CN220686212U - Remote monitoring and detecting water supply equipment - Google Patents

Abstract

The utility model discloses a remote monitoring and detecting water supply device, which belongs to the technical field of water supply detection and has the technical scheme that the remote monitoring and detecting water supply device comprises a water tank, wherein the top of the water tank is provided with a water inlet mechanism, the water in a water factory is conveyed through the water inlet mechanism to be discharged into the water tank by arranging the water tank, the water in the water tank is automatically started through a first self-monitoring water conveying component through remote arrangement and then sucked out of a resident room when the water is conveyed into the resident room, the water is filtered through a first filtering component in the first self-monitoring water conveying component in the process, the phenomenon of sediment in the water entering the resident room is reduced, the cleanliness of the resident water is improved, and the first self-monitoring water conveying component can automatically adjust the conveying rotating speed and frequency according to the water consumption of the resident user in the process.

Description

Remote monitoring and detecting water supply equipment

Technical Field

The utility model relates to the technical field of water supply detection, in particular to remote monitoring and detecting water supply equipment.

Background

The water supply equipment is an automatic start-stop water supply device which outputs a certain flow and a certain lift in unit time, and is divided into: fire control water supply equipment, life water supply equipment, production water supply equipment and sewage treatment water supply equipment.

When carrying the use to resident domestic water, current remote monitoring detects water supply equipment and can't realize carrying out the filtration again to carrying out the water of play water tank and use, and then lead to getting into the indoor water inside phenomenon that contains silt of resident's user, and then influence resident's water to the condition of producing the incrustation scale easily, and can't be to the rotational speed and the frequency of adjusting the water pump according to resident's water consumption in real time, and then be unfavorable for people's use.

Disclosure of Invention

The utility model provides remote monitoring and detecting water supply equipment, and aims to solve the problems that the conventional remote monitoring and detecting water supply equipment cannot realize the secondary filtering use of water conveyed out of a water tank, so that the phenomenon that the water entering a resident user room contains sediment is caused, the resident water is influenced, scale is easy to generate, the rotating speed and frequency of a water pump cannot be regulated according to the water consumption of the resident user in real time, and the use of people is not facilitated.

The utility model is realized in such a way that the remote monitoring and detecting water supply equipment comprises a water tank, wherein the top of the water tank is provided with a water inlet mechanism, and the front side of the water tank is provided with a self-monitoring water delivery mechanism;

the self-monitoring water delivery mechanism comprises a first self-monitoring water delivery component, a first filter component, a second self-monitoring water delivery component, a second filter component and a single backwashing component, wherein the first self-monitoring water delivery component is communicated with the front side of the water tank, the first filter component is communicated with the front side of the first self-monitoring water delivery component, the second self-monitoring water delivery component is communicated with the left side of the first self-monitoring water delivery component, the second filter component is communicated with the front side of the second self-monitoring water delivery component, and the single backwashing component is respectively communicated with the left side of the first self-monitoring water delivery component, the left side of the second self-monitoring water delivery component and between the first filter component and the second filter component.

In order to achieve the effect of water inflow to the inside of the water tank, the remote monitoring and detecting water supply device is preferable, and the water inflow mechanism comprises a water inlet pipe and a water inflow automatic control valve, wherein the water inlet pipe is bolted to the top of the water tank and communicated with the water tank, and the water inflow automatic control valve is arranged on the outer side of the water inlet pipe and communicated with the water tank.

In order to achieve the effect of conveying water inside the water tank into a resident room, the first self-monitoring water conveying component preferably comprises a water outlet pipe, a first water outlet valve, a first water pump, a first water control pipe, a first water control valve, a first flow rate device, a first filter cylinder and a first water guide pipe valve, wherein the rear side of the water outlet pipe is communicated with the bottom of the front side of the water tank, the first water outlet valve is arranged on the outer side of the water outlet pipe and communicated with the front side of the water outlet pipe, the absorption end of the first water pump is communicated with the front side of the water outlet pipe, the rear side of the first water control pipe is communicated with the discharge end of the first water pump, the first water control valve is arranged on the outer side of the first water control pipe and communicated with the front side of the first water control pipe, the rear side of the first filter cylinder is communicated with the front side of the first flow rate device, and the rear side of the first water guide pipe valve is communicated with the front side of the first flow rate device.

