CN117225049A

CN117225049A - Internet of things water controller body based on two-dimensional code and application method thereof

Info

Publication number: CN117225049A
Application number: CN202311504050.9A
Authority: CN
Inventors: 陈世久; 朱小林; 史南东; 袁刚; 王良胜
Original assignee: Anhui Ets Iot Co ltd
Current assignee: Anhui Ets Iot Co ltd
Priority date: 2023-11-13
Filing date: 2023-11-13
Publication date: 2023-12-15
Anticipated expiration: 2043-11-13
Also published as: CN117225049B

Abstract

The invention belongs to the technical field of water controller bodies, and particularly relates to a water controller body of the Internet of things based on two-dimension codes and a use method thereof. After the water controller body is used for a period of time, the filter plate and the flow guide assembly can be driven by the adjusting rod to rotate ninety degrees together, then the drain valve is opened, at the moment, the cleaning assembly can scrape impurities and scale attached to the filter plate under the impact action of water flow, and then the scraped impurities and scale can be discharged out of the water inlet port through the drain pipe, so that the cleaning operation of the filter plate is completed without disassembling the water controller body, and the stable water yield of the water controller body is ensured.

Description

Internet of things water controller body based on two-dimensional code and application method thereof

Technical Field

The invention belongs to the technical field of water controller bodies, and particularly relates to an Internet of things water controller body based on two-dimensional codes and a use method thereof.

Background

The water controller is also called a water controller, and mainly comprises an electronic control module, an IC card and a signaling base table, wherein the electronic control module is the core of the water controller. The system is responsible for controlling the sampling, charging, displaying and other units of the water control machine, and meanwhile, corresponding measures are taken in time for processing the running state of the water control machine, and then the running important data are stored for later use and analysis.

Along with the gradual popularization of the Internet of things, the existing water controller not only can consume through an IC card, but also can consume through scanning a two-dimensional code, so that the application scene of the water controller, such as scenes of public places, schools, dormitory buildings and the like, which need to control and manage water, is greatly increased. However, when the existing water controller is used on a water heater in a campus water house, impurities exist in water, and water alkali can be generated after the water is boiled, so that an electronic control valve in the water controller can be blocked by the impurities and the water alkali in a long-time use state, and the water outlet speed of the water controller is affected. Although the existing water controller can be provided with the filter screen at the position of the water inlet interface, the water controller is generally connected with the water source water outlet pipe through a screw, so that when the filter screen is blocked, the filter screen can be cleaned only by cutting off water and unscrewing the water controller from the water source water outlet pipe, which is very troublesome.

Therefore, it is necessary to solve the above problems by inventing a two-dimensional code-based Internet of things water controller body and a using method thereof.

Disclosure of Invention

Aiming at the problems, the invention provides an Internet of things water controller body based on two-dimension codes and a use method thereof, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an thing networking water accuse ware body based on two-dimensional code, includes the water accuse ware body, the top and the bottom of water accuse ware body are connected with interface and play water interface respectively, interface top-down that intakes includes linkage segment and filter segment, the filter segment is spherical, and the level is provided with circular shape filter in the filter segment of interface that intakes, install the clearance subassembly on the filter, the periphery of filter is provided with the water conservancy diversion subassembly, one side fixedly connected with regulation pole of filter, the regulation pole rotates and runs through the side of pegging graft at interface filter segment that intakes, the rear side of filter segment is connected with the blow off pipe, install the blowoff valve on the blow off pipe.

Further, the clearance subassembly includes the pivot, the pivot rotates perpendicularly and runs through grafting in the top center department of filter, the top slip grafting of pivot has the inserted bar, fixedly connected with reset spring between the bottom of inserted bar and the inside of pivot, the side vertical fixedly connected with of inserted bar a plurality of driving levers, and the length of driving lever and the radius assorted of filter, the bottom fixedly connected with of driving lever is scraped strip with driving lever length assorted, and scrapes the bottom of strip and press close to with the top surface of filter, the pivot is located the surface vertical fixedly connected with of filter bottom a plurality of driving plates, a plurality of driving plates evenly distributed is at the surface of pivot.

