CN112520920B

CN112520920B - Method and device for producing and supplying water quickly laid out in field

Info

Publication number: CN112520920B
Application number: CN202011357314.9A
Authority: CN
Inventors: 李�杰; 秦序坤; 李德枝; 陈寒; 芦小山; 梁雄
Original assignee: Foshan Yajieyuan Technology Co ltd
Current assignee: Foshan Yajieyuan Technology Co ltd
Priority date: 2020-11-26
Filing date: 2020-11-26
Publication date: 2022-10-04
Anticipated expiration: 2040-11-26
Also published as: CN112520920A

Abstract

The method and the device for producing and supplying water for outdoor rapid arrangement are characterized by comprising a water production part and an Internet of things platform, wherein the water production part is provided with a positioning system and a mobile communication system, the water production part is packaged and then stored in an emergency warehouse at ordinary times, a battery carried by the water production part is utilized, a satellite positioning system is enabled to maintain work and is managed through the Internet of things platform, and when drinking water supply facilities are arranged in an emergency situation in a field emergency mode, the water production part can be reasonably and rapidly arranged through the Internet of things platform according to the emergency arrangement place and the position of the drinking water production part. Compared with the prior art, the invention has the advantages that the components can be conveniently and rapidly prepared from various storage points according to the environmental requirements, and the water making process and the water making quality can be conveniently monitored.

Description

Method and device for producing and supplying water quickly laid out in field

Technical Field

The invention relates to a water supply and production technology, in particular to a drinking water production technology.

Background

As disclosed in patent application CN201810130561.1, in the existing method for producing water and supplying water by rapidly laying water in the open air, a water pump, a raw water storage capsule, an integrated water treatment mechanism, a water purification storage capsule, a water supply pump, an intermediate processor and a terminal processor are connected through a hose, and if no commercial power is available, a power generation device is also connected, in this method, because a plurality of components need to be arranged, and if the laying environment changes, adjustment cannot be performed according to more needed components of environmental conditions, so that either resources are wasted (if tap water is supplied, the water pump, the raw water storage capsule and the integrated water treatment mechanism are not needed, so that the resources are idle), or the resources cannot meet the actual requirement for producing water and supplying water by rapidly laying water in the open air (if the resources do not include a power generation device, but the commercial power is not supplied in the actual field), in addition, because the produced water supply is rapidly laid in the open air, the influence of the water production is influenced by the control, the quality of the produced water is kept stable, when the quality changes, the measures are not easily found in time, and if the emergency water supply is rapidly laid in the emergency water supply, the emergency water supply is not easily carried out, and the emergency water production and the emergency is accurately allocated according to different emergency environments, the existing emergency storage technology is accurately carried out.

Disclosure of Invention

The invention aims to provide a method and a device for water production and supply, which can conveniently and quickly allocate components from various storage points according to environmental requirements, can conveniently monitor the water production process and the water production quality, and can be quickly arranged in the field.

The method for producing and supplying water quickly laid in the field is realized by the steps that the method comprises a water production part and an Internet of things platform, wherein the water production part is provided with a positioning system and a mobile communication system, and at ordinary times, the water production part is packaged and stored in an emergency warehouse, and a satellite positioning system is kept working and managed through the Internet of things platform by using a battery carried by the water production part, or the water production part is used for producing water in public places (such as hospitals) and is managed and used by the Internet of things platform; when the drinking water supply facility needs to be arranged in an emergency in the field, the water production part can be reasonably and quickly allocated through the Internet of things platform according to the emergency arrangement place and the position of the water production part, the drinking water supply facility can be quickly arranged in the emergency arrangement place in an emergency manner in the field, after the arrangement is completed and the drinking water supply facility is put into use, the arrangement position of the satellite positioning system and the mobile communication system can be determined through the accessed Internet of things in real time, the water production process and the use state of the drinking water supply facility can be monitored, and the application water with stable quality can be quickly and timely manufactured.

The emergency warehouse system is provided with a power supply part, wherein the power supply part is provided with a positioning system and a mobile communication system, and the power supply part is packaged and stored in the emergency warehouse at ordinary times, so that the satellite positioning system can maintain work and can be managed through an Internet of things platform by using a battery carried by the power supply part; the emergency situation needs to carry out the field emergency and lays the drinking water supply facility, and when the scene does not have mains supply, just can arrange the position of place and system drinking water part according to the emergency and carry out reasonable fast allotment power part through thing networking platform to system water part power supply.