In order to achieve the effect of filtering the interior output by the first self-monitoring water delivery assembly, the remote monitoring detection water supply device is preferably adopted, the first filtering assembly comprises a first filter screen, a first filter cotton net and a first activated carbon net, and the first filter screen, the first filter cotton net and the first activated carbon net are sequentially clamped in the first filter cartridge.

In order to achieve the effect of assisting in continuing water delivery when the first self-monitoring water delivery assembly is required to be cleaned when the first self-monitoring water delivery assembly is polluted and blocked, the second self-monitoring water delivery assembly comprises a secondary water pipe, a second water outlet valve, a second water pump, a second water turning pipe, a second water control valve, a second flow rate device, a second filter cylinder and a second water guide pipe valve, wherein the right side of the secondary water pipe is communicated with the left side of a water outlet pipe, the second water outlet valve is arranged on the outer side of the water outlet pipe and communicated with the outer side of the water outlet pipe, the absorption end of the second water pump is communicated with the front side of the secondary water pipe, the rear side of the second water turning pipe is communicated with the discharge end of the second water pump, the second water control valve is arranged on the outer side of the second water turning pipe and communicated with the front side of the second water turning pipe, the rear side of the second flow rate device is communicated with the front side of the second flow rate device, and the rear side of the second water guide pipe valve is communicated with the front side of the second flow rate device.

In order to achieve the effect of filtering water conveyed by the second self-monitoring water conveying component, the remote monitoring detection water supply device is preferable, the second filtering component comprises a second filter screen, a second filter cotton net and a second activated carbon net, and the second filter screen, the second filter cotton net and the second activated carbon net are sequentially clamped in the second filter cylinder.

In order to achieve the effect of back flushing the first filter assembly and the second filter assembly, as one preferable remote monitoring and detecting water supply device of the utility model, the single back flushing assembly comprises a communicating pipe, a back flushing control valve, a first lower discharge valve pipe and a second lower discharge valve pipe, wherein two sides of the communicating pipe are respectively communicated with the inner sides of the first water guide pipe valve and the second water guide pipe valve, the back flushing control valve is arranged on the outer side of the communicating pipe and is communicated with the inner sides of the first water guide pipe valve and the second water guide pipe, and the first lower discharge valve pipe and the second lower discharge valve pipe are respectively communicated with the left sides of the first water transfer pipe and the second water transfer pipe.

In order to achieve the effect of supporting and reinforcing the first water pump and the second water pump, the remote monitoring and detecting water supply equipment is preferable in the utility model, and reinforcing plates are bolted to the bottoms of the first water pump and the second water pump.

Compared with the prior art, the utility model has the beneficial effects that:

this remote monitoring detects water supply equipment, through setting up the water tank, water inlet mechanism and from monitoring water delivery mechanism, the inside of water tank is discharged to through the water discharge of water factory that water inlet mechanism comes, then when carrying out the water use to resident's room, through the automatic first water delivery subassembly that opens of remote setting then carry out the suction with the inside water of water tank, then carry to resident's room, and at this in-process through being in the inside first filter module of first self-monitoring water delivery subassembly and realize the filtration to water, and then ensure the phenomenon that gets into resident's indoor water and reduce and contain silt, and then promote resident's clean degree of water, and at this in-process its first self-monitoring water delivery subassembly can be according to the rotation speed and the frequency that resident's user's water consumption comes automatic regulation, so that resident's use, and when the inside first filter module of first self-monitoring water delivery subassembly blocks up seriously, then the automatic second self-monitoring water delivery subassembly that opens closes first self-monitoring water delivery subassembly, and use the second self-monitoring water delivery subassembly to cooperate the second self-monitoring water delivery subassembly to carry out the inside the filter assembly, thereby the inside the water delivery subassembly is carried out to the inside to the water delivery subassembly to the inside of the water of the resident of this water, the back flush the inside of this monitoring is carried to the water delivery subassembly to the first self-monitoring water delivery subassembly of this in this process, the whole realization is carried by the filter assembly.

