善熱島效應,防止地球暖化等情況逐漸擴大。 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.

因此,為對抗地球暖化減輕環境負荷及其造成的負面衝擊,如德國、美國逐步推動低衝擊開發(Low Impact Development,LID)技術,其目的是保護、恢復和維持水資源的環境完整性,然所述的低衝擊開發技術(簡稱LID)相關設備其維護費用相對較高,因此更需要建構一種能永續使用結構或相應設備才是重點。LID的目的是通過創建一個類比自然水文功 能(滲透、逕流和蒸散)的景觀來維持和恢復正在發展的流域的水文狀況。這是通過一系列LID基地規劃實踐和雨水處理技術來實現的,這些技術可以管理逕流量和水質。LID與環境的結合越有效,場地複製土地自然蓄水能力的能力就越大,以攔取水、攔取和循環污染物。整個場地內建構小型LID雨水的分散和不連續分佈,將可減緩了地表的逕流,允許雨水的滲透並減少了場地排放流量。 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 equipment related to the low-impact development technology (LID) is relatively high, so it is more important to build a sustainable structure or corresponding equipment. LID is designed to work by creating an analogy to natural hydrology (infiltration, runoff and evapotranspiration) landscapes to maintain and restore the hydrology of developing watersheds. 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 capacity to capture water and capture 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.

一般於傳統低衝擊開發技術中,包括有透水磚透水功能與水撲滿儲水功能項目,但傳統的透水磚與水撲滿皆不能承受重壓,結構體更無法永續穩固牢靠,當面對例如地震搖晃或地面上重車輾壓時即容易遭到破壞,因此傳統的透水磚與水撲滿較僅適合於使用在人行道、公園、廣場此類非重車能輾壓到之地面,以防止重車輾壓造成破壞而陷落,以致衍生公安疑慮。 Generally, traditional low-impact development technologies include permeable bricks with permeable functions and water pumps with water storage functions. However, traditional permeable bricks and water pumps cannot withstand heavy pressure, and the structure cannot be sustainable, stable, and reliable. When faced with, for example, They are easily damaged when shaken by earthquakes or rolled over by heavy vehicles on the ground. Therefore, traditional permeable bricks and water pumps are only suitable for use on sidewalks, parks, squares and other floors that cannot be rolled over by heavy vehicles to prevent heavy vehicles from rolling over. The vehicle was rolled over and caused damage and collapsed, causing public security concerns.

為此,因應搭配地面上各種透水鋪面的建構,以便將所導入地表下的雨水能夠有效的被儲存再利用,故地面下設計一種能夠更耐載重車輛重壓,經得起數噸大卡車行經輾壓的高支撐性地下水撲滿構造,為本創作的主要動機。 To this end, various permeable pavement structures on the ground should be used so that the rainwater introduced under the surface can be effectively stored and reused. Therefore, a type of permeable pavement is designed under the ground that can withstand the heavy pressure of load-bearing vehicles and withstand the passage of several tons of large trucks. The rolling highly supportive groundwater filling structure is the main motivation for this creation.

有鑑於此,本案創作人乃針對上述需求,加以積極研究、設計組製,期能改進開發一種更具耐壓強度的水撲滿構造設計,故有本實用新型的產生。 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.

本創作之主要目的,在於提供一種高支撐性樑柱一體灌注成型地下水撲滿構造,達到能因應地面上可能發生車輛行經而重壓之耐承壓 強度,本創作水撲滿設置具有能因混凝土砂漿灌注一體成型形成的樑與柱結構,增強支撐強度,藉以具備受重壓的強度,不僅可埋設於地底下作為儲水,成為一種人工地下水庫,儲水後並有效將水資源提供方便再抽取而利用,且適用範圍廣泛。 The main purpose of this creation is to provide a highly supportive beam-column integrated pour-molded underground water filling structure that can withstand heavy pressure due to vehicle traffic on the ground. Strength, the water pumping device of this invention has a beam and column structure that can be formed by pouring concrete mortar to enhance the support strength, so as to have the strength to withstand heavy pressure. It can not only be buried underground for water storage, but also become an artificial underground reservoir. After storing water, it effectively provides water resources for easy extraction and utilization, and has a wide range of applications.