The invention relates to a device for producing water and supplying water, which is quickly arranged in the field and comprises an Internet of things platform, a water treatment part for treating water of a field water source and a drinking water production part, wherein the water treatment part and the drinking water production part form the water production part, the drinking water production part comprises a control device which is arranged in a first frame and is provided with a power supply access end, a pressure pump, a filter assembly, a pressure pump with constant pressure and a reverse osmosis membrane processor which are sequentially connected through a pipeline, a water inlet end of the pressure pump and a water outlet end of the reverse osmosis membrane processor are provided with quick water connection joints, a satellite positioning system and a mobile communication system are arranged on the first frame, a pre-filtration pressure sensor is arranged at a water inlet of the filter assembly, filter subassembly water exit department is provided with water purification water quality monitoring sensor, reverse osmosis membrane treater water exit department is provided with drinking water quality monitoring sensor and drinking water pressure sensor, consider preceding pressure sensor's the signal of telecommunication output, water purification water quality monitoring sensor's the signal of telecommunication output, drinking water quality monitoring sensor signal of telecommunication output and drinking water pressure sensor's the signal of telecommunication output end links to each other with controlling means's signal of telecommunication input end, mobile communication system's signal of telecommunication transmission end, satellite positioning system's the signal of telecommunication transmission end is connected with controlling means's signal of telecommunication transmission end, controlling means control force (forcing) pump, the force (forcing) pump action of constant voltage, system water part is through mobile communication system, satellite positioning system and thing networking intercommunication.

The power supply part is provided with a positioning system and a mobile communication system and is communicated with the Internet of things through the mobile communication system and the satellite positioning system.

Here, the filter assembly includes a butterfly filter with an automatic flushing structure, a front PP cotton filter, a front activated carbon filter, and an ultra-filtration filter, which are connected in sequence.

At ordinary times, the drinking water preparation part can be packaged and stored in an emergency warehouse, and a satellite positioning system is kept working by using a battery carried by the emergency warehouse; or the quick water connection joint at the water inlet end of the pressure pump is connected with a tap water source, the quick water connection joint at the water outlet end of the reverse osmosis membrane processor is connected with a drinking water pipe network of a hospital to supply drinking water for a water application system of the hospital, and at the moment, the satellite positioning system and the mobile communication system are in working states due to working states, so that the emergency main part can monitor the position of the drinking water preparation part and the equipment conditions of the drinking water preparation part in real time, and the equipment can be maintained in time to ensure that the equipment is in a good working state. Once an emergency situation occurs and drinking water supply facilities need to be arranged in a field emergency mode, the drinking water supply facilities can be reasonably and quickly allocated according to the emergency arrangement place and the position of the drinking water making part, the allocated water treatment part for treating water of a field water source is matched, the drinking water supply facilities can be quickly arranged in the field emergency mode in the emergency arrangement place, after the arrangement is completed and the drinking water supply facilities are put into use, the arrangement position of the drinking water supply facilities can be determined in real time by utilizing a satellite positioning system and a mobile communication system (the satellite positioning system and the mobile communication system can be accessed to the Internet to achieve remote monitoring and wireless real-time monitoring), the water making process and the use state of the drinking water supply facilities are monitored, and the water application with stable quality can be quickly and timely manufactured.

Be provided with overhead tank, ultraviolet sterilizer, rear end active carbon filter in first frame, the play water end of reverse osmosis membrane treater communicates with the water inlet of connect water joint and overhead tank soon respectively through first three-way solenoid valve, and overhead tank, ultraviolet sterilizer, rear end active carbon filter communicate according to the preface, and rear end active carbon filter's delivery port is connected with connects the water joint soon, and controlling means controls the action of first three-way solenoid valve.

If the drinking water pipe network of the hospital is accessed at ordinary times, the first three-way electromagnetic valve of the control device enables the water outlet end of the reverse osmosis membrane processor to be communicated with the quick water-connecting joint connected with the first three-way electromagnetic valve and is accessed to the drinking water pipe network of the hospital through the quick water-connecting joint; if emergency is laid outdoors, the first three-way electromagnetic valve of the control device enables the water outlet end of the reverse osmosis membrane processor to be communicated with the pressure tank, and drinking water in the pressure tank is processed by the ultraviolet sterilizer and the rear-end activated carbon filter and then is drunk by drinkers.

