阅读说明：本技术 一种智能化远程监控供水系统 (Intelligent remote monitoring water supply system ) 是由 高鑫 于 2020-06-09 设计创作，主要内容包括：本发明公开一种智能化远程监控供水系统,包括固定底架、储水桶、过滤棒与旋转框架,所述储水桶固定安装在固定底架的上部,所述旋转框架活动安装在储水桶的内部,所述旋转框架的一端外表面中部位置固定安装有旋转接头,且旋转框架的另一端外表面中部位置固定安装有对接卡销,所述旋转框架和储水桶之间通过旋转接头和对接卡销活动连接,所述旋转框架的外表面靠近旋转接头和对接卡销的两侧均活动套接有第一刷杆,所述旋转框架的外表面靠近第一刷杆的一侧活动套接有第二刷杆；使得该智能化远程监控供水系统具有旋转清理结构,降低使用者操作步骤,令其内部清理操作更加便捷,同时令其具有循环过滤结构,提升其使用效果。(The invention discloses an intelligent remote monitoring water supply system, which comprises a fixed underframe, a water storage barrel, a filter rod and a rotating frame, wherein the water storage barrel is fixedly arranged at the upper part of the fixed underframe; make this intelligent remote monitoring water supply system have rotatory clearance structure, reduce user's operating procedure, make its inside clearance operation more convenient, make it have the circulation filtration structure simultaneously, promote its result of use.)

1. The utility model provides an intelligent remote monitoring water supply system, a serial communication port, including fixed chassis (4), water storage bucket (11), filter rod (8) and revolving frame (18), water storage bucket (11) fixed mounting is on the upper portion of fixed chassis (4), revolving frame (18) movable mounting is in the inside of water storage bucket (11), revolving joint (22) are fixed to the one end surface middle part position of revolving frame (18), and the other end surface middle part position fixed mounting of revolving frame (18) has butt joint bayonet lock (24), through revolving joint (22) and butt joint bayonet lock (24) swing joint between revolving frame (18) and water storage bucket (11), the surface of revolving frame (18) is close to revolving joint (22) and the equal activity in both sides of butt joint bayonet lock (24) and has cup jointed first brush-holder (16), one side activity that the surface of revolving frame (18) is close to first brush-holder (16) has cup jointed second brush-holder (17) ) The utility model discloses a brush holder, all through axis of rotation (21) swing joint between first brush-holder stud (16), second brush-holder stud (17) and rotating frame (18), the inside of rotating frame (18) is close to rotary joint (22) and the equal activity in both sides of butt joint bayonet lock (24) and has cup jointed first flexible pipe (27), and the inside of rotating frame (18) is close to one side activity of first flexible pipe (27) and has cup jointed the flexible pipe (29) of second, the equal fixed mounting of one end surface of first flexible pipe (27) and the flexible pipe (29) of second has spacing dop (30), the surface four corners department of rotating frame (18) all is equipped with cambered surface R angle (28).

2. The intelligent remote monitoring water supply system according to claim 1, wherein the outer surface of the side edge of the rotating frame (18) is of a circular structure, a first clamping groove (26) is formed in the inner side of one end of the butt clamping pin (24), a limiting clamping bolt (25) is fixedly sleeved on the inner side of the first clamping groove (26), the whole structure of the water storage barrel (11) is of a cylindrical hollow structure, a first clamping seat (20) is fixedly installed on the outer surface of one end of the water storage barrel (11), a second clamping seat (15) is fixedly installed on the outer surface of the other end of the water storage barrel (11), and the water storage barrel (11) and the fixed chassis (4) are fixedly connected through the first clamping seat (20) and the second clamping seat (15).

3. The intelligent remote monitoring water supply system according to claim 1, wherein a motor (19) is fixedly installed at a middle position of one end of the water storage barrel (11), a water inlet pipe (12) is fixedly sleeved on an inner surface of one end of the water storage barrel (11), a water outlet pipe (13) is fixedly sleeved on one side, close to the water inlet pipe (12), of the inner surface of one end of the water storage barrel (11), a sealing top cover (10) is fixedly installed at a middle position of an upper portion of the water storage barrel (11), and the water storage barrel (11) and the sealing top cover (10) are fixedly connected through a bolt.

4. The intelligent remote monitoring water supply system according to claim 1, wherein a first inclined rod (3) is fixedly installed on the inner side of the fixed underframe (4), a second inclined rod (5) is fixedly installed on the inner side of the fixed underframe (4) close to the upper part of the first inclined rod (3), and a telescopic square pipe (14) is movably sleeved on the inner side of the bottom of the fixed underframe (4).