為達上述目的,本創作一種高支撐性樑柱一體灌注成型地下水撲滿構造,由積磚及側板所搭接成,其特徵在於:該積磚,於上平面設有凹槽,於凹槽中設有混凝土砂漿灌注流料通管相連通;該側板,板上設有透孔,於側緣位置設有卡扣結構,側板利用卡扣結構搭設於積磚外側,組成一水撲滿儲水結構;藉此,當積磚鋪設於地坪與側板結合後,上、下兩積磚相互對接結合,兩流料通管對合成一灌漿流道,於所搭組成的水撲滿上方灌注混凝土砂漿,構築成一包含設有樑與柱結構的穩固型地下水撲滿築體構造。 In order to achieve the above purpose, this invention creates a highly supportive beam-column integrated pour-molded underground water filling structure, which is made up of overlapping bricks and side plates. The characteristic is: the bricks are provided with grooves on the upper plane, and in the grooves There is a concrete mortar pouring flow pipe connected to 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 bricks using the buckle structure to form a water-filled water storage structure. ; With this, when the bricks are laid on the floor and combined with the side panels, the upper and lower bricks are butt-joined and combined, and the two flow pipes are combined into a grouting channel, and concrete mortar is poured above the formed water pump. It is constructed as a stable underground water-filled building structure with beams and columns.

本新型的有效增益在於,積磚上平面設有凹槽,使得凹槽與流料通管相結合,當灌注混凝土砂漿後形成一體成型具備有樑體與柱體的地下堅固築體,能支撐於地底下,進而形成具有高支撐性強度的地下儲水設備。 The effective gain of this new type is that the upper plane of the bricks is provided with grooves, so that the grooves are combined with the flow pipes. When concrete mortar is poured, an integrated underground solid building with beams and columns is formed, which can support Underground, thereby forming underground water storage equipment with high supporting strength.

藉此,能作為增強路面高乘載耐重的強度,避免重車行駛對道路造成破壞。 This can be used to enhance the strength of the road surface to withstand high loads and avoid damage to the road caused by heavy vehicles.

同時,當路面大量降雨時,則可透過各種鋪面而收集雨水導入地下,再由地底下所埋設的水撲滿構造進一步儲存,不僅能有效防止地表發生水災的機會,亦可回補地下水資源,同時也能於水撲滿結構內形成儲水空間與地下管線通道,並將雨水儲存回收以利後續再利用。 At the same time, when there is a lot of rainfall on the road surface, the rainwater can be collected through various pavements and directed underground, and then further stored in the water filling structure buried underground. This can not only effectively prevent the chance of surface flooding, but also replenish groundwater resources. It can also form water storage space and underground pipeline channels in the water-filled structure, and store and recycle rainwater for subsequent reuse.

本創作之其他特點及具體實施例可於以下配合附圖之詳細說明中,進一步瞭解。 Other features and specific embodiments of this invention can be further understood in the following detailed description accompanied by the accompanying drawings.

10:積磚 10:Building bricks

11:凹槽 11: Groove

12:流料通管 12:Flow pipe

13:透孔 13:Through hole

14:中空管柱 14:Hollow pipe column

15:凸榫 15: Tenon

16:榫槽 16: Tongue and groove

17:扣固槽 17: Fastening groove

18:定位凸點 18: Positioning bumps

19:定位凹槽 19: Positioning groove

20:側板 20:Side panel

21:透孔 21:Through hole

22:彈性扣桿 22:Elastic buckle

30:鋼筋 30:Rebar

40:混凝土砂漿 40:Concrete mortar

50:透水鋪面 50: Permeable paving

60:積磚平板塊 60:Building bricks and flat blocks

61:管柱扣合孔 61: Column fastening hole

62:通管扣合孔 62: Pipe fastening hole

63:階級緣 63: Class connection

121、141:扣環槽 121, 141: Buckle groove

第1圖為本創作第一實施例構造分解示意圖。 Figure 1 is an exploded schematic diagram of the structure of the first embodiment of this invention.

