CN114108746B - Water resource storage system for arid oasis region - Google Patents

Abstract

The invention discloses a water resource storage system in arid oasis areas, which comprises a motor-pumped well and a container serial group buried underground, wherein the container serial group consists of a plurality of containers which are mutually spliced in parallel and are sequentially connected in series, every two arbitrary adjacent containers are separated by a common same container wall, and a first door hole which is communicated with the two adjacent containers is formed in the same container wall in a penetrating way; the invention can fully extract and properly store the underground water resources in oasis areas which lack rainwater but have precious and abundant natural underground water resources and abundant photo-thermal resources by arranging the well chamber, the underground water purifying chamber, the water storage chamber, the underground water softening and filtering equipment and the microwave thawing type water storage container under the condition of not affecting the ecological safety of the underground water resources and having motor-pumped well cutting permission.

Description

Water resource storage system for arid oasis region

Technical Field

The invention relates to a water resource storage system, in particular to a water resource storage system for arid oasis areas.

Background

Oasis is an important ecological system in arid areas, and has unique man-ground relationship and natural landscapes. Oasis in Xinjiang and Gansu is a main area of study of scholars, and research focuses are placed on aspects of reasonable water and soil resource allocation, ecological water demand, oasis agricultural development, ecological environment construction, town development characteristics, ecological economic system and the like of the oasis. Since water resources are the most important limiting factors for the development of oasis, the existence and development of oasis are directly determined, so that the discussion of the water resources of oasis is not kept away all the time when the oasis problem is studied.

At present, the production and the living water in the arid oasis area are mainly sourced from the groundwater, but how to reasonably store the groundwater resources so as to avoid the extracted water resources from being polluted by wind sand, dust and the like in the arid area is still needed to be solved.

Disclosure of Invention

The invention aims to provide a water resource storage system for arid oasis regions, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the arid oasis district water resource storage system comprises a motor-pumped well and a container serial group buried underground, wherein the container serial group consists of a plurality of containers which are mutually spliced in parallel and are sequentially connected in series, every two arbitrary adjacent containers are separated by a common same container wall, a first door hole which is communicated with the two adjacent containers is arranged on the same container wall in a penetrating way,

the motor-pumped well comprises an underground well, a well wall pipe assembled in the underground well, a deep well pump, a filter and a sand setting pipe, wherein the deep well pump comprises a deep well pump motor for driving the deep well pump motor to operate;

the first container positioned at the first position in the container serial group is arranged above a well of the motor-pumped well, and the interior of the first container is independently arranged as a well chamber;

The inside of a second container adjacent to the well chamber in the container serial group is independently provided with a groundwater purifying chamber;

a fourth container positioned behind the third container in the container serial group and a plurality of first containers positioned at the tail position in the container serial group are all arranged as water storage chambers;

the underground water purification chamber is internally provided with underground water softening and filtering equipment, an anti-corrosion liquid discharge pump and a water delivery pump, a water inlet of the underground water softening and filtering equipment is connected with a well water input pipe, a water inlet end of the well water input pipe enters the well chamber through a corresponding first door hole and then is inserted into a motor-pumped well, a waste liquid outlet of the underground water softening and filtering equipment is connected with a waste liquid output pipe through the anti-corrosion liquid discharge pump, a liquid outlet pipe orifice of the waste liquid output pipe penetrates through the inner wall of the underground water purification chamber and then extends to the ground, an anti-subsidence terrace is fixedly paved at the liquid outlet pipe orifice position close to the waste liquid output pipe on the ground, an anti-subsidence waste liquid receiving tank is arranged at the top of the anti-subsidence terrace, a liquid outlet pipe orifice of the waste liquid output pipe is communicated with the anti-corrosion waste liquid receiving tank, a water outlet of the underground water softening and filtering equipment is communicated with a water inlet of the water delivery pump through a water purification input pipe, and a water outlet of the water delivery pump is connected with a purified water output main pipe;

The water storage chamber is internally provided with a plurality of microwave thawing type water storage containers, the water purification output main pipe enters each water storage chamber through a first door hole, the outer wall of each water storage chamber of the water purification output main pipe is communicated with a plurality of water purification output branch pipes, the water purification output branch pipes are in one-to-one correspondence with the microwave thawing type water storage containers, the water purification output branch pipes are communicated with water inlets of the microwave thawing type water storage containers, and water outlets of the microwave thawing type water storage containers are communicated with a water supply system through water storage output branch pipes;

the arid oasis area water resource storage system also comprises an arched fold line type passing pipeline and an arched fold line type exhaust pipeline.

As a further scheme of the invention: the water supply system comprises a storage water output main pipe penetrating into each water storage chamber through a first door hole and a water supply pump arranged in a first container at the tail position of the container serial group, wherein the storage water output main pipe is connected with the water supply pump in series, and a water outlet pipe orifice of the storage water output main pipe penetrates through the inner walls of the first container at the tail position and then extends to the ground.

As a further scheme of the invention: the pipe section of the storage water output main pipe exposed on the ground is vertically arranged and is simultaneously communicated with a drainage water supply pipe and a drainage anti-freezing pipe, a fourth electromagnetic valve is arranged on the drainage water supply pipe, a drainage anti-freezing valve is arranged on the drainage anti-freezing pipe, and the drainage anti-freezing pipe is positioned above the drainage water supply pipe.

As a further scheme of the invention: the top of anticorrosion waste liquid receiving storage tank runs through and is provided with feed liquor valve and manhole, install sealed lid on the manhole, the top of anticorrosion waste liquid receiving storage tank runs through and is provided with the exhaust hole, and installs second air cleaner and first drainage relief valve on the exhaust hole, the outer wall of anticorrosion waste liquid receiving storage tank is provided with waste liquid drainage valve and drain anti-freezing valve.

As a further scheme of the invention: the electronic flow sensor is arranged on the pipe section of the waste liquid output pipe, which is positioned in the underground water purifying chamber, and the first electronic temperature sensor is arranged on the pipe section of the waste liquid output pipe, which is positioned above the ground.

As a further scheme of the invention: the well is characterized in that a well cover is arranged in the well chamber, the well cover is in sealing connection with a wellhead of the motor-pumped well, a plurality of air inlets are formed in the well cover in a penetrating mode, a reverse U-shaped air inlet pipe is arranged on the air inlets, a first air filter is arranged at one end, located outside the motor-pumped well, of the reverse U-shaped air inlet pipe, a first electromagnetic valve is arranged on the reverse U-shaped air inlet pipe, a well water input pipe perforation is formed in a top center pipe of the well cover, and a water inlet end of the well water input pipe enters the motor-pumped well through the well water input pipe perforation.

As a further scheme of the invention: the arch broken line type passing pipeline comprises a first inclined pipeline, one end of the first inclined pipeline is communicated with a well chamber, the other end of the first inclined pipeline extends upwards to the upper part of the ground and then is connected with a first horizontal pipeline, one end of the first horizontal pipeline is connected with a second inclined pipeline, the bottom of the second inclined pipeline is in contact with the ground and is provided with a manhole door, and the inclined top surface of the second inclined pipeline is uniformly penetrated and provided with a plurality of third air filters.

As a further scheme of the invention: the top of a plurality of containers at the last position of the container series group is penetrated and provided with an exhaust hole, the corresponding part of the inner wall of the container and the exhaust hole is fixedly provided with an air extractor, the arched folded line type exhaust pipeline comprises a third inclined pipeline, one end of the third inclined pipeline is communicated with the air extractor through the exhaust hole, the other end of the third inclined pipeline extends upwards to the upper part of the ground in an inclined way and then is connected with a second horizontal pipeline, and one end of the second horizontal pipeline is connected with a fourth inclined pipeline.

As still further aspects of the invention: the fourth inclined pipeline is fixedly arranged at the top of the second inclined pipeline, the second horizontal pipeline is fixedly arranged at the top of the first horizontal pipeline, the outer walls of the bottoms of the first inclined pipeline, the first horizontal pipeline, the second inclined pipeline and the third inclined pipeline are fixedly connected with a plurality of struts, the bottom ends of the struts are fixedly connected with anti-subsidence cement piers, and the anti-subsidence cement piers are positioned in the ground.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention can fully extract and properly store the underground water resources in oasis areas which lack rainwater but have precious and abundant natural underground water resources and abundant photo-thermal resources by arranging the well chamber, the underground water purifying chamber, the water storage chamber, the underground water softening and filtering equipment and the microwave thawing type water storage container under the condition of not affecting the ecological safety of the underground water resources and having motor-pumped well cutting permission.

2. By arranging the inverted U-shaped air inlet pipe, the first air filter, the third air filter, the arched fold line type passing pipeline, the arched fold line type exhaust pipeline, the air extractor and the like, the invention can ensure good ventilation in the underground container serial group, is convenient for operators to smoothly enter the underground container serial group, can effectively prevent external dust and the like from being carried into the container by natural wind to be deposited, and can prevent floating dust and other impurities from polluting well water.

Drawings

FIG. 1 is a schematic diagram of the structure of an arched, folded, linear transit duct in a arid oasis region water resource storage system.

