CN217267981U - Waterscape circulation system - Google Patents

Abstract

The application relates to a waterscape circulation system, which relates to the field of garden waterscape and comprises a plurality of landscape pools which are sequentially arranged from low to high, wherein the landscape pool at the lowest position is a low landscape pool, and the pool at the highest position is a high landscape pool; a water flowing channel is arranged between two adjacent landscape pools; a water conveying device for conveying the water source in the low landscape water tank to the high landscape water tank is arranged between the high landscape water tank and the low landscape water tank; a water stop level detector, a water supplement level detector and a water supplement pipe communicated with an external pressure water source are arranged in the low landscape pool; a control valve is arranged on the water replenishing pipe; the waterscape circulation system in this application has can be in the time of the water level in the low landscape pond drops below the default, in time carries out the moisturizing to the low landscape pond.

Description

Waterscape circulation system

Technical Field

The application relates to the field of gardens waterscape, especially relate to a waterscape circulation system.

Background

In the design process of the garden waterscape, when the circulating waterscape located in the small micro-wetland water system is designed, the range of the designed circulating waterscape is limited by regions, the area of the circulating waterscape is not large, and the water depth of the circulating waterscape is lower than one meter. The water flow of the circulating waterscape generally falls from a high-position water pool to a low-position water pool, and then the water flow of the low-position water pool is pumped to the highest-position water pool through a water pump, so that the waterscape circulation is completed.

In the process of using the circulating waterscape, in summer with hot weather, if the precipitation is less, the water in the water tank evaporates quickly, the water level drops quickly, and the water level is easy to be too low. Therefore, designing a waterscape circulation system capable of timely adjusting and controlling the water level of the pool is a problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the water level of a pool for circulating a waterscape in the related art is easily too high or too low, the application provides a waterscape circulation system.

The application provides a waterscape circulation system adopts following technical scheme:

a waterscape circulation system comprises a plurality of landscape pools which are arranged in sequence from low to high, wherein the lowest landscape pool is a low landscape pool, and the highest landscape pool is a high landscape pool; a water flowing channel is arranged between two adjacent landscape pools;

a water conveying device for conveying the water source in the low landscape water tank to the high landscape water tank is arranged between the high landscape water tank and the low landscape water tank;

a water stop level detector, a water supplement level detector and a water supplement pipe communicated with an external pressure water source are arranged in the low landscape pool;

a control valve is arranged on the water replenishing pipe;

when the water supplementing level detector detects that the water level of the low landscape pool is lower than a preset value, the control valve is opened, and the water supplementing pipe supplements water to the low landscape pool;

when the water stop level detector detects that the water level of the low landscape pool is higher than a preset value, the control valve is closed, and the water replenishing pipe stops replenishing water to the low landscape pool.

By adopting the technical scheme, when the water level in the low landscape water tank is lower than the water supplementing level detector, the water supplementing level detector transmits a signal to the control center, and the control center controls the control valve to open so that the water supplementing pipe supplements water to the low landscape water tank; when the water level reaches the water stop level detector, the water stop level detector detects a water level signal and transmits the signal to the control center, the control center controls the control valve to be closed, and the water replenishing pipe stops replenishing water into the low landscape pool, so that water can be timely replenished into the low landscape pool.

Optionally, a drain pipe communicated with a municipal drainage pipeline is arranged above the water stop level detector in the low landscape pool.

Through adopting above-mentioned technical scheme, when rainy season comes to lead to the water level when too high, water can flow from the drain pipe.

Optionally, a warning position detector is arranged above the drain pipe in the low landscape water tank, and a second water pump communicated with the municipal drainage system is arranged in the low landscape water tank;

and when the liquid level in the low landscape pool reaches the position of the warning level detector, the second water pump is started.

By adopting the technical scheme, when the rainfall is too large, the water in the low landscape pool cannot be discharged in time by the drain pipe, when the water level reaches the warning level detector, the warning level detector detects a water level signal and transmits the signal to the control center, the control center controls the water pump II to be started, and the water pump II pumps the water in the low landscape pool into the municipal drainage system, so that the water discharge in the low landscape pool is accelerated, and the water in the low landscape pool is lowered below the warning level detector as soon as possible.

Optionally, a filter piece is installed at the water inlet of the first water pump, and the filter piece comprises a filter pipe fixedly connected with the water inlet of the first water pump and a filter screen installed on the filter pipe and used for filtering water flow entering the filter pipe.