Drawings

FIG. 1 is an overall construction diagram of a remote monitoring and detecting water supply apparatus of the present utility model;

FIG. 2 is a schematic diagram of the self-monitoring water delivery mechanism according to the present utility model;

FIG. 3 is a schematic view of a water inlet mechanism according to the present utility model;

FIG. 4 is a schematic view of a first self-monitoring water delivery assembly according to the present utility model;

FIG. 5 is a schematic view of a first filter assembly according to the present utility model;

FIG. 6 is a schematic diagram of a second self-monitoring water delivery assembly according to the present utility model;

FIG. 7 is a schematic view of a second filter assembly according to the present utility model;

FIG. 8 is a schematic view of the construction of a single backwash assembly of the present utility model.

In the figure, 1, a water tank; 2. a water inlet mechanism; 201. a water inlet pipe; 202. a water inlet automatic control valve; 3. self-monitoring water delivery mechanism; 301. a first self-monitoring water delivery assembly; 3011. a water outlet pipe; 3012. a first outlet valve; 3013. a first water pump; 3014. a first water transfer pipe; 3015. a first water control valve; 3016. a first flow rate device; 3017. a first filter cartridge; 3018. a first water conduit valve; 302. a first filter assembly; 3021. a first filter screen; 3022. a first filter web; 3023. a first activated carbon net; 303. a second self-monitoring water delivery assembly; 3031. a secondary water pipe; 3032. a second water outlet valve; 3033. a second water pump; 3034. a second water transfer pipe; 3035. a second water control valve; 3036. a second flow rate device; 3037. a second filter cartridge; 3038. a second water conduit valve; 304. a second filter assembly; 3041. a second filter screen; 3042. a second filter web; 3043. a second activated carbon net; 305. a single backwash assembly; 3051. a communicating pipe; 3052. a recoil control valve; 3053. a first lower discharge valve tube; 3054. a second lower discharge valve tube; 4. and a reinforcing plate.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model. Furthermore, in the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Referring to fig. 1-8, the present utility model provides the following technical solutions: the remote monitoring and detecting water supply equipment comprises a water tank 1, wherein a water inlet mechanism 2 is arranged at the top of the water tank 1, and a self-monitoring water delivery mechanism 3 is arranged at the front side of the water tank 1;

the self-monitoring water delivery mechanism 3 comprises a first self-monitoring water delivery component 301, a first filter component 302, a second self-monitoring water delivery component 303, a second filter component 304 and a single back flushing component 305, wherein the first self-monitoring water delivery component 301 is communicated with the front side of the water tank 1, the first filter component 302 is communicated with the front side of the first self-monitoring water delivery component 301, the second self-monitoring water delivery component 303 is communicated with the left side of the first self-monitoring water delivery component 301, the second filter component 304 is communicated with the front side of the second self-monitoring water delivery component 303, and the single back flushing component 305 is respectively communicated with the left side of the first self-monitoring water delivery component 301, the left side of the second self-monitoring water delivery component 303 and between the first filter component 302 and the second filter component 304.

In this embodiment: through setting up water tank 1, water inlet mechanism 2 and from monitoring water delivery mechanism 3, carry the inside of water factory's water discharge to water tank 1 through water inlet mechanism 2, then when carrying out the water use to resident's room, through the automatic first self-monitoring water delivery subassembly 301 of opening of long-range setting, then carry to resident's room inside water suction, and at this in-process through being in the inside first filter module 302 of first self-monitoring water delivery subassembly 301, and then ensure the phenomenon that gets into resident's user room water and reduce and contain silt, and then promote the clean degree of resident's water, and at this in-process its first self-monitoring water delivery subassembly 301 can be according to resident's water consumption come automatic regulation rotational speed and the frequency, so that resident's use is convenient for, and when the inside first filter module 302 of first self-monitoring water delivery subassembly 301 is serious, the pressure of its first self-monitoring water delivery subassembly 301 increases, then the automatic second self-monitoring water delivery subassembly 303 of opening again closes first self-monitoring water delivery subassembly 301, and this is utilized the second self-monitoring water delivery subassembly 301 to be used to the inside water delivery subassembly 301 to make the whole water use of this in-process of water delivery subassembly 303, the inside the back flush water delivery subassembly is carried out according to this first filter module 301, the inside the water delivery subassembly 303 is carried out to the whole water consumption of the water delivery subassembly is better, the inside the water delivery subassembly is carried out to the inside the water of the resident's 303 to the water delivery subassembly is carried out according to the first self-monitoring water delivery subassembly 301, and the whole is carried on the inside the filter assembly's water assembly's inside has been washed back-used to the first self-monitoring water assembly 301 was used to the inside the filter assembly 301 was used to the filter has a filter bag was used to the first filter assembly.