Fig. 2 is a schematic diagram of a distribution structure of containers in a water resource storage system in a arid oasis region.

FIG. 3 is a schematic diagram of the well room structure in the water resource storage system in the arid oasis region.

Fig. 4 is a schematic structural diagram of a well lid in a water resource storage system in a arid oasis region.

FIG. 5 is a schematic diagram of the structure of a groundwater clean room in a water resource storage system in a arid oasis region.

FIG. 6 is a schematic diagram of the structure of the arched, folded line type exhaust duct in the arid oasis region water resource storage system.

FIG. 7 is a schematic diagram of the structure of a microwave thawing type water storage container in a water resource storage system in a arid oasis region.

Fig. 8 is an enlarged view at a in fig. 6.

Fig. 9 is a schematic structural view of a second rack in the water resource storage system in the arid oasis region.

FIG. 10 is a schematic diagram of the distribution structure of a third air filter in a water resource storage system in a arid oasis region.

Wherein, the liquid crystal display device comprises a liquid crystal display device, well 1, groundwater purification chamber 2, water storage chamber 3, first door opening 4a, second door opening 4b, motor-pumped well 5, well lid 6, well water input pipe perforation 7, intake hole 8, inverted U-shaped intake pipe 9, first solenoid valve 10, first air filter 11, groundwater softening filtration device 12, water delivery pump 13, purified water output header 14, anti-corrosion liquid discharge pump 15, waste liquid output pipe 16, electronic flow sensor 17, first electronic temperature sensor 18, anti-corrosion waste liquid receiving tank 19, anti-sinking terrace 20, waste liquid drain valve 21, drain anti-freeze valve 22, seal cover 23, intake valve 24, second air filter and first drain pressure relief valve 25, thawing water storage container 26, cylindrical tank 27, inverted cone tank 28, tank cover 29, transmission plate 30 the microwave-confined reflection box 31, the microwave heater 32, the cylindrical box body 33, the exothermic agent 34, the second discharge relief valve 35, the electronic level sensor 36, the purified water output branch pipe 37, the second solenoid valve 38, the first bracket 39, the stored water output branch pipe 40, the third solenoid valve 41, the stored water output main pipe 42, the water supply pump 43, the pillar 44, the anti-settling cement pier 45, the discharge water supply pipe 46, the fourth solenoid valve 47, the discharge antifreeze pipe 48, the discharge antifreeze valve 49, the first inclined pipe 50, the first horizontal pipe 51, the second inclined pipe 52, the manhole door 53, the third air filter 54, the second bracket 55, the solar photovoltaic panel 56, the air extractor 57, the third inclined pipe 58, the second horizontal pipe 59, and the fourth inclined pipe 60.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 10, in the embodiment of the present invention, an existing motor-pumped well 5 which is connected to an underground aquifer downwards is constructed on the ground adjacent to the edge of a desert or gobi basin and above the underground runoff water, the motor-pumped well 5 comprises a well chamber 1, an underground well, a casing pipe, a deep well pump, a filter, a sand settling pipe and the like which are assembled in the underground well, the deep well pump comprises a deep well pump motor which drives the motor-pumped well to operate, the well chamber 1 is arranged underground, the casing pipe is fixedly sleeved in the well, an underground container series group which is formed by a plurality of containers in a sequential communication mode is buried below the ground surface around the periphery of the motor-pumped well 5, as shown in fig. 1, a plurality of containers are mutually connected in parallel and are sequentially connected in series to form a spliced container, any two adjacent containers are separated by a shared same container wall, a first door opening 4a which is communicated with the two adjacent containers is formed in the same container wall, the hollow cross section length and the wide dimension of the first door opening 4a should be provided with a larger fitting in the equipment of the motor-pumped well 5, a microwave thawing type water storage container 26, a large water storage container 12 and the like can be blocked from being provided with a lighting lamp for a top surface inspection device or an illumination lamp for a person to be installed in the first container 4.

The first container in the serial group of underground containers is set above the well and inside is set as well room 1 separately to protect the well, well mouth, well cover 6 and other apparatus and/or facilities to pump well water from the well via the well mouth, auxiliary well and water pumping equipment, with circular butt joint through hole in the bottom wall of the first container, the upper pipe mouth of the well wall pipe rising upwards to the well mouth, the circular butt joint through hole is fixedly sealed with the upper end pipe orifice of the well wall pipe in a mode of encircling the upper end pipe orifice of the well wall pipe, the circular butt joint through hole is detachably and hermetically provided with a well cover 6, the well cover 6 is uniformly distributed in a circumferential direction and penetrates through an air inlet hole 8, each air inlet hole 8 is fixedly communicated with the inner end pipe orifice of an inverted U-shaped air inlet pipe 9, a first electromagnetic valve 10 connected in series with each inverted U-shaped air inlet pipe 9 is arranged on each inverted U-shaped air inlet pipe 9, and a first air filter 11 (an air filter) is arranged at the outer end pipe orifice of each inverted U-shaped air inlet pipe 9 and higher than the inner end pipe orifice of each inverted U-shaped air inlet pipe 9.

When the first electromagnetic valve 10 is closed, air in the well casing cannot flow out directly through a wellhead, the deep well pump generates larger vacuum degree or negative pressure in the well casing, more underground water is pumped into the well casing, the water yield of the motor-pumped well 5 is further improved, when the first electromagnetic valve 10 is opened, the inverted U-shaped air inlet pipe 9 is in a communicating state, the air in the well casing 1 is continuously sucked into the well casing through the inverted U-shaped air inlet pipe 9 by the negative pressure generated by the deep well pump in the well casing, the first air filter 11 plays a role of filtering floating dust in the air, the floating dust is prevented from flowing into the well casing along with air and flowing through the inverted U-shaped air inlet pipe 9, floating dust particles are blocked outside the well casing, the relatively dust-free state in the well casing is kept, the floating dust is prevented from polluting the deep well pump arranged in the well casing and the well water stored in the well casing, under the condition that the upper end pipe orifice of the well casing 6 is sealed well casing is intact, the opening or closing state of the first electromagnetic valve 10 and the number proportion of the first electromagnetic valve 10 which is opened and the first electromagnetic valve 10 which are closed can be correspondingly quantitatively increased or decreased in unit time, and the water yield of the first electromagnetic valve 10 is more proportional to the first electromagnetic valve 10 which is different from the opening degree of the first electromagnetic valve 10.

If cleaning, maintenance or replacement is required for the first air filter 11, after the deep-well pump is safely stopped, all or part of the first electromagnetic valve 10 is opened, the well chamber 1 is communicated with the well casing through the inverted U-shaped air inlet pipe 9, air in the well chamber 1 naturally flows into the well casing under the action of negative pressure in the well until the air pressure in the well casing is equal to the air pressure in the well chamber 1, the first air filter 11 is detached from the outer end pipe orifice of the inverted U-shaped air inlet pipe 9, and then the first air filter 11 is cleaned, maintained or replaced, at this time, because the outer end pipe orifice of the inverted U-shaped air inlet pipe 9 is provided with the first air filter 11 vertically downwards, the air pressure in the well casing and the air pressure in the well chamber 1 are balanced, the negative pressure state in the well casing disappears, the air in the well chamber 1 cannot flow into the well casing through the inverted U-shaped air inlet pipe 9 due to the loss of the negative pressure, and the floating dust in the air outside the well cannot drift towards the outer end pipe orifice of the inverted U-shaped air inlet pipe 9, and the floating dust cannot flow downwards to the positive sedimentation and sink the floating dust can not flow out towards the outer end of the inverted U-shaped air inlet pipe 9 under the condition that the air in the indoor air has no disturbance.

A well water input pipe perforation 7 is arranged in the center of the well cover 6 in a penetrating way, a water inlet pipe orifice of the well water input pipe is fixedly and hermetically communicated with a water outlet of a deep well pump arranged in the well wall pipe, and a water outlet pipe orifice of the well water input pipe passes through the well cover 6 upwards from the well through the well water input pipe perforation 7.