Through adopting above-mentioned technical scheme, filtering the setting that can avoid outside debris to produce the influence to the normal work of water pump one as far as.

Optionally, the filter pipe is vertically arranged at the edge of the low landscape water pool.

Through adopting above-mentioned technical scheme, and water pump one when drawing water, rubbish floats to the filter screen top and forms the accumulation along with rivers, and then makes things convenient for people to collect and handle rubbish.

Optionally, the top end of the filter pipe is in a horn shape with a large top and a small bottom.

Through adopting above-mentioned technical scheme, make rivers can be more smooth and easy entering into in the filter tube.

Optionally, the middle part of the filter screen is concave downwards.

Through adopting above-mentioned technical scheme, the setting up of the sunken position on the filter screen makes the filter screen can collect more rubbish on the one hand, has increased the area of filter screen as far as simultaneously for the filter screen is difficult for blocking more.

Optionally, an annular groove is formed in the end face of the top end of the filter pipe, and a lap joint edge matched with the annular groove is arranged at the edge of the filter screen; the lap joint edge is lapped in the annular groove.

Through adopting above-mentioned technical scheme, realized being connected dismantled between filter screen and the filter tube, the clearance of people to the filter screen of being convenient for.

Optionally, the upper surface of the overlapping edge is flush with the end face of the top end of the filter tube.

By adopting the technical scheme, the resistance of the filter screen to water flow can be reduced, and meanwhile, the phenomenon that a gap appears at the joint of the filter screen and the filter pipe under the action force of the water flow, so that garbage enters the filter pipe from the joint of the filter screen and the filter pipe, is avoided as much as possible.

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

1. the water replenishing level detector, the water stopping level detector and the water replenishing pipe are arranged in the low landscape pool, so that water can be replenished into the low landscape pool by the water replenishing pipe when the liquid level of the low landscape pool is lower than a preset value, and the situation that the water level of the low landscape pool is too low is avoided as far as possible;

2. the drain pipe is arranged above the water stop level detector, so that when the water level is too high due to the coming of rainy season, water can flow out of the drain pipe, and redundant water is drained away;

3. through set up alert level detector in drain pipe top, set up in alert level detector complex water pump two in the low view pond simultaneously for when rainfall is too big, the drain pipe can not in time be with the log raft play in the low view pond, can improve the drainage efficiency in the low view pond.

Drawings

Fig. 1 is a schematic view of the overall structure of a waterscape circulation system according to an embodiment of the present application.

Fig. 2 is a sectional structure diagram of a waterscape circulation system in an embodiment of the present application.

Fig. 3 is a sectional view showing a filter member according to an embodiment of the present application.

Description of reference numerals: 1. a low-landscape pool; 11. a water stop level detector; 12. a water supplement level detector; 13. a water replenishing pipe; 14. a control valve; 15. a drain pipe; 16. a warning level detector; 17. a second water pump; 18. a filter member; 181. a filter screen; 1811. overlapping edges; 182. a filter tube; 1821. an annular groove; 2. a high landscape pool; 3. a water flow channel; 4. a water delivery device; 41. a pipeline; 42. and a first water pump.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a waterscape circulation system. Referring to fig. 1, a waterscape circulation system includes a plurality of landscape water tanks, which are sequentially arranged from top to bottom, in this embodiment, three landscape water tanks are taken as an example for description, and for convenience of subsequent description, in this embodiment, a landscape water tank at the lowest position among the plurality of landscape water tanks is named as a low landscape water tank 1, and a water tank at the highest position among the plurality of landscape water tanks is named as a high landscape water tank 2.

A water flowing channel 3 is arranged between two adjacent landscape water ponds, and the water flowing channel 3 is arranged to enable water in a water pond at a higher position in the two adjacent landscape water ponds to flow into a water pond at a lower position through the water flowing channel 3.

Referring to fig. 2, a water delivery device 4 is disposed between the low landscape pool 1 and the high landscape pool 2, and the water delivery device 4 is used for delivering water in the low landscape pool 1 to the high landscape pool 2 so as to realize the circulation flow of water flow among the landscape pools.

The water delivery device 4 comprises a pipeline 41 and a first water pump 42 arranged in the low landscape pool 1, one end of the pipeline 41 is communicated with the high landscape pool 2, and the other end of the pipeline 41 is communicated with the first water pump 42 in the low landscape pool 1.

Referring to fig. 2, a pump pit 421 is arranged at the bottom of the low landscape pool 1, and a first water pump 42 is placed in the pump pit 421.