5. The intelligent remote monitoring water supply system according to claim 1, wherein a filter rod (8) is arranged at the other end of the water storage barrel (11), the upper end and the lower end of the filter rod (8) are in through connection with the water storage barrel (11) through a circulating connection pipe (6), and a water pump (9) is arranged between the water storage barrel (11) and the filter rod (8).

6. The intelligent remote monitoring water supply system according to claim 4, wherein the second inclined rod (5), the first inclined rod (3) and the fixed chassis (4) are fixed by welding, four groups of supporting foot pads (1) are fixedly arranged on the outer surface of the bottom of the fixed chassis (4), the fixed chassis (4) and the supporting foot pads (1) are fixedly connected by bolts, the inner side of the fixed chassis (4) is fixedly arranged on the lower portion of the water storage barrel (11) close to the water storage barrel (11) and is provided with a booster pump (2), and the booster pump (2) and the water storage barrel (11) are connected by a communicating pipe.

7. The intelligent remote monitoring water supply system according to claim 1, wherein a lateral rotation clamping column (7) is movably mounted on the inner side of the filter rod (8), the filter rod (8) and the lateral rotation clamping column (7) are movably connected through a connecting rotating shaft (37), a filter element (34) is fixedly mounted inside the lateral rotation clamping column (7), a fixed clamping ring (35) is fixedly mounted on the inner side of the lateral rotation clamping column (7) close to the upper end of the filter element (34), and a second screen plate (36) is fixedly mounted on the inner side of the fixed clamping ring (35).

8. The intelligent remote monitoring water supply system according to claim 1, wherein a first net plate (31) is fixedly mounted at both ends of the interior of the filter rod (8) close to the lateral rotation clamping columns (7), the cross sections of the first net plate (31) and the second net plate (36) are circular structures, a butt joint buckle (39) is fixedly mounted at the middle position of the inner surface of the filter rod (8), a second clamping groove (33) is formed in the middle position of the inner side of the lateral rotation clamping columns (7), and the filter rod (8) is butt-jointed and fixed through the butt joint buckle (39) and the second clamping groove (33).

9. The intelligent remote monitoring water supply system according to claim 1, wherein the middle positions of the outer surfaces of the two ends of the filter rod (8) are fixedly provided with butt joint clamping pipes (32), the inner surfaces of the side edges of the butt joint clamping pipes (32) are fixedly sleeved with positioning clamping pins (38), the filter rod (8) is fixedly butted and connected with the circulating connection pipe (6) through the butt joint clamping pipes (32), and the circulating connection pipe (6) is provided with two groups of valves.

10. The intelligent remote monitoring water supply system according to claim 1, wherein the water supply system is characterized by comprising the following specific using operation steps:

the method comprises the steps that firstly, a water inlet pipe (12) of a water storage barrel (11) is in butt joint with an external water pipe, water is guided into the water storage barrel (11) through the water inlet pipe (12), after the water inlet pipe (12) is closed, a water pump (9) is started, the water in the water storage barrel (11) is pumped out through the water pump (9), the water penetrates through a filter element (34) of a filter stick (8) through a circulating connection pipe (6), the water filtered by the filter element (34) is poured into the water storage barrel (11) again through the circulating connection pipe (6), and the water in the water storage barrel (11) is pumped out through matching with a water outlet pipe (13);

step two, after the water in the water storage barrel (11) is emptied, a user starts the motor (19) at one end of the water storage barrel (11), so that the electric motor (19) drives the rotating frame (18) by matching with the butt bayonet (24) of the connecting collar (23), and a rotating joint (22) at one end of the rotating frame (18), so that the rotating frame (18) rotates in the water storage barrel (11), the second brush rod (17) of the rotating frame (18) contacts with the side wall of the water storage barrel (11) when the rotating frame (18) rotates, meanwhile, when the rotating frame (18) rotates, the first brush rod (16) of the rotating frame (18) is contacted with the two end surfaces of the water storage barrel (11), the second brush rod (17) and the first brush rod (16) clean the interior of the water storage barrel (11), and after clean water is filled into the water storage barrel (11), stains are discharged from the water outlet pipe (13);

and thirdly, rotating the side rotary clamping column (7) by using the connecting rotating shaft (37) to draw the side rotary clamping column (7) out of the filter rod (8), opening the fixed clamping ring (35) at one end of the side rotary clamping column (7), taking the filter element (34) out of the side rotary clamping column (7), closing the fixed clamping ring (35) after replacing the filter element (34), pushing the side rotary clamping column (7) into the filter rod (8) again, and fixing the side rotary clamping column (7) by using the second clamping groove (33) to be matched with the butt joint buckle (39).

