CN219137838U - Novel highland pipeline antifreezing centralized water supply household system - Google Patents

Abstract

The utility model discloses a novel highland pipeline antifreezing centralized water supply household system, which is characterized in that summer village water is supplied by an original water taking hub, and water is supplied for 24 hours all the day; providing water sources for villagers in a timing water supply system mode such as well drilling, heat preservation and the like, wherein the high-level water tank has a higher topography than that of houses of all villagers, and automatically and regularly supplying water; the water sources of the water taking hub and the high-level water tank automatically flow into the village households through the main pipe, the branch pipe and the pressure regulating valve by utilizing the elevation difference, so that the pipeline is kept anhydrous under the condition of no flowing water, and the pipeline is ensured not to be frozen; a valve is arranged at the starting end of each village branch pipe, a water faucet is arranged at the tail end of each village branch pipe, the valve is normally open in summer, and water is taken at any time through the water faucet; when villagers are not at home for a long time in winter, the valve at the starting end is closed, and the branch pipes are anhydrous; when water is used in winter, the starting end valve and the tail end tap are in a normally open state, and receive automatic timing water supply, and the water supply ending pipeline automatically runs dry.

Description

Novel highland pipeline antifreezing centralized water supply household system

Technical Field

The utility model belongs to the field of water supply equipment, and particularly relates to a novel highland pipeline antifreezing centralized water supply household system.

Background

In order to prevent pipelines from freezing, a traditional pipeline type centralized water supply system adopts a mode of 'middle deep two-head heating', the pipelines are buried to be below a frozen soil layer through earth excavation, the frozen soil layer is usually about 2-5 m in the high-cold high-altitude area, and the traditional earth excavation is huge in amount, time-consuming, labor-consuming and high in cost. And the frozen soil layer depths of different points are different, so that after the buried pipeline is frozen, mechanical equipment is needed to dig the earth to check the frozen position of the pipeline, and the overhaul and maintenance are difficult.

The novel plateau pipeline type centralized water supply system ensures that the pipeline has uniform gradient through the relief fall and the pipeline support, and realizes that the pipeline keeps anhydrous under the condition of no flowing water, thereby ensuring that the pipeline can not freeze.

The pipelines are built according to mountains, and are paved on the ground, so that solar energy can be irradiated everywhere to prevent the pipelines from freezing. The novel plateau pipeline type centralized water supply system has lower cost, reliable operation and simple overhaul and maintenance.

Disclosure of Invention

The utility model aims to solve the technical problems in the background technology and provides a novel highland pipeline antifreezing centralized water supply household system.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

novel water supply system of registering one's residence is concentrated to plateau pipeline freeze-proof is applied to hillside district section, hillside district section is along the first resident that concentrates of top of a hill to slope bottom interval distribution, second concentrate resident, single resident and third concentrate resident, include: original water taking hub, warm water supply room, branch pipeline, main water supply pipeline and single resident water taking point; the original water taking hub is supplied with water to the first concentrated residential area, the second concentrated residential area, the single resident water taking point and the third concentrated residential area through the main water supply pipeline;

the warm water supply room is arranged between the original water taking hub and the first concentrated residential area, and is supplied with water in the main water supply pipeline through the branch pipeline.

Further, the warm water supply house includes: the system comprises a house body, a newly-built water well, a water pump, a storage battery, a high-level water tank, a photovoltaic power generation system, a timing water supply system and a timing broadcasting system; the novel water well is built in a house, the high-level water tank is installed in the house, the high-level water tank pumps water in the novel water well through the water pump, the photovoltaic power generation system is installed at the top of the house and is powered by the storage battery, and the storage battery is powered by the timing water supply system, the water pump and the timing broadcasting system.

Timing water supply system: comprises a time relay, a time controller, a contactor, a distribution box and a pipeline electric valve. The time control instrument can set a water supply time period, the time control instrument starts to send an instruction to the time relay, the time relay obtains the instruction to conduct the contactor, the normally open contact is attracted after the contactor coil is electrified to enable the motor of the pipeline electric valve to be electrified, and the electric valve is opened to start water supply. When the water supply time is over, the time controller gives out an instruction to the time relay, and the time relay turns off the contactor after receiving the instruction so as to turn off the pipeline electric valve motor, thereby achieving the purpose of turning off the pipeline water.

