CN111997147B

CN111997147B - Wisdom water utilities water supply system

Info

Publication number: CN111997147B
Application number: CN202010853418.2A
Authority: CN
Inventors: 许方方; 张朝臣; 唐晓晖
Original assignee: Anhui Wanshui Water Development Co ltd
Current assignee: ANHUI WANSHUI WATER DEVELOPMENT Co.,Ltd.
Priority date: 2020-08-23
Filing date: 2020-08-23
Publication date: 2021-06-22
Anticipated expiration: 2040-08-23
Also published as: CN111997147A

Abstract

The invention discloses an intelligent water supply system, wherein the top wall of a transfer case of a circulating cleaning structure is fixedly connected with two pneumatic lifting cylinders which synchronously act, the output shafts of the pneumatic lifting cylinders are fixedly connected with a mounting ring plate in the transfer case, the upper end of the mounting ring plate is provided with a placing groove, a bottom ring is placed in the placing groove, the inner wall of the bottom ring is fixedly connected with brush wires, the bottom ring is fixedly connected with a plurality of transmission cylinders, two adjacent transmission cylinders are fixedly connected through at least two connecting rods, the upper end of the transmission cylinder at the topmost end is fixedly connected with a sealing ring positioned outside the transfer case, the outer wall of each transmission cylinder is provided with a transmission rack, the top wall of the transfer case is fixedly connected with a transmission motor, the output shaft of the transmission motor is fixedly connected with a gear, the gear can be meshed with the transmission rack, the top wall of the transfer case is provided with an annular hole for the transmission cylinder to pass through, the tops of the two pneumatic lifting cylinders are, the internal thread cylinder is sleeved with a positioning screw fixedly connected with the top end of the electric heating rod.

Description

Wisdom water utilities water supply system

Technical Field

The invention relates to the technical field of water supply, in particular to an intelligent water supply system.

Background

The water supply system is a complex which provides water resources for different water departments according to certain water quality requirements, can be divided into a domestic water supply system, a production water supply system, a fire-fighting water supply system and a shared water supply system, and specifically can supply domestic water for drinking, cooking, washing and the like in civil houses, public buildings and industrial enterprises, and consists of water supply equipment;

water supply installation on the existing market is because lack corresponding water storage box clearance mechanism in the practical application process, lead to the water storage box inner wall can adhere to the one deck dirt after long-term the use, rusty phenomenon can appear in the water storage box inside under the effect of aquatic chlorion the while, if these rusty stains and the dirt can't in time be cleared up and can lead to a large amount of bacterial growing, cause the pollution to the inside water of water storage box, these rusty stains and dirt also can accelerate the corroded speed of water storage box simultaneously, influence the quality of supplying water, but to its clearance, can't reach convenient quick effect, and very consume the manpower, thereby the life of water storage box has been reduced. The invention belongs to an improved patent, and is a further improvement of the applicant on the basis of the technical scheme, in particular to a method for cleaning the surface of an electric heating rod in a transfer box, wherein after the surface of the electric heating rod is used for a long time, although cleaning liquid is used for washing, a scale accumulation layer can still exist after long-term accumulation, and the scale accumulation layer can block the heating effect of the electric heating rod, so that the cleaning effect of a circulating cleaning structure on a system is further influenced, vicious circle is formed, and therefore, the dirt on the surface of the electric heating rod needs to be removed regularly by mechanical external force.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme:

a wisdom water utilities water supply system, including the water tank shell, water tank inner wall clearance mechanism, continuous disinfection filtering mechanism, circulation washing structure, shock attenuation buffer gear and protection receiving mechanism, the transfer case roof rigid coupling of circulation washing structure has two synchronous action pneumatic lifting cylinder, the output shaft of pneumatic lifting cylinder and the installation crown plate rigid coupling of transfer case inside, the mounting crown plate upper end has been seted up the standing groove, place the bottom ring in the standing groove, the inner wall rigid coupling of bottom ring has the brush silk, and the last rigid coupling of bottom ring has a plurality of transmission section of thick bamboo, pass through at least two connecting rod rigid couplings between two adjacent transmission section of thick bamboo, the last transmission section of thick bamboo upper end rigid coupling has the sealing ring that is located the transfer case outside, the outer wall of every transmission section of thick bamboo has the transmission rack, the rigid coupling has drive motor on the roof of transfer case, the output shaft rigid coupling gear of drive motor, the gear can mesh with the transmission rack, the roof of transfer case is seted up the annular hole that, the top of the two pneumatic lifting cylinders is fixedly connected with a cross rod, the bottom end of the cross rod is fixedly connected with an internal thread cylinder with an opening at the bottom end, and the internal thread cylinder is sleeved with a positioning screw rod fixedly connected with the top end of the electric heating rod.

The invention has the beneficial effects that:

1. the mechanical cleaning of the surface of the electric heating rod can be conveniently carried out by additionally arranging the pneumatic lifting cylinder, the mounting ring plate, the transmission cylinder, the transmission motor and the like so as to prevent the heat exchange effect from being seriously affected by surface fouling after the electric heating rod runs for a long time, and the cleaning effect is good and the automation degree is high by adopting linear and rotary cleaning;

2. under the action of the telescopic box and the electric telescopic rod, the volume of the water tank inner wall cleaning mechanism is periodically changed on the premise of unchanging the quality of the water tank inner wall cleaning mechanism, so that the connecting sliding block and the mounting square frame slide up and down along the supporting guide rod under the alternate action of buoyancy and gravity, the rubber scraper and the arc scraper are driven to scrape the inner wall of the water storage tank in the running process of the water service water supply equipment, rust on the inner wall of the water tank inner shell is cleaned, dirt is prevented from being accumulated on the inner wall of the water storage tank, the corrosion speed of the water storage tank is effectively reduced, the service life of the water tank inner shell is prolonged, meanwhile, bacteria are prevented from breeding and propagating in the water storage tank, the cleaning degree in the water storage tank is improved, secondary pollution of tap water in the water storage tank is prevented, and the use process of the;

through the installation pipe, the cooperation of buffer spring and slip post, be about to provide the buffering for it when bumping with the water storage box inner wall at link block and installation side frame, the effectual stability that improves water tank inner wall clearance mechanism operation, simultaneously because link block can scrape the support guide arm outside at the operation in-process, and water tank inner wall clearance mechanism can form local torrent's rivers around its self at the operation in-process, and then the effectual dirt of having avoided accumulates on each subassembly of water tank inner wall clearance mechanism, the cleanliness of water tank inner wall clearance mechanism in the operation has been ensured, the use of water tank inner wall clearance mechanism has been optimized.