The inside of the second container is separately provided with a groundwater purifying chamber 2, and the groundwater purifying chamber 2 is correspondingly provided with groundwater softening and filtering equipment 12, a water delivery pump 13 and an anti-corrosion liquid discharge pump 15, wherein the groundwater softening and filtering equipment 12 comprises a motor, a booster pump driven by the motor, a filtering material tank for softening well water and a salt box, and the filtering material tank is communicated with the salt box through a salt suction pipe;

the top wall of the second container is penetrated and provided with a perforation of a waste liquid output pipe 16, a waste liquid outlet of the filter tank is communicated with a liquid inlet of an anti-corrosion liquid discharge pump 15 in a sealing way through a waste liquid input pipeline, a liquid outlet of the anti-corrosion liquid discharge pump 15 passes through a liquid inlet pipe orifice of the waste liquid output pipe 16, a liquid outlet pipe orifice of the waste liquid output pipe 16 passes through the perforation of the waste liquid output pipe 16 upwards and penetrates through the top wall of the second container to extend to the ground, the waste liquid output pipe 16 is fixedly matched with the perforation of the waste liquid output pipe 16 in a sealing way, an electronic flow sensor 17 is arranged on a pipe section of the waste liquid output pipe 16 positioned in the second container, an anti-subsidence terrace 20 is fixedly paved at a position of the ground close to the liquid outlet pipe orifice of the waste liquid output pipe 16, and an anti-subsidence terrace storage tank 19 is arranged on the anti-subsidence terrace 20;

a first electronic temperature sensor 18 is arranged on a pipe section of the waste liquid output pipe 16 exposed on the ground, a first liquid inlet hole formed in the upper part of the waste liquid output pipe 16 exposed on the ground is detachably, fixedly and hermetically communicated with an anti-corrosion waste liquid receiving tank 19 arranged on an anti-sinking terrace 20, an exhaust hole and a second liquid inlet hole are formed in the top shell wall of the anti-corrosion waste liquid receiving tank 19 in a penetrating manner, a second air filter (an air filter) or a first drainage pressure relief valve is arranged on the exhaust hole, a liquid inlet valve 24 is arranged on the second liquid inlet hole, a first liquid outlet hole, a manhole and a second liquid outlet hole are formed in the part of the peripheral wall of the anti-corrosion waste liquid receiving tank 19 closest to the bottommost part of the anti-corrosion waste liquid receiving tank, a waste liquid drainage valve 21 is arranged on the first liquid outlet hole, a sealing cover 23 is detachably and hermetically arranged on the manhole, and a drainage anti-freezing valve 22 is arranged on the second liquid outlet hole;

The anti-corrosion liquid discharge pump 15 can timely and finally pump the waste liquid in the filter tank upwards to the anti-corrosion waste liquid receiving tank 19 for temporary storage through the waste liquid output pipe 16, as the accumulation of the waste liquid temporarily stored in the anti-corrosion waste liquid receiving tank 19 increases, the gas above the waste liquid in the anti-corrosion waste liquid receiving tank 19 automatically flows out of the anti-corrosion waste liquid receiving tank 19 through the exhaust hole and the second air filter due to the rising of the self pressure, or when the gas above the waste liquid in the anti-corrosion waste liquid receiving tank 19 rises and is equal to or equal to the opening pressure of the safety valve of the first liquid discharge pressure relief valve, the first liquid discharge pressure relief valve is automatically opened, the gas stored in the anti-corrosion waste liquid receiving tank 19 is automatically discharged into the atmosphere through the exhaust hole, the anti-corrosion waste liquid receiving tank 19 is timely decompressed, and the space for temporarily storing the waste liquid in the anti-corrosion waste liquid receiving tank 19 is reasonably released, so that the anti-corrosion liquid discharge pump 15 can pump more waste liquid into the anti-corrosion waste liquid receiving tank 19 for temporary storage, and when the gas pressure above the waste liquid in the anti-corrosion waste liquid receiving tank 19 is reduced and the gas pressure above the waste liquid is smaller than the pressure required when the first liquid discharge pressure is automatically opened;

in addition, the first drainage pressure release valve is closed, the second air filter can filter dust particles floating in the outside air, dust particles are prevented from entering the anti-corrosion waste liquid storage tank 19 through the second air filter and accumulating on the inner surface of the bottom of the anti-corrosion waste liquid storage tank 19 to form wet mud which is difficult to remove through a manhole when the interior of the anti-corrosion waste liquid storage tank 19 is cleaned, the interior of the anti-corrosion waste liquid storage tank 19 is kept in a state of obviously no wet mud, and the interior of the anti-corrosion waste liquid storage tank 19 is only limited to only containing waste liquid; in a colder freezing season, if the waste liquid is not timely discharged to a specially designated waste liquid treatment plant through the first liquid discharge hole and the opened waste liquid discharge valve 21;

The anti-corrosion waste liquid storage tank 19 is burst after a large amount of waste liquid in the anti-corrosion waste liquid storage tank 19 is frozen and expanded, the anti-corrosion waste liquid storage tank 19 can be effectively prevented from being burst by the anti-freezing relief valve 22, when the temperature of the anti-freezing relief valve 22 body is reduced to be higher than but close to the freezing point, the anti-freezing relief valve 22 is automatically opened, a part of waste liquid which is not frozen in the anti-corrosion waste liquid storage tank 19 is driven by the expansion force and gravity of the frozen waste liquid and flows to a designated environment-friendly waste liquid storage tank for temporary storage through the second liquid discharge hole, the opened anti-freezing relief valve 22 and a special anti-freezing relief pipeline, and when the temperature of the anti-freezing relief valve 22 body is increased to be obviously higher than the freezing point, the anti-freezing relief valve 22 is automatically closed;

when the inner surface of the bottom of the anti-corrosion waste liquid receiving tank 19 is required to be cleaned, the liquid inlet valve 24 can be manually opened, the liquid inlet pipe is detachably, fixedly and hermetically communicated with the anti-corrosion waste liquid receiving tank 19 through the liquid inlet valve 24 and the second liquid inlet hole, the special cleaning liquid is pumped into the anti-corrosion waste liquid receiving tank 19 through the liquid inlet pipe, the liquid inlet valve 24 and the second liquid inlet hole, the special cleaning liquid can be dissolved in salt scale on the inner surface of the bottom of the anti-corrosion waste liquid receiving tank 19, the special cleaning liquid containing the dissolved salt scale flows to a specified environmental protection specified waste liquid storage pond through the second liquid outlet hole, the opened waste liquid drain valve 21 and the special drain pipeline for temporary storage, if the inner surface of the peripheral wall of the anti-corrosion waste liquid receiving tank 19 is required to be cleaned, the sealing cover 23 of the fixed sealing manhole is opened, then a worker who specially manages the anti-corrosion waste liquid receiving tank 19 inserts the anti-corrosion waste liquid receiving tank 19 from the manhole and temporarily fixed by a vertical climbing ladder entering the anti-corrosion waste liquid receiving tank 19, the special cleaning liquid is sprayed on the inner surface of the peripheral wall of the anti-corrosion waste liquid receiving tank 19 manually, the special cleaning liquid containing the dissolved salt scale on the peripheral wall of the special cleaning liquid receiving tank 19 is dissolved in the specified environmental protection specified waste liquid storage pond through the second liquid drain valve and the special drain pipeline for cleaning liquid containing the clean drain pipeline for cleaning liquid containing the salt scale is required to be cleaned through the peripheral wall of the special drain pipeline for cleaning pipeline and the special drain pipeline for cleaning liquid, and the special drain pipeline is required to be cleaned;

The first electronic temperature sensor 18 is used for measuring the temperature of a pipe section of the waste liquid output pipe 16 exposed on the ground and sending the measured temperature signal value to the computer control system in a wired manner through the singlechip or the PLC, the electronic flow sensor 17 is used for measuring the flow of the waste liquid (the liquid discharge amount of the anti-corrosion liquid discharge pump 15) flowing through the waste liquid output pipe 16 and sending the measured flow signal value to the computer control system in a wired manner through the singlechip or the PLC, the computer control system calculates the volume quantity accumulated and conveyed to the anti-corrosion waste liquid receiving tank 19 according to the liquid flow value sent by the electronic flow sensor 17, and if the volume quantity of the waste liquid in the anti-corrosion waste liquid receiving tank 19 is increased to be close to the maximum volume limit value of the anti-corrosion waste liquid receiving tank 19, the computer control system controls the anti-corrosion liquid discharge pump 15 to stop through the singlechip, sends alarm information to a mobile phone of a relevant staff through the mobile phone wireless internet, and prompts the staff specially receiving and environment-friendly treating the waste liquid to timely transport the anti-corrosion waste liquid receiving tank 19 storing the waste liquid and placing qualified anti-corrosion waste liquid receiving tank 19 on the anti-settling terrace 20;

In addition, because the filter material tank is internally provided with the renewable ion exchange resin for softening well water, the ion exchange resin can play a role of normally softening well water under the condition of absorbing salt water in an uncooled or unheated temperature environment, in order to prevent the ion exchange resin from being damaged due to accidental supercooling or overheating and prevent special salt water with larger concentration stored in the salt tank from being solidified in the underground water purification chamber 2 with the temperature being accidentally close to the freezing point, electric heating and heat preservation measures are adopted for the filter material tank and the salt tank, namely flexible electric heating and heat preservation facilities (such as electric tracing belts, silicon rubber heating belts and the like) are respectively arranged on the outer peripheral walls of the filter material tank and the salt tank, so that the corresponding flexible electric heating and heat preservation facilities maintain the internal temperature of the filter material tank at 5-30 ℃ and the internal temperature of the salt tank at more than 0 ℃ to ensure safe operation or shutdown of the underground water softening and filtering equipment 12.

