CN212765452U - Zhongting waterscape structure - Google Patents

Abstract

The application relates to the field of landscape architecture, in particular to an atrium waterscape structure. The key points of the technical scheme are as follows: comprises a foundation, a first water pool, a second water pool and a third water pool are arranged on the foundation, the second water pool is positioned in the first water pool, the third water pool is positioned in the second water pool and is higher than the second water pool, the second water pool is higher than the first water pool, the second water pool and the third water pool are connected in pairs, a reservoir for storing water is arranged in the foundation, a water pumping component for pumping water into the third reservoir is arranged in the reservoir so as to ensure that the water in the third reservoir respectively overflows into the first reservoir and the second reservoir, first pond with the cistern intercommunication, the waterscape structure of this application has the characteristics that structural design is reasonable, has energy-concerving and environment-protective effect simultaneously, has satisfied the diversity demand of waterscape structure.

Description

Zhongting waterscape structure

Technical Field

The application relates to the field of landscape architecture, in particular to an atrium waterscape structure.

Background

The atrium is a form of building space, which is an open and open courtyard space inside the building and can be lighted by skylight, and is characterized in that the atrium is an outdoor space inside the building, which is open to the sky at a main hall or an internal atrium, and is usually provided with a water pool for collecting rainwater, and the atrium space is used for providing an environment close to and communicated with the nature, and simultaneously isolating adverse conditions caused by the nature, and can play a certain role in the combination relationship of the building spaces.

At present, the waterscape structure in the related art mainly includes a closed-loop retaining wall constructed on a foundation, a water tank is formed by enclosing the retaining wall, the water tank is used for storing water, ornamental buildings such as rockeries or sculptures are arranged in the middle of the water tank, in addition, a water pump and a water spray pipe connected with the water outlet end of the water pump are arranged at the bottom of the water tank, a spray head of the water spray pipe faces the ornamental buildings, the water pump sprays water in the water tank to the upper side of the water tank through the water spray pipe to play an ornamental role, the water flow flows back to the water tank immediately, the water pump continuously sprays the water, the reciprocating is carried out, and water circulation.

Aiming at the related technologies, the waterscape pool in the related technologies has a single structure and is difficult to meet the diversity requirements of the waterscape structure.

SUMMERY OF THE UTILITY MODEL

In order to meet the diversity requirements of the waterscape structure, the application provides an atrium waterscape structure.

The application provides a zhongting waterscape structure adopts following technical scheme:

the utility model provides an atrium waterscape structure, includes the ground, be provided with first pond, second pond and third pond on the ground, the second pond is located in the first pond, the third pond is located in the second pond, the third pond is higher than the second pond, the second pond is higher than first pond, second pond and two liang of links to each other between the third pond three, be provided with the cistern that is used for the retaining in the ground, be provided with in the cistern and be used for pumping water extremely pumping assembly in the third pond makes moisture in the third pond does not spill over extremely first pond and in the second pond, first pond with the cistern intercommunication.

By adopting the technical scheme, the water pumping assembly is started, so that water in the water storage tank is pumped into the third water tank, water flow is accumulated in the third water tank until the water in the third water tank overflows, at the moment, the third water tank is higher than the second water tank and the first water tank respectively, so that the water flow in the third water tank flows to the second water tank and the first water tank, a waterfall-shaped landscape is generated, the ornamental value of the waterscape structure is improved, in addition, after the second water tank is filled with water, the water flow can overflow into the first water tank, the waterfall is in a multilayer stacked arrangement, the ornamental value of the waterscape structure is further improved, in addition, the water in the first water tank can flow back into the water storage tank, the circulation of the water flow is realized, the water flow is recycled, the water resource is saved, the structural design of the waterscape structure is reasonable, and meanwhile, the energy-saving and environment-friendly effects are achieved, the diversity requirement of the waterscape structure is met.

Preferably, the subassembly that draws water includes water pump and drinking-water pipe, the water pump set up in the bottom of cistern, the drinking-water pipe bury underground in the ground, the both ends of drinking-water pipe connect respectively in the third pond and the play water end of water pump.

Through adopting above-mentioned technical scheme, start the suction pump, the suction pump can take the water in the cistern out from the play water department of suction pump, and rivers are carried to the third pond in via the drinking-water pipe in, so realized keeping water to third pond department, the structure is practical.