Further, the water conservancy diversion subassembly includes spherical bounding wall and lower spherical bounding wall, go up spherical bounding wall and lower spherical bounding wall and cover the filter in the inside of two, and go up spherical bounding wall's inboard radius, the inboard radius of lower spherical bounding wall and the radius of filter are all the same, go up spherical bounding wall's bottom edge and seted up annular slot, the top edge of lower spherical bounding wall is equipped with annular arch, and annular arch grafting in the slot, go up spherical bounding wall and the spherical center of lower spherical bounding wall all is located the geometric center of filter, and go up spherical bounding wall and the outside of lower spherical bounding wall and the laminating of the spherical inner wall of inlet interface filter section, go up spherical bounding wall's top opening size and the bottom opening size of lower spherical bounding wall all with inlet interface phase-match, one side that the blow off pipe was kept away from to the spherical bounding wall is provided with the breach down, and the length of breach equals the circumference of quarter lower spherical bounding wall, go up spherical bounding wall and lower spherical bounding wall and the position of adjusting lever relative all have semicircular bayonet socket, and go up spherical bounding wall and lower spherical bounding wall's bayonet socket in symmetry fixedly connected with locating pin, adjust pole and two opposite position and two locating pin and two opposite locating pin and locating hole phase-match in locating pin and locating hole.

Further, the part of the adjusting rod, which is positioned outside the water inlet interface, is rotatably sleeved with a sealing ring, and the sealing ring is fixedly connected with the outer wall of the water inlet interface filtering section.

Further, the position of the deflector rod close to the free end of the deflector rod is fixedly connected with a strip-shaped deflector plate, the strip-shaped deflector plate is positioned on the back side of the deflector rod in the rotation direction, the top end of the strip-shaped deflector plate is inclined towards the direction away from the deflector rod, and a gap is reserved between one side of the strip-shaped deflector plate close to the upper spherical coaming and the inner wall of the upper spherical coaming.

Further, one side of the strip-shaped plectrum, which is close to the upper spherical coaming, is fixedly connected with a soft adhesive tape, the soft adhesive tape is made of food-grade high-temperature-resistant silica gel materials, and the soft adhesive tape is close to the inner wall of the upper spherical coaming.

Further, one side of the shifting lever far away from the strip-shaped shifting sheet is uniformly and fixedly connected with a plurality of elastic shifting sheets, the bottoms of the elastic shifting sheets incline towards the direction close to the shifting lever, and the bottoms of the elastic shifting sheets are close to the top surface of the filter plate.

Further, the position that water accuse ware body front side is close to the top is provided with the display screen, the position that water accuse ware body front side is close to the bottom is provided with the two-dimensional code.

The invention also provides a use method of the Internet of things water controller body based on the two-dimensional code, which comprises the following steps:

step one: the water inlet interface at the top of the water controller body and the water outlet interface at the bottom of the water controller body are respectively connected with a water source water outlet pipe and water using equipment;

step two: when in use, the two-dimensional code on the front side of the water controller body is scanned for consumption;

step three: after the water controller body is used for a period of time, the adjusting rod can be rotated so as to drive the filter plate to rotate ninety degrees;

step four: when the adjusting rod rotates ninety degrees, the blow-down valve is opened, so that impurities and scale accumulated in the water inlet interface are discharged;

step five: after the impurities and the scale in the water inlet interface are discharged, the blow-down valve is closed, and the adjusting rod is rotated to drive the filter plate to restore to the original position.