The outlet end of the pressure pump is provided with a turbidity monitoring sensor, the butterfly filter with the automatic flushing structure is connected with a straight-through pipeline in parallel, the inlet end of the butterfly filter with the automatic flushing structure is connected with a second three-way electromagnetic valve, one end of the straight-through pipeline is connected to the second three-way electromagnetic valve, the electric signal output end of the turbidity monitoring sensor is connected with the electric signal input end of a control device, and the control device controls the second three-way electromagnetic valve to act. When the device works, the control device monitors by the turbidity monitoring sensor, and if the turbidity is lower than a set value (for example, when the device is connected with a drinking water pipe network of a hospital, the water source is tap water and the turbidity is low), the control device controls the second three-way electromagnetic valve to enable the straight-through pipeline to be communicated with the outlet end of the pressure pump, so that water directly enters the next water treatment step without passing through the butterfly filter; when the turbidity is higher than a set value (if the water source is laid in the field, the water source is a natural water source), the control device controls the second three-way electromagnetic valve to enable the butterfly filter with the automatic flushing structure to be communicated with the outlet end of the pressure pump, so that water treatment resources are saved, and the resources can fully meet the water production requirement in the field (the turbidity of water in the water source is higher due to the determination of the water source in the field).

The core component of the drinking water making part is laid in the field, the operation reliability of the drinking water making part must be ensured, if the drinking water making part is stored in a warehouse for a long time in an emergency way, the drinking water making part must be detected to ensure the operation reliability of the drinking water making part, so that the laying is possibly delayed, if the drinking water making part is applied to a water supply system of a hospital at ordinary times, the drinking water making part is required to be arranged in a dust-free factory building by the water supply system of the hospital, and the water supply system is monitored in real time in the using process, so that the reliability of the equipment can be determined at the first time when the drinking water making part is laid in the emergency field, the rapid laying is ensured, and the equipment is moved away when the drinking water making part is used as sub-equipment in the hospital, the influence on the water making system of the hospital is small, and the drinking water making part is integrated equipment and can be used for emergency laying when a water-electricity interface is disconnected, so that the emergency laying is convenient.

Here, the first frame is a square frame, six faces of which are provided with movable cover plates. The first frame adopts the square frame and the movable cover plate, so that the first frame can be designed into a standard frame to meet the standard transportation requirement, and the movable cover plate is adopted to rapidly package the water making and drinking water part arranged in the square frame, thereby facilitating the rapid packaging transportation and simultaneously ensuring that the water making and drinking water part is not polluted by the outside in the transportation process.

The water treatment part for treating water of a field water source comprises a water source pretreatment part, a water purification treatment part, a water storage capsule and a submersible pump, wherein the water source pretreatment part comprises a second frame, a raw water treatment control device arranged in the second frame, a water pump and a raw water filtering component which are sequentially connected together through a water pipe and arranged in the second frame, a water inlet of the water pump is connected with a quick water connection joint, a water outlet end of the raw water filtering component is connected with the quick water connection joint, the raw water filtering component is provided with a raw water pressure sensor, an electric signal output end of the raw water pressure sensor is connected with an electric signal input end of the raw water treatment control device, the raw water treatment control device controls the action of the water pump, the second frame is a square frame, and six surfaces of the second frame are all provided with movable cover plates, the water purification treatment part comprises a third frame, a purified water production control device arranged in the third frame, a pressure water pump, a preposed reverse osmosis membrane processor and a purified water storage tank which are sequentially connected together through a water pipe arranged in the third frame, a water inlet end of the pressure water pump is connected with a quick water joint, a water outlet end of the purified water storage tank is connected with a quick water joint, the third frame is a square frame, six surfaces of the third frame are provided with movable cover plates, a satellite positioning system and a mobile communication system are arranged in the third frame, a water inlet of the reverse osmosis membrane processor of the water purification treatment part is provided with a second membrane front pressure sensor, a water inlet end of the pressure water pump of the water purification treatment part is provided with a second inlet water quality monitoring sensor, a purified water outlet of the reverse osmosis membrane processor of the water purification treatment part is provided with a purified water flow sensor, a water pressure sensor and a second purified water quality monitoring sensor, and an electric signal output end of the second inlet water quality monitoring sensor of the water treatment part, the electric signal output end of the purified water flow sensor, the electric signal output end of the water pressure sensor and the electric signal output end of the second purified water quality monitoring sensor are connected with the electric signal input end of the purified water production control device, and the electric signal transmission end of the purified water production control device is connected with the electric signal transmission end of the satellite positioning system and the electric signal transmission end of the mobile communication system.