Preferably, a bottom plate is laid on the foundation, a first retaining wall, a second retaining wall and a third retaining wall are fixedly connected to the bottom plate respectively, the first retaining wall is arranged in a closed ring shape, the first retaining wall is internally enclosed to form the first water tank, the third retaining wall is positioned in the first retaining wall, the first retaining wall is fixedly connected with the third retaining wall, the third water pool is formed between the third retaining wall and the first retaining wall, the second retaining wall is positioned between the third retaining wall and the first retaining wall, the second retaining wall is respectively and fixedly connected with the first retaining wall and the third retaining wall, the first retaining wall, the second retaining wall and the third retaining wall are arranged in an enclosing manner to form the second water tank, the third retaining wall is higher than the second retaining wall, and the second retaining wall is higher than the first retaining wall.

Through adopting above-mentioned technical scheme, enclose each other between highly reducing in proper order's third barricade, second barricade and the first barricade and establish the cooperation, so can form highly reducing in proper order third pond, second pond and first pond, the structure is practical.

Preferably, the bottom plate is provided with a through hole in a penetrating mode, the reservoir is located on one side of the bottom plate, and the through hole is communicated with the first water pool and the reservoir respectively.

Through adopting above-mentioned technical scheme, the via hole communicates each other between with first pond and the cistern for rivers can flow backward to the cistern in first pond department.

Preferably, the cover at the through hole is provided with a protection plate, a water passing groove penetrates through the protection plate, and the water passing groove is respectively communicated with the first water pool and the water storage pool.

Through adopting above-mentioned technical scheme, the punishment in advance is located to the fender lid, so prevent that object and personnel from dropping to the cistern through the via hole in, play and enclose the effect of establishing the protection to the cistern, so promoted the security of first pond waterscape structure, simultaneously, but the water trough flows, so makes rivers can flow to the cistern from first pond department in, has satisfied the use operating mode.

Preferably, a plurality of universal supporters are arranged in the third water pool, a plurality of stone plates are fixedly connected to the tops of the universal supporters, and water outlet gaps are formed among the stone plates.

Through adopting above-mentioned technical scheme, omnipotent eyelidretractor plays and carries out the effect that supports to the slabstone, and rivers accessible goes out the water gap and circulates and reach the effect of still water face, so promoted the sight of waterscape structure.

Preferably, the first water pool with be provided with supplementary inlet tube between the cistern, the both ends of supplementary inlet tube respectively with first water pool and the cistern intercommunication.

Through adopting above-mentioned technical scheme, supplementary inlet tube promotes the effect that increases the inflow that flows to the cistern in first pond, so the rivers circulation of being convenient for flows.

Preferably, an overflow pipe is arranged in the foundation, and one end of the overflow pipe is communicated to the side wall of the top of the reservoir.

Through adopting above-mentioned technical scheme, when the water level in the cistern was too high, rivers can follow overflow pipe and flow, so make the steerable effect in the suitable range value of pressure in the cistern, played the protection cistern.

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

1. the water pumping assembly pumps water in the water storage tank into the third water tank, water flow is accumulated in the third water tank until overflowing, after the second water tank is filled with water, the water can overflow into the first water tank, so that a multi-layer waterfall-shaped landscape is generated, the ornamental value of a waterscape structure is improved, in addition, the water in the first water tank can finally flow back into the water storage tank, the circulation of the water flow is realized, the water flow can be recycled, and the effect of saving water resources is achieved;

2. the protective plate plays a role in enclosing and protecting the reservoir, so that the safety of the waterscape structure of the first reservoir is improved, the structure is practical, and the diversity requirement of the waterscape structure is met;

3. when the water level in the reservoir is too high, water flow can flow out from the overflow pipe, so that the pressure in the reservoir can be controlled within a proper range value, and the effect of protecting the reservoir is achieved.

Drawings

Fig. 1 is a schematic structural diagram in a preferred embodiment of the present application.

Fig. 2 is a sectional view taken along the line a-a in fig. 1.

Fig. 3 is a sectional view taken along line B-B in fig. 1.