The invention has the technical effects and advantages that:

1. through being provided with the clearance subassembly, after the water accuse ware body used for a period, can drive filter and water conservancy diversion subassembly through the regulation pole and rotate ninety degrees together, open the blowoff valve afterwards, the clearance subassembly can strike off impurity and incrustation scale that adheres to on the filter under the impact effect of rivers this moment, impurity and incrustation scale that is scraped off can discharge the water inlet through the blowoff pipe afterwards to accomplish the cleaning operation to the filter under the prerequisite of need not dismantling the water accuse ware body, and then guarantee the stable water yield of water accuse ware body;

2. the strip-shaped shifting piece can also drive the soft rubber strip to scrape along the inner wall of the upper spherical coaming when the rotating shaft drives the shifting rod to scrape along the surface of the filter plate, and because the strip-shaped shifting piece is obliquely arranged, the strip-shaped shifting piece can also apply thrust to the direction of the drain pipe to the scale and the impurities which fall on the inner side of the upper spherical coaming, so that the impurities and the scale can move to the opening of the upper spherical coaming along the inner wall of the upper spherical coaming under the pushing action of the strip-shaped shifting piece and the soft rubber strip, and the discharging efficiency of the impurities and the scale is further accelerated;

3. for some strong adhesion's incrustation scale, after the top contact of elasticity plectrum and incrustation scale, the one end that elasticity plectrum contacted with incrustation scale can deflect with the direction of keeping away from the incrustation scale down in the action of top of incrustation scale to make elasticity plectrum can stagger with the incrustation scale gradually, and after elasticity plectrum staggers with the incrustation scale, elasticity plectrum can reset fast under the effect of self elasticity, at this in-process, if this elasticity plectrum contacts with other strong incrustation scales of adhesion again, elasticity plectrum can strike on the incrustation scale, thereby help incrustation scale and filter separation, improve the cleaning performance to the filter.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic perspective view of a water inlet port, an adjusting rod, a drain pipe and a drain valve according to the present invention;

FIG. 3 is a first perspective view of the structure of the flow guide assembly, the filter plate, the adjusting rod and the like in the invention;

FIG. 4 is a second perspective view of the structure of the flow guide assembly, the filter plate, and the adjusting rod according to the present invention;

FIG. 5 is a perspective view of the filter plate, adjustment rod, cleaning assembly, etc. of the present invention;

FIG. 6 is a schematic perspective view of a baffle assembly according to the present invention;

fig. 7 is a schematic perspective view of the cleaning assembly, the strip-shaped pulling sheet, the elastic pulling sheet and other structures in the invention.

In the figure: 1. a water controller body; 2. a water inlet port; 3. a water outlet interface; 4. a filter plate; 5. cleaning the assembly; 51. a rotating shaft; 52. a rod; 53. a return spring; 54. a deflector rod; 55. scraping the strip; 56. a poking plate; 6. a flow guiding assembly; 61. an upper spherical coaming; 62. a lower spherical coaming; 63. a slot; 64. an annular protrusion; 65. a positioning pin; 66. positioning holes; 7. an adjusting rod; 8. a blow-down pipe; 9. a blow-down valve; 10. a seal ring; 11. a strip-shaped plectrum; 12. a soft adhesive tape; 13. an elastic poking piece; 14. a display screen; 15. two-dimensional codes.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the embodiments.

The invention provides an Internet of things water controller body based on two-dimension codes, which is shown in figures 1 to 7, and comprises a water controller body 1, wherein the top and the bottom of the water controller body 1 are respectively connected with a water inlet connector 2 and a water outlet connector 3, the water inlet connector 2 comprises a connecting section and a filtering section from top to bottom, the filtering section is spherical, a round filter plate 4 is horizontally arranged in the filtering section of the water inlet connector 2, a cleaning component 5 is arranged on the filter plate 4, a flow guiding component 6 is arranged on the periphery of the filter plate 4, one side of the filter plate 4 is fixedly connected with an adjusting rod 7, the adjusting rod 7 is rotatably inserted and connected with the side surface of the filtering section of the water inlet connector 2, the rear side of the filtering section is connected with a drain pipe 8, a drain valve 9 is arranged on the drain pipe 8, a part of the adjusting rod 7 outside the water inlet connector 2 is rotatably sleeved with a sealing ring 10, the sealing ring 10 is fixedly connected with the outer wall of the filtering section of the water inlet connector 2, a display screen 14 is arranged at a position of the front side of the water controller body 1 near the top, and a two-dimension code 15 is arranged at a position of the front side of the water controller body 1 near the bottom;