第2圖為本創作第一實施例組合後設置鋼筋示意圖。 Figure 2 is a schematic diagram of the installation of steel bars after the first embodiment of the invention is assembled.

第3圖為本創作第一實施例相鄰兩水撲滿搭接示意圖。 Figure 3 is a schematic diagram of the overlapping of two adjacent water pumps according to the first embodiment of this invention.

第4圖為本創作第一實施例組合多數水撲滿於上方綁設鋼筋交錯示意圖。 Figure 4 is a schematic diagram of the first embodiment of the present invention in which a large amount of water is poured onto the top and the reinforcing bars are tied in a staggered manner.

第5圖為本創作第一實施例水撲滿上方灌注混凝土砂漿示意圖。 Figure 5 is a schematic diagram of the first embodiment of the present invention in which concrete mortar is filled with water and poured above.

第6圖為本創作第一實施例水撲滿灌柱混凝土砂漿形成樑柱一體成型結構後上方鋪設透水材料路面示意圖。 Figure 6 is a schematic diagram of the first embodiment of this creation after water is poured into column-grouting concrete mortar to form a beam-column integrated structure and then a permeable material pavement is laid above it.

第7圖為本創作第6圖之局部構造剖面示意圖。 Figure 7 is a partial structural cross-section diagram of Figure 6 of this creation.

第8圖為本創作第二實施例積磚構造分解示意圖。 Figure 8 is an exploded schematic diagram of the brick structure of the second embodiment of this invention.

第9圖為本創作第二實施例積磚板片與中空管柱搭扣結合後外觀圖。 Figure 9 shows the appearance of the second embodiment of the invention after the brick plate and the hollow pipe column are buckled together.

第9A圖為本創作第9圖局部構造剖視圖。 Figure 9A is a partial structural cross-sectional view of Figure 9 of this creation.

第10圖為本創作第二實施例積磚外觀圖。 Figure 10 shows the appearance of the bricks in the second embodiment of this invention.

請參第1、2圖所示,本創作第一實施例水撲滿構造主要設為一多孔性中空體,可埋入於地底下成為地下儲水空間,多數個中空體能夠相互拼組成更大地下面積及儲水空間。所述水撲滿構造設計由包含由2片積磚10及4片側板20結合而成。組合時,相同構造的兩個積磚10呈上、下 相互對合而疊合,而4片側板20扣合於積磚10的四周,以搭組成為一中空體。 Please refer to Figures 1 and 2. The water filling structure of the first embodiment of the present invention is mainly a porous hollow body, which can be buried underground to become an underground water storage space. Multiple hollow bodies can be assembled with each other to form a new one. Large underground area and water storage space. The water filling structure design is composed of two pieces of building bricks 10 and four pieces of side plates 20. When combined, two bricks 10 of the same structure are in the form of upper and lower They are aligned with each other and superimposed, and the four side plates 20 are fastened around the bricks 10 to form a hollow body.