3. The continuous disinfection filtering mechanism is arranged, a small amount of untreated and complete pollutants in sewage and pollutants in the rust cleaning process are intercepted, filtered and collected through the activated carbon filtering net, the stainless steel filtering net and the collecting hopper, and the inside of the main disinfection filtering box is continuously irradiated through the ultraviolet lamp tube, so that bacteria are prevented from breeding in the main disinfection filtering box, further cleaning of tap water is realized, and the cleanliness of the tap water is further improved;

through preceding three-way valve, main disinfection rose box, the structural design of vice disinfection rose box and back three-way valve, parallelly connect a pair of independent disinfection rose box of income in the supply channel, fight collecting, activated carbon filter screen and stainless steel filter screen clear up the in-process of changing and can directly pass through the cooperation of preceding three-way valve and back three-way valve, become vice disinfection rose box of flowing through with rivers from main disinfection rose box of flowing through, suitable condition is provided for the clearance and the change of main disinfection rose box inner assembly, simultaneously for operating personnel provides sufficient time, operating personnel's intensity of labour and psychological pressure have been reduced, the effect of clearance and change has been ensured, continuous disinfection filtering mechanism's use has been optimized.

4. The circulation cleaning structure is arranged, water and a cleaning agent are added into the transfer box through the material adding port and the liquid adding port, the well-prepared cleaning liquid in the transfer box is heated through the electric heating rod, the cleaning liquid is guided into the drainage pipeline through the rear circulation branch pipe, the cleaning liquid is made to circulate in the independent space formed by the drainage pipeline and the circulation cleaning structure, the water guide pipe is further realized, the flow stabilizing tank is cleaned by the rear circulation branch pipe, the water delivery pump and the drainage pipeline are effectively improved, the regular maintenance and maintenance effects of the water service water supply equipment are effectively improved, the accumulation of dirt is avoided, and the normal operation of the water service water supply system is ensured.

5. The damping and buffering mechanism is arranged, the mounting clamping rings are fixedly mounted on two sides of the water delivery pump through the matching of the connecting clamping grooves and the connecting buckles, the connecting blocks are tightly attached to the outer side of the water delivery pump through the pressing action of the mounting transverse pipes and the compression springs, vibration generated in the operation process of the water delivery pump can be transmitted to the rubber rod through the connecting blocks, the transmission rods and the connectors, and then energy of the vibration is diffused and consumed, the energy transmitted by the vibration is effectively weakened, so that the connecting bolt can still rely on pretightening force without displacement after being subjected to weak vibration, and the mounting reliability is effectively improved;

connect through connecting slot and connection buckle and ensured the stability of installation snap ring, through the effect of rubber backing ring, violently manage the installation and keep apart with connecting block contact position department, avoid the connecting block to violently manage end face collision and produce extra noise with the installation in transmission process, optimized shock attenuation buffer gear's use.

6. The protection storage mechanism is arranged, the protection is stored in the climbing ladder through the storage box, the process of storing the climbing ladder is guided through the storage chute and the limiting rod, the top of the climbing ladder is fixed through the limiting clamping groove and the hook, the bottom of the climbing ladder is limited through the limiting rod and the limiting sliding groove, the protection is stored in the idle process of the climbing ladder, the phenomenon that the climbing ladder is aged due to the fact that the climbing ladder is exposed to the sun is prevented, meanwhile, the stability of the climbing ladder in the using process is improved through the fixation of the top of the climbing ladder and the bottom of the climbing ladder, and the using process of the climbing ladder is optimized.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic view of the structure of the present invention (before the structure of the circulation cleaning is not modified);

FIG. 2 is a schematic view showing a mounting structure of the climbing ladder according to the present invention (before a circulation cleaning structure is not modified);

FIG. 3 is a schematic view of a three-dimensional axial structure of the present invention (before the recycling cleaning structure is modified);

FIG. 4 is a schematic structural view of a cleaning mechanism for the inner wall of the water tank of the present invention;

FIG. 5 is a schematic view of a continuous sterilizing filter mechanism of the present invention;

FIG. 6 is a schematic view of a flow stabilization tank mounting structure of the present invention (after a cycle cleaning structure is modified);

FIG. 7 is a schematic view of the circulation cleaning structure of the present invention (after the circulation cleaning structure is modified);

FIG. 8 is a schematic view of the shock absorbing and cushioning mechanism of the present invention;

FIG. 9 is a schematic structural view of the protective housing mechanism of the present invention;

FIG. 10 is a cross-sectional view of the transfer case;

FIG. 11 is an isometric view of the mounting ring plate;

fig. 12 is an isometric view of the transmission barrel.

Reference numbers in the figures: 1. a water tank housing; 2. a water tank inner shell; 3. a viewing port;

4. a water tank inner wall cleaning mechanism; 401. a support guide rod; 402. connecting the sliding block; 403. mounting a square frame; 404. installing an inclined frame; 405. a rubber blade; 406. a telescopic box; 407. an electric telescopic rod; 408. driving the diagonal rod; 409. an arc-shaped swing rod; 410. an arc-shaped scraper plate; 411. installing a circular pipe; 412. a buffer spring; 413. a sliding post;

5. a water outlet pipe;

6. a continuous sterilizing and filtering mechanism; 601. connecting a water pipe; 602. a front three-way valve; 603. a main disinfection filter box; 604. a secondary disinfection filter box; 605. a collecting hopper; 606. pulling a rod; 607. installing a lamp bracket; 608. an ultraviolet lamp tube; 609. an active carbon filter screen; 610. a stainless steel filter screen; 611. a rear three-way valve;

7. a shut-off valve; 8. a water conduit; 9. a flow stabilizing tank; 10. a water delivery pump; 11. a water discharge pipeline;

12. a circulating cleaning structure; 1201. a front sealing valve; 1202. a front circulation branch pipe; 1203. a transfer box; 1204. an electric heating rod; 1205. a feeding port; 1206. a liquid adding port; 1207. a liquid discharge pipe; 1208. a circulation pump; 1209. a post-circulation branch pipe; 1210. a rear sealing valve; 1211. a pneumatic lift cylinder; 1212. installing a ring plate; 1213. a placement groove; 1214. a bottom ring; 1215. brushing wires; 1216. a transmission cylinder; 1217. a seal ring; 1218. a drive rack; 1219. a drive motor; 1220. a gear; 1221. annular ring; 1222. a cross bar; 1223. an internal threaded barrel; 1224. positioning a screw rod; 1225. an output shaft; 1226. a connecting rod;

13. a shock absorbing and buffering mechanism; 1301. installing a snap ring; 1302. a connecting clamping groove; 1303. connecting a buckle; 1304. installing a transverse pipe; 1305. a rubber grommet; 1306. a compression spring; 1307. connecting blocks; 1308. a transfer lever; 1309. a connector; 1310. a rubber rod;