when the water controller body 1 is in normal use, consumption can be carried out by scanning the two-dimensional code 15 on the front side of the water controller body 1, and specific consumption conditions can be observed through the display screen 14;

when the filter plate 4 is blocked due to long-time use, the filter plate 4 and the flow guide assembly 6 can be driven by the adjusting rod 7 to rotate ninety degrees together, then the blow-off valve 9 is opened, and the cleaning assembly 5 can start scraping along the surface of the filter plate 4 under the impact of water flow, so that impurities and scale attached to the filter plate 4 are scraped from the filter plate 4, the scraped impurities and scale can be discharged out of the water inlet interface 2 through the blow-off pipe 8 under the driving of water flow, and the cleaning operation of the filter plate 4 is completed on the premise of not disassembling the water controller body 1, so that the stable water yield of the water controller body 1 is ensured.

As shown in fig. 3 to 7, the cleaning assembly 5 includes a rotating shaft 51, the rotating shaft 51 vertically rotates and penetrates through and is inserted in the center of the top of the filter plate 4, an inserting rod 52 is slidably inserted in the top of the rotating shaft 51, a reset spring 53 is fixedly connected between the bottom end of the inserting rod 52 and the inside of the rotating shaft 51, a plurality of shifting rods 54 are vertically and fixedly connected to the side surfaces of the inserting rod 52, the lengths of the shifting rods 54 are matched with the radius of the filter plate 4, scraping strips 55 matched with the lengths of the shifting rods 54 are fixedly connected to the bottoms of the shifting rods 54, the bottoms of the scraping strips 55 are close to the top surface of the filter plate 4, a plurality of shifting plates 56 are vertically and fixedly connected to the surface of the rotating shaft 51, and the shifting plates 56 are uniformly distributed on the surface of the rotating shaft 51;

in the normal use process of the water controller body 1, when water enters the area where the filter plate 4 is located through the water inlet connector 2, water flow can pass through the filter plate 4 and vertically impact on the shifting plate 56, and the shifting plate 56 is in a vertical state, so that the shifting plate 56 can be kept static, and the scraping strip 55 at the bottom of the shifting rod 54 is prevented from continuously scraping the filter plate 4 when the water controller body 1 is in normal use;

when the water controller body 1 is used for a period of time, the adjusting rod 7 is rotated, so that the filter plate 4 and the flow guide assembly 6 are driven by the adjusting rod 7 to rotate ninety degrees together, the filter plate 4 can be in a vertical state, then the drain valve 9 is opened, water entering the filtering section of the water inlet interface 2 from the water inlet interface 2 can be guided by the flow guide assembly 6, so that the bottom of the filter plate 4 in an initial state is impacted on the filter plate 4, and therefore part of impurities attached to the filter plate 4 are flushed out, meanwhile, along with flushing of water flow on the filter plate 4, the water flow can also be impacted on the shifting plate 56, so that the rotating shaft 51 is driven by the shifting plate 56, the rotating shaft 51 and the inserting rod 52 can rotate together along with the rotation of the rotating shaft 51, and along with the rotation of the inserting rod 52, the shifting rod 54 on the inserting rod 52 can drive the scraping strip 55 to scrape the surface of the filter plate 4, and then the scraped impurities and the water scale 4 can be scraped off from the filter plate 4, and the water flow can be discharged from the filter plate 4 through the water flow 8 under the driving of the water flow controller body 8, so that the water controller body 1 is not required to be removed stably, and the water controller body 1 is cleaned, and the water controller is not required to be removed;

in addition, when the scraping bar 55 on the deflector rod 54 scrapes impurities and scale on the filter plate 4, when the scraping bar 55 encounters the scale which is relatively stubborn, the scraping bar 55 can drive the inserted rod 52 to move away from the filter plate 4 under the action of the top of the scale, and along with the movement of the inserted rod 52, the reset spring 53 can be gradually stretched under the pulling of the inserted rod 52, and meanwhile, along with the movement of the scraping bar 55 in the direction away from the filter plate 4, when the distance between the scraping bar 55 and the filter plate 4 is greater than the thickness of the scale, the scraping bar 55 can scrape along the surface of the stubborn scale under the driving of the rotating shaft 51, so that the scraping bar 55 is prevented from being directly blocked by the stubborn scale;

along with the continuous scraping of the scraping strip 55 along the surface of the scale, the scale adhered to the filter plate 4 can be gradually scraped off a little by a little, so that the filter plate 4 is cleaned finally, and the filtering effect of the filter plate 4 is ensured.

