CN201762756U - Underground rectangular rainwater-collecting module - Google Patents

Abstract

The utility model provides an underground rectangular rainwater-collecting module, which comprises an oblong box body formed by assembling a large oblong grid-shaped plate and a small oblong grid-shaped plate together, wherein the bottom surface, the top surface and the two side surfaces of the box body are provided with large plates, and the two end surfaces of the box body are provided with small plates. The underground rectangular rainwater-collecting module is buried under the land surface to increase land resources; the underground rectangular rainwater-collecting module realizes modularization, is not limited to a site and can be designed into a rainwater matrix in arbitrary scale, size, shape and dimension; the underground rectangular rainwater-collecting module is in a ladder-shaped framework structure, have higher bearing capacity and can be installed under the land surface for a driving crane; the large plates and the small plates are formed by injection molding of PP plastics so as to be durable, and the service life can reach up to 80 years; due to the grid-shaped design, the underground rectangular rainwater-collecting module has high voidage and is economic and effective; the flow rate of rainwater can be increased; the rainwater collecting module is light in weight so as to be manually installed, has low maintenance and no cleaning requirement, is not limited to a construction site, and is easy and convenient to install; the detachable package can reduce transportation cost; a sliding lock catch can realize rapid assembly; and the underground rectangular rainwater-collecting module can be recycled to realize lower manufacturing cost.

Description

A kind of buried rectangle rainwater collection module

Technical field

The utility model relates to the environmental protection equipment technical field, particularly a kind of buried rectangle rainwater collection module.

Background technology

Build a little open-air other escape canals of rainwater collecting pit, highway and the storm sewer exhaust system of building class in China at present at the concrete of using that is to use.The rainwater that this old-fashioned traditional mode is collected is evaporated very soon, and water quality is also poor, and not environmental protection can not be filtered into clean rainwater and replenish groundwater resources then.Do not subtract the effect of flood, environment protection emission yet.Open open-air collecting pit and escape canal easily frequently cause dangerous accident, also are the hotbeds of insect and carrier, and easily producing has the worm of falling ill, and jeopardizes human health, except the health and safety problem, does not have the effect of rainwater catchment system basically.Also take a large amount of land areas.The city is had the problem of a negative effect!

Traditional construction drainage mode is that rainwater and sanitary sewage are flowed into Wastewater Treatment Plant or directly enter the river through the pipe drainage system, has not only polluted the river, has also polluted the environment and the face of land and underground water.Also surrounding air is polluted simultaneously.These traditional mode construction durations are long, process is loaded down with trivial details, cost is high, also be unfavorable for large-scale application.

Traditional civil engineering rainwater collecting pit reinforcing bar mixes the defective of earth: 1: from great; 2: crack resistance is poor, once the cracking pond is meaningless; 3: bearing capacity is limited; 4: construction is complicated, operation many (formworks, tie up reinforcing bar, build, maintenance etc.), 5: long in time limit; Construction is subjected to the influence of season, weather bigger; In a single day concrete structure destroys, and its reparation, reinforcing, reinforcement be difficulty relatively.6 bulk life times 12 years, so the life-span is shorter.

The utility model content

The utility model provides a kind of modularization, light weight, the life-span is long, crack resistance is strong, bearing capacity is big, easy construction, buried rectangle rainwater collection module that cost is low.

To achieve these goals, the utility model provides following technical scheme:

A kind of buried rectangle rainwater collection module, it comprises: rectangular latticed big plate and rectangular latticed platelet are installed in the rectangular casing of forming together, the bottom surface of described casing, end face and two sides are big plate, and the both ends of the surface of described casing are platelet.

Wherein, preferred, the inside of described casing is equiped with and is parallel to described platelet and perpendicular to other platelets of described big plate.

Wherein, preferably, two sides that are parallel to each other of described platelet are set with pin, and described big plate is provided with the pin hole that is used to insert described pin, and described platelet inserts on the removable bottom surface and the big plate of end face that is installed in described casing of described pin hole by described pin.

Wherein, preferably, the side that two other of described platelet is parallel to each other is set with trapezoid block, described big plate is provided with the dovetail groove that is used to insert this trapezoid block, and described platelet inserts on the big plate of removable two sides that are installed in described casing of described dovetail groove by described trapezoid block.

Wherein, preferred, described pin hole is a through hole.

Wherein, preferably, described platelet comprises that many constitute latticed first trapezoidal column, skeleton by X-shaped between described first trapezoidal column connects, described pin is installed in the lateral surface of two described first trapezoidal column on the limit, and described trapezoid block is installed in the lateral surface of described first trapezoidal column on two other limit that is parallel to each other.