1401. a storage box; 1402. a storage chute; 1403. a limiting rod; 1404. climbing a ladder; 1405. a limiting chute; 1406. pulling a handle; 1407. a limiting clamping groove; 1408. connecting the cross bars; 1409. and (4) hanging hooks.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 6, 7, 10-12, comprising a water tank housing 1, a water tank inner wall cleaning mechanism 4, a continuous disinfecting and filtering mechanism 6, a circulating cleaning mechanism 12, a shock absorbing and buffering mechanism 13 and a protective accommodating mechanism, wherein two pneumatic lifting cylinders 1211 which synchronously act are fixedly connected to the top wall of a transit box 1203 of the circulating cleaning mechanism 12, output shafts 1225 of the pneumatic lifting cylinders are fixedly connected to a mounting ring plate 1212 inside the transit box 1203, a placing groove 1213 is formed at the upper end of the mounting ring plate 1212, a bottom ring 1214 is placed in the placing groove 1213, brush wires 1215 are fixedly connected to the inner wall of the bottom ring 1214, a plurality of transmission cylinders 1216 are fixedly connected to the bottom ring 1214, two adjacent transmission cylinders 1216 are fixedly connected to each other through at least two connecting rods 1226, a sealing ring 1217 located outside the transit box 1203 is fixedly connected to the upper end of the topmost transmission cylinder 1216, a rack 1218 is arranged on the outer wall of each transmission cylinder 1216, a transmission motor 1219 is fixedly connected to the top wall, an output shaft of the transmission motor 1219 is fixedly connected with a gear 1220, the gear 1220 can be meshed with a transmission rack 1218, an annular hole 1221 for the transmission cylinder 1216 to pass through is formed in the top wall of the transit box 1203, the tops of the two pneumatic lifting cylinders 1211 are fixedly connected with a cross rod 1222, an internal thread cylinder 1223 with an open bottom end is fixedly connected to the bottom end of the cross rod 1222, and the internal thread cylinder 1223 is sleeved with a positioning screw 1224 fixedly connected with the top end of the electric heating rod 1204.

The working principle of the improved part is as follows: when the surface of the electric heating rod 1204 needs to be cleaned, in order to prevent the water in the transfer box 1203 from overflowing, the water inlet valve and the water outlet valve of the water inlet pipe and the water outlet pipe (the back circulation branch pipe 1209) of the transfer box 1203 can be closed for a short time to be isolated, so that the water guide pipe 8 is kept smooth, the whole cleaning process is about 10s, and the influence on the system is small. Two pneumatic lifting cylinders 1211 are activated to lift the mounting ring plate 1212 and the bottom ring 1214, and simultaneously, a transmission motor 1219 is activated, a gear 1220 drives a transmission cylinder 1216 to rotate, so that the brush filaments 1215 intermittently and rotatably clean the electric heating rod 1204 during the lifting process, the bottom ring 1214 is lifted to the top and then is lowered to the position shown in fig. 10, and the sealing ring 1217 seals the ring hole 1221.

As shown in fig. 1-12, an inner tank shell 2 is welded on the inner side of an outer tank shell 1, supporting diagonal rods are uniformly welded at a gap between the outer tank shell 1 and the inner tank shell 2, heat-insulating cotton is filled in a cavity between the outer tank shell 1 and the inner tank shell 2, an observation port 3 is arranged in the middle of the top end of the outer tank shell 1, and an inner tank wall cleaning mechanism 4 is arranged on the inner side of the inner tank shell 2;

the cleaning mechanism 4 for the inner wall of the water tank comprises a supporting guide rod 401, a connecting slide block 402, an installation square frame 403, an installation inclined frame 404, a rubber scraper 405, a telescopic box 406, an electric telescopic rod 407, a driving inclined rod 408, an arc-shaped swing rod 409, an arc-shaped scraper 410, an installation circular tube 411, a buffer spring 412 and a sliding column 413;

a supporting guide rod 401 is fixedly connected to the middle position of the top end of the water tank inner shell 2, corresponding to the middle position of the top end of the observation port 3, through bolts, the middle part of the outer side of the supporting guide rod 401 is movably connected with a connecting sliding block 402, a mounting square frame 403 is welded to the middle part of the outer side of the connecting sliding block 402, mounting inclined frames 404 are welded to the top ends and the bottom end edge parts of the mounting square frame 403, and the top ends of the mounting inclined frames 404 are;

the four side edges inside the installation square frame 403 are all fixedly connected with telescopic boxes 406, one side inside the telescopic boxes 406 is evenly and fixedly connected with an electric telescopic rod 407, the input end of the electric telescopic rod 407 is electrically connected with the output end of the commercial power, and the other end of the electric telescopic rod 407 is fixedly connected with the movable end of the telescopic box 406;

two corners corresponding to each other at the bottom end of the connecting slider 402 are rotatably connected with a driving inclined rod 408 through a rotating shaft, the bottom end of the driving inclined rod 408 is rotatably connected with an arc-shaped swing rod 409, the middle part of the bottom end of the arc-shaped swing rod 409 is fixedly connected with an arc-shaped scraper blade 410, the rubber scraper blade 405 is tightly attached to the inner wall of the water tank inner shell 2, four arc-shaped swing rods 409 jointly form a deformable quadrangle, the driving inclined rod 408 is connected to two ends of a diagonal line of the quadrangle, the inner wall of the water tank is scraped during the operation of the water service water supply equipment through the action of the rubber scraper blade 405 and the arc-shaped scraper blade 410, so that rust on the inner wall of the water tank inner shell 2 is cleaned, dirt is prevented from being accumulated on the inner wall of the water tank, the corrosion speed of the water tank is effectively reduced, the service life of, the secondary pollution of the tap water in the water storage tank is prevented, and the use process of the water supply equipment is optimized;

the four corners of the top end of the installation square frame 403 are fixedly provided with installation round pipes 411, the middle part of the inner side of the installation round pipe 411 is movably connected with a buffer spring 412, the two ends of the buffer spring 412 are fixedly connected with sliding columns 413 corresponding to the inner side positions of the installation round pipe 411, the outer sides of the sliding columns 413 are tightly attached to the inner wall of the installation round pipe 411, the sliding columns 413 are in sliding connection with the installation round pipe 411, the maximum distance between the two end surfaces of the sliding columns 413 is larger than the thickness of the connection sliding block 402, the thickness of the telescopic box 406 is the same as that of the connection sliding block 402, the buffer spring 412 and the sliding columns 413 are matched, the connection sliding block 402 and the installation square frame 403 provide buffer when colliding with the inner wall of the water storage tank, the operation stability of the water tank inner wall cleaning mechanism 4 is effectively improved, meanwhile, the connection sliding block 402 can wipe the outer side of the support guide rod 401 in the operation process, and the water tank inner wall cleaning, therefore, the dirt is effectively prevented from being accumulated on each component of the water tank inner wall cleaning mechanism 4, the cleanliness of the water tank inner wall cleaning mechanism 4 in the operation process is ensured, and the use process of the water tank inner wall cleaning mechanism 4 is optimized;