The water inlet pipe mouth of the well water input pipe also extends into the first container and extends into the second container in the underground container serial group through the first door hole 4a which is communicated with the first container and the second container, and the water inlet of the underground water softening and filtering device 12 is communicated with the second container behind the first container; a solar controller (note: the solar controller can effectively adjust the charge and discharge performance of the energy storage and accumulation battery, and automatically control the electric energy output of the load by the solar photovoltaic power generation panel 56 and the energy storage battery), the energy storage battery pack and the inverter are installed in the third container, and of course, the disassembled components or devices of the large-volume devices such as the groundwater softening and filtering device 12 which need to be placed in the water purifying container can also be transported into the water purifying container for assembly through the arched folded line type passing pipeline communicated with the first container.

The fourth container in the fourth place of the underground container serial group and the first container in the last place of the underground container serial group are arranged as water storage chambers 3, a plurality of (generally 2-4) vertically placed microwave thawing type water storage containers 26 are fixedly arranged in each water storage chamber 3, and the microwave thawing type water storage containers 26 are arranged in the water storage chambers 3 so as to facilitate relevant staff to enter the water storage chambers 3 to carry out inspection and management on the microwave thawing type water storage containers 26, a microwave heater 32 arranged at the top of the microwave thawing type water storage containers 26 and the like.

The microwave thawing type water storage container 26 is formed by integrating a cylindrical tank body 27 and an inverted conical tank body 28, wherein the cylindrical tank body 27 and the inverted conical tank body 28 are both formed by stainless steel, the inverted conical tank body 28 is arranged below the cylindrical tank body 27 and fixedly communicated with the cylindrical tank body 27 in a sealing manner, a first bracket 39 is fixedly arranged on the bottom surface tank wall in the water storage chamber 3, and the whole fixed seat of the microwave thawing type water storage container 26 is arranged on the first bracket 39 arranged below the inverted conical tank body 28;

the tank cover 29 is fixedly arranged on the tank opening at the upper end of the cylindrical tank body 27 in a sealing way, the tank cover 29 is formed by stainless steel, a circular mounting hole is formed in the center of the tank cover 29 in a penetrating way, a microwave transmission plate 30 for sealing the mounting hole is fixedly arranged on the mounting hole, the microwave transmission plate 30 is formed by engineering plastics, a microwave constraint reflection box 31 arranged above the tank cover 29 is fixedly arranged on the microwave transmission plate 30, the microwave constraint reflection box 31 is formed by stainless steel and is cylindrical, the box opening of the microwave constraint reflection box 31 is downwards arranged and is detachably sealed and fixedly arranged on the microwave transmission plate 30, a cylindrical box body 33 fixedly connected with the inner wall surface of the microwave transmission plate 30 under the tank cover 29 is fixedly arranged at the uppermost part in the cylindrical tank body 27, and the cylindrical box body 33 is formed by engineering plastics or stainless steel;

The upper end of the cylindrical box body 33 is provided with a box opening which is fixedly connected with the microwave transmission plate 30 in a sealing way to form a sealed heat release box, the heat release box is internally filled with heat release agent 34 in a sealing way, the heat release agent 34 is anti-freezing cooling liquid or alcohol substance of the vehicle engine or at least comprises alcohol substance and water, the alcohol substance is ethanol, glycol or glycerol, the microwave constraint reflection box 31 is internally and fixedly provided with a microwave heater 32 (comprising a magnetron, a high-voltage transformer, a voltage doubling half-wave rectifying circuit and the like) which can emit microwaves in a detachable way, the microwave emission head of the microwave heater 32 vertically points downwards to the heat release agent 34, the part of the tank cover 29 close to the edge of the tank cover is provided with a water inlet hole and a vent hole in a penetrating way, the vent hole is provided with a second drainage relief valve 35, the microwave thawing type water storage container 26 is provided with an electronic liquid level sensor 36, a second electronic temperature sensor and an electronic water pressure sensor, the electronic liquid level sensor 36, the second electronic temperature sensor and the electronic water pressure sensor are respectively arranged in the cylindrical tank 27 and/or the inverted cone tank 28 in a sealing manner, the sensitive element of the second electronic temperature sensor is arranged at the uppermost part in the microwave thawing type water storage container 26 and is fixed on the corresponding annular inner wall surface of the tank cover 29 in a mode of being uniformly distributed around the periphery of the microwave constraint reflection box 31, the electronic water pressure sensor is arranged at the lowermost part in the microwave thawing type water storage container 26 and is arranged on the surface near the water outlet arranged at the tip end part at the bottommost part of the inverted cone, when the cylindrical box 33 is made of engineering plastic material capable of transmitting microwaves, microwaves emitted by the microwave heater 32 not only directly irradiate the heat release agent 34 through the microwave transmission plate 30 so as to heat the heat release agent 34, the unfrozen clean water stored in the microwave thawing type water storage container 26 can be directly irradiated through the cylindrical box 33, the unfrozen clean water is heated and warmed, after the unfrozen clean water is warmed, the unfrozen clean water is transferred to solid ice crystals floating in the clean water, the solid ice crystals are finally melted into water again, when the cylindrical box 33 is made of stainless steel reflecting microwaves, microwaves emitted by the microwave heater 32 directly irradiate the exothermic agent 34 through the microwave transmission plate 30, the exothermic agent 34 is heated and warmed, the exothermic agent 34 heated by microwaves heats the stored clean water to be frozen through the cylindrical box 33 and the unfrozen clean water originally stored in the microwave thawing type water storage container 26 or directly heats the solid ice crystals which are condensed on the surface of the stored clean water stored in the microwave thawing type water storage container 26 and float, and the solid ice crystals are restrained in the cylindrical box 331 to be complementarily heated and warmed by the exothermic agent 34 in a mode of being reflected back and forth by the box wall of the cylindrical box 33;

The water outlet of the underground water softening and filtering device 12 is communicated with the water inlet of the water delivery pump 13 through a purified water input pipe, the water outlet of the water delivery pump 13 is simultaneously communicated with a plurality of purified water output branch pipes 37 through a purified water output main pipe 14, each purified water output branch pipe 37 is correspondingly and hermetically communicated with a microwave thawing type water storage container 26 through a water inlet hole formed in a tank cover 29, a second electromagnetic valve 38 which is connected with each purified water output branch pipe 37 in series and is positioned in a corresponding water storage chamber 3 is arranged on each purified water output branch pipe 37, the water outlets of the microwave thawing type water storage container 26 which are arranged at the tip end part of the bottommost part of the corresponding inverted conical tank body are respectively communicated with a water storage output main pipe 42 through water storage output branch pipes 40, and a third electromagnetic valve 41 which is connected with each water storage output branch pipe 40 in series and is positioned in the corresponding water storage chamber 3 is arranged on each water storage output branch pipe 40;

a water supply pump 43 connected in series with the water supply pump 43 is arranged on a pipe section positioned in a first container at the tail end in the water storage output main pipe 42, the water supply pump 43 comprises a water supply pump 43 motor for driving the water supply pump to operate, the top box walls of the first container are provided with through holes of the water storage output main pipe 42, water outlet pipe orifices of the water storage output main pipe 42 extend to the ground from the first container upwards through the top box walls of the first container through the through holes of the water storage output pipe, the water storage output main pipe 42 is fixedly matched with the through holes of the water storage output main pipe 42 in a sealing manner, the pipe section of the water storage output main pipe 42 exposed on the ground is vertically arranged and simultaneously communicated with a drainage water supply pipe 46 and a drainage antifreezing pipe 48, and the drainage water supply pipe 46 and the drainage antifreezing pipe 48 are sequentially arranged from bottom to top;

A fourth electromagnetic valve 47 is installed on the drain water supply pipe 46 in series with the fourth electromagnetic valve 47, the fourth electromagnetic valve 47 is used for opening or closing the drain water supply pipe 46, controlling whether the drain water supply pipe 46 outputs the stored water pumped by the water supply pump 43 through the stored water output main pipe 42 as qualified irrigation water or qualified safe drinking water for irrigating outdoor or indoor agriculture, forestry or economic crops, and after the fourth electromagnetic valve 47 is opened, the water supply pump 43 can pump the stored water (purified water) stored in the microwave thawing type water storage container 26 up to the drain water supply pipe 46 in time and finally through the stored water output main pipe 42 and flow out from the drain water supply pipe 46.