Further, the water taking points of the single resident are distributed beside a main water supply pipeline with the topography lower than that of the main water supply pipeline, and the main water supply pipeline is connected with the water taking points of the single resident through branch pipelines.

Further, the main water supply pipeline is connected with the first concentrated residential area, the second concentrated residential area, the water taking point of a single resident and the third concentrated residential area through branch pipelines.

Further, valves are installed on branch pipelines connecting the first concentrated residential area, the second concentrated residential area, the water taking point of a single resident and the third concentrated residential area.

Further, water taps are installed at water outlets of branch pipelines of the first concentrated residential area, the second concentrated residential area, the water taking point of a single resident and the third concentrated residential area.

Further, the method further comprises the following steps: a plurality of pressure regulating valves; the pressure regulating valve is arranged behind the main water supply pipeline of the first concentrated residential area, the second concentrated residential area and the third concentrated residential area and at the tail end of the main water supply pipeline.

Compared with the prior art, the utility model has the advantages that:

1. in order to prevent pipelines from freezing, a traditional pipeline type centralized water supply system adopts a mode of 'middle deep two-head heating', the pipelines are buried to be below a frozen soil layer through earth excavation, the frozen soil layer is usually about 2-5 m in the high-cold high-altitude area, and the traditional earth excavation is huge in amount, time-consuming, labor-consuming and high in cost. And the frozen soil layer depths of different points are different, so that after the buried pipeline is frozen, mechanical equipment is needed to dig the earth to check the frozen position of the pipeline, and the overhaul and maintenance are difficult.

2. The novel plateau pipeline type centralized water supply system ensures that the pipeline has uniform gradient through the relief fall and the pipeline support, and realizes that the pipeline keeps anhydrous under the condition of no flowing water, thereby ensuring that the pipeline can not freeze.

3. The pipelines are built according to mountains, and are paved on the ground, so that solar energy can be irradiated everywhere to prevent the pipelines from freezing.

4. The novel plateau pipeline type centralized water supply system has lower cost, reliable operation and simple overhaul and maintenance.

Drawings

FIG. 1 is a diagram of a novel concentrated water supply household system for preventing freezing of a plateau pipeline.

Reference numerals:

1-an original water taking hub; 2-a warm water supply room; 3-branch pipes; 4-a main water supply pipeline; 5-a first concentrated residential area; 6-a second concentrated residential area; 7-a single residential area; 8-a single resident water taking point; 9-third concentrated residential area; 10-pressure regulating valve.

Detailed Description

The following describes specific embodiments of the present utility model with reference to examples:

it should be noted that the structures, proportions, sizes and the like illustrated in the present specification are used for being understood and read by those skilled in the art in combination with the disclosure of the present utility model, and are not intended to limit the applicable limitations of the present utility model, and any structural modifications, proportional changes or size adjustments should still fall within the scope of the disclosure of the present utility model without affecting the efficacy and achievement of the present utility model.

Also, the terms such as "upper," "lower," "left," "right," "middle," and "a" and the like recited in the present specification are merely for descriptive purposes and are not intended to limit the scope of the utility model, but are intended to provide relative positional changes or modifications without materially altering the technical context in which the utility model may be practiced.

Example 1:

as shown in fig. 1, a novel highland pipeline antifreezing centralized water supply system of registering one's residence is applied to hillside district section, hillside district section is along the first centralized residential area 5 of slope top to slope bottom interval distribution, second centralized residential area 6, single residential area 7 and third centralized residential area 9, includes: the original water taking hub 1, the warm water supply room 2, the branch pipeline 3, the main water supply pipeline 4 and the water taking point 8 of a single resident; the original water taking hub 1 is supplied with water to a first concentrated residential area 5, a second concentrated residential area 6, a single resident water taking point 8 and a third concentrated residential area 9 through a main water supply pipeline 4;

the warm water supply room 2 is arranged between the original water taking hub 1 and the first concentrated residential area 5, and the warm water supply room 2 is supplied with water through the branch pipeline 3 to the main water supply pipeline 4.