The raw water filtering component comprises a butterfly filter, a full-automatic filter (sand filtration), a full-automatic filter (active carbon filtration), a PP cotton filter and an active carbon filter which are sequentially communicated together and have an automatic flushing structure.

When the water dispenser is stored in normal times, the water source pretreatment part, the water purification treatment part and the water storage capsule are stored in the same warehouse, when the water dispenser is arranged outdoors, the water dispenser is reasonably and quickly allocated according to the emergency arrangement place and the position of the drinking water preparation part, the drinking water supply facility is quickly arranged in the emergency arrangement place in an emergency way by matching with the allocated drinking water preparation part, when the water dispenser is arranged, a submersible pump arranged in an outdoor water source (such as a pond and a river) is connected with a water inlet of the water storage capsule through a pipeline, a quick water connection joint at a water pump inlet of the water source pretreatment part is connected with a water outlet of the water storage capsule through a pipeline, a quick water connection joint at a water outlet end of a raw water filtering component is connected with a quick water connection joint at a water inlet end of a pressure water pump of the water purification treatment part through a pipeline, a quick water connection joint at a water outlet end of a water purification storage tank of the water purification treatment part is connected with a quick water connection joint at a pressure pump water inlet of the drinking water preparation part through a pipeline, and a quick water connection joint at a rear-end activated carbon filter of the drinking water preparation filter is connected with a water supply device (such as a water dispenser with heating through a pipeline, so that a drinking water dispenser can conveniently supply can supply water to a user to the drinking water dispenser through the drinking water supply device. Meanwhile, the water purification production control device of the water purification treatment part and the control device of the drinking water preparation part are networked through respective satellite positioning systems and mobile communication systems to issue the running state and the water quality state of the equipment in real time, so that the emergency main pipe part monitors the position of the drinking water preparation part and the running state of the equipment in real time, the water quality state is maintained in time, the equipment is guaranteed to be in a good working state, and the produced drinking water meets the quality requirement.

Compared with the prior art, the system is provided with a plurality of subsystems, is organically arranged on a standardized rack (a square rack with a movable cover plate), is provided with a satellite system for positioning and a mobile communication system capable of accessing the Internet, and is convenient for real-time monitoring of allocation and operation through the Internet of things, so that the system has the advantages of being capable of allocating components from various storage points conveniently and quickly according to environmental requirements and being capable of monitoring the water preparation process and the water preparation quality conveniently.

Description of the drawings:

FIG. 1 is a schematic structural view of the present invention in field deployment;

FIG. 2 is a schematic view showing a structure of a drinking water preparation part;

FIG. 3 is a schematic structural view of a water preparation and drinking water partially connected to a hospital drinking water system;

FIG. 4 is a schematic diagram of the water source pretreatment section;

fig. 5 is a schematic structural view of a water purification treatment section.

The specific implementation mode is as follows:

the invention will now be described in further detail with reference to the accompanying drawings and examples:

as shown in fig. 1, the water-making and water-supplying device quickly laid in the field of the invention comprises an internet of things platform a, a water-processing part a for processing water of a field water source and a drinking water-making part b, as shown in fig. 2 and 3, the drinking water-making part b comprises a control device 2 which is arranged in a first frame 1 and is provided with a power supply access end, a booster pump 3 which is arranged in the first frame 1 and is sequentially connected through a pipeline, a filter component c, a constant-pressure booster pump 4 and a reverse osmosis membrane processor 5, a water inlet end of the booster pump 3 and a water outlet end of the reverse osmosis membrane processor 5 are provided with a quick water connector 6, a satellite positioning system 8 and a mobile communication system 9 are arranged on the first frame 1, a water inlet of the filter component c is provided with a front pressure sensor 10, a water quality monitoring sensor 11 is arranged at a water outlet of the filter component c, a water quality monitoring sensor 12 and a drinking water pressure sensor 13 are arranged at a water outlet of the reverse osmosis membrane processor 5, an electrical signal output end 11 of the water monitoring sensor, an electrical signal output end of the water quality monitoring sensor 12 and an electrical signal output end of the drinking water pressure sensor 13 are connected with an electrical signal input end of the mobile communication device 2, an electrical signal transmission end of the satellite positioning system 9 of the constant-pressure pump 2, and a transmission end of the constant-pressure control device 2 of the constant-pressure pump 2.

