CN114960912B - Intermittent flowing landscape water system - Google Patents

Abstract

The invention discloses an intermittent flowing landscape water system, which comprises an upstream end, a downstream end, a water channel for water supply to flow from the upstream end to the downstream end, and a pipeline for conveying water at the downstream end back to the upstream end, wherein the downstream end is provided with a reservoir connected with the water channel and a water pump connected with the pipeline, the upstream end is provided with an intermittent drainage water collector type water collecting container, the water pump conveys water in the reservoir to the water collector type water collecting container through the pipeline, and the water collector type water collecting container is used for pouring out water after the water in the water collector type water collecting container reaches a set capacity. The water collecting container of the invention can provide enough water flow for the water channel and also creates conditions for realizing water circulation by using the low-power water pump, and the low-power water pump and the pipeline thereof are simpler and more convenient to arrange, thereby greatly reducing the construction difficulty and the construction cost, and particularly, the invention also greatly reduces the later maintenance cost and the operation cost.

Description

Intermittent flowing landscape water system

Technical Field

The present invention relates to a landscape water system which is suitable for urban parks and residential communities and intermittently flows.

Background

In order to make the small environment more natural, a plurality of residential communities and street gardens are built with circulating landscape water systems, such as waterfalls, streams and the like, which improve the climate of the small environment and bring more comfortable life feeling to people. However, it is undeniable that the introduction of the landscape water systems brings about corresponding construction cost, especially the circulating water systems with larger flow rate, the water pump and the matched pipelines of the circulating water systems need larger cost investment, and the running management of the landscape water systems brings about not small cost pressure, which also causes the phenomenon that the conventional landscape water systems only work in important holidays.

Disclosure of Invention

Aiming at the problems existing in the prior art, the invention aims to provide an intermittent flowing landscape water system which can form enough circulating water flow and can greatly reduce construction cost and operation cost.

In order to achieve the above purpose, the technical scheme of the invention is as follows:

an intermittent flowing landscape water system comprises an upstream end, a downstream end and a water channel for water supply flow to flow from the upstream end to the downstream end, and a pipeline for conveying water at the downstream end back to the upstream end, wherein the downstream end is provided with a reservoir connected with the water channel and a water pump connected with the pipeline, the upstream end is provided with an intermittent drainage water container, the water pump conveys water in the reservoir to the water container through the pipeline, and the water container is used for pouring out water after the water in the water container reaches a set capacity.

Further, the upstream end is further provided with a throttling pool for regulating and controlling the flow rate of water flowing into the water channel, water poured out of the water collecting vessel of the vessel type flows into the throttling pool, and a water outlet connected with the water channel is arranged on the throttling pool.

Further, the water collector type water collection container is arranged on a structure for forming a waterfall, and the throttling pool is located below waterfall water flow.

Further, the water collecting container of the vessel type has the characteristics of being in a virtual shape, in a middle shape and in a full shape.

Further, the lopsided water collection container has a large opening to quickly pour out water when toppling.

Further, a water supplementing port connected with an external water source is arranged at the reservoir.

The water collecting container of the invention can provide enough water flow for the water channel and also creates conditions for realizing water circulation by using the low-power water pump, and the low-power water pump and the pipeline thereof are simpler and more convenient to arrange, thereby greatly reducing the construction difficulty and the construction cost, and particularly, the invention also greatly reduces the later maintenance cost and the operation cost.

Drawings

FIG. 1 is a schematic view of an intermittently flowing landscape water system according to the present invention;

fig. 2 is a schematic view of the vessel in three states, (a) no water, (b) water is not full, and (c) after water is full.

Detailed Description

The present invention will be described with reference to examples.

Fig. 1 and 2 show an example of an intermittently flowing landscape water system according to the present invention.

As shown in fig. 1, the upstream end of the landscape water system is provided with a water container 1, the water container 1 is rotatably installed on a bracket 2, a throttle water tank 3 is arranged below the water container 1, a water outlet 4 of the throttle water tank 3 is connected with a water channel 5, the tail end of the water channel 5 is connected with a water reservoir 6, a water pump 7 is arranged in the water reservoir 6, the outlet end of the water pump 7 is connected with a pipeline 8, the outlet of the pipeline 8 is positioned above the water container 1, and a water supplementing port (not shown in the figure) is arranged at the water reservoir 6.