Wherein, preferred, described big plate comprises that many constitute latticed second trapezoidal column, and the skeleton by X-shaped between described second trapezoidal column connects, and described pin hole and described dovetail groove are arranged on described second trapezoidal column.

By implementing above technical scheme, have following technique effect: the buried rectangle rainwater collection module that the utility model provides buries and is contained under the face of land, can increase land resources; Modularization is not limited by or not the place, can be designed to the rainwater matrix of random scale size shape size; Trapezoidal skeleton construction, higher capacity can be installed in the underground of driving; PP is plastic injection-moulded to form, resistance to persistence, and application life was up to 80 years; Latticed design has high voidage (memory space), economical and effective; Open architecture increases the rainwater flow velocity; In light weight, but manual installation; The low maintenance do not have the cleaning requirement; The device of shifting block type combination is not limited by the construction plant, and simple and fast is installed; Detachable packing reduces cost of transportation; Slidingtype snap close, assembling fast; Recyclable plastics is made, environmental protection.The cost cost is cheaper.

Description of drawings

Fig. 1 is the rainwater module diagram of three platelet assemblings;

Fig. 2 is that platelet is installed in the schematic diagram on the big plate;

Fig. 3 is the big plate of side and the schematic diagram of platelet connection;

Fig. 4 is the big plate scheme of installation in top;

Fig. 5 is the platelet stereogram;

Fig. 6 is the platelet three-view diagram;

Fig. 7 is the sectional view of A-A direction in the platelet front view among Fig. 6;

Fig. 8 is the sectional view of B-B direction in the platelet front view among Fig. 6;

Fig. 9 is big plate stereogram;

Figure 10 is big plate three-view diagram;

Figure 11 is the sectional view of D-D direction in the big plate front view among Figure 10;

Figure 12 is the sectional view of E-E direction in the big plate front view among Figure 10;

Figure 13 is the stereogram of rainwater module;

Figure 14 is Figure 13 middle section A-A sectional view partial enlarged drawing;

Figure 15 is a B zone partial enlarged drawing among Figure 13.

The specific embodiment

In order better to understand the technical solution of the utility model, describe the embodiment that the utility model provides in detail below in conjunction with accompanying drawing.

The utility model embodiment provides a kind of buried rectangle rainwater collection module, as shown in Figure 1, comprise: rectangular latticed big plate 1 and rectangular latticed platelet 2 are installed in the rectangular casing of forming together, the bottom surface of described casing, end face and two sides are big plate 1, and the both ends of the surface of described casing are platelet 2.This big plate 1 and platelet 2 all are plastic plates.

For firm more and solid, the inside of described casing is equiped with and is parallel to described platelet 2 and perpendicular to other platelets 2 of described big plate 1.Promptly these other platelets 2 are parallel to two end faces of this casing.

Concrete: as shown in Figure 2, this platelet 2 comprises four sides, and wherein: as shown in Figure 5, two sides that are parallel to each other of described platelet 2 are set with pin 3, its objective is the big plate 1 that connects bottom and top.

Described big plate 1 is provided with the pin hole 5 that is used to insert described pin, and described platelet 2 inserts described pin hole 5 by described pin 3, makes on the removable bottom surface and the big plate 1 of end face that is installed in described casing of this platelet 2.In the present embodiment, as shown in Figure 2,,, in the corresponding pin hole 5, platelet 2 is fixed on the big plate 1 in the big plate 1 of parallel insertion perpendicular to the direction of big plate 1 with the one side of the platelet 2 sides crossed cylinder shape pin 3 that 4 diameters are arranged is 10mm～14mm.The cooperation of pin 3 and pin hole 5 is an interference fit, is worth to be bilateral 0.1mm.

In the additional embodiments, as shown in Figure 5, two other side that is parallel to each other of described platelet 2 is set with trapezoid block 6, its objective is two blocks of big plates 1 that connect the side.

Described big plate 1 is provided with the dovetail groove 7 that is used to insert this trapezoid block, and described platelet 2 inserts described dovetail groove 7 by described trapezoid block 6, makes on the big plate 1 of removable two sides that are installed in described casing of this platelet 2.Big plate 1 is adjacent to the one side that 4 platelets 2 have trapezoid block 4, and is parallel to lower slider perpendicular to the big plate 1 in bottom, and it is fixing in the dovetail groove that inserts big plate 1 to allow the trapezoid block 4 of platelet 2 sides slide.Shown in Fig. 4 is that the big plate 1 at top is parallel to the big plate 1 in bottom, perpendicular to two blocks of big plates 1 of side, from top to bottom, allows the crossed cylinder shape pin 3 at platelet 2 tops insert in the pin hole 5 of big plate 1 correspondence.