Technical Field

The invention belongs to the technical field of water supply systems, and particularly relates to an intelligent remote monitoring water supply system.

Background

This intelligent remote monitoring water supply system is one kind can be through internet monitoring mode, carries out the water supply system who monitors the operation to water supply system's inflow and displacement with change remote monitoring function.

The reference CN203782804U discloses a water supply system, which mainly aims to provide a water supply system capable of supplying water smoothly. The utility model discloses water supply system includes variable frequency speed control constant voltage water supply equipment, water supply network and water tower, variable frequency speed control constant voltage water supply equipment includes the constant voltage frequency converter, be equipped with liquid level probe and liquid level relay in the water tower, the water supply network with the outlet conduit of water tower communicates with each other, water storage in the water tower, works as when the pressure of water supply network reduces, water in the water tower is followed the outlet conduit of water tower flows down, gets into the water supply network, increases the pressure of water supply network makes the pressure of water supply network keeps stable state, compares with the invention, and it does not have rotatory clean structure, after long-time the use of water supply system, needs to clear up the maintenance operation to it.

The existing intelligent remote monitoring water supply system has certain defects in the using process, the traditional intelligent remote monitoring water supply system does not have a rotary cleaning structure, when the intelligent remote monitoring water supply system is used for a long time, a user needs to clean an internal water storage structure of the intelligent remote monitoring water supply system in a manual cleaning mode, the traditional cleaning mode is poor in cleaning effect, the cleaning operation cannot be performed on dead corners of the water supply system, and the functionality of the water supply system is reduced; meanwhile, the traditional intelligent remote monitoring water supply system does not have a telescopic adjusting structure, so that the traditional intelligent remote monitoring water supply system cannot clean water storage tanks with different structures, and the application range of the traditional intelligent remote monitoring water supply system is reduced; meanwhile, the traditional intelligent remote monitoring water supply system does not have a circulating filter structure, and can not perform circulating filter operation on the water body inside the system, so that the using effect of the intelligent remote monitoring water supply system is reduced, and certain adverse effect is brought to a user.

Disclosure of Invention

In order to overcome the defect that the traditional intelligent remote monitoring water supply system does not have a rotary cleaning structure, when the intelligent remote monitoring water supply system is used for a long time, a user needs to clean an internal water storage structure of the intelligent remote monitoring water supply system in a manual cleaning mode, the traditional cleaning mode is poor in cleaning effect, the cleaning operation cannot be performed on dead corners of the water supply system, and the functionality of the water supply system is reduced; meanwhile, the traditional intelligent remote monitoring water supply system does not have a telescopic adjusting structure, so that the traditional intelligent remote monitoring water supply system cannot clean water storage tanks with different structures, and the application range of the traditional intelligent remote monitoring water supply system is reduced; meanwhile, the traditional intelligent remote monitoring water supply system does not have a circulating filter structure, and can not perform circulating filter operation on the internal water body, so that the using effect of the intelligent remote monitoring water supply system is reduced, and the intelligent remote monitoring water supply system is provided.

The purpose of the invention is realized by the following technical scheme:

an intelligent remote monitoring water supply system comprises a fixed chassis, a water storage barrel, a filter rod and a rotating frame, wherein the water storage barrel is fixedly arranged on the upper part of the fixed chassis, the rotating frame is movably arranged in the water storage barrel, a rotary joint is fixedly arranged at the middle position of the outer surface of one end of the rotating frame, a butt joint clamping pin is fixedly arranged at the middle position of the outer surface of the other end of the rotating frame, the rotating frame and the water storage barrel are movably connected through the rotary joint and the butt joint clamping pin, a first brush rod is movably sleeved on the outer surface of the rotating frame close to the rotary joint and the two sides of the butt joint clamping pin, a second brush rod is movably sleeved on one side of the outer surface of the rotating frame close to the first brush rod, the second brush rod and the rotating frame are movably connected through a rotating shaft, a first telescopic pipe is movably sleeved on the inner part of the rotating frame close to the rotary, and a second telescopic pipe is movably sleeved at one side, close to the first telescopic pipe, in the rotating frame, limiting chucks are fixedly mounted on the outer surfaces of one ends of the first telescopic pipe and the second telescopic pipe, and arc-surface R angles are arranged at four corners of the outer surface of the rotating frame.