a water outlet pipe 5 is welded at one corner of the bottom end of one side surface of the water tank shell 1, and one end of the water outlet pipe 5 is fixedly connected with a continuous disinfection and filtration mechanism 6;

the continuous disinfection filtering mechanism 6 comprises a connecting water pipe 601, a front three-way valve 602, a main disinfection filtering box 603, an auxiliary disinfection filtering box 604, a collecting hopper 605, a pulling rod 606, a mounting lamp bracket 607, an ultraviolet lamp tube 608, an active carbon filtering net 609, a stainless steel filtering net 610 and a rear three-way valve 611;

one end of the water outlet pipe 5 is fixedly connected with a connecting water pipe 601, one end of the connecting water pipe 601 is connected to a water inlet of the front three-way valve 602, an outlet of one side of the front three-way valve 602 is connected with a main disinfection filter box 603 through a pipeline, a water outlet of the other side of the front three-way valve 602 is connected with an auxiliary disinfection filter box 604 through a pipeline, the bottom end of the inner side of the main disinfection filter box 603 is movably connected with a collection hopper 605, four corners of the top end of the collection hopper 605 are fixedly connected with pulling rods 606, one side of the top end of the collection hopper 605 is fixedly provided with an installation lamp holder 607, the inner side;

activated carbon filter screens 609 are symmetrically and fixedly connected to the positions, corresponding to the side where the lamp holder 607 is installed, of the bottom end of the inner side of the collecting hopper 605, stainless steel filter screens 610 are evenly and fixedly connected to the positions, corresponding to the positions between the two activated carbon filter screens 609, of the bottom end of the inner side of the collecting hopper 605, a small amount of pollutants which are not completely treated in sewage and pollutants in a rust cleaning process are intercepted, filtered and collected through the activated carbon filter screens 609, the stainless steel filter screens 610 and the collecting hopper 605, the interior of the main disinfection filter box 603 is continuously irradiated through an ultraviolet lamp tube 608, bacteria are prevented from being bred in the interior of the main disinfection filter box 603, further cleaning of tap water is achieved, and the cleanliness of the tap;

one end of the main disinfection filter box 603 and one end of the auxiliary disinfection filter box 604 are respectively connected to the water outlets on two sides of the rear three-way valve 611 through pipelines, four side surfaces of the collecting hopper 605 are tightly attached to the inner side of the main disinfection filter box 603, two sides and top ends of the activated carbon filter screen 609 and the stainless steel filter screen 610 are tightly attached to the inner wall of the main disinfection filter box 603, the main disinfection filter box 603 and the auxiliary disinfection filter box 604 have the same internal structure, through the structural design of the front three-way valve 602, the main disinfection filter box 603, the auxiliary disinfection filter box 604 and the rear three-way valve 611, a pair of independent disinfection filter boxes are connected in parallel in a water supply pipeline, the collecting hopper 605, the activated carbon filter screen 609 and the stainless steel filter screen 610 can be directly matched with the front three-way valve 602 and the rear three-way valve 611 in the cleaning and replacing processes, water flow is changed from flowing through the main disinfection filter box 603 to flowing through the auxiliary disinfection filter box 604, and, meanwhile, sufficient time is provided for operators, the labor intensity and the psychological pressure of the operators are reduced, the cleaning and replacing effects are ensured, and the using process of the continuous disinfection and filtration mechanism 6 is optimized;

a water outlet at one end of the rear three-way valve 611 is connected with a cut-off valve 7 through a pipeline, one end of the cut-off valve 7 is fixedly connected with a water guide pipe 8, one end of the water guide pipe 8 is fixedly connected with a steady flow tank 9, one side of the steady flow tank 9 is uniformly and fixedly connected with a water delivery pump 10 through a pipeline, the input end of the water delivery pump 10 is electrically connected with the output end of a mains supply, and one end of the water delivery pump 10 is connected with a;

one side of the water guide pipe 8 is fixedly connected with a circulating cleaning structure 12;

the circulating cleaning structure 12 comprises a front sealing valve 1201, a front circulating branch pipe 1202, a transfer box 1203, an electric heating rod 1204, a feeding port 1205, a liquid feeding port 1206, a liquid discharging pipe 1207, a circulating pump 1208, a rear circulating branch pipe 1209 and a rear sealing valve 1210;

one side of the water guide pipe 8 is fixedly connected with a front sealing valve 1201 through a pipeline, one end of the front sealing valve 1201 is fixedly connected with a front circulation branch pipe 1202, one end of the front circulation branch pipe 1202 is fixedly connected with a transfer box 1203, an electric heating rod 1204 is installed in the middle of the top end of the inner side of the transfer box 1203, the input end of the electric heating rod 1204 is electrically connected with the output end of commercial power, a feeding port 1205 is arranged at one corner of the top end of the transfer box 1203, a liquid feeding port 1206 is arranged at the other corner of the top end of the transfer box 1203, and a liquid discharge pipe 1207 is;

a circulating pump 1208 is fixedly connected to the middle part of the other side of the transit box 1203 through a pipeline, the input end of the circulating pump 1208 is electrically connected to the output end of the commercial power, one end of the circulating pump 1208 is fixedly connected to a rear circulating branch pipe 1209, one end of the rear circulating branch pipe 1209 is fixedly connected to a rear sealing valve 1210, the rear sealing valve 1210 is connected to one end of the drainage pipeline 11 through a pipeline, the front sealing valve 1201 and the rear sealing valve 1210 are both in a closed state in the normal operation process of the water delivery pump 10, water and a cleaning agent are added into the transit box 1203 through the material adding port 1205 and the liquid adding port 1206, the cleaning solution prepared in the transit box 1203 is heated through the electric heating rod 1204, the cleaning solution is introduced into the drainage pipeline 11 through the rear circulating branch pipe 1209, and the cleaning solution is circulated in an independent space formed by the water guide pipe 8, the steady flow tank 9, the flow stabilizing tank 9, the water delivery pump 10 and the drainage pipeline 11 are cleaned, so that the regular maintenance and maintenance effects of the water supply equipment are effectively improved, the accumulation of dirt is avoided, and the normal operation of the water supply system is ensured;