The process that casing is formed in the big plate that the foregoing description provides and the installing of platelet is: earlier with on the big plate 1 smooth placement ground, the platelet 2 of the cross round pin nail that again there are 4 diameters a side be 10mm～14mm inserts in the through hole of big plate 1 correspondence fixing; Photograph is inserted respectively with method and is fixed other 3 platelets in big plate 1; After inserting 4 platelets, with the 2nd block of big plate 1 from the side, parallel sliding is inserted in the trapezoidal column of 4 platelet sides simultaneously again; Same procedure is inserted the another side with the 3rd big plate parallel sliding; Big plate 1 tiling at the 4th top is inserted in the top pin 3 of 4 platelets; This moment, a complete rainwater module monomer assembling was finished.Now increase again one deck rainwater module is installed; On the big plate 1 in top, assemble successively and finish according to foregoing same procedure, the rest may be inferred can be assembled into three layers, four layers, five layers etc. more multi-layered.Whenever add the big plate 1 that one deck can both shared top, also can not reduce anti-pressure ability to save cost.Also can on average assemble three platelets 2.Need for designing institute; When not needing bigger compressive resistance, use, save cost simultaneously.

More specifically among the embodiment, as shown in Figure 6, described platelet 2 comprises that many constitute latticed first trapezoidal column 6, many first trapezoidal column 6 intersection installings mutually, and the U-shaped of the cross section of this first trapezoidal column 6, and the opening of this U-shaped down, and promptly cross section is so inverted U-shaped, can save wide variety of materials.In addition, for make between first trapezoidal column 6 connect more firm, skeleton by X-shaped between described first trapezoidal column 6 connects, described pin 3 is installed in the lateral surface of two described first trapezoidal column 6 on the limit, and described trapezoid block 4 is installed in the lateral surface of described first trapezoidal column on two other limit that is parallel to each other.Shown in Fig. 7 is the platelet three-view diagram, and platelet 1 is shaped as rectangle, and thickness is between 20mm～30mm.Whole platelet 1 is individual first trapezoidal column 6 of certain space separately of N that is parallel to four sides, the fenestral fabric of cross square crossing.Link to each other at the skeleton of 2～3mm with X-shaped, thickness between first trapezoidal column 6, to reinforce supporting first trapezoidal column, reduce the distortion when power under pressure, the thickness of first trapezoidal column is between 2～4mm.This first trapezoidal column 6 can improve the compressive resistance of whole rainwater module.Be provided with numerous circular hole or slotted eye on the surface of first trapezoidal column, can improve permeability rate, the void content of rainwater module, but also weight reduction simultaneously reduces cost.

Fig. 7 is the sectional view of A-A direction in the platelet front view among Fig. 6, among Fig. 7 signal constitute platelet vertical first trapezoidal column, 6 structures, connect its X-shaped cage construction, also has on the surface of first trapezoidal column 6 the crossed cylinder shape pin 3 of those numerous circular holes or slotted eye and two sides.

Fig. 8 is the sectional view of B-B direction in the platelet front view among Fig. 6, among Fig. 8 signal constitute platelet horizontal first trapezoidal column, 6 structures, connect its X-shaped cage construction, also has on the surface of first trapezoidal column trapezoid block 4 that is used to connect big plate 1 of those numerous circular holes or slotted eye and two sides.

As shown in Figure 9, described big plate 1 comprises that many constitute latticed second trapezoidal column, and the skeleton by X-shaped between described second trapezoidal column connects, and described pin hole 5 and described dovetail groove 7 are arranged on described second trapezoidal column.The more platelet 2 of packing into for convenience all is provided with pin hole 5 and dovetail groove 7 every second trapezoidal column.Big plate 1 face shaping of signal is a rectangle among Fig. 9, and internal construction is that several crisscross second trapezoidal column constitute.The skeleton that between the second crisscross trapezoidal column is X-shaped connects supporting, and wherein having has big plate pin hole 5 and the dovetail groove 7 that connects platelet in 5 vertical second trapezoidal column posts, totally 5 platelets 2 can be installed.