As a further technical scheme of the present invention, the outer surface of the side edge of the rotating frame is a circular structure, the inner side of one end of the butt joint bayonet lock is provided with a first clamping groove, the inner side of the first clamping groove is fixedly sleeved with a limit bayonet lock, the whole structure of the water storage barrel is a cylindrical hollow structure, the outer surface of one end of the water storage barrel is fixedly provided with a first clamping seat, the outer surface of the other end of the water storage barrel is fixedly provided with a second clamping seat, and the water storage barrel and the fixed bottom frame are fixedly connected through the first clamping seat and the second clamping seat.

As a further technical scheme of the invention, the motor is fixedly arranged in the middle of one end of the water storage barrel, the water inlet pipe is fixedly sleeved on the inner surface of one end of the water storage barrel, the water outlet pipe is fixedly sleeved on one side of the inner surface of one end of the water storage barrel, which is close to the water inlet pipe, the sealing top cover is fixedly arranged in the middle of the upper portion of the water storage barrel, and the water storage barrel and the sealing top cover are fixedly connected through bolts.

As a further technical scheme of the invention, a first inclined rod is fixedly arranged on the inner side of the fixed underframe, a second inclined rod is fixedly arranged on the inner side of the fixed underframe close to the upper part of the first inclined rod, and a telescopic square pipe is movably sleeved on the inner side of the bottom of the fixed underframe.

As a further technical scheme of the invention, the other end of the water storage barrel is provided with a filter rod, the upper end and the lower end of the filter rod are communicated with the water storage barrel through a circulating connection pipe, and a water pump is arranged between the water storage barrel and the filter rod.

As a further technical scheme of the invention, the second inclined rod, the first inclined rod and the fixed underframe are fixed by welding, four groups of supporting foot pads are fixedly arranged on the outer surface of the bottom of the fixed underframe, the fixed underframe and the supporting foot pads are fixedly connected by clamping bolts, a booster pump is fixedly arranged on the inner side of the fixed underframe close to the lower part of the water storage barrel, and the booster pump and the water storage barrel are in through connection by a communicating pipe.

As a further technical scheme of the invention, a side rotary clamping column is movably arranged on the inner side of the filter rod, the filter rod and the side rotary clamping column are movably connected through a connecting rotating shaft, a filter element is fixedly arranged in the side rotary clamping column, a fixed clamping ring is fixedly arranged on the inner side of the side rotary clamping column close to the upper end of the filter element, and a second screen plate is fixedly arranged on the inner side of the fixed clamping ring.

As a further technical scheme of the invention, the two ends of the interior of the filter rod, which are close to the side rotary clamping columns, are fixedly provided with the first screen plate, the cross sections of the first screen plate and the second screen plate are both circular structures, the middle part of the inner surface of the filter rod is fixedly provided with the butt joint buckle, the middle part of the inner side of the side rotary clamping columns is provided with the second clamping groove, and the filter rod is butt-jointed and fixed with the second clamping groove through the butt joint buckle.

As a further technical scheme of the invention, the middle positions of the outer surfaces of the two ends of the filter rod are fixedly provided with butt joint clamping pipes, the inner surfaces of the side edges of the butt joint clamping pipes are fixedly sleeved with positioning clamping pins, the filter rod is fixedly butted with a circulating connection pipe through the butt joint clamping pipes, and the circulating connection pipe is provided with two groups of valves.

As a further technical scheme of the invention, the water supply system comprises the following specific using operation steps:

the method comprises the following steps that firstly, a water inlet pipe of a water storage barrel is butted with an external water pipe, water is guided into the water storage barrel through the water inlet pipe, a water pump is started after the water inlet pipe is closed, the water in the water storage barrel is pumped out through the water pump, the water penetrates through a filter element of a filter stick through a circulating connection pipe, the water filtered by the filter element is poured into the water storage barrel through the circulating connection pipe again, and the water in the water storage barrel is pumped out through matching with a water outlet pipe;