The filter component c comprises a butterfly filter 14 with an automatic flushing structure, a front PP cotton filter 15, a front activated carbon filter 16 and an ultrafiltration filter 17 which are communicated in sequence.

The first rack 1 is provided with a pressure tank 18, an ultraviolet sterilizer 19 and a rear-end activated carbon filter 20, the water outlet end of the reverse osmosis membrane processor 5 is respectively communicated with the water inlets of the quick water connector 6 and the pressure tank 18 through a first three-way electromagnetic valve 21, the pressure tank 18, the ultraviolet sterilizer 19 and the rear-end activated carbon filter 20 are communicated in sequence, the water outlet of the rear-end activated carbon filter 20 is connected with the quick water connector 6, and the control device 2 controls the first three-way electromagnetic valve 21 to act.

The outlet end of the pressure pump 3 is provided with a turbidity monitoring sensor 22, the butterfly filter 14 with the automatic flushing structure is connected with a straight-through pipeline 23 in parallel, the inlet end of the butterfly filter 14 with the automatic flushing structure is connected with a second three-way electromagnetic valve 24, one end of the straight-through pipeline 23 is connected with the second three-way electromagnetic valve 24, the electrical signal output end of the turbidity monitoring sensor 22 is connected with the electrical signal input end of the control device 2, and the control device 2 controls the second three-way electromagnetic valve 24 to act.

The delivery port of rear end activated carbon filter 20 is provided with drinking water pressure monitoring sensor 25, and drinking water pressure monitoring sensor 25's signal of telecommunication output end links to each other with controlling means 2's signal of telecommunication input end, and rear end activated carbon filter 20's delivery port passes through inverter pump 26 and connects water joint 6 soon. In this way, the control device 2 controls the variable frequency pump 26 to adjust the water supply amount to the drinking water system (such as the water dispenser d) according to the water pressure change caused by the water consumption amount, so as to ensure the stability of the water supply pressure.

The first frame 1 is a standard-sized square frame-shaped frame, and the first frame 1 is provided with movable cover plates 27 on six sides.

At ordinary times, the drinking water preparation part can be packaged and stored in an emergency warehouse, and a satellite positioning system is kept working by using a battery carried by the emergency warehouse; or, as shown in fig. 2, the quick water connection 6 at the water inlet end of the pressure pump 3 is connected to a tap water source, and the first three-way electromagnetic valve 21 is connected to a drinking water pipe network of a hospital through the quick water connection 6 under the control of the control device 2 at the water outlet end of the reverse osmosis membrane processor 5 to supply drinking water for the application water system of the hospital. Once an emergency situation occurs and drinking water supply facilities need to be arranged in a field emergency mode, the drinking water supply facilities can be reasonably and quickly allocated according to the emergency arrangement place and the position of a drinking water preparation part, the allocated water treatment part a for treating water of a field water source is matched, the drinking water supply facilities can be quickly arranged in the field emergency arrangement place in the emergency mode, as shown in figure 1, a quick water connection joint 6 at the water inlet end of a pressure pump 3 is connected with a water treatment part a for treating water of a field water source, the water outlet end of a reverse osmosis membrane processor 5 is communicated with a pressure tank 18 through a first three-way electromagnetic valve 21 under the control of a control device 2, the reverse osmosis membrane processor is connected with a drinking water machine d through the quick water connection joint 6 at the water outlet end of a rear-end activated carbon filter 20 and a water pipe so as to supply drinking water, after the arrangement is finished and the use, the satellite positioning system 8 and a mobile communication system 9 (which can be connected to the internet to realize remote monitoring and wireless real-time monitoring) can be used for determining the arrangement position, monitoring the water production process and the use state of the water supply water with stable quality can be ensured to be quickly and be manufactured in time.