As a technical optimization scheme of the utility model, the water inlet mechanism 2 comprises a water inlet pipe 201 and a water inlet automatic control valve 202, wherein the water inlet pipe 201 is bolted to the top of the water tank 1 and communicated, and the water inlet automatic control valve 202 is arranged outside the water inlet pipe 201 and communicated.

In this embodiment: through setting up inlet tube 201 and inlet water self-control valve 202, communicate at the top of water tank 1 through inlet tube 201, then through inlet water self-control valve 202 come automatic control through the water works through inlet tube 201 to the inside use of intaking of water tank 1.

As a technical optimization scheme of the present utility model, the first self-monitoring water delivery assembly 301 includes a water outlet pipe 3011, a first water outlet valve 3012, a first water pump 3013, a first water transfer pipe 3014, a first water control valve 3015, a first flow rate device 3016, a first filter cartridge 3017 and a first water guide pipe valve 3018, wherein the rear side of the water outlet pipe 3011 is communicated with the bottom of the front side of the water tank 1, the first water outlet valve 3012 is arranged at the outer side of the water outlet pipe 3011 and is communicated with the front side of the water outlet pipe 3011, the absorption end of the first water pump 3013 is communicated with the front side of the water outlet pipe 3011, the rear side of the first water transfer pipe 3014 is communicated with the discharge end of the first water pump 3013, the first water control valve 3015 is arranged at the outer side of the first water transfer pipe 3014, the rear side of the first flow rate device 3016 is communicated with the front side of the first water transfer pipe 3016, and the rear side of the first water guide pipe valve 3018 is communicated with the front side of the first flow rate device 3016.

In this embodiment: through setting up outlet pipe 3011, first water outlet valve 3012, first water pump 3013, first water transfer pipe 3014, first water control valve 3015, first flow rate ware 3016, first cartridge filter 3017 and first aqueduct valve 3018, when carrying out the water delivery use to the resident indoor, first water outlet valve 3012 and first water control valve 3015 open in proper order, then through starting first water pump 3013 and sucking out the inside water of water tank 1 through outlet pipe 3011, then carry to the inside of first cartridge filter 3017 through first water transfer pipe 3014, the speed that the water was carried is detected to the automation through first flow rate ware 3016 in this process, then carry to the resident indoor through first aqueduct valve 3018 in this process, and the speed and the frequency of first water pump 3013 that its first flow rate ware 3016 can be automatic according to resident user's water consumption, use so as to be convenient for the resident.

As a technical optimization scheme of the present utility model, the first filter assembly 302 includes a first filter screen 3021, a first filter web 3022 and a first activated carbon web 3023, where the first filter screen 3021, the first filter web 3022 and the first activated carbon web 3023 are sequentially clamped inside a first filter cartridge 3017.

In this embodiment: through setting up first filter screen 3021, first filter web 3022 and first active carbon net 3023, when water passes through the inside of first cartridge filter 3017, the filtration and the absorption of first filter screen 3021, first filter web 3022 and first active carbon net 3023 are passed through in proper order to the realization intercepts remaining silt in the water, and then guarantees the clean degree of resident's water.

As a technical optimization scheme of the present utility model, the second self-monitoring water delivery assembly 303 includes a secondary water pipe 3031, a second water outlet valve 3032, a second water pump 3033, a second water transfer pipe 3034, a second water control valve 3035, a second flow rate device 3036, a second filter cartridge 3037 and a second water guide pipe valve 3038, wherein the right side of the secondary water pipe 3031 is communicated with the left side of the water outlet pipe 3011, the second water outlet valve 3032 is arranged at the outer side of the water outlet pipe 3011 and is communicated with the front side of the secondary water pipe 3031, the absorbing end of the second water pump 3033 is communicated with the front side of the secondary water pipe 3031, the rear side of the second water transfer pipe 3034 is communicated with the discharging end of the second water pump 3033, the second water control valve 3035 is arranged at the outer side of the second water transfer pipe 3034, the rear side of the second flow rate device 3036 is communicated with the front side of the second water transfer pipe 3034, the rear side of the second filter cartridge 3037 is communicated with the front side of the second flow rate device 3036, and the rear side of the second water guide pipe valve 3038 is communicated with the front side of the second flow rate device 3036.