step two, after the water in the water storage barrel is emptied, a user starts the motor at one end of the water storage barrel to enable the motor to be matched with the butt joint bayonet lock of the connecting sleeve ring to drive the rotating frame, the rotating joint at one end of the rotating frame is utilized to enable the rotating frame to rotate in the water storage barrel, the second brush rod of the rotating frame is in contact with the side wall of the water storage barrel when the rotating frame rotates, meanwhile, the first brush rod of the rotating frame is in contact with the two end faces of the water storage barrel when the rotating frame rotates, the second brush rod and the first brush rod clean the interior of the water storage barrel, and after clean water is filled into the water storage barrel, stains are discharged from a water outlet pipe;

and step three, rotating the side rotary clamping column by using the connecting rotating shaft, so that the side rotary clamping column is drawn out from the filter stick, opening the fixed clamping ring at one end of the side rotary clamping column, taking the filter element out of the side rotary clamping column, closing the fixed clamping ring after replacing the filter element, pushing the side rotary clamping column into the filter stick again, and fixing the side rotary clamping column by using the second clamping groove to match with the butt joint buckle.

The invention has the beneficial effects that:

1. by arranging the rotating frame, the rotating frame is arranged in the water storage barrel, when the water storage barrel of the intelligent remote monitoring water supply system is used for a long time, a user can empty the water in the water storage barrel, then the motor at one end of the water storage barrel is started, the motor is matched with the butt joint clamping pin of the connecting sleeve ring to drive the rotating frame to rotate, meanwhile, the rotating joint at one end of the rotating frame is utilized to enable the rotating frame to rotate at a fixed position in the water storage barrel, the second brush rod of the rotating frame is contacted with the side wall of the water storage barrel when the rotating frame rotates, the side wall of the water storage barrel is cleaned by utilizing the friction between the second brush rod and the side wall of the water storage barrel, and meanwhile, when the rotating frame rotates, the first brush rod of the rotating frame is contacted with the two end faces of the water storage barrel, so that the first brush rod is rubbed with the two end faces in the, clear up the both ends face in the water storage bucket, through second brush-holder stud and first brush-holder stud cooperation rotating frame's rotation, carry out comprehensive clearance operation to the inside of water storage bucket, the clearance dead angle appears in avoiding the water storage bucket, after pouring into the clear water into the water storage bucket simultaneously, discharge the spot from the outlet pipe, utilize rotating frame's setting, make this intelligent remote monitoring water supply system have rotatory clearance structure, make it carry out inside clearance operation to the water storage bucket of columnar structure, promote its result of use.

2. Through setting up first flexible pipe and the flexible pipe of second, when the user need install this revolving frame in the water storage bucket of different diameters when clearing up the operation, the user can take first flexible pipe and the flexible pipe of second out of the way from revolving frame through four limits that stimulate revolving frame, utilize the length and the width of the flexible pipe extension revolving frame of first flexible pipe and second, adjust revolving frame's whole size, utilize revolving frame after the adjustment can install and clear up the operation in the water storage bucket of different degree of depth and different diameters, the use to revolving frame can be optimized in the setting up of utilizing first flexible pipe and the flexible pipe of second, the flexibility ratio when promotion revolving frame uses.

3. By arranging the lateral rotation clamping column and the filter stick, when the intelligent remote monitoring water supply system carries out water storage operation, a user can draw out water in the water storage barrel by using the water pump, so that the water passes through the filter element of the filter stick through the circulating connection pipe, impurities in the water are filtered by the filter element, the water filtered by the filter element is poured into the water storage barrel again by using the circulating connection pipe matched with the water pump, so that the intelligent remote monitoring water supply system has a circulating filtering structure, the lateral rotation clamping column is rotated by using the connecting rotating shaft, so that the lateral rotation clamping column is drawn out of the filter stick, the fixed clamping ring at one end of the lateral rotation clamping column is opened, the filter element can be taken out of the lateral rotation clamping column, the filter element is convenient to replace by the user, after the filter element is replaced, the fixed clamping ring is closed, the lateral rotation clamping column is pushed into the filter stick again, and the butt joint, fix the card post is revolved to the side, through the setting of card post and filter rod is revolved to the side for this intelligent remote monitoring water supply system has circulating filter structure, promotes its result of use.

4. Through setting up flexible side's pipe, when the user need install the not water storage bucket of equidimension to this intelligent remote monitoring water supply system, the user can take flexible side's pipe out from fixed chassis through the both sides of the fixed chassis of pulling, utilizes the use length of the fixed chassis of flexible side's pipe adjustment to make and to install the not water storage bucket of equidimension on the fixed chassis, promote the flexibility ratio when this intelligent remote monitoring water supply system uses.

Drawings

The invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic diagram of the overall structure of an intelligent remote monitoring water supply system according to the invention.