The water treatment part a for treating water of a field water source comprises a water source pretreatment part a1, a water purification treatment part a2, a water storage capsule a3 and a submersible pump a4, as shown in figures 1 and 4, the water source pretreatment part a1 comprises a second rack 28, a raw water treatment control device 29 arranged in the second rack 28, a water pump 30 and a raw water filter assembly e which are arranged in the second rack 28 and are sequentially connected together through a water pipe, a water inlet of the water pump 30 is connected with a quick water connector 6, a water outlet end of the raw water filter assembly e is connected with the quick water connector 6, a raw water pressure sensor 31 is arranged at a water inlet of the raw water filter assembly e, a raw water quality detector 32 is arranged at a water inlet of the water pump 30, an electrical signal output end of the raw water pressure sensor 31 and an electrical signal output end of the raw water quality detector 32 are connected with an electrical signal input end of the raw water treatment control device 29, the raw water treatment control device 29 controls the action of the water pump 30, the second frame 28 is a square frame, six surfaces of the second frame 28 are provided with movable cover plates 33, the water purification treatment part a2 comprises a third frame 34, a purified water production control device 35 arranged in the third frame 34, a pressure water pump 36 arranged in the third frame 34 and connected together by water pipes in sequence, a preposed reverse osmosis membrane processor 37 and a purified water storage tank 38, the water inlet end of the pressure water pump 36 is connected with a quick water connector 6, the water outlet end of the purified water storage tank 38 is connected with the quick water connector 6, the third frame 34 is a square frame, the six surfaces of the third frame 34 are provided with movable cover plates 39, a satellite positioning system 40 and a mobile communication system 41 are arranged in the third frame 34, a second membrane pressure sensor 42 is arranged at the water inlet of the preposed reverse osmosis membrane processor 37 of the water purification treatment part a2, a second inlet water quality monitoring sensor 43 is arranged at the water inlet end of the pressure water pump 36 of the water purification treatment part a2, a purified water pressure sensor 44 and a second purified water quality monitoring sensor 45 are arranged at the purified water outlet of the preposed reverse osmosis membrane processor 37 of the water purification treatment part a2, the electrical signal output end of the second purified water quality monitoring sensor 45 of the water purification treatment part a2, the electrical signal output end of the purified water pressure sensor 44, the electrical signal output end of the second pre-membrane pressure sensor 42 and the electrical signal output end of the second inlet water quality monitoring sensor 43 are connected with the electrical signal input end of the purified water production control device 35, the electrical signal transmission end of the purified water production control device 35 is connected with the electrical signal end of the satellite positioning system 40 and the electrical signal transmission end of the mobile communication system 41, the electric signal transmission end of the purified water production control device 35 is connected with (can be in wired or wireless communication with) the electric signal transmission end of the raw water treatment control device 29, so that the purified water production control device 35 can control the water pump 30 to work through the raw water treatment control device 29, and can utilize the satellite positioning system 40 and the mobile communication system 41 (which can be accessed to the internet to realize remote monitoring and wireless real-time monitoring) to determine the arrangement position of the water source pretreatment part a1 and the water purification treatment part a2 in real time, monitor the water production process and the use state of the water source pretreatment part a1 and the water purification treatment part a2, the water storage capsule a3 is provided with a water level monitoring sensor 46, the electric signal output end of the water level monitoring sensor 46 is connected with a submersible pump control device 47, the submersible pump control device 47 controls the action of a submersible pump a4, the electric signal transmission end of the submersible pump control device 47 is connected with (can be in wired or wireless communication with) the electric signal transmission end of the raw water treatment control device 29, thus, the purified water production control device 35 can operate the submersible pump a4 through the submersible pump control device 47, and can determine the arrangement position of the submersible pump a4 in real time by utilizing the satellite positioning system 40 and the mobile communication system 41 of the submersible pump a4 (the remote monitoring and the wireless real-time monitoring can be realized by accessing the internet), and monitor the working process and the use state of the submersible pump a 4.

The raw water filtering assembly e comprises a butterfly filter 48 with an automatic flushing structure, a full-automatic filter (sand filter) 49, a full-automatic filter (activated carbon filter) 50, a PP cotton filter 51 and an activated carbon filter 52 which are sequentially communicated together.