A drain anti-freezing valve 49 connected in series with the drain anti-freezing pipe 48 is arranged on the drain anti-freezing pipe 48, a third electronic temperature sensor is arranged on the drain anti-freezing valve 49 and is used for measuring the temperature of the drain anti-freezing valve 49 and sending the measured temperature signal value to a computer control system in a wired manner through a singlechip or a PLC (programmable logic controller), the drain anti-freezing valve 49 can effectively prevent frozen stored water from expanding to a stored water output header pipe 42 or the drain anti-freezing pipe 48, when the temperature of the body of the drain anti-freezing valve 49 is reduced to be higher than but close to the freezing point, the drain anti-freezing valve 49 is automatically opened, and a part of stored water which is not frozen in a pipe section of the stored water output header pipe 42 exposed on the ground or in the drain anti-freezing pipe 48 is finally driven to flow upwards through the opened drain anti-freezing valve 49 under the action of the expansion force of frozen stored water in the stored water output header pipe 42 and the drain anti-freezing pipe 48;

When the temperature of the body of the drain anti-freeze valve 49 rises to a temperature which is obviously higher than the freezing point, the drain anti-freeze valve 49 is automatically closed, the computer control system compares the temperature signal value sent by the third electronic temperature sensor with the temperature value required by the automatic opening of the drain anti-freeze valve 49, and if the temperature signal value sent by the third electronic temperature sensor is smaller than or equal to the temperature value required by the automatic opening of the drain anti-freeze valve 49, the computer control system controls the fourth electromagnetic valve 47 to open, and part of stored water which is accumulated in a pipe section of the stored water output main 42 which is exposed on the ground and has a temperature which is close to or reaches the freezing point is finally driven to flow out upwards through the opened fourth electromagnetic valve 47 under the action of the expansion force of frozen stored water in the stored water output main 42 and the drain pipe so as to further reduce the expansion pressure in the stored water output main 42;

in the process of reducing the expansion pressure in the interior of the stored water output header pipe 42, the third electronic temperature sensor sends the current temperature signal value of the drain anti-freezing valve 49 to the computer control system in a wired manner in real time, the computer control system keeps comparing the temperature signal value sent by the electronic air pressure sensor with the temperature value required by the automatic opening of the drain anti-freezing valve 49 in a high-frequency manner, if the current temperature signal value sent by the third electronic temperature sensor is larger than the temperature value required by the automatic opening of the drain anti-freezing valve 49, the computer control system controls the fifth electromagnetic valve to be closed, so that the computer control system can control the fourth electromagnetic valve 47 to be opened or closed basically synchronously with the drain anti-freezing valve 49 according to the temperature signal value of the drain anti-freezing valve 49 body sent back by the third electronic temperature sensor in a wired manner, but only when the temperature of the drain anti-freezing valve 49 body (a pipe section of the stored water output header pipe 42 exposed on the ground) is reduced to a temperature close to the near freezing point, the fourth electromagnetic valve 47 can be opened or closed basically synchronously with the drain anti-freezing valve 49;

In addition, the computer control system only controls the fourth electromagnetic valve 47 to be opened or closed by a signal command which is finally transmitted to the relevant staff member through the internet of things of the modern mobile phone by means of operating the mobile phone.

Before all containers are buried, sealing treatment is carried out on the shell wall of each container to prevent sand and soil from entering the container under the action of gravity through cracks of the container wall or gaps between the container walls, which are buried under the ground, a fireproof heat insulation layer (rock wool for building) is fixedly paved on the inner surface of each container, the container is buried underground and the burying depth is reasonable enough (under the normal condition, the burying depth is larger than the local ground maximum freezing depth below the freezing line buried in the ground), the stored water stored in the microwave thawing type water storage container 26 arranged in the water storage chamber 3 (the fourth container to the first containers) can be effectively prevented from freezing, the container with good heat insulation and sealing performance in the water storage chamber 3 can help to improve the freezing resistance of the microwave thawing type water storage container 26, and then the heat dissipation rate of the water storage chamber 3 can be further reduced, the stored water stored in the microwave thawing type water storage container 26 is obviously inhibited or delayed from freezing, even if the very cold air above the ground surface is sequentially transmitted to the stored water stored in the microwave thawing type water storage container 26 through the surface frozen layer in the ground, the container body, the fireproof heat-insulating layer covered and fixed on the inner surface of the container, the air in the container and the shell wall of the microwave thawing type water storage container 26, so that the stored water starts to condense into ice, the microwave heater 32 arranged at the top of the microwave thawing type water storage container 26 can correspondingly heat the exothermic agent 34 and/or the unfrozen water stored in the microwave thawing type water storage container 26 to condense and float solid ice on the stored water surface through heat transfer of the exothermic agent 34 and/or the unfrozen water, so that the solid ice is heated up to be liquefied into water again, the method effectively defreezes the purified water in the microwave thawing type water storage container 26, prevents the purified water stored in the microwave thawing type water storage container 26 from being increasingly frozen into ice, and timely prevents the increased accumulated volume of the ice from being increased to accidentally burst the microwave thawing type water storage container 26.

One end of the first container is communicated with the atmosphere through an arched fold line type passing pipeline, the arched fold line type passing pipeline is formed by sequentially fixedly connecting and sealing and communicating a second inclined pipeline 52, a first horizontal pipeline 51 and a first inclined pipeline 50, the cross section peripheral walls of the second inclined pipeline 52, the first horizontal pipeline 51 and the first inclined pipeline 50 are all enclosed into a rectangle, the second inclined pipeline 52 and the bottom inner surface of the first inclined pipeline 50 correspondingly form a plane, people steps are conveniently added on the bottom inner surfaces of the second inclined pipeline 52 and the first inclined pipeline 50 by related staff, the related staff can walk upwards or downwards safely in the second inclined pipeline 52 and the first inclined pipeline 50 to safely enter and exit the first container and other containers (including a second container, a third container, a fourth container and the like) through the arched fold line type passing pipeline, the bottom inner surface of the second inclined pipeline 52 also correspondingly forms a plane, the second inclined pipeline 52 is fixedly arranged at the top end of the first pillar 44 in an inclined state and fixedly arranged on the anti-subsidence cement pier 45 embedded in the ground and fixedly connected with the first pillar 44 through the lower end pipe orifice of the second inclined pipeline 52, the bottom end of the first pillar 44 is fixedly arranged on the anti-subsidence cement pier 45 embedded in the ground and fixedly connected with the first pillar, the second horizontal pipeline 59 is fixedly arranged at the top end of the second pillar 44 in a horizontal state and is supported by the ground through the second pillar 44 to be suspended and fixed above the ground, the bottom end of the second pillar 44 is fixedly arranged on the anti-subsidence cement pier 45 embedded in the ground and fixedly connected with the second pillar 44, and the setting mode of the arched folded pipeline can effectively prevent sand, dust and sand from being blown up by wind under the action of gravity under the condition that the horizontal pipeline A is fixedly arranged to be reasonably high enough, dust, gravel and the like enter the first container and other containers through the second inclined pipeline 52, the first horizontal pipeline 51 and the first inclined pipeline 50, so that the sand, dust, gravel and the like are effectively prevented from being carried into the containers by natural wind and deposited, an overground pipe section of the first inclined pipeline 50, which is arranged outside the ground, is fixedly supported by the ground by an underground pipe section which is arranged below the ground in an inclined state and is fixedly arranged at the top end of the third pillar 44, the bottom end of the third pillar 44 is fixedly arranged on the anti-subsidence cement pier 45 which is embedded in the ground and fixedly connected with the third pillar, a manhole door 53 which can be opened or closed is arranged at the lower end pipe orifice of the second inclined pipeline 52, which is arranged below the ground, is fixedly and hermetically communicated with the inside of the first container through a second door hole 4b formed in the vertical wall of the first container, and a sealing door which can be closed or opened 4b is arranged on the second door hole 4 b.

If the facilities in the well such as the deep well pump are required to be maintained or overhauled, under the condition that the deep well pump is safely stopped, after the second door hole 4b formed in the vertical wall of the sealed door fixed and sealed first container is determined, and all or part of the first electromagnetic valve 10 is opened until the air pressure in the well wall pipe is equal to the air pressure in the well chamber 1, the well cover 6 is detached from the upper end pipe orifice of the well wall pipe, and is integrally moved to the side of the well mouth with the inverted U-shaped air inlet pipe 9 fixedly arranged on the well cover 6, and then the facilities in the well such as the deep well pump are maintained or overhauled, after the sealed door fixed and sealed second door hole 4b, floating dust brought into the arched fold line type passing pipeline by pedestrians can be blocked outside the container, so that the floating dust in the fold line type pipeline is prevented from drifting downwards into the well wall pipe through the second door hole 4b and the upper end pipe orifice of the well wall pipe, and then the floating dust is prevented from polluting the deep well pump arranged in the well wall pipe and the well water stored in the well.