Fig. 4 is an enlarged view at C in fig. 3.

Description of reference numerals: 1. a foundation; 101. a soil layer; 102. a concrete layer; 2. a first pool; 3. a second pool; 4. a third water tank; 5. a base plate; 51. a via hole; 52. a first water outlet; 53. a water inlet; 6. a first retaining wall; 7. a second retaining wall; 71. a first stage; 72. a second stage; 73. a third stage; 8. a third retaining wall; 9. a hollow cushion cap; 10. a reservoir; 1001. a second water outlet; 1002. a third water outlet; 11. a water pumping assembly; 111. a water pump; 112. a water pumping pipe; 13. a protection plate; 131. a water trough; 14. an auxiliary water inlet pipe; 15. an overflow pipe; 16. a universal support; 17. a stone slab; 18. and (4) a water outlet gap.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses an atrium waterscape structure. Referring to fig. 1 and 2, the waterscape structure includes a foundation 1, the foundation 1 is used for bearing the rest of the waterscape structure, the foundation 1 may be a concrete layer 102 structure such as a building floor slab or a raft, and the like, and in addition, the foundation 1 may also be a soil layer 101 or a stone chip cushion, and the like, where no limitation is made on the concrete structure of the foundation 1, and it is sufficient to provide a bearing position for the rest of the waterscape structure, in this embodiment, the foundation 1 is selected to use the soil layer 101 as a bottom layer, and a concrete layer 102 is laid on the soil layer 101 as an example.

Referring to fig. 1 and 2, a first water tank 2, a second water tank 3 and a third water tank 4 are arranged on a concrete layer 102 of a foundation 1, the second water tank 3 is positioned in the first water tank 2, the third water tank 4 is positioned in the second water tank 3, the third water tank 4 is higher than the second water tank 3, the second water tank 3 is higher than the first water tank 2, the second water tank 3 and the third water tank 4 are connected in pairs, and water is stored in the first water tank 2, the second water tank 3 and the third water tank 4.

Specifically, the concrete layer 102 of ground 1 is laid and is equipped with bottom plate 5, and bottom plate 5 selects to be stainless steel plate in this embodiment, and bottom plate 5 sets up along the horizontal direction, and mutual butt between the lower surface of bottom plate 5 and the upper surface of the concrete layer 102 of ground 1, further, can install fasteners such as stock or screw additional between bottom plate 5 and the ground 1, so make reciprocal anchorage between bottom plate 5 and the ground 1. The bottom plate 5 is fixedly connected with a first retaining wall 6, a second retaining wall 7 and a third retaining wall 8 respectively, the first retaining wall 6, the second retaining wall 7 and the third retaining wall 8 are made of stainless steel plates, and in addition, the first retaining wall 6, the second retaining wall 7 and the third retaining wall 8 can also be made of glass plates. The first retaining wall 6, the second retaining wall 7 and the third retaining wall 8 are perpendicular to the bottom plate 5, and the first retaining wall 6, the second retaining wall 7 and the third retaining wall 8 can be fixedly connected to the bottom plate 5 in a welding and fixing mode.

First barricade 6 is the closed loop form setting, encloses to establish in the first barricade 6 and forms first pond 2, so can realize the function with water storage in first pond 2. In the present embodiment, the contour of the first retaining wall 6 is rectangular-like, wherein one corner of the first retaining wall 6 is recessed into the first water pool 2, so that a hollow bearing platform 9 can be additionally installed on the foundation 1 at the recessed portion of the first retaining wall 6, the top of the hollow bearing platform 9 is open, the hollow bearing platform 9 is integrally formed by concrete, soil can be placed in the inner cavity of the hollow bearing platform 9, so that the hollow bearing platform 9 can be planted with green plants, thereby playing a role in improving the ornamental value of the waterscape structure.

In addition, the third retaining wall 8 is located in the first retaining wall 6, the peripheral outline of the third retaining wall 8 is rectangular-like, wherein one corner of the third retaining wall 8 is notch-like, a section of the first retaining wall 6 recessed towards the inside of the first water tank 2 is embedded into the notch of the third retaining wall 8, and two ends of the third retaining wall 8 are welded and fixed to the first retaining wall 6 respectively, so that the first retaining wall 6 is fixedly connected with the third retaining wall 8. At this time, the first retaining wall 6 plugs the gap of the third retaining wall 8, and a third water tank 4 is formed between the third retaining wall 8 and the first retaining wall 6, so that water can be stored in the third water tank 4.