In this embodiment: through setting up secondary water pipe 3031, second water outlet valve 3032, second water pump 3033, second commentaries on classics water pipe 3034, second accuse water valve 3035, second flow rate ware 3036, second cartridge filter 3037 and second aqueduct valve 3038, when the inside jam of first cartridge filter 3017 is serious, the velocity of flow that its first flow rate ware 3016 detected reduces, and this first water pump 3013's power reaches the upper limit, then first water pump 3013 carries out automatic stopping operation, then close first water outlet valve 3012 and first accuse water valve 3015 in proper order, then open second water outlet valve 3032 and second accuse water valve 3035 in proper order, thereby make the inside water of water tank 1 flow to secondary water pipe 3031 through outlet pipe 3011, then start second water pump 3033 again and carry out the inside water suction of water tank 1, then carry out the transport to the inside of second cartridge filter 3037 through second commentaries on classics water pipe 3034, in this process can carry out automatic velocity detection to the water transport through second flow rate ware 3036, then the water through second cartridge filter 3037's water again carries out automatic aqueduct 3018 to carry out at this water pump speed in this process and this resident's water pump 3 is convenient for the resident's the frequency and use in this process.

As a technical optimization scheme of the present utility model, the second filter assembly 304 includes a second filter screen 3041, a second filter web 3042 and a second activated carbon web 3043, where the second filter screen 3041, the second filter web 3042 and the second activated carbon web 3043 are sequentially clamped inside a second filter cartridge 3037.

In this embodiment: through setting up second filter screen 3041, second filter cotton net 3042 and second active carbon net 3043, still when the inside of water through second cartridge filter 3037, the filtration and the absorption of second filter screen 3041, second filter cotton net 3042 and second active carbon net 3043 are passed through in proper order to the realization intercepts remaining silt in the water, and then guarantees the clean degree of resident's water.

As a technical optimization scheme of the present utility model, the single backwash assembly 305 includes a communication pipe 3051, a backwash control valve 3052, a first lower discharge valve pipe 3053 and a second lower discharge valve pipe 3054, wherein both sides of the communication pipe 3051 are respectively communicated with inner sides of a first water conduit valve 3018 and a second water conduit valve 3038, the backwash control valve 3052 is disposed outside the communication pipe 3051 and is communicated, and the first lower discharge valve pipe 3053 and the second lower discharge valve pipe 3054 are respectively communicated with left sides of the first water conduit 3014 and the second water conduit 3034.

In this embodiment: through setting up communicating pipe 3051, recoil control valve 3052, first lower exhaust valve pipe 3053 and second lower exhaust valve pipe 3054, after first filter screen 3021 in the inside of first cartridge filter 3017, first filtration cotton net 3022 and first active carbon net 3023 produce the jam, its second water pump 3033 normally carries out the use of water delivery, then open first lower exhaust valve pipe 3053 in first water transfer pipe 3014 left side earlier, then open first drain valve 3018 and second drain valve 3038 between communicating pipe 3051 outside recoil control valve 3052, thereby make the inside water of second drain valve 3038 carry to first drain valve 3018 through communicating pipe 3051, first drain valve 3018 is in the state of closing this moment, then make the inside of the inside first cartridge filter 3017 of water tank 1 that gets into first drain valve 3018 carry out the reverse transportation, in order to realize the use of first active carbon net 3023, first filtration cotton net 3022 and first 3021 back flush, then open first drain valve 3013 through back flush, when this kind of drain valve is carried out to monitor and filter cartridge filter 3016 and carry out the back flush valve 3013 when this kind of filter cartridge filter drum is carried out to the inside of first cartridge filter 3018, can carry out normal filter cartridge filter drum valve 3018 and carries out the back flush valve 3013 when this kind of filter drum is carried out to monitor the second drain valve 3018 and is in the state.

As a technical optimization scheme of the utility model, the bottoms of the first water pump 3013 and the second water pump 3033 are bolted with reinforcing plates 4.