Further, the warm water supply house 2 includes: the system comprises a house body, a newly-built water well, a water pump, a storage battery, a high-level water tank, a photovoltaic power generation system, a timing water supply system and a timing broadcasting system; the novel water well is built in a house, the high-level water tank is installed in the house, the high-level water tank pumps water in the novel water well through the water pump, the photovoltaic power generation system is installed at the top of the house and is powered by the storage battery, and the storage battery is powered by the timing water supply system, the water pump and the timing broadcasting system.

Timing water supply system: comprises a time relay, a time controller, a contactor, a distribution box and a pipeline electric valve. The time control instrument can set a water supply time period, the time control instrument starts to send an instruction to the time relay, the time relay obtains the instruction to conduct the contactor, the normally open contact is attracted after the contactor coil is electrified to enable the motor of the pipeline electric valve to be electrified, and the electric valve is opened to start water supply. When the water supply time is over, the time controller gives out an instruction to the time relay, and the time relay turns off the contactor after receiving the instruction so as to turn off the pipeline electric valve motor, thereby achieving the purpose of turning off the pipeline water.

Further, the single resident water intake points 8 are distributed beside the main water supply pipeline 4 with the topography lower than the main water supply pipeline 4, and the main water supply pipeline 4 is connected with the single resident water intake points 8 through the branch pipeline 3.

Further, the main water supply pipe 4 connects the first concentrated residential area 5, the second concentrated residential area 6, the single resident water intake point 8 and the third concentrated residential area 9 through the branch pipe 3.

Further, valves are installed on the branch pipes 3 connecting the first concentrated residential area 5, the second concentrated residential area 6, the single resident water intake point 8 and the third concentrated residential area 9.

Further, water taps are installed at the water outlets of the branch pipes 3 of the first concentrated residential area 5, the second concentrated residential area 6, the single-resident water intake point 8 and the third concentrated residential area 9.

Further, the method further comprises the following steps: a plurality of pressure regulating valves 10; the pressure regulating valve is arranged behind the main water supply pipeline 4 and the tail end 4 of the main water supply pipeline of the first concentrated residential area 5, the second concentrated residential area 6 and the third concentrated residential area 9.

Example 2:

first concentrated residents (elevation-30-70 m);

second concentrated residents (elevation-50 to-100 m);

single resident (elevation-60 to-120 m);

third concentrated residents (elevation-100 to-200 m);

original water intake pivot transformation: water sources concentrated to the home are easy to freeze in winter in high-cold high-altitude areas, and many water intakes are blocked after being used for a period of time, so that water cannot be supplied to villagers.

Newly-built well construction: and (3) a second water source for centralized entrance, and supplying water to the centralized residents through new well digging after the original water intake hub is frozen in winter.

Thermal insulation house: the heat insulation device is used for keeping warm for high-level water tanks, photovoltaic power generation pumping systems, indoor pipelines, electrical elements and the like.

High level water tank: water in the well is pumped to the high-level water tank by the water pump to supply water for centralized residents. The high level water tank should be higher in topography than all the concentrated residents.

Photovoltaic power generation system: the photovoltaic module is used for generating electricity, and the electric energy is stored in the accumulator jar to supply power for other electric systems.

Timing water supply system: water is supplied to the concentrated residents every day in time intervals.

A timing broadcast system: the resident is reminded of receiving water by broadcasting before supplying water.

Main water supply pipe: the specification DN 63-DN 320 pipeline is adopted, and the pipeline material can be PE pipe, PVC pipe or metal pipe.

Household branch pipeline: the pipeline adopts DN 20-DN 50 specification, and the pipeline material can adopt PE pipe, PVC pipe or metal pipe.

Water taking point for resident: when a single resident is higher than the main pipeline, a water taking point can be arranged beside the main pipeline, and the resident with high topography can take water to the water taking point.

Pressure regulating valve: according to the length of the main water supply pipeline, a pressure regulating valve is arranged on the main pipeline every 500 meters, and the water quantity of the household branch pipes is evenly distributed to residents through the regulation of the pressure regulating valve.