Figure 10 is the three-view diagram of big plate, and the big plate face shaping of signal is a rectangle in the picture in picture, and thickness is between 20～30mm, and internal construction is that several crisscross second trapezoidal column constitute.The thickness of second trapezoidal column is 2～4mm, second trapezoidal column can improve the compressive resistance of whole rainwater module, the skeleton that between the second crisscross trapezoidal column is X-shaped connects supporting, its thickness is 2～3mm, wherein having has the platelet pin hole 5 of connection and dovetail groove 7 in 5 vertical second trapezoidal column, totally 5 platelets can be installed.Be provided with numerous circular hole or slotted eye on the surface of second trapezoidal column, can improve permeability rate, the void content of rainwater module, but also weight reduction simultaneously reduces cost.

Figure 11 is the sectional view of front view D-D direction in the big plate three-view diagram of Figure 10, the big plate of the signal structure of second trapezoidal column longitudinally among the figure, and its thickness is that thickness is 2～4mm; And the structure of the X-shaped supporting position of bone, its thickness can bear bigger load between 2～3mm.Be provided with numerous circular hole or slotted eye on the surface of trapezoidal column, can improve permeability rate, the void content of rainwater module, but also weight reduction simultaneously reduces cost.And the terraced groove 7 that connects the trapezoid block 4 of platelet 1.

Figure 12 is the sectional view of front view E-E direction in the big plate three-view diagram of Figure 10, the structure of the horizontal trapezoidal column (6) of the big plate of signal among the figure, and its thickness is that thickness is 2～4mm; And the structure of the X-shaped supporting position of bone, its thickness also can bear bigger load between 2～3mm.

Figure 13 increases the stereogram and the three-view diagram of a platelet 1 in addition for the monomer that assembles the rainwater modular tank of finishing.

Figure 14 is Figure 13 middle section A-A sectional view partial enlarged drawing, the assembly structure of big plate 1 of signal and platelet 2 among the figure.Because of cooperating the pin hole 5 of platelet 2 in the big plate 1 are through holes, and the height of big plate 1 through hole is many above pin 3 height twices, and the positive and negative of therefore big plate 1 can insert the pin 3 of platelet 2.

Figure 15 is a B zone partial enlarged drawing among Figure 13, has illustrated the trapezoid block 4 of platelet 2 sides to insert in the big plate 1 among the figure, thereby closely big plate 1 has been connected with platelet 2.

More than a kind of buried rectangle rainwater collection module that the utility model embodiment is provided be described in detail, for one of ordinary skill in the art, thought according to the utility model embodiment, part in specific embodiments and applications all can change, in sum, this description should not be construed as restriction of the present utility model.

Claims (7)

1. buried rectangle rainwater collection module, it is characterized in that, comprise: rectangular latticed big plate and rectangular latticed platelet are installed in the rectangular casing of forming together, and the bottom surface of described casing, end face and two sides are big plate, and the both ends of the surface of described casing are platelet.

2. buried according to claim 1 rectangle rainwater collection module is characterized in that, the inside of described casing is equiped with and is parallel to described platelet and perpendicular to other platelets of described big plate.

3. buried according to claim 1 rectangle rainwater collection module, it is characterized in that, two sides that are parallel to each other of described platelet are set with pin, described big plate is provided with the pin hole that is used to insert described pin, and described platelet inserts on the removable bottom surface and the big plate of end face that is installed in described casing of described pin hole by described pin.

4. as buried rectangle rainwater collection module as described in the claim 3, it is characterized in that, the side that two other of described platelet is parallel to each other is set with trapezoid block, described big plate is provided with the dovetail groove that is used to insert this trapezoid block, and described platelet inserts on the big plate of removable two sides that are installed in described casing of described dovetail groove by described trapezoid block.

5. as buried rectangle rainwater collection module as described in the claim 3, it is characterized in that described pin hole is a through hole.

6. as buried rectangle rainwater collection module as described in the claim 4, it is characterized in that, described platelet comprises that many constitute latticed first trapezoidal column, skeleton by X-shaped between described first trapezoidal column connects, described pin is installed in the lateral surface of two described first trapezoidal column on the limit, and described trapezoid block is installed in the lateral surface of described first trapezoidal column on two other limit that is parallel to each other.

7. as buried rectangle rainwater collection module as described in the claim 6, it is characterized in that, described big plate comprises that many constitute latticed second trapezoidal column, and the skeleton by X-shaped between described second trapezoidal column connects, and described pin hole and described dovetail groove are arranged on described second trapezoidal column.

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