In this embodiment: through setting up gusset plate 4, can realize supporting the effect of reinforcement to first water pump 3013 and second water pump 3033 to increase the practicality.

Working principle: firstly, the water inlet pipe 201 is communicated with the top of the water tank 1, then the water inlet is automatically controlled by the water inlet automatic control valve 202, the water is fed into the water tank 1 through the water inlet pipe 201 by a water factory, then when the water is fed into a resident room, the first water outlet valve 3012 and the first water control valve 3015 are sequentially opened, then the water in the water tank 1 is sucked out through the water outlet pipe 3011 by starting the first water pump 3013, then the water is fed into the first filter cylinder 3017 through the first water transfer pipe 3014, the water feeding speed is automatically detected through the first flow rate device 3016 in the process, and then the water is filtered and adsorbed through the first filter screen 3021, the first filter cotton net 3022 and the first activated carbon net 3023 in sequence when the water passes through the first filter cylinder 3017, so that sediment remained in the water is intercepted, and the cleanliness of the resident water is ensured, then the water is conveyed into a resident room through a first water guide pipe valve 3018, in the process, the first flow rate device 3016 can automatically rotate speed and frequency of the first water pump 3013 according to the water consumption of a resident user, so that the use of the resident is facilitated, when the interior of the first filter cartridge 3017 is seriously blocked, the flow rate detected by the first flow rate device 3016 is reduced, the power of the first water pump 3013 reaches the upper limit, then the first water pump 3013 automatically stops running, then the first water outlet valve 3012 and the first water control valve 3015 are sequentially closed, then the second water outlet valve 3032 and the second water control valve 3035 are sequentially opened, so that the water in the water tank 1 flows to the secondary water pipe 3031 through the water outlet pipe 3011, then the second water pump 3033 is started to suck the water in the water tank 1, then the water is conveyed into the second filter cartridge 3037 through the second water transfer pipe 3034, in this process, the speed of water delivery is automatically detected by the second flow rate device 3036, then water still passes through the second filter screen 3041, the second filter cotton net 3042 and the second activated carbon net 3043 in sequence when passing through the second filter cartridge 3037, so as to intercept sediment remained in the water, further ensure the cleanliness of the residential water, and then the water is delivered to the residential room through the first water conduit valve 3018, in this process, the second flow rate device 3036 still automatically carries out the rotation speed and frequency of the second water pump 3033 according to the water consumption of the residential user, meanwhile, after the first filter screen 3021, the first filter cotton net 3022 and the first activated carbon net 3023 in the first filter cartridge 3017 are blocked, the second water pump 3033 normally carries out water delivery, then the first lower discharge valve pipe 3053 on the left side of the first water conduit 3014 is opened first, then the backflushing control valve 3052 outside the communicating pipe 3051 between the first water conduit valve 3018 and the second water conduit valve 3038 is opened, so that the water in the second water conduit valve 3038 is conveyed to the first water conduit valve 3018 through the communicating pipe 3051, at this time, the first water conduit valve 3018 is in a closed state, then the inside of the first filter cartridge 3017 of the water tank 1 entering the inside of the first water conduit valve 3018 is reversely conveyed, so that the use of backflushing of the first activated carbon, the first filter cotton net 3022 and the first filter screen 3021 is realized, sediment is discharged through the first lower discharge valve pipe 3053 through backflushing, in this process, the first flow rate device 3016 is monitored, after the first filter cartridge 3017 recovers the normal flow rate, the backflushing control valve 3052 and the first lower discharge valve pipe 3053 are closed, and so on, when the second filter cartridge 3037 is blocked, the first water pump 3013 is switched to be used, and back flushing of the second filter cartridge 3037 is realized.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (8)

1. A remote monitoring and detecting water supply device, comprising a water tank (1), characterized in that: the top of the water tank (1) is provided with a water inlet mechanism (2), and the front side of the water tank (1) is provided with a self-monitoring water delivery mechanism (3);

the self-monitoring water delivery mechanism (3) comprises a first self-monitoring water delivery component (301), a first filtering component (302), a second self-monitoring water delivery component (303), a second filtering component (304) and a single back flushing component (305), wherein the first self-monitoring water delivery component (301) is communicated with the front side of the water tank (1), the first filtering component (302) is communicated with the front side of the first self-monitoring water delivery component (301), the second self-monitoring water delivery component (303) is communicated with the left side of the first self-monitoring water delivery component (301), the second filtering component (304) is communicated with the front side of the second self-monitoring water delivery component (303), and the single back flushing component (305) is respectively communicated with the left side of the first self-monitoring water delivery component (301), the left side of the second self-monitoring water delivery component (303) and between the first filtering component (302) and the second filtering component (304).