the middle part of the outer side of the water delivery pump 10 is fixedly connected with a damping and buffering mechanism 13;

the damping and buffering mechanism 13 comprises a mounting snap ring 1301, a connecting snap groove 1302, a connecting buckle 1303, a mounting transverse pipe 1304, a rubber cushion ring 1305, a pressing spring 1306, a connecting block 1307, a transmission rod 1308, a connecting head 1309 and a rubber rod 1310;

the two sides of the middle of the outer side of the water delivery pump 10 are fixedly connected with installation clamping rings 1301, two ends of the installation clamping ring 1301 positioned on one side of the water delivery pump 10 are respectively provided with a connection clamping groove 1302, two ends of the installation clamping ring 1301 positioned on the other side of the water delivery pump 10 are respectively and fixedly connected with a connection buckle 1303, the outer side of the installation clamping ring 1301 is uniformly and fixedly connected with an installation transverse pipe 1304, one end of the installation transverse pipe 1304 is bonded with a rubber cushion ring 1305, the connection clamping grooves 1302 and the connection buckles 1303 are connected to ensure the stability of the installation clamping ring 1301, the contact positions of the installation transverse pipe 1304 and a connecting block 1307 are isolated through the action of the rubber cushion ring 1305, the connecting block 1307 is prevented from colliding with the end face of the installation transverse pipe 1304;

a compression spring 1306 is fixedly connected to one end of the inner side of the installation transverse pipe 1304, a connecting block 1307 is fixedly connected to one side of the installation transverse pipe 1304, a transmission rod 1308 is fixedly connected to the middle of one side of the connecting block 1307 and corresponds to the position of the inner side of the installation transverse pipe 1304, a connecting head 1309 is fixedly connected to one end of the transmission rod 1308, a rubber rod 1310 is fixedly connected to one end of the connecting head 1309, the connecting clamping groove 1302 and the connecting buckle 1303 are matched with each other, the connecting block 1307 is tightly attached to the outer side of the water delivery pump 10, the installation clamping rings 1301 are fixedly installed on two sides of the water delivery pump 10 through the matching of the connecting clamping groove 1302 and the connecting buckle 1303, the connecting block 1307 is tightly attached to the outer side of the water delivery pump 10 through the compression action of the installation transverse pipe 1304 and the compression spring 1306, vibration generated in the operation process of the, the energy of vibration is diffused and consumed, and the energy transmitted by the vibration is effectively weakened, so that the connecting bolt still can be subjected to pretightening force without displacement after being subjected to weak vibration, and the mounting reliability is effectively improved;

the bottom end of the outer side of the water tank shell 1 is fixedly connected with a protective storage mechanism;

the protective storage mechanism comprises a storage box 1401, a storage chute 1402, a limiting rod 1403, a climbing ladder 1404, a limiting chute 1405, a pull handle 1406, a limiting clamping groove 1407, a connecting cross bar 1408 and a hook 1409;

the middle part of the bottom end of the outer side of the water tank shell 1 is fixedly connected with an accommodating box 1401, two sides of the inner part of the accommodating box 1401 are respectively provided with an accommodating sliding groove 1402, the inner side of the accommodating sliding groove 1402 is connected with a limiting rod 1403 in a sliding way at a position corresponding to the inner part of the accommodating box 1401, the inner side of one end of the limiting rod 1403 is movably connected with a climbing ladder 1404, and the bottom parts of the two sides of the climbing ladder 1404 are respectively provided with a limiting;

a pull handle 1406 is fixedly connected to the top end of the climbing ladder 1404, limiting clamping grooves 1407 are formed in both sides of the top end of one side of the climbing ladder 1404, a connecting cross rod 1408 is welded to the position, corresponding to the top of the storage box 1401, of the top end of one side of the water tank shell 1, hooks 1409 are symmetrically welded to one side of the connecting cross rod 1408, one end of a limiting rod 1403 is matched with the storage sliding groove 1402, and the other end of the limiting rod 1403 is matched with the limiting;

couple 1409 and spacing draw-in groove 1407 mutually support, accomodate the protection to climbing ladder 1404 through containing box 1401, accomodate the process to climbing ladder 1404 through accomodating spout 1402 and gag lever post 1403 and lead, fix climbing ladder 1404 top through spacing draw-in groove 1407 and couple 1409, it is spacing to climbing ladder 1404 bottom through gag lever post 1403 and spacing spout 1405, thereby accomodate the protection to it at the idle in-process of climbing ladder 1404, prevented climbing ladder 1404 because the phenomenon that the weather-stripping takes place, improved the stability in the climbing ladder 1404 use through the fixing to climbing ladder 1404 top and bottom simultaneously, the use of climbing ladder 1404 has been optimized.

In the practical application process of the invention, during the transportation process of tap water, tap water needs to be transported into the water storage tank, the water storage tank can automatically supply water through the external ball float valve, dirt and rust can be gradually generated on the inner wall of the water storage tank during the use process of the water storage tank, the dirt and the rust can provide breeding and propagation conditions for various germs, and meanwhile, the corrosion efficiency inside the water storage tank is accelerated, during the use process of the water storage tank, the telescopic box 406 is driven to extend under the action of the electric telescopic rod 407, because the total mass of the inner wall cleaning mechanism 4 of the water tank is not changed, after the telescopic box 406 extends, the volume of the inner wall cleaning mechanism 4 of the water tank is increased, the buoyancy force borne by the inner wall cleaning mechanism 4 of the water tank is increased, so that the mounting square frame 403 and the connecting slide block 402 move upwards along the inner shell 2 of the water tank under the guide of the support guide rod 401, during, the four sides of the water tank inner shell 2 are scraped by the mounting inclined frame 404 and the rubber scraper 405, the driving inclined rod 408 is driven to swing in the upward movement process of the connecting slide block 402, an included angle between the driving inclined rod 408 and the supporting guide rod 401 is reduced along with the rotation of the driving inclined rod 408, the driving inclined rod 408 drives a quadrangle formed by the arc-shaped swing rod 409 to move along the diagonal direction, the bottom surface is further scraped by the arc-shaped scraper 410, and the telescopic box 406 is contracted by shortening the electric telescopic rod 407 after the water tank inner wall cleaning mechanism 4 runs to the top of the water tank inner shell 2, the size of the water tank inner wall cleaning mechanism 4 is reduced, the buoyancy is weakened, and the connecting slide block 402 and the mounting square frame 403 fall back to the bottom of the water tank inner shell 2 under the action of gravity, so that the cleaning of the inner wall of the water storage tank;