In addition, the second retaining wall 7 is located between the third retaining wall 8 and the first retaining wall 6, specifically, the second retaining wall 7 includes a first section 71, a second section 72 and a third section 73 that are sequentially connected, the first section 71, the second section 72 and the third section 73 can be fixed to each other by welding, the second section 72 is located between the first section 71 and the third section 73, the first section 71 and the third section 73 are located on the same side of the second section 72, the first section 71 and the third section 73 are perpendicular to the second section 72, one end of the first section 71, which is far away from the second section 72, is welded and fixed to the first retaining wall 6, and one end of the third section 73, which is far away from the second section 72, is welded and fixed to the third retaining wall 8, so that the second retaining wall 7 is respectively and fixedly connected to the first retaining wall 6 and the third retaining wall 8. At this time, a second water tank 3 is enclosed among the first retaining wall 6, the second retaining wall 7 and the third retaining wall 8, so that water can be stored in the second water tank 3.

In addition, the height of the third retaining wall 8 is higher than that of the second retaining wall 7, the height of the second retaining wall 7 is higher than that of the first retaining wall 6, so that the water level of the third water tank 4 is higher than that of the second water tank 3, the water level of the second water tank 3 is higher than that of the first water tank 2, when the water in the third water tank 4 overflows, the water in the third water tank 4 can flow to the first water tank 2 and the second water tank 3, and in addition, when the water in the second water tank 3 overflows, the water can flow into the first water tank 2.

Referring to fig. 2 and 3, a reservoir 10 for retaining water is provided in the foundation 1, the reservoir 10 is located at one side on the bottom plate 5, and the reservoir 10 is located below the first, second, and third water tanks 2, 3, and 4. In the process of building the reservoir 10, a foundation pit can be dug at the foundation 1, and a layer of concrete is poured and laid on the inner wall of the foundation pit, so that the reservoir 10 is formed. In addition, a water pumping assembly 11 for pumping water into the third water tank 4 is arranged in the water storage tank 10, so that water in the third water tank 4 overflows into the first water tank 2 and the second water tank 3 respectively, and in the process, water flow generates a waterfall-shaped landscape, and the ornamental value of the waterscape structure is improved.

Specifically, the pumping assembly 11 includes a water pump 111 and a pumping pipe 112, the water pump 111 is disposed at the bottom of the water reservoir 10, wherein the water pump 111 may be installed at the bottom wall of the water reservoir 10. In addition, the water pumping pipe 112 is buried in the foundation 1, two ends of the water pumping pipe 112 are respectively connected to the third water pool 4 and the water outlet end of the water pump 111, wherein the first water outlet 52 can be formed at the bottom plate 5 of the third water pool 4, the water pumping pipe 112 is installed at the first water outlet 52 of the bottom plate 5, so that the connection and the communication between the water pumping pipe 112 and the third water pool 4 are realized, and in addition, the other end of the water pumping pipe 112 is installed on the water pump 111 to realize the connection with the water pump 111. At this time, the water pump 111 is started, the water pump 111 can pump out the water in the reservoir 10 from the water outlet end of the water pump 111, and the water flow is conveyed into the third water tank 4 through the water pumping pipe 112, so that the water is stored in the third water tank 4 until the water in the third water tank 4 overflows outwards, thereby generating a waterfall landscape.

Referring to fig. 3, in order to recycle the water flow, the first water tank 2 is communicated with the water reservoir 10, so that the water in the first water tank 2 can flow back into the water reservoir 10, and the water flow is recycled.

Specifically, the bottom plate 5 is provided with a through hole 51 penetrating in the vertical direction, the opening contour of the through hole 51 may be circular or rectangular, and the opening contour of the through hole 51 is not limited herein, and in the present embodiment, the through hole 51 is provided in a rectangular opening shape. In addition, the via holes 51 are respectively communicated with the first water tank 2 and the water reservoir 10, and the via holes 51 realize the communication between the first water tank 2 and the water reservoir 10, so that water flow can flow at the first water tank 2 and flow back into the water reservoir 10, and the backflow of the water flow is realized.