When the underground water softening and filtering device 12 needs to be managed and protected, a professional worker opens the manhole door 53 to enter a first container and other containers (including a second container, a third container, a fourth container and the like) which are sequentially connected in series, inspection and maintenance are carried out on other appliances and/or facilities of a well or pumping device and an auxiliary well or pumping device which are arranged in the well chamber 1, the underground water softening and filtering device 12 arranged in the underground water purifying chamber 2 and a microwave thawing type water storage container 26 arranged in the water storage chamber 3, and after the inspection and maintenance are finished, the professional worker sequentially passes through the corresponding containers and arched fold line type pass pipes to come out of the manhole door 53, and then the manhole door 53 is closed;

The top surface in the first containers at the tail end of the underground container serial group is suspended and fixedly provided with an air extractor 57, an air exhaust hole penetrating through the top box wall in the first containers is communicated with the atmosphere through an arched fold-line type air exhaust pipeline, an air suction port of the air extractor 57 is arranged in the first containers, the arched fold-line type air exhaust pipeline is formed by sequentially and fixedly connecting a fourth inclined pipeline 60, a second horizontal pipeline 59 and a third inclined pipeline 58 in a sealing mode, the fourth inclined pipeline 60 is obliquely and fixedly arranged on the uppermost pipe section of the second inclined pipeline 52 in a mode of being supported by the second inclined pipeline 52 in the arched fold-line type passing pipeline, the second inclined pipeline 52 and the fourth inclined pipeline 60 are mutually parallel in an inclined state with the same angle, the lower pipe opening of the fourth inclined pipeline 60 is mutually parallel with the second inclined pipeline 52, the second horizontal pipeline 59 is horizontally and fixedly arranged on the first horizontal pipeline 51 in a mode of being supported by the first horizontal pipeline 51, the third inclined pipeline 58 is externally arranged on the ground in an external ground in a mode of being supported by the fourth inclined pipeline 52, the top end of the fourth inclined pipeline 52 is fixedly arranged on the top of the ground pillar 44 of the ground and is embedded in the air exhaust hole 45 below the ground, and is fixedly arranged on the bottom end of the fourth inclined pipeline 45 of the air extractor is arranged below the top of the fourth inclined pipeline is arranged in the ground, and is fixedly arranged on the bottom end of the air exhaust hole is arranged on the bottom wall of the ground, is embedded in the bottom of the air exhaust pipe is arranged;

Third air filters 54 (air filters) are uniformly distributed and installed on the air inlet holes which are uniformly distributed and penetrate through the top box wall of the second inclined pipeline 52, the third air filters 54 form a third air filter array on the top box wall of the second inclined pipeline 52, a second bracket 55 is fixedly supported on the outer surface of the top box wall of the second inclined pipeline 52, a solar photovoltaic power generation panel 56 which is arranged above the third air filters 54 is fixedly supported on the second bracket 55, the solar photovoltaic power generation panel 56 forms a solar photovoltaic power generation panel array above the top box wall of the second inclined pipeline 52, the solar photovoltaic power generation panel 56 is parallel to the second inclined pipeline 52, a pipe orifice at the lower end of the fourth inclined pipeline 60 is obliquely and oppositely directed to the solar photovoltaic power generation panel 56 and the third air filters 54, the third air filters 54 are distributed on the outer surface of the top tank wall of the second inclined duct 52 in a plurality of rows which are distributed along a straight line and are distributed along a plurality of columns which are distributed along a straight line in the length direction of the second inclined duct 52, the lateral spacing between any adjacent two third air filters 54 in each row of the third air filters 54 is equal, the longitudinal spacing between any adjacent two third air filters 54 in each column of the third air filters 54 is equal, the lateral spacing between adjacent two of any row of the third air filters 54 is equal to the longitudinal spacing between adjacent two of any column of the third air filters 54, or any adjacent two rows of the third air filters 54 are staggered by half a lateral spacing with respect to each other in the width direction of the second inclined duct 52, so that the longitudinal spacing between adjacent two of any one column of third air filters 54 is half the lateral spacing between adjacent two of any row of third air filters 54.

When the second door opening 4b is opened, the third air filter 54 sequentially passes through the air intake hole, the arched fold line type passing pipe (the second inclined pipe 52, the first horizontal pipe 51, the first inclined pipe 50), the second door opening 4b, the first container, the second container, the third container … …, and the air intake port of the air pump 57, when the air pump 57 is operated, a negative pressure source can be generated in the first container and a positive pressure source can be generated in the arched fold line type exhaust pipe, so that air flows into the arched fold line type passing pipe through the third air filter 54 and the air intake hole, the air filtered by the third air filter 54 sequentially flows into the outside atmosphere through the arched fold line type passing pipe, the second door opening 4b, the first container, the second container, the third container … …, the air pump 57, the arched fold line type exhaust pipe (the third inclined pipe 58, the second horizontal pipe 59, and the fourth inclined pipe 60), so as to keep the air circulation in a plurality of containers smooth, ensure that the patrol and maintenance staff in the containers are not lack of oxygen, provide sufficient lifting for the staff to maintain the life safety of the staff, form strong air flow which flows downwards obliquely towards the solar photovoltaic power generation panel array and the third air filter array in parallel to the length direction of the second inclined pipeline 52 when flowing out of the fourth inclined pipeline 60, directly carry out dust removal operation on the windward surface of the solar photovoltaic power generation panel 56 and the third air filter 54 after being discharged from the plurality of containers through the arched folded line type exhaust pipeline by the air pump 57, forcedly blow away most of dust adhered and accumulated on the windward surface of the solar photovoltaic power generation panel 56 and the third air filter 54, the light-facing surface of the solar photovoltaic power generation panel 56 is kept clean, the power generation efficiency is prevented from being obviously reduced, the air resistance of the third air filter 54 can be obviously reduced, the filtration efficiency of the third air filter 54 is obviously inhibited from being reduced, and the effective filtration life of the third air filter 54 is further prolonged, so that the solar photovoltaic power generation panel works for a long time.

Under the condition that a part of switch valves (electromagnetic valves) are correspondingly opened and the other part of switch valves (electromagnetic valves) are correspondingly closed in the invention, the deep-well pump pumps water in the underground water-containing layer to the underground water softening and filtering equipment 12 through the well water input pipe by the motor-pumped well 5, the purified water filtered and softened by the underground water softening and filtering equipment 12 is pumped into the microwave thawing type water storage container 26 by the water delivery pump 13 through the purified water output manifold 14 and the corresponding purified water output branch pipe 37, the water delivery pump 13 fills each microwave thawing type water storage container 26 with the purified water one by one from near to far based on the distance between the purified water output branch pipe 37 and the purified water output manifold 14 and the relative to the water delivery pump 13 on the basis of the distance between the stored water output branch pipe 40 and the stored water output manifold 42 and the relative to the water pump 43, the stored water is driven by gravity one by one from far to near, and flows to the water supply pump 43 through the corresponding stored water output branch pipe 40 and the stored water output manifold 42, the water supply pump 43, and the stored water is pumped by the pump 43 through the stored water output branch pipe 42 to the stored water output manifold 46 to the water supply pipe 46 from the outdoor or the water supply pipe 46 to the residential water or the drinking water supply room of the invention.

The invention can finally automatically operate by a computer control system arranged in the underground container serial group according to a closed-loop control feedback principle, and is connected into the modern mobile phone Internet of things through a wireless communication system (a mobile communication system of a smart phone and/or a satellite communication system), an outdoor communication antenna (comprising a yagi antenna or a plate antenna for wireless communication with the mobile phone wireless Internet, a parabolic antenna or a dish antenna for communication with a Beidou III global networking satellite) in the wireless communication system is fixedly arranged on the external top surface of a second horizontal pipeline 59, the computer control system, a first electronic temperature sensor 18, a second electronic temperature sensor, a third electronic temperature sensor, an electronic water pressure sensor, an electronic flow sensor 17, an electromagnetic valve, a wireless communication system and the like form the safety monitoring communication system, when the safety monitoring communication system is powered on and operated, the computer control system keeps a non-stop state, acquires sensing signal values fed back by the electronic liquid level sensor 36, the first electronic temperature sensor 18, the second electronic temperature sensor, the third electronic temperature sensor, the electronic water pressure sensor and the electronic flow sensor 17 respectively through the singlechip or the PLC (programmable logic controller), controls the on-off of the solid relay according to the sensing signal values, further controls the on-off of the corresponding electromagnetic valve through the solid relay, and/or controls the start and the stop of the deep well pump, the water supply pump 43, the booster pump and/or the anti-corrosion liquid discharge pump 15 which are in safe operation through controllers which are respectively connected with the wired electric power of the deep well pump, the water supply pump 43, the booster pump in the groundwater softening and filtering equipment 12, the anti-corrosion liquid discharge pump 15 and the like, the deep-well pump, the water supply pump 43, the booster pump and the anti-corrosion liquid discharge pump 15 are required to be provided with protectors with safety protection functions for preventing phase failure, electric leakage, water leakage, overcurrent and overload of the protector, when the safety protection functions of the protectors are activated, the corresponding pumps in the deep-well pump, the water supply pump 43, the booster pump and the anti-corrosion liquid discharge pump 15 are immediately controlled to be forcibly powered off and stopped, meanwhile, signal values transmitted back by all sensors in a wired mode are finally transmitted to mobile phones for supervising or inspecting or managing relevant staff of the invention through the modern mobile phone Internet of things in a wireless mode, the relevant staff can also control the invention through the modern mobile phone Internet of things in a wireless mode through operating the mobile phones, and important numerical information reference basis for reasonably and properly transporting the invention is provided for the relevant staff, and the corresponding pumps in the deep-well pump, the water supply pump 43, the booster pump and the anti-corrosion liquid discharge pump 15 are timely controlled through the electromagnetic valves of the computer control system.