Referring to fig. 1, a water stop level detector 11, a water supplement level detector 12 and a water supplement pipe 13 are arranged on the side wall of a low landscape pool 1. One end of the water replenishing pipe 13 is communicated with the low landscape pool 1, the other end of the water replenishing pipe 13 is communicated with an external pressure water source, a control valve 14 is arranged on the water replenishing pipe 13, and the control valve 14 is an electromagnetic valve in the embodiment.

The water stop level detector 11 is located above the water supplement level detector 12. When the water level is lower than the water replenishing level detector 12, the water replenishing level detector 12 detects a water level signal and transmits the signal to the control center, the control center controls the control valve 14 to be opened, and at the moment, the water replenishing pipe 13 starts to feed water into the low landscape pool 1. Therefore, the water in the low landscape pool 1 can be timely supplemented after loss. When the water level of the low landscape pool 1 reaches the water stop level detector 11, the water stop level detector 11 detects a water level signal and transmits the signal to the control center, the control center controls the control valve 14 to be closed, and at the moment, the water supplementing pipe 13 stops feeding water into the low landscape pool 1;

meanwhile, a gap is formed between the water stop level detector 11 and the water supplementing level detector 12, so that the liquid level in the low landscape pool 1 can be kept within a reasonable range, and the situation that water is supplemented after the water in the low landscape pool 1 is lost is avoided as far as possible.

Referring to fig. 2, a drain pipe 15 is provided above the water stop level detector 11. One end of the drain pipe 15 is communicated with the interior of the low landscape pool 1, and the other end of the drain pipe 15 is communicated with a municipal drainage pipeline.

When the water level is too high due to the coming of rainy season, the water can flow out from the drain pipe 15 to drain away the excess water.

Referring to fig. 2, a warning level detector 16 is provided on the inner wall of the low landscape pool 1 above the drain pipe 15. And a second water pump 17 is arranged in the low landscape pool 1, and a pipeline communicated with the municipal drainage system is arranged on the second water pump 17.

When the rainfall is too large, the water in the low landscape pool 1 cannot be drained in time by the drain pipe 15 so that the water level in the low landscape pool 1 reaches the warning level detector 16, the warning level detector 16 detects a water level signal and transmits the signal to the control center, the control center controls the second water pump 17 to be started, the second water pump 17 pumps the water in the low landscape pool 1 to the municipal drainage system, therefore, the drainage of the water in the low landscape pool 1 is accelerated, the water in the low landscape pool 1 is lowered below the warning level detector 16 as far as possible, when the liquid level in the low landscape pool 1 is lower than the warning level detector 16, the warning level detector 16 transmits the signal to the control system, and the control system controls the second water pump 17 to be stopped.

Referring to fig. 3, the water inlet of the first water pump 42 is provided with the filter member 18. The filter member 18 includes a filter screen 181 and a filter pipe 182.

Referring to fig. 2, the filter pipe 182 is vertically arranged, the top end of the filter pipe 182 is slightly lower than the water replenishing level detector 12, the bottom end of the filter pipe 182 is fixedly connected with the water inlet of the first water pump 42, and the filter screen 181 is detachably connected to the top end of the filter pipe 182.

The filter element 18 can prevent external impurities from affecting the normal operation of the first water pump 42 as much as possible, and when the first water pump 42 pumps water, garbage floats above the filter screen 181 along with water flow to form accumulation, so that people can collect and treat the garbage conveniently; and because the filter screen 181 and the filter element 18 are detachably connected, the filter screen 181 can be conveniently detached from the filter shell by workers for cleaning.

The filter element 18 is positioned at the edge of the basin so that it is convenient for people to collect the waste above the filter element 18.

Referring to fig. 3, in order to facilitate the water flow into the filter pipe 182, the filter pipe 182 has a trumpet shape with a large top and a small bottom.

The end face of the upper end of the filter pipe 182 is provided with an annular groove 1821, the edge of the filter screen 181 is erected in the annular groove 1821, and then the detachable connection between the filter screen 181 and the filter pipe 182 is realized.

The end face of the top end of the filter pipe 182 is flush with the upper surface of the filter screen 181, so that the resistance of the filter screen 181 to water flow can be reduced, and meanwhile, the phenomenon that a gap appears at the joint of the filter screen 181 and the filter pipe 182 under the action of the water flow, which causes garbage to enter the filter pipe 182 from the joint of the filter screen 181 and the filter pipe 182, is avoided as much as possible.