When the water dispenser is stored in normal times, the water source pretreatment part a1, the water purification treatment part a2, the water storage capsule a3 and the submersible pump a4 are stored in the same warehouse, when the water dispenser is arranged in the field, the water dispenser is reasonably and quickly allocated according to the emergency arrangement place and the position of the drinking water preparation part, and when the water dispenser is matched with the allocated drinking water preparation part b, drinking water supply facilities are quickly arranged in the emergency arrangement place in the field in an emergency manner, when the water dispenser is arranged, the submersible pump a4 arranged in the field water source (such as a pond and a river) is connected with the water inlet of the water storage capsule a3 through a pipeline, the quick water connector 6 at the inlet of the water pump 30 of the water source pretreatment part a2 is connected with the water outlet of the water storage capsule a3 through a pipeline, the quick water connector 6 at the water outlet of the raw water filter component e is connected with the quick water connector 6 at the water inlet of the pressurized water pump 36 of the water purification treatment part a2 through a pipeline, the quick water connector 6 at the water outlet of the water purification storage tank 38 of the water purification treatment part a2 is connected with the water connector 6 at the water inlet of the pressurized pump 3 of the water preparation part b through a pipeline, and a quick water connector 20 of the drinking water preparation carbon filter is connected with a water supply device (such as a heating device) through a water dispenser, so as a water supply device, and a drinking water dispenser is convenient for supplying drinking water supply device for a drinking water dispenser. Meanwhile, the water purification production control device 35 of the water purification processing part a2 and the control device 2 of the drinking water preparation part b are networked through respective satellite positioning systems 40 and 8 and mobile communication systems 41 and 9 to issue the running state and the water quality state of the equipment in real time, so that the emergency main pipe part can monitor the position of the drinking water preparation part and the running state and the water quality state of the equipment in real time, the equipment can be maintained in time, the good working state of the equipment can be guaranteed, and the produced drinking water meets the quality requirement.

The quick water connector 6 at the wastewater outlet of the reverse osmosis membrane processor 5 of the drinking water preparation part b is communicated with the water purification storage tank 38 through a pipeline, wastewater (purified water meeting the requirement of cleaning) generated by drinking water preparation is returned to the water purification storage tank 38 for recycling, and the quick water connector 6 at the other water outlet of the water purification storage tank 38 of the water purification treatment part a2 is used for supplying cleaning water through a pipeline.

The water making part is communicated with the Internet of things A through mobile communication systems 9 and 41 and satellite positioning systems 8 and 40.

The system is provided with a power supply part f, the power supply part f is more than one of a fuel generator, a wind energy generator and a solar generator, the power supply part f is provided with a satellite positioning system 53 and a mobile communication system 54, and the power supply part f is communicated with the Internet of things A through the mobile communication system 54 and the satellite positioning system 53.

The method for producing and supplying water quickly laid in the field is realized in such a way that, in normal times, a water production part (comprising a water treatment part a for treating water of a field water source and a drinking water production part b) and a power supply part f are packaged and then stored in an emergency warehouse, a satellite positioning system is kept working and managed through an internet of things platform A by using a battery carried by the power supply part f, or the power supply part f is packaged and then stored in the emergency warehouse, as shown in fig. 3, the water production part is used for producing water in public places (such as hospitals) and is managed and used by the internet of things platform A; when the drinking water supply facility needs to be arranged in an emergency in the field, the water production part and the power part f can be reasonably and quickly allocated through the Internet of things platform A according to the emergency arrangement place and the position of the water production part, the drinking water supply facility can be quickly arranged in the emergency arrangement place in the field in an emergency manner, after the arrangement is completed and the drinking water supply facility is put into use, the satellite positioning system and the mobile communication system can be used for determining the arrangement position of the drinking water supply facility through the accessed Internet of things in real time, the water production process and the use state of the drinking water supply facility can be monitored, and the quick and timely production of application water with stable quality can be guaranteed.