所述積磚10,於頂部設有上平面,於上平面設有凹槽11,於凹槽11中設有混凝土砂漿灌注流料通管12,於本實施例為將凹槽11設為2道,且於凹槽11交錯位置設於積磚10上平面中央處,同時流料通管12設於該交錯位置而向下延伸。同時該積磚10上平面更設有透孔13及中空管柱14,使上平面於透孔13處能滲入水,且該積磚10於上平面框板四面周圍設有卡扣結構,卡扣結構例如能相對扣合的凸榫15及榫槽16,兩相鄰的水撲滿積磚塊能利用該凸榫15及榫槽16相互榫合拼接一起,而於上平面框板四周圍同時也設有扣固槽17,於各中空管柱14底端設有對稱的定位凸點18及定位凹槽19。 The bricks 10 are provided with an upper plane on the top and a groove 11 on the upper plane. A concrete mortar pouring flow pipe 12 is provided in the groove 11. In this embodiment, the groove 11 is set to 2 The channels are arranged at the staggered position of the grooves 11 at the center of the upper plane of the brick 10, and at the same time, the flow pipe 12 is arranged at the staggered position and extends downward. At the same time, the upper plane of the building brick 10 is further provided with a through hole 13 and a hollow pipe column 14, so that water can penetrate into the upper plane at the through hole 13, and the building brick 10 is provided with buckle structures around the four sides of the upper plane frame plate. The snap-on structure is for example a tongue-and-groove 15 and a tongue-and-groove 16 that can be relatively engaged. Two adjacent water-filled bricks can be spliced together by using the tongue-and-groove 15 and the tongue-and-groove 16 to join together around the upper plane frame plate. At the same time, there are also fastening grooves 17, and symmetrical positioning protrusions 18 and positioning grooves 19 are provided at the bottom of each hollow column 14.

請參第3至5圖所示,當上、下兩積磚10相互對接結合,兩流料通管12對合成一灌漿流道,且中空管柱14互接形成支撐作用,側板20搭設於積磚10外圍成一儲水用中空體。兩相鄰兩水撲滿搭接時,利用積磚塊四周圍所設的凸榫15及榫槽16可做扣合連結一起。 Please refer to Figures 3 to 5. When the upper and lower bricks 10 are butted and combined with each other, the two flow pipes 12 are paired to form a grouting flow channel, and the hollow pipe columns 14 are connected to each other to form a supporting function. The side plates 20 are erected A hollow body for water storage is formed around the brick 10 . 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.

所述側板20,板上設有透孔21,提供水撲滿側面入水,而側緣位置設有彈性扣桿22,彈性扣桿所設位置相對應於積磚10該扣固槽17處,供側板20能卡扣於積磚10外側,依此組成一水撲滿結構。 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 corresponds to the fastening groove 17 of the brick 10 for supplying water. The side plates 20 can be buckled on the outside of the bricks 10 to form a water-filled structure.

因此當整地好後,將各水撲滿積磚10相互搭組成較大面積做串連,同時將鋼筋30放置於凹槽11中,該流料通管12也能視需要選擇是否插置入鋼筋,接著即可於積磚10上方灌注混凝土砂漿40,混凝土砂漿40將循著凹槽11與流料通管12的管道進入至下層水撲滿積磚10的凹槽11及流料通管12中,以此灌注形成樑體與柱體成一體成型的地下水撲滿構造,極具高耐壓承重的地下儲水建築體。 Therefore, after the land is prepared, the water-filled bricks 10 are stacked together to form a larger area for series connection. At the same time, the steel bars 30 are placed in the grooves 11. The flow pipe 12 can also choose whether to insert steel bars as needed. , then the concrete mortar 40 can be poured above the bricks 10. The concrete mortar 40 will follow the groove 11 and the flow pipe 12 and enter into the groove 11 and the flow pipe 12 of the lower layer of water filled with the bricks 10. , which is poured to form a groundwater filling structure in which the beam and column are integrated into one piece, and is an underground water storage building with high pressure resistance and load-bearing capacity.

請參第6至7圖所示,本創作當構築成堅固的地下樑體與柱體成一體成型地下水撲滿後,在水撲滿上方能應用透水材料鋪成透水鋪面50,例如透水柏油路面或透水混凝土路面,如此可耐受地震及路面上重車輾壓而不致破壞,至於水撲滿外習知技術常施以包覆不織布,其視場合功用需要作決定,不在本案的技術手段內做另外規範。而本創作能形成堅固的地下水庫,可隨時抽取至地面達到回收雨水再利用功效。 Please refer to Figures 6 to 7. When the solid underground beams and columns are integrated into this invention, after the groundwater is filled, permeable materials can be used to lay a permeable pavement 50 on top of the water, such as permeable asphalt pavement or permeable pavement. Concrete pavement can withstand earthquakes and heavy vehicle rolling on the road without being damaged. As for water flooding, conventional technology often uses non-woven fabrics to cover it. This is determined based on the needs of the occasion and function, and there is no other specification in the technical means of this case. . This invention can form a solid underground reservoir, which can be pumped to the ground at any time to recover rainwater and reuse it.