2. A remote monitoring and detecting water supply device according to claim 1, wherein: the water inlet mechanism (2) comprises a water inlet pipe (201) and a water inlet self-control valve (202), wherein the water inlet pipe (201) is bolted to the top of the water tank (1) and is communicated, and the water inlet self-control valve (202) is arranged on the outer side of the water inlet pipe (201) and is communicated.

3. A remote monitoring and detecting water supply device according to claim 1, wherein: the first self-monitoring water delivery assembly (301) comprises a water outlet pipe (3011), a first water outlet valve (3012), a first water pump (3013), a first water transfer pipe (3014), a first water control valve (3015), a first flow rate device (3016), a first filter cartridge (3017) and a first water transfer pipe valve (3018), wherein the rear side of the water outlet pipe (3011) is communicated with the bottom of the front side of the water tank (1), the first water outlet valve (3012) is arranged on the outer side of the water outlet pipe (3011) and communicated with the front side of the water outlet pipe (3011), the absorption end of the first water pump (3013) is communicated with the front side of the water outlet pipe (3011), the rear side of the first water transfer pipe (3014) is communicated with the discharge end of the first water pump (3013), the rear side of the first flow rate device (3016) is communicated with the front side of the first water transfer pipe (3014), and the front side of the first water transfer pipe (3018) is communicated with the rear side of the first flow rate device (3016).

4. A remote monitoring and detecting water supply device according to claim 3, wherein: the first filter assembly (302) comprises a first filter screen (3021), a first filter cotton net (3022) and a first active carbon net (3023), wherein the first filter screen (3021), the first filter cotton net (3022) and the first active carbon net (3023) are sequentially clamped inside a first filter cartridge (3017).

5. A remote monitoring and detecting water supply device according to claim 3, wherein: the second is from monitoring water delivery subassembly (303) including secondary water pipe (3031), second outlet valve (3032), second water pump (3033), second commentaries on classics water pipe (3034), second accuse water valve (3035), second flow rate ware (3036), second cartridge filter (3037) and second water conduit valve (3038), the right side of secondary water pipe (3031) communicates with the left side of outlet pipe (3011), second outlet valve (3032) set up in the outside of outlet pipe (3011) and communicate, the absorption end of second water pump (3033) communicates with the front side of secondary water pipe (3031), the rear side of second commentaries on classics water pipe (3034) communicates with the discharge end of second water pump (3033), second accuse water valve (3035) set up in the outside and the intercommunication of second commentaries on classics water pipe (3034), the rear side of second flow rate ware (3036) communicates with the front side of second flow rate ware (3034), the rear side of second cartridge filter (3037) communicates with the front side of second flow rate ware (3036).

6. A remote monitoring and detecting water supply device according to claim 5, wherein: the second filter assembly (304) comprises a second filter screen (3041), a second filter cotton net (3042) and a second active carbon net (3043), and the second filter screen (3041), the second filter cotton net (3042) and the second active carbon net (3043) are sequentially clamped in the second filter cartridge (3037).

7. A remote monitoring and detecting water supply device according to claim 3, wherein: the single back flush assembly (305) comprises a communicating pipe (3051), a back flush control valve (3052), a first lower discharge valve pipe (3053) and a second lower discharge valve pipe (3054), wherein two sides of the communicating pipe (3051) are respectively communicated with the inner sides of a first water guide pipe valve (3018) and a second water guide pipe valve (3038), the back flush control valve (3052) is arranged on the outer side of the communicating pipe (3051) and is communicated with the outer side of the communicating pipe, and the first lower discharge valve pipe (3053) and the second lower discharge valve pipe (3054) are respectively communicated with the left sides of the first water transfer pipe (3014) and the second water transfer pipe (3034).

8. A remote monitoring and detecting water supply device according to claim 3, wherein: the bottoms of the first water pump (3013) and the second water pump (3033) are bolted with reinforcing plates (4).