As shown in fig. 3, fig. 4 and fig. 6, the flow guiding assembly 6 comprises an upper spherical surface coaming 61 and a lower spherical surface coaming 62, the filter plate 4 is covered inside the upper spherical surface coaming 61 and the lower spherical surface coaming 62, the inner radius of the upper spherical surface coaming 61, the inner radius of the lower spherical surface coaming 62 and the radius of the filter plate 4 are the same, an annular slot 63 is formed in the bottom edge of the upper spherical surface coaming 61, an annular bulge 64 is formed in the top edge of the lower spherical surface coaming 62, the annular bulge 64 is inserted in the slot 63, the spherical centers of the upper spherical surface coaming 61 and the lower spherical surface coaming 62 are located on the geometric center of the filter plate 4, the outer sides of the upper spherical surface coaming 61 and the lower spherical surface coaming 62 are attached to the spherical inner wall of the filter section of the water inlet interface 2, the top opening of the upper spherical surface coaming 61 and the bottom opening of the lower spherical surface coaming 62 are matched with the opening of the water inlet interface 2, a notch is formed in one side of the lower spherical surface coaming 62 far away from the sewage discharging pipe 8, the notch is formed in the length of one fourth of the lower spherical coaming 62, the annular bulge 64 is formed in the opposite positions of the upper spherical surface coaming 61 and the lower spherical surface coaming 62 and the adjusting rod 7, the spherical surface coaming 62 and the two positioning pins 65 are symmetrically connected with the two positioning pins 65 and the positioning pins 65 are arranged in the opposite positions of the two positioning pins 65 and the positioning pins 65 are respectively arranged in the two opposite positions of the positioning pins 65 and are matched with the two positioning pins 65 in the opposite positions of the position pins and 65;

in normal use, the openings of the upper spherical surface coaming 61 and the lower spherical surface coaming 62 are opposite to the water inlet connector 2, at this time, water entering from the water inlet connector 2 flows into the water controller body 1 after being filtered by the filter plate 4, and when the water controller body 1 is used for a period of time, the filter plate 4 can be driven to rotate by the adjusting rod 7, and in the process of driving the filter plate 4 to rotate by the adjusting rod 7, since the upper spherical surface coaming 61 and the lower spherical surface coaming 62 are connected with the positioning holes 66 of the adjusting rod 7 through the positioning pins 65, when the filter plate 4 rotates, the upper spherical surface coaming 61 and the lower spherical surface coaming 62 can rotate together with the filter plate 4, when the filter plate 4 rotates ninety degrees, at this time, the openings of the upper spherical coaming 61 and the lower spherical coaming 62 are just opposite to the blow-off pipe 8, the notch on the lower spherical coaming 62 is opposite to the water inlet connector 2, the connection end of the water inlet connector 2 and the water controller body 1 can be plugged under the cooperation of the side walls of the upper spherical coaming 61 and the lower spherical coaming 62, then the blow-off valve 9 is opened, at this time, water entering from the water inlet connector 2 can enter the inner side of the lower spherical coaming 62 through the notch of the lower spherical coaming 62, in the process, along with the impact of water flow on the shifting plate 56, the shifting plate 56 can drive the rotating shaft 51 to rotate, along with the rotation of the rotating shaft 51, the shifting rod 54 and the scraping strip 55 on the inserting rod 52 can scrape the surface of the filter plate 4 under the driving of the rotating shaft 51, so that impurities and scales attached to the filter plate 4 can be scraped off from the filter plate 4, and then the scraped impurities and scales can be discharged out of the water inlet connector 2 through the blow-off pipe 8 under the driving of water flow, so that the filter plate 4 can be cleaned;

after the filter plate 4 is cleaned, the drain valve 9 is closed, and then the adjusting rod 7 is screwed to drive the upper spherical coaming 61, the lower spherical coaming 62 and the filter plate 4 to reset, at the moment, one end of the water inlet interface 2 connected with the water controller body 1 is opened again, and the position of the water inlet interface 2 connected with the drain pipe 8 can be blocked under the matching action of the upper spherical coaming 61 and the lower spherical coaming 62, so that the tightness of the joint of the water inlet interface 2 and the drain pipe 8 is improved.