Claims

1. A water-making and water-supplying device quickly laid outdoors is characterized by comprising an Internet of things platform, a water treatment part for treating water at an outdoor water source and a drinking water making part, wherein the water treatment part comprises a control device which is arranged in a first frame and is provided with a power supply access end, a pressure pump, a filter assembly, a pressure pump with constant pressure and a reverse osmosis membrane processor which are sequentially connected through a pipeline and are arranged in the first frame, a water inlet end of the pressure pump and a water outlet end of the reverse osmosis membrane processor are provided with quick water connectors, a satellite positioning system and a mobile communication system are arranged on the first frame, a pressure sensor before filtration is arranged at a water inlet of the filter assembly, a purified water quality monitoring sensor is arranged at a water outlet of the filter assembly, the water outlet of the reverse osmosis membrane processor is provided with a drinking water quality monitoring sensor and a drinking water pressure sensor, the electric signal output end of the pressure sensor before filtration, the electric signal output end of the purified water quality monitoring sensor, the electric signal output end of the drinking water quality monitoring sensor and the electric signal output end of the drinking water pressure sensor are connected with the electric signal input end of a control device, the electric signal transmission end of a mobile communication system, the electric signal transmission end of a satellite positioning system and the electric signal transmission end of the control device are connected, the control device controls a pressure pump and the action of the pressure pump with constant pressure, the water making part is communicated with the Internet of things through the mobile communication system and the satellite positioning system, and at ordinary times, the water making part is used for making water in public occasions and is managed and used through the Internet of things platform; when the drinking water supply facility needs to be arranged in an emergency in the field, the water production part can be reasonably and quickly allocated through the Internet of things platform according to the emergency arrangement place and the position of the water production part, the drinking water supply facility can be quickly and emergently arranged in the emergency arrangement place in the field, after the arrangement is finished and the drinking water supply facility is put into use, the arrangement position can be determined through the accessed Internet of things by utilizing the satellite positioning system and the mobile communication system in real time, the water production process and the use state can be monitored, the application water with stable quality can be quickly and timely manufactured, the water treatment part for treating the water of the field water source comprises a water purification treatment part, the water purification treatment part comprises a third frame, a water purification production control device arranged in the third frame, a pressurized water pump, a preposed reverse osmosis membrane processor and a water purification storage tank which are sequentially connected together through a water pipe and arranged in the third frame, a water inlet end of the pressure water pump is connected with a quick water joint, a water outlet end of the purified water storage tank is connected with a quick water joint, a satellite positioning system and a mobile communication system are arranged in the third frame, a second pressure sensor before membrane is arranged at a water inlet of a reverse osmosis membrane processor of the water purification treatment part, a second water inlet quality monitoring sensor is arranged at the water inlet end of the pressure water pump of the water purification treatment part, a purified water flow sensor, a water pressure sensor and a second purified water quality monitoring sensor are arranged at a purified water outlet of the reverse osmosis membrane processor of the water purification treatment part, an electric signal output end of the second water inlet quality monitoring sensor of the water purification treatment part, an electric signal output end of the purified water flow sensor, an electric signal output end of the water pressure sensor and an electric signal output end of the second purified water quality monitoring sensor are connected with an electric signal input end of the purified water production control device, the electric signal transmission end of the purified water production control device is connected with the electric signal transmission end of the satellite positioning system and the electric signal transmission end of the mobile communication system.

2. A water production and supply device capable of being rapidly laid outdoors according to claim 1, wherein a power supply part is provided, the power supply part is provided with a positioning system and a mobile communication system, and the power supply part is communicated with the Internet of things through the mobile communication system and a satellite positioning system.

3. The water production and supply device which is rapidly arranged in the wild according to claim 1 or 2, characterized in that a pressure tank, an ultraviolet sterilizer and a rear-end activated carbon filter are arranged on the first frame, the water outlet end of the reverse osmosis membrane processor is respectively communicated with the quick water connection joint and the water inlet of the pressure tank through a first three-way electromagnetic valve, the pressure tank, the ultraviolet sterilizer and the rear-end activated carbon filter are sequentially communicated, the water outlet of the rear-end activated carbon filter is connected with the quick water connection joint, and the control device controls the action of the first three-way electromagnetic valve.

4. The water supply and production device of claim 1 or 2, wherein the water treatment section for treating water from a field water source further comprises a water source pretreatment section, a water storage capsule and a submersible pump, the water source pretreatment section comprises a second frame, a raw water treatment control device arranged in the second frame, a water pump and a raw water filter assembly, the water pump and the raw water filter assembly are sequentially connected through a water pipe and are arranged in the second frame, a water inlet of the water pump is connected with a quick water connector, a water outlet end of the raw water filter assembly is connected with a quick water connector, the raw water filter assembly is provided with a raw water pressure sensor, an electrical signal output end of the raw water pressure sensor is connected with an electrical signal input end of the raw water treatment control device, and the raw water treatment control device controls the water pump to operate.

5. A device for producing and supplying water with rapid outdoor distribution as claimed in claim 4, wherein the first frame is a square frame, six faces of the first frame are provided with movable covers, the second frame is a square frame, six faces of the second frame are provided with movable covers, the third frame is a square frame, and six faces of the third frame are provided with movable covers.

6. The device for producing and supplying water in the wild and rapidly laid according to claim 5, wherein the quick water connection joint at the wastewater outlet of the reverse osmosis membrane processor of the drinking water producing part is communicated with the purified water storage tank through a pipeline, wastewater generated by drinking water production is returned to the purified water storage tank for recycling, and the quick water connection joint at the other water outlet of the purified water storage tank of the purified water treatment part supplies clean water through a pipeline.