Fig. 2 is an overall structure diagram of a fixed chassis of an intelligent remote monitoring water supply system according to the invention.

Fig. 3 is an internal structure view of a water storage tank of an intelligent remote monitoring water supply system according to the present invention.

Fig. 4 is an overall structural view of an intelligent remote monitoring water supply system rotating frame according to the present invention.

Fig. 5 is a partial block diagram of a rotating frame of an intelligent remote monitoring water supply system according to the present invention.

Fig. 6 is an overall structure diagram of an intelligent remote monitoring water supply system filter stick according to the invention.

In the figure: 1. supporting the foot pad; 2. a booster pump; 3. a first diagonal member; 4. fixing the underframe; 5. a second diagonal member; 6. circularly taking over; 7. laterally rotating the clamping column; 8. a filter rod; 9. a water pump; 10. sealing the top cover; 11. a water storage barrel; 12. a water inlet pipe; 13. a water outlet pipe; 14. a telescopic square tube; 15. a second card holder; 16. a first brush bar; 17. a second brush bar; 18. a rotating frame; 19. an electric motor; 20. a first card holder; 21. a rotating shaft; 22. a rotary joint; 23. a connecting lantern ring; 24. butting the clamping pins; 25. a limiting clamping bolt; 26. a first card slot; 27. a first telescopic tube; 28. an arc surface R angle; 29. a second telescopic tube; 30. a limiting chuck; 31. a first screen plate; 32. butting and clamping the pipes; 33. a second card slot; 34. a filter element; 35. fixing the snap ring; 36. a second screen plate; 37. connecting the rotating shaft; 38. positioning the bayonet lock; 39. and (6) butting the buckles.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-6, an intelligent remote monitoring water supply system comprises a fixed chassis 4, a water storage bucket 11, a filter rod 8 and a rotating frame 18, wherein the water storage bucket 11 is fixedly installed on the upper portion of the fixed chassis 4, the rotating frame 18 is movably installed inside the water storage bucket 11, a rotary joint 22 is fixedly installed at the middle position of the outer surface of one end of the rotating frame 18, a butt joint bayonet lock 24 is fixedly installed at the middle position of the outer surface of the other end of the rotating frame 18, the rotating frame 18 and the water storage bucket 11 are movably connected through the rotary joint 22 and the butt joint bayonet lock 24, a first brush rod 16 is movably sleeved on the outer surface of the rotating frame 18 at two sides close to the rotary joint 22 and the butt joint bayonet lock 24, a second brush rod 17 is movably sleeved on one side of the outer surface of the rotating frame 18 close to the first brush rod 16, the second brush rod 17 and the rotating frame, the two sides of the inside of the rotating frame 18 close to the rotating joint 22 and the butt joint bayonet 24 are movably sleeved with a first extension tube 27, one side of the inside of the rotating frame 18 close to the first extension tube 27 is movably sleeved with a second extension tube 29, the outer surfaces of one ends of the first extension tube 27 and the second extension tube 29 are fixedly provided with limit chucks 30, and the four corners of the outer surface of the rotating frame 18 are provided with arc-shaped R corners 28.

The side surface of revolving frame 18 is circular structure, first draw-in groove 26 has been seted up to the one end inboard of butt joint bayonet lock 24, and spacing bayonet catch 25 has been cup jointed to the inboard fixed of first draw-in groove 26, the overall structure of water storage bucket 11 is cylinder hollow structure, and the one end external surface fixed mounting of water storage bucket 11 has first cassette 20, and the other end external surface fixed mounting of water storage bucket 11 has second cassette 15, through first cassette 20 and second cassette 15 fixed connection between water storage bucket 11 and the fixed chassis 4, install the water gauge that the model is south major DTSY1834 on outlet pipe 13, utilize this water gauge can make the user carry out remote monitoring to this water supply system, make it use more intelligent.

The one end middle part fixed mounting of water storage bucket 11 has motor 19, and the one end internal surface of water storage bucket 11 is fixed to be cup jointed inlet tube 12, and the one side fixed hub that the one end internal surface of water storage bucket 11 is close to inlet tube 12 has outlet pipe 13, and the upper portion intermediate position fixed mounting of water storage bucket 11 has seal cap 10, and passes through bolt fixed connection between water storage bucket 11 and the seal cap 10.