The power required by the invention is provided by a power supply system, wherein the power supply system is a public power supply system which is provided by a power plant through a power grid in a wired way, and the power supply system is provided by a solar power supply system (comprising a solar photovoltaic power generation panel 56 and a solar controller) or a rechargeable energy storage power supply (comprising an energy storage battery pack and a solar controller); the electric devices related to the present invention include all the electric devices of the present invention itself (including deep-well pump, water supply pump 43, air pump 57, controllers (deep-well pump controller, water supply pump 43 controller, air pump 57 controller, booster pump controller, anticorrosion liquid discharge pump 15 controller) which are connected with the deep-well pump, water supply pump 43 and/or air pump 57 by wire, underground water softening and filtering equipment 12, microwave heater 32, flexible electric heating and heat preservation facilities, electronic liquid level sensor 36, electronic temperature sensor, electronic water pressure sensor, electronic flow sensor 17, electromagnetic valve, etc.), computer control systems which need to be matched with the present invention, wireless communication systems, and other electric devices (single chip or PLC, direct current voltage stabilizing and reducing devices, solid state relay) which are necessary for the present invention or the computer control systems.

If the solar resources of the implementation area of the invention are more abundant, because the accumulated daytime period of sufficient sunlight is longer, the solar photovoltaic power generation panel 56 in the solar power supply system continuously outputs more accumulated electric energy after being irradiated by sunlight, and can simultaneously supply enough power to all the electric devices and the rechargeable energy storage power supply batteries related to the invention, not only can the solar controller in the solar power supply system effectively supply power to all the electric devices related to the invention, but also the solar controller can effectively charge the rechargeable energy storage power supply batteries at the same time, the rechargeable energy storage power supply can correspondingly store the electric energy which is enough to supply power to all the electric devices related to the invention when the accumulated time period of a plurality of days and nights of insufficient sunlight is longer, and the accumulated time period of a plurality of days and nights of insufficient sunlight is longer, the releasable chemical energy (accumulated energy of continuous or intermittent power supply of the battery of the chargeable energy storage power supply to all the electric devices related to the invention) is definitely obviously more than the accumulated maximum energy which is required to be consumed by all the electric devices related to the invention in the power-up operation, namely, the chargeable energy storage power supply can continuously or intermittently supply power to all the electric devices related to the invention in the daytime and the nighttime with insufficient sunlight for the longest accumulated period, and the chargeable energy storage power supply or the solar power supply system power supply can completely replace the public power supply system power supply from a power plant, the electric devices/alternating current electric devices (including a deep-well pump, a water supply pump 43, an air pump 57 and a booster pump) with higher power consumption among all the electric devices related to the invention are supplied with power, the anticorrosion liquid discharge pump 15, the groundwater softening and filtering device 12, the anticorrosion liquid discharge pump 15, the microwave heater 32, etc.) is connected with a chargeable energy storage power supply (a storage battery terminal of a solar controller) or a solar power supply system power supply (a load terminal of the solar controller) through an inverter in a wired way, the chargeable energy storage power supply or the direct current output by the solar power supply system power supply is converted into standard municipal alternating current required by the working voltage of an alternating current device through the inverter, under the condition that the corresponding pumps in the deep-well pump, the water supply pump 43, the booster pump and the anticorrosion liquid discharge pump 15 are not forced to stop by a protector thereof, the inverter is used for transmitting the standard municipal alternating current to the corresponding pumps in a wired way, the deep-well pump, the water supply pump 43, the booster pump and the corresponding pumps in the anticorrosion liquid discharge pump 15 are driven to work, all the electric devices/direct current devices with lower power consumption in all electric devices related to the invention (including the deep-well pump controller 43 controller, the air pump 57 controller, the booster pump controller, the liquid discharge pump 15 controller, the flexible electric level sensor 36, all electronic temperature sensors, the electronic water pressure sensors, the electronic flow sensor, the booster pump 17, the direct current devices and the direct current devices are not required by the voltage-stabilizing devices in the wireless communication system, the voltage-stabilizing devices such as the direct current voltage-stabilizing devices, the solar voltage-stabilizing devices and the solar power devices, the solar devices and the solar devices are not connected with the direct current devices through the voltage-stabilizing devices, the solar devices, etc.), and then drive different direct current devices to power up.

If the solar resources of the present invention are not enough and insufficient, the solar energy accumulating time period is short, so that the solar photovoltaic power generation panel 56 in the solar power supply system continuously outputs less accumulated electric energy after being irradiated by the solar energy, and thus, the solar energy cannot simultaneously supply power to all the electric devices and the rechargeable energy storage power supply battery in sufficient quantity, only the electric devices with lower power consumption in the electric devices in the present invention can be effectively supplied by the solar controller and the rechargeable energy storage power supply battery can be effectively charged, but the electric devices with higher power consumption cannot be effectively supplied, the rechargeable energy storage power supply correspondingly cannot store the electric energy which is sufficient to supply power to all the electric devices in the present invention for a long time in a plurality of solar energy insufficient time periods and night accumulated time periods in time, the releasable chemical energy stored in the rechargeable energy storage power supply (the accumulated electric energy of the rechargeable energy storage power supply battery for supplying power continuously or intermittently to all the electric devices related to the invention) is definitely obviously smaller than the accumulated maximum electric energy required to be consumed by all the electric devices related to the invention in the power-up operation during a plurality of accumulation periods of insufficient sunlight in daytime and nighttime, namely, the rechargeable energy storage power supply can not continuously or intermittently supply power to all the electric devices related to the invention in the accumulation longest period of insufficient sunlight in daytime and nighttime, and the rechargeable energy storage power supply or the solar power supply system power supply can not completely replace the public power supply system power supply from a power plant to supply power to all the electric devices related to the invention, the deep well pump, the water supply pump 43 and the groundwater softening and filtering device 12 in all the electric devices related to the invention, the electric devices with higher power consumption such as the anti-corrosion liquid discharge pump 15 are directly and wiredly connected with a power supply of a public power supply system, the alternating current output by the power supply of the public power supply system is standard municipal alternating current required by the working voltage of the alternating current device, under the condition that the deep-well pump and/or the water supply pump 43 are not forced to be powered off and shut down by a protector of the electric devices, the standard municipal alternating current power is wiredly and parallelly transmitted to the deep-well pump, the water supply pump 43, the groundwater softening and filtering device 12, the corresponding pump and the air extractor 57 in the anti-corrosion liquid discharge pump 15, the corresponding pump and the air extractor 57 are driven to work, the electric devices with lower power consumption in all the electric devices related to the invention can be directly and wiredly connected with a chargeable energy storage power supply or directly and wiredly connected with the power supply of the solar power supply system, the single-chip microcomputer or the PLC can control the connection of the serial circuit of the public power supply system power supply, the rectifier or the charging equipment and the rechargeable energy storage power supply battery or control the disconnection of the serial circuit of the solar power supply system power supply and the rechargeable energy storage power supply battery or control the disconnection of the serial circuit of the public power supply system power supply, the rectifier or the charging equipment and the rechargeable energy storage power supply battery and control the connection of the serial circuit of the solar power supply system power supply and the rechargeable energy storage power supply battery through a single-pole double-throw solid-state relay; when the solar power supply system power supply can effectively charge the chargeable energy storage power supply battery in the daytime with sufficient sunlight, the public power supply system power supply, the rectifier or the charging equipment is disconnected from the series circuit of the chargeable energy storage power supply battery, and the solar power supply system power supply is conducted with the series circuit of the chargeable energy storage power supply battery, the solar photovoltaic power generation panel 56 in the solar power supply system not only effectively supplies power to the electric devices with lower power consumption through the solar controller in the solar power supply system, but also effectively charges the chargeable energy storage power supply battery through the solar controller at the same time, but also can correspondingly store the electric energy which is sufficient for supplying power to the electric devices with lower power consumption in time when a plurality of days with insufficient sunlight and accumulation time periods at night are long, and the direct current output by the chargeable energy storage power supply or the solar power supply system power supply is converted into low-voltage step-down direct current required by the working voltage of different devices through the corresponding existing voltage stabilizing devices and voltage reducing devices, and the voltage reducing devices are used for driving the direct current devices with different direct current voltage stabilizing devices in parallel, and then the direct current devices with different direct current voltage stabilizing devices are used for driving the direct current devices with different direct current voltage stabilizing devices; when the solar power supply system power supply can not effectively charge the rechargeable energy storage power supply battery at night or in a night period when sunlight is insufficient, the public power supply system power supply, the rectifier or the charging equipment is conducted with the series circuit of the rechargeable energy storage power supply battery, the solar power supply system power supply is disconnected with the series circuit of the rechargeable energy storage power supply battery, the public power supply system power supply outputs direct current through the rectifier or the charging equipment (a charger or a rectifying charger) to fully charge the rechargeable energy storage power supply battery, and the public power supply system power supply and the solar power supply system power supply can replace the solar power supply system power supply to timely charge the rechargeable energy storage power supply battery under the condition that no accident or temporary power failure occurs and the solar power supply system power supply can not timely charge the rechargeable energy storage power supply battery.