Referring to fig. 3, via hole 51 department is covered and is equipped with protection plate 13, the area of protection plate 13 should be greater than the area of via hole 51, the outer fringe profile of protection plate 13 is unanimous with the peripheral profile of via hole 51, locate via hole 51's in-process with protection plate 13 lid, place protection plate 13 on bottom plate 5, bottom plate 5 supports protection plate 13, the installation is established to the lid of so accomplishing protection plate 13, the protection plate 13 that covers via hole 51 department plays to enclose the effect of establishing the protection to cistern 10 this moment, the security of the 2 waterscape structures in first pond has so been promoted. In addition, a water passing groove 131 penetrates through the protection plate 13, the water passing groove 131 is respectively communicated with the first water tank 2 and the water storage tank 10, and water can flow through the protection plate 13 through the water passing groove 131, so that water can flow into the water storage tank 10 from the first water tank 2, and the use condition is met.

It should be noted that the shape and contour of the water trough 131 can be adjusted according to actual needs, the width of the water trough 131 is in the range of 2cm to 25cm, and the flow velocity of the water flow can be controlled by changing the size of the gap of the water trough 131, so that the height of the water level of the first water pool 2 can be changed, and the structure is practical.

Further, be provided with supplementary inlet tube 14 between first pond 2 and the cistern 10, supplementary inlet tube 14 is buried underground in ground 1, the both ends of supplementary inlet tube 14 communicate with first pond 2 and cistern 10 respectively, wherein, the bottom plate 5 department that is located in first pond 2 can open and establish water inlet 53, the one end fixed mounting of supplementary inlet tube 14 is in the water inlet 53 department of bottom plate 5, and simultaneously, the lateral wall department of cistern 10 can open and be equipped with second delivery port 1001, the other end fixed mounting of supplementary inlet tube 14 is in the second delivery port 1001 department of cistern 10, so realize the installation of supplementary inlet tube 14. Supplementary inlet tube 14 plays the effect that increases the inflow that first pond 2 flows to the cistern 10, and the rivers circulation of so being convenient for flows, and in addition, the mounted position of supplementary inlet tube 14 is nimble, and when the overall length overlength of first pond 2, set up water inlet 53 in one side that via hole 51 was kept away from to first pond 2, the water yield of first pond 2 both sides can be balanced.

Further, an overflow pipe 15 is arranged in the foundation 1, one end of the overflow pipe 15 is communicated to the top side wall of the water storage tank 10, the other end of the overflow pipe 15 can be connected with a city drainage system, when the overflow pipe 15 is installed, the overflow pipe 15 is buried in the foundation 1, a third water outlet 1002 is formed in the inner side wall of the water storage tank 10, one end of the overflow pipe 15 is fixedly installed at the third water outlet 1002 of the water storage tank 10, and therefore the installation in the overflow pipe 15 is achieved. In case the water level in the reservoir 10 is too high, the water in the reservoir 10 may flow out of the overflow pipe 15, so that the pressure in the reservoir 10 may be controlled within a suitable range of values.

Referring to fig. 3 and 4, a plurality of universal supporters 16 are arranged in the third water tank 4, the universal supporters 16 are arranged in the vertical direction, and the bottom ends of the universal supporters 16 are fixedly installed at the bottom plate 5, wherein the specific number of the universal supporters 16 can be correspondingly set according to specific actual requirements, for example, three, four, six or eight universal supporters are provided, and the specific number of the universal supporters 16 is not limited herein. In addition, a plurality of stone slabs 17 are fixedly installed at the tops of the universal supporters 16, and the stone slabs 17 are arranged along the horizontal direction. It should be noted that the specific number of slates 17 can be adjusted appropriately according to the actual area of the third pool 4, and the specific number of slates 17 is not limited herein. In addition, a water outlet gap 18 is formed between two adjacent stone slabs 17, water in the third water tank 4 flows from the bottom of the third water tank 4 to the top of the third water tank 4 through the water outlet gap 18, the water can circulate through the water outlet gap 18 to achieve the effect of a still water surface, and ornamental buildings such as rockeries and sculptures can be additionally installed on the top of the stone slabs 17, so that the ornamental value of a waterscape structure can be improved.