through the action of the rubber scraper 405 and the arc scraper 410, the inner wall of the water storage tank is scraped in the running process of the water supply equipment, so that rust on the inner wall of the water tank inner shell 2 is cleaned, dirt is prevented from being accumulated on the inner wall of the water storage tank, the corrosion speed of the water storage tank is effectively reduced, the service life of the water tank inner shell 2 is prolonged, meanwhile, germs are prevented from breeding in the water storage tank, the cleaning degree in the water storage tank is improved, tap water is prevented from forming secondary pollution in the water storage tank, and the use process of the water supply equipment is optimized;

when the connecting slider 402 and the mounting square frame 403 move to the top and the bottom of the water storage tank, in order to prevent the noise generated by the collision with the inner wall of the water storage tank or the damage to the water storage tank, through the cooperation of the mounting circular tube 411, the buffer spring 412 and the sliding column 413, the connecting sliding block 402 and the mounting square frame 403 provide buffer for the inner wall of the water storage tank when the connecting sliding block and the mounting square frame are about to collide with the inner wall of the water storage tank, thereby effectively improving the running stability of the cleaning mechanism 4 for the inner wall of the water storage tank, meanwhile, since the connecting slide block 402 scrapes the outer side of the support guide 401 during operation, and the cleaning mechanism 4 for the inner wall of the water tank can form local turbulent water flow around the cleaning mechanism during the operation process, therefore, the dirt is effectively prevented from being accumulated on each component of the water tank inner wall cleaning mechanism 4, the cleanliness of the water tank inner wall cleaning mechanism 4 in the operation process is ensured, and the use process of the water tank inner wall cleaning mechanism 4 is optimized;

after tap water is discharged from the water storage tank, although secondary pollution of bacteria bred in the water storage tank to the tap water is avoided, a small amount of untreated complete pollutants and pollutants in the rust cleaning process still exist in the tap water, after the tap water flows into the main disinfection filter tank 603 through the connecting water pipe 601 and the front three-way valve 602, the small amount of untreated complete pollutants in the sewage and the pollutants in the rust cleaning process are intercepted, filtered and collected through the activated carbon filter screen 609, the stainless steel filter screen 610 and the collection hopper 605, and the interior of the main disinfection filter tank 603 is continuously irradiated through the ultraviolet lamp tube 608, so that the bacteria are prevented from breeding in the main disinfection filter tank 603, further tap water cleaning is realized, and the cleanliness of the tap water is further improved;

in the process of replacing and cleaning the collecting hopper 605, the activated carbon filter screen 609 and the stainless steel filter screen 610, if only one disinfection filter box is connected to a water supply pipeline, the collecting hopper 605, the activated carbon filter screen 609 and the stainless steel filter screen 610 can be cleaned and replaced only by closing the whole water supply system to ensure the cleanness of tap water, the process is very complicated and urgent, through the structural design of the front three-way valve 602, the main disinfection filter box 603, the auxiliary disinfection filter box 604 and the rear three-way valve 611, a pair of independent disinfection filter boxes are connected in parallel in the water supply pipeline, the water flow can be changed from flowing through the main disinfection filter box 603 to flowing through the auxiliary disinfection filter box 604 by the matching of the front three-way valve 602 and the rear three-way valve 611 in the process of cleaning and replacing the collecting hopper 605, the activated carbon filter screen 609 and the stainless steel filter screen 610, and suitable conditions are provided for cleaning and replacing the internal components of the main disinfection filter box 603, meanwhile, sufficient time is provided for operators, the labor intensity and the psychological pressure of the operators are reduced, the cleaning and replacing effects are ensured, and the using process of the continuous disinfection and filtration mechanism 6 is optimized;

in the process of regularly overhauling and maintaining the water supply equipment for water utilities, because the internal spaces of the water guide pipe 8, the steady flow tank 9, the water delivery pump 10 and the drainage pipeline 11 are complex and cannot be effectively cleaned, the internal dirt is continuously accumulated, and the normal operation of the equipment is influenced, before the internal spaces of the water guide pipe 8, the steady flow tank 9, the water delivery pump 10 and the drainage pipeline 11 are cleaned, the valve bodies at the tail ends of the block valve 7 and the drainage pipeline 11 are closed, and the front sealing valve 1201 and the rear sealing valve 1210 are opened, so that the water guide pipe 8, the steady flow tank 9, the water delivery pump 10, the drainage pipeline 11 and the circulating cleaning structure 12 jointly form an independent space;

adding water and a cleaning agent into the transfer box 1203 through a material adding port 1205 and a liquid adding port 1206, heating the cleaning liquid prepared in the transfer box 1203 through an electric heating rod 1204, introducing the cleaning liquid into the drainage pipeline 11 through a rear circulation branch pipe 1209 under the action of a circulating pump 1208, and enabling the cleaning liquid to circulate in an independent space formed by the water guide pipe 8, the steady flow tank 9, the water delivery pump 10, the drainage pipeline 11 and the circulation cleaning structure 12, so that the cleaning of the interior of the water guide pipe 8, the steady flow tank 9, the water delivery pump 10 and the drainage pipeline 11 is realized, the effects of regular maintenance and repair of water service water supply equipment are effectively improved, the accumulation of dirt is avoided, and the normal operation of a water service water supply system is ensured;

in the running process of the water delivery pump 10, continuous vibration can be generated due to the rotation of a motor, the vibration causes the connecting bolt to continuously carry out micro displacement, in the long-term accumulation process, the connecting bolt can be loosened, if reinforcement is carried out irregularly, the phenomena of leakage at the connection part of a pipeline flange and displacement at the installation part of the water delivery pump 10 can be caused, the safety of a water service water supply system is reduced, the installation clamping rings 1301 are fixedly installed at the two sides of the water delivery pump 10 through the matching of the connecting clamping grooves 1302 and the connecting buckles 1303, the connecting blocks 1307 are more tightly attached to the outer side of the water delivery pump 10 through the pressing action of the installation transverse pipes 1304 and the pressing springs 1306, the vibration generated in the running process of the water delivery pump 10 can be transmitted to the rubber bars 1310 through the connecting blocks 1307, the transmission rods 1308 and the connecting heads 1309, and further energy of vibration is diffused and consumed, so that kinetic energy, resonance caused by errors brought by the field environment is reduced, and energy transmitted by vibration is effectively weakened, so that the connecting bolt still can be subjected to pretightening force without displacement after being subjected to weak vibration, and the mounting reliability is effectively improved;

meanwhile, the stability of the installation clamping ring 1301 is ensured by the connection of the connection clamping groove 1302 and the connection buckle 1303, the contact position of the installation transverse pipe 1304 and the connection block 1307 is isolated by the action of the rubber backing ring 1305, the connection block 1307 is prevented from colliding with the end face of the installation transverse pipe 1304 in the transmission process to generate extra noise, and the use process of the damping and buffering mechanism 13 is optimized;