If the sunlight resources of the implementation area of the invention are deficient, the accumulated daytime period of sufficient sunlight is shorter, so that the solar photovoltaic power generation panel 56 in the solar power supply system continuously outputs less accumulated electric energy after being irradiated by sunlight, and cannot supply enough power to all electric devices or rechargeable energy storage power supply batteries related to the invention, the all electric devices and the rechargeable energy storage power supply batteries related to the invention can only or mainly be supplied by the public power supply system power supply, the rechargeable energy storage power supply can correspondingly store enough electric energy for supplying power to all electric devices related to the invention in time for a plurality of accumulated time periods of insufficient sunlight and nighttime, the rechargeable energy storage power supply battery is connected with the public power supply system power supply through a rectifier or a charging device (a charger or a rectifying charger) in a wired manner, the public power supply system power supply outputs direct current through a rectifier or a charging device (a charger or a rectifying charger), fully charges a battery of a chargeable energy storage power supply, alternating current devices such as a deep well pump, a water supply pump 43, a booster pump, an anti-corrosion liquid discharge pump 15, an air extractor 57 and the like in all electric devices related to the invention are directly connected with the public power supply system power supply in a wired way, the public power supply system power supply outputs standard municipal alternating current required by working voltage of the alternating current devices, under the condition that the corresponding pumps in the deep well pump, the water supply pump 43, the booster pump and the anti-corrosion liquid discharge pump 15 are not forced to be powered off and shut down by a protector of the corresponding pumps, the public power supply system power supply is used for transmitting the standard municipal alternating current to the corresponding pumps in a wired way in parallel to drive the corresponding pumps in the deep well pump, the water supply pump 43, the booster pump and the anti-corrosion liquid discharge pump 15 and the air extractor 57 to work, the direct current devices in all the electric devices related to the invention are connected with a power supply of a public power supply system in a wired way through a rectifier, the power supply of the public power supply system outputs direct current through the rectifier, the direct current output by the rectifier is converted into low-voltage direct current required by working voltages of different direct current devices in a voltage stabilizing and voltage reducing way through corresponding existing direct current voltage stabilizing and voltage reducing devices, the low-voltage direct current is transmitted to different direct current devices in a wired parallel way through the direct current voltage stabilizing and voltage reducing devices, and then the different direct current devices are driven to be powered up.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (6)

1. The drought oasis district water resource storage system is characterized in that: comprises a motor-pumped well (5) and a series group of containers buried underground, wherein the series group of containers consists of a plurality of containers which are mutually spliced in parallel and are sequentially connected in series, every two arbitrary adjacent containers are separated by a common same container wall, a first door hole (4 a) which is communicated with the two adjacent containers is arranged on the same container wall in a penetrating way,

the motor-pumped well (5) comprises an underground well, a well wall pipe assembled in the underground well, a deep well pump, a filter and a sand setting pipe, wherein the deep well pump comprises a deep well pump motor for driving the deep well pump motor to operate;

the first container positioned at the first position in the container serial group is arranged above a well of the motor-pumped well (5) and the inside of the first container is independently arranged as a well chamber (1);

The inside of a second container adjacent to the well chamber (1) in the container serial group is independently provided with a groundwater purifying chamber (2);

a fourth container positioned behind the third container in the container serial group and a last container in the container serial group are all provided with water storage chambers (3);

the underground water purification system is characterized in that an underground water softening and filtering device (12), an anti-corrosion liquid discharge pump (15) and a water delivery pump (13) are arranged in the underground water purification chamber (2), a water inlet of the underground water softening and filtering device (12) is connected with a well water input pipe, a water inlet end of the well water input pipe enters the well chamber (1) through a corresponding first door hole (4 a) and then is inserted into a motor-pumped well (5), a waste liquid outlet of the underground water softening and filtering device (12) is connected with a waste liquid output pipe (16) through the anti-corrosion liquid discharge pump (15), a liquid outlet pipe orifice of the waste liquid output pipe (16) penetrates through the inner wall of the underground water purification chamber (2) and then extends to the ground, an anti-subsidence terrace (20) is fixedly paved at the position, close to the liquid outlet pipe orifice of the waste liquid output pipe (16), the top of the anti-subsidence terrace (20) is provided with an anti-corrosion waste liquid receiving tank (19), the liquid outlet pipe orifice of the waste liquid output pipe (16) is communicated with the waste liquid receiving tank (19), a water outlet of the underground water softening and filtering device (12) is communicated with a water inlet of the water delivery pump (13) through a water purification input pipe, and a water delivery pipe (13) is connected with a water purification main pipe (14).

A plurality of microwave thawing type water storage containers (26) are arranged in the water storage chambers (3), the water purification output header pipes (14) enter each water storage chamber (3) through first door holes (4 a), a plurality of water purification output branch pipes (37) are communicated with the outer wall of each water storage chamber (3) of the water purification output header pipes (14), the water purification output branch pipes (37) are in one-to-one correspondence with the microwave thawing type water storage containers (26), the water purification output branch pipes (37) are communicated with water inlet holes of the microwave thawing type water storage containers (26), and water outlets of the microwave thawing type water storage containers (26) are all communicated with a water supply system through water storage output branch pipes (40);

the arid oasis region water resource storage system also comprises an arched fold line type passing pipeline and an arched fold line type exhaust pipeline;

the arched fold line type passing pipeline comprises a first inclined pipeline (50) with one end communicated with a well chamber (1), the other end of the first inclined pipeline (50) extends obliquely upwards to the upper part of the ground and is connected with a first horizontal pipeline (51), one end of the first horizontal pipeline (51) is connected with a second inclined pipeline (52), the bottom of the second inclined pipeline (52) is in contact with the ground and is provided with a manhole door (53), and the inclined top surface of the second inclined pipeline (52) is uniformly penetrated and provided with a plurality of third air filters (54);

The top of a plurality of containers at the tail position of the container serial group is penetrated and provided with an exhaust hole, the corresponding part of the inner wall of the container and the exhaust hole is fixedly provided with an air extractor (57), the arched folded line type exhaust pipeline comprises a third inclined pipeline (58) with one end communicated with the air extractor (57) through the exhaust hole, the other end of the third inclined pipeline (58) extends obliquely upwards to the upper part of the ground and is connected with a second horizontal pipeline (59), and one end of the second horizontal pipeline (59) is connected with a fourth inclined pipeline (60);

the fourth inclined pipeline (60) is fixedly arranged at the top of the second inclined pipeline (52), the second horizontal pipeline (59) is fixedly arranged at the top of the first horizontal pipeline (51), the bottom outer walls of the first inclined pipeline (50), the first horizontal pipeline (51), the second inclined pipeline (52) and the third inclined pipeline (58) are fixedly connected with a plurality of struts (44), the bottom end fixedly connected with anti-sinking cement piers (45) of the struts (44), and the anti-sinking cement piers (45) are positioned in the ground.

2. The arid oasis region water resource storage system of claim 1, wherein: the water supply system comprises a stored water output main pipe (42) penetrating into each water storage chamber (3) through a first door hole (4 a) and a water supply pump (43) arranged in a first container at the tail position of the container serial group, wherein the stored water output main pipe (42) is connected with the water supply pump (43) in series, and a water outlet pipe orifice of the stored water output main pipe (42) penetrates through the inner walls of the first container at the tail position and then extends to the ground.

3. The arid oasis region water resource storage system of claim 2, wherein: the storage water output header pipe (42) is vertically arranged on a pipe section exposed on the ground and is simultaneously communicated with a drainage water supply pipe (46) and a drainage anti-freezing pipe (48), a fourth electromagnetic valve (47) is arranged on the drainage water supply pipe (46), a drainage anti-freezing valve (49) is arranged on the drainage anti-freezing pipe (48), and the drainage anti-freezing pipe (48) is located above the drainage water supply pipe (46).

4. The arid oasis region water resource storage system of claim 1, wherein: the top of anticorrosion waste liquid receiving storage tank (19) is run through and is provided with feed liquor valve (24) and manhole, install sealed lid (23) on the manhole, the top of anticorrosion waste liquid receiving storage tank (19) is run through and is provided with the exhaust hole, and installs second air cleaner and first drainage relief valve (25) on the exhaust hole, the outer wall of anticorrosion waste liquid receiving storage tank (19) is provided with waste liquid drainage valve (21) and drain frost valve (22).

5. The arid oasis region water resource storage system of claim 4, wherein: an electronic flow sensor (17) is arranged on a pipe section of the waste liquid output pipe (16) positioned in the underground water purifying chamber (2), and a first electronic temperature sensor (18) is arranged on a pipe section of the waste liquid output pipe (16) positioned above the ground.

6. The arid oasis region water resource storage system of claim 1, wherein: be provided with well lid (6) in well room (1), well lid (6) and the well head sealing connection of motor-pumped well (5), run through on well lid (6) and be provided with a plurality of inlet ports (8), install on inlet port (8) and fall U type intake pipe (9), fall U type intake pipe (9) are located the outer one end of motor-pumped well (5) and install first air cleaner (11), install first solenoid valve (10) on falling U type intake pipe (9), the top center department pipe of well lid (6) is provided with well water input pipe perforation (7), well water input pipe's water inlet end is by well water input pipe perforation (7) entering in motor-pumped well (5).