The inboard fixed mounting of fixed chassis 4 has first down tube 3, and the inboard upper portion fixed mounting who is close to first down tube 3 of fixed chassis 4 has second down tube 5, and the inboard activity in bottom of fixed chassis 4 has cup jointed flexible square tube 14, utilizes second down tube 5 and first down tube 3 to play the reinforcement to fixed chassis 4.

The other end of the water storage barrel 11 is provided with a filter rod 8, the upper end and the lower end of the filter rod 8 are connected with the water storage barrel 11 through a circulating connection pipe 6, and a water pump 9 is arranged between the water storage barrel 11 and the filter rod 8.

Second down tube 5, all through welded fastening between first down tube 3 and the fixed chassis 4, and the bottom fixed surface of fixed chassis 4 installs four groups and supports callus on the sole 1, fixed chassis 4 with support through the gim peg fixed connection between the callus on the sole 1, utilize and support callus on the sole 1 and avoid 4 bottoms of fixed chassis to appear the phenomenon of skidding, the inboard lower part fixed mounting that is close to water storage bucket 11 of fixed chassis 4 has booster pump 2, and through communicating pipe through connection between booster pump 2 and the water storage bucket 11.

The side rotary clamping column 7 is movably mounted on the inner side of the filter rod 8, the filter rod 8 and the side rotary clamping column 7 are movably connected through a connecting rotating shaft 37, a filter element 34 is fixedly mounted inside the side rotary clamping column 7, a fixed clamping ring 35 is fixedly mounted on the inner side of the side rotary clamping column 7 close to the upper end of the filter element 34, and a second screen plate 36 is fixedly mounted on the inner side of the fixed clamping ring 35.

The inside of filter rod 8 is close to the equal fixed mounting in both ends of side soon card post 7 has first otter board 31, and the cross section of first otter board 31 and second otter board 36 is circular structure, and the internal surface middle part fixed mounting of filter rod 8 has butt joint buckle 39, and second draw-in groove 33 has been seted up to the inboard middle part position of side soon card post 7, and filter rod 8 is fixed through butt joint buckle 39 and second draw-in groove 33 butt joint, and filter rod 8 utilizes filter core 34 can play the filter effect to the water.

The middle positions of the outer surfaces of the two ends of the filter rod 8 are fixedly provided with butt joint clamping pipes 32, the inner surfaces of the side edges of the butt joint clamping pipes 32 are fixedly sleeved with positioning clamping pins 38, the filter rod 8 is fixedly butted with the circulation connecting pipe 6 through the butt joint clamping pipes 32, the circulation connecting pipe 6 is provided with two groups of valves, and the valves can be used for controlling the use of the circulation connecting pipe 6.

The water supply system comprises the following specific using operation steps:

step one, a water inlet pipe 12 of a water storage barrel 11 is butted with an external water pipe, water is guided into the water storage barrel 11 through the water inlet pipe 12, after the water inlet pipe 12 is closed, a water pump 9 is started, the water in the water storage barrel 11 is pumped out through the water pump 9, the water passes through a filter element 34 of a filter stick 8 through a circulating connection pipe 6, the water filtered by the filter element 34 is poured into the water storage barrel 11 again through the circulating connection pipe 6, and the water in the water storage barrel 11 is pumped out through matching with a water outlet pipe 13;

step two, after the water in the water storage barrel 11 is emptied, a user starts the motor 19 at one end of the water storage barrel 11 to enable the motor 19 to be matched with the butting bayonet 24 of the connecting sleeve ring 23 to drive the rotating frame 18, the rotating joint 22 at one end of the rotating frame 18 is utilized to enable the rotating frame 18 to rotate in the water storage barrel 11, the second brush rod 17 of the rotating frame 18 is in contact with the side wall of the water storage barrel 11 when the rotating frame 18 rotates, meanwhile, the first brush rod 16 of the rotating frame 18 is in contact with two end faces of the water storage barrel 11 when the rotating frame 18 rotates, so that the second brush rod 17 and the first brush rod 16 clean the inside of the water storage barrel 11, and after clean water is filled into the water storage barrel 11, stains are discharged from the water outlet pipe 13;

and step three, rotating the side rotary clamping column 7 by using the connecting rotating shaft 37, drawing the side rotary clamping column 7 out of the filter rod 8, opening the fixed clamping ring 35 at one end of the side rotary clamping column 7, taking the filter element 34 out of the side rotary clamping column 7, closing the fixed clamping ring 35 after replacing the filter element 34, pushing the side rotary clamping column 7 into the filter rod 8 again, and fixing the side rotary clamping column 7 by using the second clamping groove 33 to be matched with the butt joint buckle 39.