the climbing ladder 1404 is stored and protected through the storage box 1401, the storage process of the climbing ladder 1404 is guided through the storage chute 1402 and the limiting rod 1403, the top of the climbing ladder 1404 is fixed through the limiting clamping groove 1407 and the hook 1409, the bottom of the climbing ladder 1404 is limited through the limiting rod 1403 and the limiting chute 1405, the climbing ladder 1404 is stored and protected in the idle process, the phenomenon that the climbing ladder 1404 ages due to wind and sunlight is prevented, and meanwhile, the stability of the climbing ladder 1404 in the use process is improved through the fixation of the top and the bottom of the climbing ladder 1404, the use of the climbing ladder 1404 is optimized.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A wisdom water utilities water supply system, including water tank shell (1), water tank inner wall clearance mechanism (4), continuous disinfection filtering mechanism (6), circulation washing structure (12), shock attenuation buffer gear (13) and protection receiving mechanism, characterized by, the overhead wall rigid coupling of transfer case (1203) of circulation washing structure (12) has two synchronous action's pneumatic lifting cylinder (1211), pneumatic lifting cylinder's output shaft (1225) and transfer case (1203) inside installation crown plate (1212) rigid coupling, mounting crown plate (1212) upper end has seted up standing groove (1213), place bottom ring (1214) in standing groove (1213), the inner wall rigid coupling of bottom ring (1214) has brush silk (1215), and the rigid coupling has a plurality of transmission section of thick bamboo (1216) on the bottom ring (1214), pass through two at least connecting rod (1226) rigid couplings between two adjacent transmission section of thick bamboo (1216), the top transmission section of thick bamboo (1216) upper end rigid coupling has the sealing ring (1217) that is located outside transfer case (1203), the outer wall of each transmission cylinder (1216) is provided with a transmission rack (1218), the top wall of the transit box (1203) is fixedly connected with a transmission motor (1219), an output shaft of the transmission motor (1219) is fixedly connected with a gear (1220), the gear (1220) can be meshed with the transmission rack (1218), the top wall of the transit box (1203) is provided with a ring hole (1221) for the transmission cylinder (1216) to pass through, the tops of two pneumatic lifting cylinders (1211) are fixedly connected with a cross rod (1222), the bottom end of the cross rod (1222) is fixedly connected with an internal thread cylinder (1223) with an opening at the bottom end, and the internal thread cylinder (1223) is sleeved with a positioning screw (1224) fixedly connected with the top end of the electric heating;

an inner water tank shell (2) is welded on the inner side of the outer water tank shell (1), an observation port (3) is formed in the middle of the top end of the outer water tank shell (1), and a cleaning mechanism (4) for the inner wall of the water tank is arranged on the inner side of the inner water tank shell (2);

the cleaning mechanism (4) for the inner wall of the water tank comprises a supporting guide rod (401), a connecting slide block (402), a mounting square frame (403), a mounting inclined frame (404), a rubber scraper (405), a telescopic box (406), an electric telescopic rod (407), a driving inclined rod (408), an arc-shaped swing rod (409), an arc-shaped scraper (410), a mounting circular tube (411), a buffer spring (412) and a sliding column (413);

a supporting guide rod (401) is fixedly connected to the position, corresponding to the middle of the top end of the observation port (3), of the top end of the water tank inner shell (2) through bolts, a connecting sliding block (402) is movably connected to the middle of the outer side of the supporting guide rod (401), a mounting square frame (403) is welded to the middle of the outer side of the connecting sliding block (402), mounting inclined frames (404) are welded to the top ends and the bottom end side portions of the mounting square frame (403), and rubber scraping plates (405) are fixedly connected to the top ends of the mounting inclined frames (404) through;

the electric telescopic rod is characterized in that the sides of the four sides inside the mounting square frame (403) are fixedly connected with telescopic boxes (406), one side inside the telescopic boxes (406) is uniformly and fixedly connected with electric telescopic rods (407), the input ends of the electric telescopic rods (407) are electrically connected with the output end of a mains supply, and the other ends of the electric telescopic rods (407) are fixedly connected with the movable end of the telescopic boxes (406);

two corners, corresponding to each other, of the bottom end of the connecting slide block (402) are rotatably connected with driving inclined rods (408) through rotating shafts, the bottom ends of the driving inclined rods (408) are rotatably connected with arc-shaped swing rods (409), and arc-shaped scraping plates (410) are fixedly connected to the middle parts of the bottom ends of the arc-shaped swing rods (409);

the four corners of the top end of the installation square frame (403) are fixedly provided with installation round pipes (411), the middle part of the inner side of each installation round pipe (411) is movably connected with a buffer spring (412), and two ends of each buffer spring (412) are fixedly connected with sliding columns (413) corresponding to the inner side positions of the installation round pipes (411);

the bottom end of the outer side of the water tank shell (1) is fixedly connected with a protective storage mechanism;

the protective storage mechanism comprises a storage box (1401), a storage chute (1402), a limiting rod (1403), a climbing ladder (1404), a limiting chute (1405), a pull handle (1406), a limiting clamping groove (1407), a connecting cross rod (1408) and a hook (1409);

the middle part of the bottom end of the outer side of the water tank shell (1) is fixedly connected with a containing box (1401), containing sliding grooves (1402) are formed in two sides of the inner part of the containing box (1401), a limiting rod (1403) is connected to the inner side of the containing sliding groove (1402) in a sliding mode at a position corresponding to the inner part of the containing box (1401), a climbing ladder (1404) is movably connected to the inner side of one end of the limiting rod (1403), and limiting sliding grooves (1405) are uniformly formed in positions, corresponding to one end of the limiting rod (1403), of the bottoms of two sides of;

the top end of the climbing ladder (1404) is fixedly connected with a pull handle (1406), two sides of the top end of one side of the climbing ladder (1404) are respectively provided with a limiting clamping groove (1407), a connecting cross rod (1408) is welded at the position, corresponding to the top of the storage box (1401), of the top end of one side of the water tank shell (1), and hooks (1409) are symmetrically welded on one side of the connecting cross rod (1408);

the middle part of the outer side of the water delivery pump (10) is fixedly connected with a damping buffer mechanism (13);

the damping and buffering mechanism (13) comprises a mounting snap ring (1301), a connecting snap groove (1302), a connecting buckle (1303), a mounting transverse pipe (1304), a rubber cushion ring (1305), a compression spring (1306), a connecting block (1307), a transmission rod (1308), a connecting head (1309) and a rubber rod (1310);