As shown in fig. 2, when there is no water in the vessel 1, under the action of self weight, the upper opening of the vessel is inclined to the right side, so that the vessel 1 is in a state of "virtual rule" as shown in fig. (a), and as water is injected into the vessel 1, the vessel 1 rotates counterclockwise around its supporting shaft slowly, and when the water level in the vessel reaches about half of the height direction, the vessel 1 is in a state of "normal rule" as shown in fig. (b); when the water in the vessel 1 is filled, the vessel 1 is rotated clockwise and rapidly, and the vessel is in a state of "full cover" as shown in the figure (c), and the water in the vessel is poured out rapidly.

During operation, water is injected into the reservoir 6 from an external water source through the water supplementing port, the water pump 7 works, the water is conveyed to the vessel 1 along the arrow B direction in the figure through the pipeline 8, the vessel 1 is turned from the virtual state to the normal state along with continuous injection of the water, the water is poured into the throttling pool 3 at one time when the vessel is full, the water in the throttling pool 3 starts to enter the water channel 5 from the water outlet 4 to form landscape water flow, the water in the water channel 5 flows into the reservoir 6 at the downstream end along the arrow A direction in the figure, the emptied vessel 1 is restored to the virtual state and receives the water conveyed by the pipeline 8 again until the vessel is poured out after the vessel is full again, and the landscape water system is circulated in this way, so that the landscape water system forms intermittent circulation water flow.

The water in the container type water collecting container 1 is directly poured into the water channel 5, although a larger water head can be formed, the follow current is insufficient, the water is poured into the throttling pool 3, the water outlet 4 is utilized to regulate the water outlet flow, continuous water flow with a certain flow rate and lasting for a certain time can be formed in the water channel 5, the requirement of the water system on the water flow is met, and the time for cutting off the water flow can be shortened.

The water outlet 4 on the throttling pool 3 can be composed of a plurality of water outlet pipes, or a gate type water outlet can be adopted, and the water outlet flow can be regulated by changing the number of the opened water outlet pipes or the opening degree of the gate.

The capacity of the vessel 1 is selected according to the desired flow rate in the channel 5, and can be hundreds of liters or up to 1m ³ Even larger.

Because the water flow in the water channel 5 is supplied by the lopsided vessel type water collecting container 1, the water pump 7 can be a water pump with very small flow and power, such as a water pump with power of tens of watts and flow of tens of liters per minute, the pipeline 8 matched with the water pump 7 can be a temporarily arranged plastic pipeline, even if a fixed pipeline is arranged, only a very thin pipeline is selected, no complicated pipeline facility is required to be constructed, and the water pump 7 can be installed only when the landscape water system is in operation, and no fixed arrangement in the water reservoir 6 is required.

In order to make the landscape water system more vivid, the upstream end of the lopsided vessel 1 can be provided with facilities for forming waterfall, such as rockery, waterfall wall, and the like, at this time, the lopsided vessel 1 is only required to be arranged above a structure for forming the waterfall, and the throttling pool 2 is required to be arranged below the structure.

In addition, the foregoing example only shows a simple-shaped water container 1, and on the premise of ensuring the function of the water container 1, in order to make the water container 1 better blend into the surrounding environment, in order to increase artistic air, various suitable appearance shapes of the water container 1 may be adopted, and will not be described in detail here.

Finally, it should be pointed out that the above examples are given for illustrative purposes only and do not limit the scope of the invention.

Claims (3)

1. The landscape water system with the gap flow comprises an upstream end, a downstream end and a water channel for water supply flow from the upstream end to the downstream end, and a pipeline for conveying water at the downstream end back to the upstream end, and is characterized in that the downstream end is provided with a reservoir connected with the water channel and a water pump connected with the pipeline, the upstream end is provided with an intermittent drainage water collector, the water pump conveys water in the reservoir to the water collector through the pipeline, and the water collector pours out water after the water in the water collector reaches a set capacity; the upstream end is also provided with a throttling water tank for regulating and controlling the flow of water flowing into the water channel, the water poured out of the water collecting vessel of the vessel type flows into the throttling water tank, and the throttling water tank is provided with a water outlet connected with the water channel; the lopsided vessel type water collecting container is arranged on a structure for forming a waterfall, and the throttling pool is positioned below waterfall water flow; the lopsided vessel has a large opening to pour water out quickly when toppling.

2. The landscape water system according to claim 1, wherein the water collector vessel has the characteristics of a virtual, medium, normal, and full cover of the vessel.

3. The landscape water system of claim 1 wherein the reservoir is provided with a water replenishment port connected to an external water source.