而如第1、8至10圖所述,本創作水撲滿構造於另一實施例,由2片積磚10及4片側板20結合而成,將積磚10設為積磚平板塊60、流料通管12及中空管柱14採分離式設計,於積磚平板塊60上除了設有凹槽11,同時更設有管柱扣合孔61及通管扣合孔62,於管柱扣合孔61及通管扣合孔62上皆設有階級緣63(如第9A圖所示),令流料通管12及中空管柱14於較大管徑的扣合端周緣設有扣環槽121、141,利用扣環槽即能輕易的組裝扣合於積磚平板塊60上,形成如第一實施例一體成型塑製的積磚10一般。當積磚平板塊60、中空管柱14、流料通管12組成積磚鋪設於地坪與側板20結合後,上、下兩積磚10相互對接結合,上、下兩流料通管12對合成一灌漿流道,於所搭組成的水撲滿上方灌注混凝土砂漿,構築成一包含設有樑與柱結構的穩固型地下水撲滿築體構造。採分離式設計積磚平板塊60的優點,除了存料時較不耗佔體積外,也容易運輸及搬運,相對地當因地坪大小受到限制必需加以裁切積磚板塊時,板狀型態的積磚平板塊60相對容易裁切出適合的大小,可使有限的施工範圍獲得良好的收邊效果。 As shown in Figures 1, 8 to 10, the water filling structure of the present invention is in another embodiment, and is composed of two pieces of building bricks 10 and four side plates 20. The building bricks 10 are set as building brick flat blocks 60, The flow pipe 12 and the hollow pipe column 14 adopt a separate design. In addition to the groove 11, the brick flat block 60 is also provided with a pipe column fastening hole 61 and a pipe fastening hole 62. The column fastening hole 61 and the pipe fastening hole 62 are both provided with stepped edges 63 (as shown in Figure 9A), so that the flow pipe 12 and the hollow pipe column 14 are positioned around the fastening end of the larger pipe diameter. There are buckle grooves 121 and 141, and the buckle grooves can be used to easily assemble and fasten the bricks 60 to form the integrated bricks 10 like the first embodiment. When the bricks composed of the flat brick block 60 , the hollow pipe column 14 and the flow pipe 12 are laid on the floor and combined with the side plate 20 , the upper and lower bricks 10 are butt-jointed and combined with each other, and the upper and lower flow pipes 12 pairs of grouting channels are combined into one grouting channel, and concrete mortar is poured above the formed water tank to form a stable underground water tank structure with beams and columns. The advantage of using the separate design of the flat brick plate 60 is that it takes up less space when storing materials, and is also easy to transport and carry. On the other hand, when the floor size is limited and the brick plate must be cut, the plate-shaped It is relatively easy to cut the brick-building flat block 60 into a suitable size, so that a good edge closing effect can be obtained in a limited construction scope.

由上可知,本創作具有如下實用優點: It can be seen from the above that this creation has the following practical advantages:

1、透過水撲滿上方凹槽的設計,搭配鋼筋構築成一包含設 有樑與柱結構的穩固型地下水撲滿構造,具備高支撐強度的特性,埋設於地底下可耐路面車輛載重行駛輾壓而不致路面塌陷,易於維持路面平坦安全。 1. Through the design of filling the upper groove with water, it is constructed with steel bars to form an enclosed facility. The stable groundwater filling structure with beam and column structure has the characteristics of high support strength. When buried underground, it can withstand the rolling pressure of road vehicles with heavy loads without causing the road to collapse, and it is easy to maintain the road surface flat and safe.