The central point of filter screen 181 is sunken downwards, forms overlap joint edge 1811 simultaneously at the border department of filter screen 181, and overlap joint edge 1811 makes filter screen 181 can collect more rubbish on the one hand in lapping to annular groove 1821, the setting up of the sunken position on the filter screen 181, has increased the area of filter screen 181 simultaneously as far as for filter screen 181 is difficult for blocking more.

The implementation principle of a waterscape circulation system in the embodiment of the application is as follows: the first water pump 42 pumps water in the low landscape pool 1 into the high landscape pool 2, and water in the high landscape pool 2 naturally flows through the water channel due to the action of gravity and gradually enters the low landscape pool 1. In hot and rainy seasons, when the water level of the low landscape pool 1 is lower than the water replenishing level detector 12, the control valve 14 communicated with the water replenishing pipe 13 is opened, and the water replenishing pipe 13 replenishes the low landscape pool 1 with water; when the water level reaches the water stop level detector 11, the water stop level detector 11 feeds back a signal to the control system, and the control system controls the control valve 14 to close.

In seasons with high precipitation, water is drained from the drain pipe 15 when the water level reaches the position of the drain pipe 15. When the water level is too high and reaches the warning level detector 16, the warning level detector 16 transmits a signal to the control system, and the control system enables the second water pump 17 to be started, so that the water discharge of the low landscape pool 1 can be accelerated.

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 (10)

1. A waterscape circulation system is characterized in that: the landscape pool comprises a plurality of landscape pools which are sequentially arranged from low to high, wherein the landscape pool at the lowest position is a low landscape pool (1), and the pool at the highest position is a high landscape pool (2); a water flowing channel (3) is arranged between two adjacent landscape pools;

a water conveying device (4) for conveying the water source in the low landscape pool (1) to the high landscape pool (2) is arranged between the high landscape pool (2) and the low landscape pool (1);

a water stop level detector (11), a water supplement level detector (12) and a water supplement pipe (13) communicated with an external pressure water source are arranged in the low landscape pool (1);

a control valve (14) is arranged on the water replenishing pipe (13);

when the water replenishing level detector (12) detects that the water level of the low landscape pool (1) is lower than a preset value, the control valve (14) is opened, and the water replenishing pipe (13) replenishes water to the low landscape pool (1);

when the water stop level detector (11) detects that the water level of the low landscape pool (1) is higher than a preset value, the control valve (14) is closed, and the water replenishing pipe (13) stops replenishing water to the low landscape pool (1).

2. The waterscape recycling system of claim 1, wherein: and a drain pipe (15) communicated with a municipal drainage pipeline is arranged above the water stop level detector (11) in the low landscape pool (1).

3. A waterscape circulation system according to claim 2, wherein: a warning position detector (16) is arranged above the water discharge pipe (15) in the low landscape pool (1), and a second water pump (17) communicated with a municipal drainage system is arranged in the low landscape pool (1);

and when the liquid level in the low landscape pool (1) reaches the position of the warning level detector (16), the second water pump (17) is started.

4. The waterscape recycling system of claim 1, wherein: the water delivery device (4) comprises a first water pump (42) arranged in the low landscape pool (1); and a pipeline (41) connected between the high landscape pool (2) and the first water pump (42).

5. The waterscape recycling system of claim 4, wherein: the water inlet of the first water pump (42) is provided with a filtering piece (18), the filtering piece (18) comprises a filtering pipe (182) fixedly connected with the water inlet of the first water pump (42), and a filtering net (181) which is arranged on the filtering pipe (182) and used for filtering water flow entering the filtering pipe (182).

6. The waterscape recycling system of claim 5, wherein: the filter pipe (182) is vertically arranged at the edge of the low landscape pool (1).

7. The waterscape recycling system of claim 6, wherein: the top end of the filter pipe (182) is in a horn shape with a large top and a small bottom.

8. The waterscape recycling system of claim 6, wherein: the middle part of the filter screen (181) is downwards sunken.

9. The waterscape recycling system of claim 8, wherein: an annular groove (1821) is formed in the end face of the top end of the filter pipe (182), and a lap joint edge (1811) matched with the annular groove (1821) is formed in the edge of the filter screen (181); the overlapping edge (1811) is overlapped in the annular groove (1821).

10. A waterscape recycling system according to claim 9, wherein: the upper surface of the overlapping edge (1811) is flush with the end surface of the top end of the filter pipe (182).

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