Example 3:

working principle:

(1) The village in summer drinks water and provides through the original water intake hub, water is supplied to the village in summer for 24 hours all the day; the water level of the water taking hub is frozen, lowered and solidified in winter, so that a water source cannot be guaranteed; providing water sources for villagers by well digging, heat preservation houses, high-level water tanks, photovoltaic water pumping systems and timing water supply systems, wherein the high-level water tanks are higher than all villagers in topography, and automatically and regularly supplying water to the villagers;

(2) The water source of water intaking pivot and high-order water tank utilizes the difference in elevation to flow into each village family automatically through being responsible for and branch pipe and air-vent valve, and the trunk line is still built in mountain, guarantees through relief fall and pipeline support that the pipeline has even slope, realizes that the pipeline keeps anhydrous under the no flowing water condition to guarantee that the pipeline can not freeze.

(3) A valve is arranged at the starting end of each village branch pipe, a water faucet is arranged at the tail end of each village branch pipe, the valve is normally open in summer, and water is taken at any time through the water faucet; when villagers are not at home for a long time in winter, the valve at the starting end is closed, and the branch pipes are anhydrous; when water is used in winter, the starting end valve and the tail end tap are in a normally open state, and receive automatic timing water supply, and the water supply ending pipeline automatically runs dry.

While the preferred embodiments of the present utility model have been described in detail, the present utility model is not limited to the above embodiments, and various changes may be made without departing from the spirit of the present utility model within the knowledge of those skilled in the art.

Many other changes and modifications may be made without departing from the spirit and scope of the utility model. It is to be understood that the utility model is not to be limited to the specific embodiments, but only by the scope of the appended claims.

Claims (7)

1. Novel water supply system of registering one's residence is concentrated to altitude pipeline freeze-proof is applied to hillside district section, hillside district section is along the first resident district (5) that concentrate of top of a hill to slope bottom interval distribution, second concentrate resident district (6), single resident district (7) and third concentrate resident district (9), a serial communication port, include: the original water taking hub (1), the warm-keeping water supply room (2), the branch pipeline (3), the main water supply pipeline (4) and the single resident water taking point (8); the original water taking hub (1) supplies water to a first concentrated residential area (5), a second concentrated residential area (6), a single resident water taking point (8) and a third concentrated residential area (9) through a main water supply pipeline (4);

the warm water supply room (2) is arranged between the original water taking hub (1) and the first concentrated residential area (5), and the warm water supply room (2) is supplied with water through the branch pipeline (3) to the main water supply pipeline (4).

2. The novel plateau pipeline antifreezing centralized water supply household system according to claim 1, wherein the warm water supply house (2) comprises: the system comprises a house body, a newly-built water well, a water pump, a storage battery, a high-level water tank, a photovoltaic power generation system, a timing water supply system and a timing broadcasting system; the novel water well is built in a house, the high-level water tank is installed in the house, the high-level water tank pumps water in the novel water well through the water pump, the photovoltaic power generation system is installed at the top of the house and is powered by the storage battery, and the storage battery is powered by the timing water supply system, the water pump and the timing broadcasting system.

3. The novel highland pipeline antifreezing centralized water supply household system according to claim 1, wherein the single resident water intake points (8) are distributed beside the water supply main pipeline (4) with the topography lower than the water supply main pipeline (4), and the water supply main pipeline (4) is connected with the single resident water intake points (8) through the branch pipeline (3).

4. The novel highland pipeline antifreezing centralized water supply household system according to claim 1, wherein the main water supply pipeline (4) is connected with a first centralized residential area (5), a second centralized residential area (6), a single residential water taking point (8) and a third centralized residential area (9) through branch pipelines (3).

5. The novel highland pipeline antifreezing centralized water supply household system according to claim 4, wherein the branch pipeline (3) connecting the first centralized residential area (5), the second centralized residential area (6), the single residential water intake point (8) and the third centralized residential area (9) is provided with valves.

6. The novel highland pipeline antifreezing centralized water supply household system according to claim 5, wherein water taps are installed at water outlets of branch pipelines (3) of the first centralized residential area (5), the second centralized residential area (6), the single residential water taking point (8) and the third centralized residential area (9).

7. The novel concentrated water supply household system for plateau pipeline antifreeze according to claim 1, further comprising: a plurality of pressure regulating valves (10); the pressure regulating valve is arranged behind the main water supply pipeline (4) and at the tail end of the main water supply pipeline (4) of the first concentrated residential area (5), the second concentrated residential area (6) and the third concentrated residential area (9).

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