2、可減少地表逕流量,降低水災發生之機會,並可回補地下水資源,達到基地保水目的,支持低衝擊開發(Low Impact Development,LID)技術,達標LID宗旨目的是保護、恢復和維持水資源的環境完整性,更符合建構一種能永續使用設備的優良條件。 2. It can reduce surface runoff, reduce the chance of floods, and replenish groundwater resources to achieve the purpose of water conservation in the base. It supports Low Impact Development (LID) technology. The purpose of meeting standard LID is to protect, restore and maintain water. The environmental integrity of resources is more in line with the excellent conditions for building a device that can be used sustainably.

3、可提供地下大型儲存雨水空間,供後續使用,以達到充份儲備水資源及回收再利用之功效。 3. A large underground rainwater storage space can be provided for subsequent use to fully reserve water resources and recycle them.

4、可提供地下管線的佈設空間及安全。 4. It can provide laying space and safety for underground pipelines.

綜上所述,本創作設計將水撲滿積磚上平面設為具凹槽設計,並於凹槽中設有混凝土砂漿灌注用的流料通管相連通,於水撲滿上方灌注混凝土砂漿後,可構築成一包含設有樑與柱結構的穩固型地下水撲滿構造,能夠承受水撲滿上方重車的承載重壓而不致破損,具有產業上利用之價值,爰依法提出專利申請。 To sum up, in this creative design, the upper plane of the water-filled bricks is designed with a groove, and a flow pipe for concrete mortar pouring is connected in the groove. After the concrete mortar is poured above the water-filled bricks, It can be constructed into a stable underground water filling structure with a beam and column structure, which can withstand the heavy load of a heavy vehicle above the water filling without being damaged. It has industrial application value, and I have filed a patent application in accordance with the law.

以上所述者,僅為本創作之較佳實施例而已,當不能以此限定本創作實施之範圍;故,凡依本創作申請專利範圍及創作說明書內容所作之簡單的等效變化與修飾,皆應仍屬本創作專利涵蓋之範圍內。 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:積磚 10:Building bricks

11:凹槽 11: Groove

12:流料通管 12:Flow pipe

13:透孔 13:Through hole

14:中空管柱 14:Hollow pipe column

15:凸榫 15: Tenon

16:榫槽 16: Tongue and groove

17:扣固槽 17: Fastening groove

18:定位凸點 18: Positioning bumps

19:定位凹槽 19: Positioning groove

20:側板 20:Side panel

21:透孔 21:Through hole

22:彈性扣桿 22:Elastic buckle

Claims (6)