As shown in fig. 5 and 7, a bar-shaped pulling piece 11 is fixedly connected to the position of the pulling rod 54 close to the free end of the pulling rod, the bar-shaped pulling piece 11 is positioned on the back side of the pulling rod 54 in the rotation direction, the top end of the bar-shaped pulling piece 11 is inclined in the direction away from the pulling rod 54, a gap is reserved between one side of the bar-shaped pulling piece 11 close to the upper spherical coaming 61 and the inner wall of the upper spherical coaming 61, a soft adhesive tape 12 is fixedly connected to one side of the bar-shaped pulling piece 11 close to the upper spherical coaming 61, the soft adhesive tape 12 is made of food-grade high-temperature-resistant silica gel material, and the soft adhesive tape 12 is close to the inner wall of the upper spherical coaming 61;

when the scale on the filter plate 4 is separated from the filter plate 4 under the scraping action of the scraping strip 55, as the top opening of the upper spherical surrounding plate 61 faces the direction of the sewage pipe 8, part of the scale can fall on the ground inner wall of the upper spherical surrounding plate 61 under the action of gravity, so that the scale and impurities falling on the position are not easy to move out from the inner side of the upper spherical surrounding plate 61, at the moment, the bar-shaped stirring piece 11 is arranged, the stirring rod 54 is driven by the rotating shaft 51 to scrape along the surface of the filter plate 4, the soft rubber strip 12 is driven by the bar-shaped stirring piece 11 to scrape along the inner wall of the upper spherical surrounding plate 61, and the bar-shaped stirring piece 11 is obliquely arranged, so that the bar-shaped stirring piece 11 can also apply thrust to the scale falling on the inner side of the upper spherical surrounding plate 61 and the impurities in the direction of the sewage pipe 8, and the impurities and the scale can move to the opening of the upper spherical surrounding plate 61 under the pushing action of the bar-shaped stirring piece 11 and the soft rubber strip 12, so that the discharging efficiency of the impurities and the scale can be accelerated;

in addition, because the soft adhesive tape 12 has elasticity, therefore when the deflector 54 moves to the direction away from the filter plate 4 under the top of the stubborn scale, although the soft adhesive tape 12 can be extruded and contracted by the inner wall of the upper spherical coaming 61, the soft adhesive tape 12 is not blocked with the inner wall of the upper spherical coaming 61, so that the normal rotation of the rotating shaft 51 is ensured, and in addition, due to the existence of the soft adhesive tape 12, the soft adhesive tape 12 can clean the inner wall of the upper spherical coaming 61 while the scraping strip 55 cleans the filter plate 4, so that impurities and scale on the inner side of the upper spherical coaming 61 can be cleaned more cleanly.

As shown in fig. 5 and 7, a plurality of elastic poking sheets 13 are uniformly and fixedly connected to one side of the poking rod 54 far away from the strip poking sheets 11, the bottoms of the elastic poking sheets 13 incline towards the direction close to the poking rod 54, and the bottoms of the elastic poking sheets 13 are close to the top surface of the filter plate 4;

when the filter plate 4 is used for a long time, part of scale can be attached to the top of the filter plate 4, after the adjusting rod 7 drives the filter plate 4 to rotate ninety degrees, the rotating shaft 51 and the inserting rod 52 can drive the scraping strip 55 to scrape the surface of the filter plate 4 under the driving of the stirring plate 56, but the cleaning force for some large scale is insufficient due to the large contact surface of the scraping strip 55 and the scale, at the moment, the elastic stirring plate 13 is arranged in the rotating direction of the re-stirring rod 54, when the elastic stirring plate 13 contacts with the large scale, the pressure of the elastic stirring plate 13 on the scale is larger due to the small contact area of the elastic stirring plate 13, so that the scale can be scraped off from the filter plate 4 better;