The invention aims to provide an intelligent remote monitoring water supply system, wherein a rotating frame 18 is arranged in a water storage barrel 11, after the water storage barrel 11 of the intelligent remote monitoring water supply system is used for a long time, a user can empty the water in the water storage barrel 11, then a motor 19 at one end of the water storage barrel 11 is started, the motor 19 is matched with a butt joint bayonet 24 of a connecting sleeve ring 23 to drive the rotating frame 18 to rotate, meanwhile, a rotating joint 22 at one end of the rotating frame 18 is used to enable the rotating frame 18 to rotate at a fixed position in the water storage barrel 11, a second brush rod 17 of the rotating frame 18 is contacted with the side wall of the water storage barrel 11 when the rotating frame 18 rotates, the side wall of the water storage barrel 11 is cleaned by utilizing the friction between the second brush rod 17 and the side wall of the water storage barrel 11, and when the rotating frame 18 rotates, the first brush rod 16 of the rotating frame 18 is in contact with two end faces of the water storage barrel 11, so that the first brush rod 16 rubs with the two end faces in the water storage barrel 11, the two end faces in the water storage barrel 11 are cleaned, the second brush rod 17 and the first brush rod 16 are matched with the rotating frame 18 to rotate, the inside of the water storage barrel 11 is comprehensively cleaned, cleaning dead corners in the water storage barrel 11 are avoided, clean water is filled into the water storage barrel 11, stains are discharged from the water outlet pipe 13, and the intelligent remote monitoring water supply system is provided with a rotating cleaning structure by utilizing the arrangement of the rotating frame 18, so that the intelligent remote monitoring water supply system can perform internal cleaning operation on the water storage barrel 11 with a cylindrical structure, and the using effect of the intelligent remote monitoring water supply system is improved;

by arranging the first extension tube 27 and the second extension tube 29, when a user needs to install the rotating frame 18 in the water storage buckets 11 with different diameters for cleaning operation, the user can pull the four sides of the rotating frame 18 to draw the first extension tube 27 and the second extension tube 29 out of the rotating frame 18, the length and the width of the rotating frame 18 are prolonged by using the first extension tube 27 and the second extension tube 29, the whole size of the rotating frame 18 is adjusted, the adjusted rotating frame 18 can be installed in the water storage buckets 11 with different depths and different diameters for cleaning operation, the use of the rotating frame 18 can be optimized by using the arrangement of the first extension tube 27 and the second extension tube 29, and the flexibility of the rotating frame 18 in use is improved;

by arranging the side spin clamp column 7 and the filter stick 8, when the intelligent remote monitoring water supply system performs water storage operation, a user can draw out water in the water storage barrel 11 by using the water pump 9, so that the water passes through the filter element 34 of the filter stick 8 through the circulating connection pipe 6, impurities in the water are filtered by the filter element 34, the water filtered by the filter element 34 is poured into the water storage barrel 11 again by using the circulating connection pipe 6 in cooperation with the water pump 9, so that the intelligent remote monitoring water supply system has a circulating filtering structure, meanwhile, the side spin clamp column 7 is rotated by using the connecting rotating shaft 37, so that the side spin clamp column 7 is drawn out from the filter stick 8, the fixed clamp ring 35 at one end of the side spin clamp column 7 is opened, the filter element 34 can be taken out from the side spin clamp column 7, the user can replace the filter element 34 conveniently, after replacing the filter element 34, the fixed clamp ring 35 is closed, the side spin clamp column 7 is pushed into the filter stick 8, the second clamping groove 33 is matched with the butt-joint buckle 39 to fix the lateral rotary clamping column 7, and the lateral rotary clamping column 7 and the filter rod 8 are arranged, so that the intelligent remote monitoring water supply system has a circulating filter structure, and the using effect of the intelligent remote monitoring water supply system is improved;

through setting up flexible side's pipe 14, when the user need be to the not water storage bucket 11 of equidimension of this intelligent remote monitoring water supply system installation, the user can be through the both sides of the fixed chassis 4 of pulling, take flexible side's pipe 14 out from fixed chassis 4, utilize flexible side's pipe 14 adjustment fixed chassis 4's use length to make and to install not water storage bucket 11 of equidimension on the fixed chassis 4, promote the flexibility ratio when this intelligent remote monitoring water supply system uses.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. Preferred embodiments are not exhaustive of all the details of the embodiments. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.