一種高支撐性樑柱一體灌注成型地下水撲滿構造,由積磚及側板所搭接成,其特徵在於:該積磚,於上平面設有凹槽,於凹槽中設有混凝土砂漿灌注流料通管相連通;該側板,板上設有透孔,於側緣位置設有卡扣結構,側板利用卡扣結構搭設於積磚外側,組成一水撲滿儲水結構;藉此,當積磚鋪設於地坪與側板結合後,上、下兩積磚相互對接結合,兩流料通管對合成一灌漿流道,於所搭組成的水撲滿上方灌注混凝土砂漿,構築成一包含設有樑與柱結構的穩固型地下水撲滿築體構造。 A highly supportive beam-column integrated pour-molded underground water filling structure, which is made up of overlapping bricks and side panels. It is characterized in that: the bricks are provided with grooves on the upper plane, and concrete mortar pouring flow materials are provided in the grooves. The pipes are connected; the side plate is provided with a through hole, and a buckle structure is provided at the side edge. The side plate uses the buckle structure to be erected on the outside of the stacking bricks to form a water-filled water storage structure; thereby, when the stacking bricks After it is laid on the floor and combined with the side panels, the upper and lower bricks are butt-joined to each other. The two flow pipes are combined into a grouting channel. Concrete mortar is poured above the formed water pump to form a structure with beams and The column structure is a stable groundwater-filled building structure. 如申請專利範圍第1項所述之高支撐性樑柱一體灌注成型地下水撲滿構造,其中積磚上平面設有透孔及底側設有突伸中空管柱。 For example, the highly supportive beam-column integrated pour-molded groundwater filling structure described in item 1 of the patent application has perforations on the upper plane of the bricks and protruding hollow pipe columns on the bottom side. 如申請專利範圍第1項所述之高支撐性樑柱一體灌注成型地下水撲滿構造,其中積磚上平面框板四周圍設有扣固槽。 As described in item 1 of the patent application, the highly supportive beam and column are integrally poured into a groundwater filling structure, in which fastening grooves are provided around the upper plane frame plate of the bricks. 如申請專利範圍第2項所述之高支撐性樑柱一體灌注成型地下水撲滿構造,其中於中空管柱之底端設有定位凸點及定位凹槽。 For example, the highly supportive beam-column integrated pour-molded groundwater filling structure described in item 2 of the patent application has positioning protrusions and positioning grooves at the bottom of the hollow pipe column. 如申請專利範圍第1項所述之高支撐性樑柱一體灌注成型地下水撲滿構造,其中該側板於於側緣設有卡扣結構為彈性扣桿。 For example, in the highly supportive beam-column integrated pour-molded underground water filling structure described in item 1 of the patent application, the side plate is provided with a buckle structure as an elastic buckle on the side edge. 一種高支撐性樑柱一體灌注成型地下水撲滿構造,由積磚平板塊、中空管柱、流料通管及側板所搭接成,其特徵在於:該積磚平板塊,於上設有凹槽,及設有管柱扣合孔、通管扣合孔,於凹槽中設有通管扣合孔; 該中空管柱,於扣合端周緣設有扣環槽,利用扣環槽組裝扣合於積磚平板塊管柱扣合孔上;該流料通管,於扣合端周緣設有扣環槽,利用扣環槽組裝扣合於積磚平板塊通管扣合孔上;該側板,板上設有透孔,於側緣位置設有卡扣結構,側板利用卡扣結構搭設於積磚平板塊外側,組成一水撲滿儲水結構;藉此,當積磚平板塊、中空管柱、流料通管組成積磚鋪設於地坪與側板結合後,上、下兩積磚相互對接結合,上、下兩流料通管對合成一灌漿流道,於所搭組成的水撲滿上方灌注混凝土砂漿,構築成一包含設有樑與柱結構的穩固型地下水撲滿築體構造。 A high-supportive beam-column integrated pour-molded groundwater filling structure is made up of overlapping brick flat blocks, hollow pipe columns, flow pipes and side plates. It is characterized by: the brick flat block has concave holes on it. The groove is provided with a pipe column fastening hole and a pipe fastening hole, and a pipe fastening hole is provided in the groove; The hollow pipe column is provided with a buckle groove on the periphery of the fastening end, and is assembled and fastened to the fastening hole of the pipe column of the brick plate block by using the buckle ring groove; the flow pipe is provided with a buckle on the periphery of the fastening end. The ring groove is assembled and fastened to the fastening hole of the pipe of the flat brick block by using the buckle ring groove; the side plate is provided with a through hole and a buckle structure at the side edge. On the outside of the brick flat block, a water-filled water storage structure is formed; thereby, when the brick flat block, hollow pipe column, and flow pipe composed of bricks are laid on the floor and combined with the side panels, the upper and lower bricks interact with each other. The upper and lower flow pipes are butted together to form a grouting channel. Concrete mortar is poured above the formed water tank to form a stable groundwater tank structure with beams and columns.
TW112203268U 2023-04-11 2023-04-11 Highly supportive beam-column integrated pour-molded underground water filling structure TWM646628U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI833629B (en) * 2023-04-11 2024-02-21 陳瑞文 Highly supportive beam-column integrated pour-molded underground water filling structure

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI833629B (en) * 2023-04-11 2024-02-21 陳瑞文 Highly supportive beam-column integrated pour-molded underground water filling structure

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