The implementation principle of an atrium waterscape structure in the embodiment of the application is as follows: the pumping assembly 11 is actuated so that water within the reservoir 10 is pumped into the third basin 4, a flow of water accumulates within the third basin 4, and the water flow overflows from the third water pool 4, at the moment, the water flow in the third water pool 4 flows to the second water pool 3 and the first water pool 2, thereby generating a waterfall-shaped landscape and improving the ornamental value of the waterscape structure, and meanwhile, after the second water tank 3 is filled with water, can overflow into the first water tank 2, is additionally provided with a waterfall layer to further improve the ornamental value of the waterscape structure, in addition, the water in the first water tank 2 can flow back to the water reservoir 10, so that the circulation of the water flow is realized, under the action of the water pumping component 11, the water flow is reciprocated in such a way that the water flow can be recycled, the effect of saving water resources is achieved, the waterscape structure has reasonable structural design, has the effects of energy conservation and environmental protection, and meets the diversity requirements of the waterscape structure.

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

Claims (8)

1. An atrium waterscape structure, which is characterized in that: including ground (1), be provided with first pond (2), second pond (3) and third pond (4) on ground (1), second pond (3) are located in first pond (2), third pond (4) are located in second pond (3), third pond (4) are higher than second pond (3), second pond (3) are higher than first pond (2), second pond (3) and two liang of links to each other between third pond (4) the three, be provided with cistern (10) that are used for retaining water in ground (1), be provided with in cistern (10) and be used for pumping water to water pumping component (11) in third pond (4) so that moisture in third pond (4) overflows respectively to in first pond (2) and the second pond (3), the first water pool (2) is communicated with the water storage pool (10).

2. An atrium waterscape structure according to claim 1, wherein: the water pumping assembly (11) comprises a water pump (111) and a water pumping pipe (112), the water pump (111) is arranged at the bottom of the water storage tank (10), the water pumping pipe (112) is buried in the foundation (1), and two ends of the water pumping pipe (112) are respectively connected to the third water tank (4) and the water outlet end of the water pump (111).

3. An atrium waterscape structure according to claim 1, wherein: ground (1) upper berth is equipped with bottom plate (5), on bottom plate (5) respectively fixedly connected with first barricade (6), second barricade (7) and third barricade (8), first barricade (6) are the closed loop form setting, enclose in first barricade (6) and establish and form first pond (2), third barricade (8) are located in first barricade (6), first barricade (6) with fixed connection between third barricade (8), third barricade (8) with form between first barricade (6) third pond (4), second barricade (7) are located third barricade (8) with between first barricade (6), just second barricade (7) respectively with first barricade (6) with third barricade (8) fixed connection, first barricade (6), The second retaining wall (7) and the third retaining wall (8) are formed by enclosing between the three, the second water pool (3), the third retaining wall (8) is higher than the second retaining wall (7), and the second retaining wall (7) is higher than the first retaining wall (6).

4. An atrium waterscape structure according to claim 3, wherein: run through on bottom plate (5) and be provided with via hole (51), cistern (10) are located one side on bottom plate (5), via hole (51) respectively with first pond (2) and cistern (10) intercommunication.

5. An atrium waterscape structure according to claim 4, wherein: the hole (51) department lid is equipped with guard plate (13), it is provided with water trough (131) to run through on guard plate (13), water trough (131) respectively with first pond (2) and cistern (10) intercommunication.

6. An atrium waterscape structure according to claim 1, wherein: a plurality of universal supporters (16) are arranged in the third water tank (4), a plurality of stone plates (17) are fixedly connected to the tops of the universal supporters (16), and water outlet gaps (18) are formed among the stone plates (17).

7. An atrium waterscape structure according to claim 1, wherein: first pond (2) with be provided with supplementary inlet tube (14) between cistern (10), the both ends of supplementary inlet tube (14) respectively with first pond (2) and cistern (10) intercommunication.

8. An atrium waterscape structure according to claim 1, wherein: an overflow pipe (15) is arranged in the foundation (1), and one end of the overflow pipe (15) is communicated to the side wall of the top of the reservoir (10).

Images