both sides of the middle part of the outer side of the water delivery pump (10) are fixedly connected with mounting snap rings (1301), both ends of the mounting snap ring (1301) positioned on one side of the water delivery pump (10) are respectively provided with a connecting clamping groove (1302), both ends of the mounting snap ring (1301) positioned on the other side of the water delivery pump (10) are respectively and fixedly connected with a connecting buckle (1303), the outer side of the mounting snap ring (1301) is uniformly and fixedly connected with a mounting transverse pipe (1304), one end of the mounting transverse pipe (1304) is bonded with a rubber backing ring (1305), one end of the inner side of the mounting transverse pipe (1304) is fixedly connected with a pressing spring (1306), one end of the mounting transverse pipe (1304) corresponds to one side of the rubber backing ring (1305) and is fixedly connected with a connecting block (1307), the middle part of one side of the connecting block (1307) corresponds to the inner side of the mounting transverse, one end of the connector (1309) is fixedly connected with a rubber rod (1310);

the connecting clamping groove (1302) is matched with the connecting buckle (1303), and the connecting block (1307) is tightly attached to the outer side of the water delivery pump (10);

a water outlet pipe (5) is welded at one corner of the bottom end of one side surface of the water tank shell (1), and one end of the water outlet pipe (5) is fixedly connected with a continuous disinfection filtering mechanism (6);

the continuous disinfection filtering mechanism (6) comprises a connecting water pipe (601), a front three-way valve (602), a main disinfection filtering box (603), an auxiliary disinfection filtering box (604), a collecting hopper (605), a pulling rod (606), a mounting lamp bracket (607), an ultraviolet lamp tube (608), an active carbon filtering net (609), a stainless steel filtering net (610) and a rear three-way valve (611);

one end of the water outlet pipe (5) is fixedly connected with a connecting water pipe (601), one end of the connecting water pipe (601) is connected to a water inlet of a front three-way valve (602), an outlet of one side of the front three-way valve (602) is connected with a main disinfection filter box (603) through a pipeline, a water outlet of the other side of the front three-way valve (602) is connected with an auxiliary disinfection filter box (604) through a pipeline, the bottom end of the inner side of the main disinfection filter box (603) is movably connected with a collecting hopper (605), four corners of the top end of the collecting hopper (605) are fixedly connected with pulling rods (606), one side of the top end of the collecting hopper (605) is fixedly provided with a mounting lamp bracket (607), the inner side of the mounting lamp bracket (607) is uniformly and fixedly connected with an;

the bottom end of the inner side of the collecting hopper (605) is symmetrically and fixedly connected with activated carbon filter screens (609) corresponding to one side of the installation lamp holder (607), the bottom end of the inner side of the collecting hopper (605) is uniformly and fixedly connected with a stainless steel filter screen (610) corresponding to the position between the two activated carbon filter screens (609), and one end of each of the main disinfection filter box (603) and the auxiliary disinfection filter box (604) is respectively connected to water outlets on two sides of the rear three-way valve (611) through a pipeline;

a water outlet at one end of the rear three-way valve (611) is connected with a cut-off valve (7) through a pipeline, one end of the cut-off valve (7) is fixedly connected with a water guide pipe (8), one end of the water guide pipe (8) is fixedly connected with a steady flow tank (9), one side of the steady flow tank (9) is uniformly and fixedly connected with a water delivery pump (10) through a pipeline, the input end of the water delivery pump (10) is electrically connected with the output end of a mains supply, and one end of the water delivery pump (10) is connected with a drainage pipeline (11);

one side of the water guide pipe (8) is fixedly connected with a circulating cleaning structure (12);

the circulating cleaning structure (12) comprises a front sealing valve (1201), a front circulating branch pipe (1202), a transfer box (1203), an electric heating rod (1204), a feeding port (1205), a liquid feeding port (1206), a liquid discharging pipe (1207), a circulating pump (1208), a rear circulating branch pipe (1209) and a rear sealing valve (1210);

one side of the water guide pipe (8) is fixedly connected with a front sealing valve (1201) through a pipeline, one end of the front sealing valve (1201) is fixedly connected with a front circulating branch pipe (1202), one end of the front circulating branch pipe (1202) is fixedly connected with a middle rotating box (1203), an electric heating rod (1204) is installed in the middle of the top end of the inner side of the middle rotating box (1203), the input end of the electric heating rod (1204) is electrically connected with the output end of commercial power, a material adding port (1205) is formed in one corner of the top end of the middle rotating box (1203), a liquid adding port (1206) is formed in the other corner of the top end of the middle rotating box (1203), and a liquid discharge pipe (1207) is fixedly connected to;

the middle of the other side of the transit box (1203) is fixedly connected with a circulating pump (1208) through a pipeline, the input end of the circulating pump (1208) is electrically connected with the output end of a mains supply, one end of the circulating pump (1208) is fixedly connected with a rear circulating branch pipe (1209), and one end of the rear circulating branch pipe (1209) is fixedly connected with a rear sealing valve (1210).

2. The intelligent water service water supply system according to claim 1, wherein a supporting diagonal rod is uniformly welded at a gap between the outer tank shell (1) and the inner tank shell (2), and heat insulation cotton is filled in a cavity between the outer tank shell (1) and the inner tank shell (2);

the rubber scraper (405) is tightly attached to the inner wall of the water tank inner shell (2), the four arc-shaped swing rods (409) form a deformable quadrangle together, and the driving inclined rods (408) are connected to two ends of a diagonal line of the quadrangle;

the installation pipe (411) inner wall is hugged closely in slip post (413) outside, be sliding connection between slip post (413) and installation pipe (411), the maximum distance of two terminal surfaces of slip post (413) is greater than link block (402)'s thickness, the thickness of flexible box (406) is the same with link block (402)'s thickness.

3. The intelligent water service water supply system as claimed in claim 2, wherein four sides of the collecting hopper (605) are closely attached to the inner side of the main disinfection filter box (603), two sides and top ends of the activated carbon filter screen (609) and the stainless steel filter screen (610) are closely attached to the inner wall of the main disinfection filter box (603), and the internal structures of the main disinfection filter box (603) and the auxiliary disinfection filter box (604) are the same.

4. The intelligent water service water supply system according to claim 3, wherein the rear sealing valve (1210) is connected to one end of the drainage pipeline (11) through a pipeline, and the front sealing valve (1201) and the rear sealing valve (1210) are both in a closed state during normal operation of the water delivery pump (10).

5. The intelligent water service water supply system according to claim 4, wherein one end of the limiting rod (1403) is matched with the receiving chute (1402), and the other end of the limiting rod (1403) is matched with the limiting chute (1405); the hook (1409) is matched with the limit clamping groove (1407).