in addition, for some scales with stronger adhesive force, when the elastic poking piece 13 contacts with the top of the scales, one end of the elastic poking piece 13, which contacts with the scales, can deflect away from the scales under the action of the top of the scales, so that the elastic poking piece 13 can be gradually staggered with the scales, and when the elastic poking piece 13 is staggered with the scales, the elastic poking piece 13 can be quickly reset under the action of self-elasticity, and in the process, if the elastic poking piece 13 contacts with other scales with stronger adhesive force again, the elastic poking piece 13 can strike on the scales, so that the scales are helped to be separated from the filter plates 4;

in addition, for the stubborn scale which is not removed for the first time, the elastic poking piece 13 can scrape the top of the scale repeatedly, so that after the rotating shaft 51 rotates for a plurality of circles, the scale is gradually scraped, and the whole scraping effect of the scraping strip 55 on the filter plate 4 is matched, so that the cleaning effect of the scraping strip 55 on the filter plate 4 is improved.

step one: the water inlet interface 2 at the top of the water controller body 1 and the water outlet interface 3 at the bottom of the water controller body 1 are respectively connected with a water source water outlet pipe and water using equipment;

step two: when in use, the two-dimensional code 15 on the front side of the water controller body 1 is scanned for consumption;

step three: after the water controller body 1 is used for a period of time, the adjusting rod 7 can be rotated so as to drive the filter plate 4 to rotate ninety degrees;

step four: when the regulating rod 7 rotates ninety degrees, the blow-down valve 9 is opened, so that impurities and scale accumulated in the water inlet interface 2 are discharged;

step five: after the impurities and the scale in the water inlet interface 2 are discharged, the blow-down valve 9 is closed, and the adjusting rod 7 is rotated to drive the filter plate 4 to restore to the original position.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting.

Claims

1. The utility model provides a thing networking water accuse ware body based on two-dimensional code, includes water accuse ware body (1), its characterized in that: the utility model discloses a water accuse ware body, water accuse ware body (1) top and bottom are connected with respectively and advance water interface (2) and go out water interface (3), it includes linkage segment and filter segment to advance water interface (2) top-down, the filter segment is spherical, and the level is provided with circular shape filter (4) in the filter segment of water interface (2), install cleaning assembly (5) on filter (4), the periphery of filter (4) is provided with water conservancy diversion subassembly (6), one side fixedly connected with of filter (4) adjusts pole (7), adjust pole (7) rotate and run through the side of pegging graft at water interface (2) filter segment, the rear side of filter segment is connected with blow off pipe (8), install blow off valve (9) on blow off pipe (8).

2. The two-dimensional code-based internet of things water controller body according to claim 1, wherein: the cleaning assembly (5) comprises a rotating shaft (51), the rotating shaft (51) vertically rotates to penetrate through and is inserted into the center of the top of the filter plate (4), an inserting rod (52) is slidably inserted into the top of the rotating shaft (51), a reset spring (53) is fixedly connected between the bottom end of the inserting rod (52) and the inside of the rotating shaft (51), a plurality of deflector rods (54) are vertically and fixedly connected to the side face of the inserting rod (52), the length of the deflector rods (54) is matched with the radius of the filter plate (4), scraping strips (55) with the length of the deflector rods (54) are fixedly connected to the bottom of the deflector rods (54), the bottom of the scraping strips (55) is close to the top face of the filter plate (4), a plurality of deflector plates (56) are vertically and fixedly connected to the surface of the bottom of the rotating shaft (51) is located on the surface of the filter plate (4), and the deflector plates (56) are uniformly distributed on the surface of the rotating shaft (51).

3. The two-dimensional code-based internet of things water controller body according to claim 2, wherein: the diversion component (6) comprises an upper spherical surface coaming (61) and a lower spherical surface coaming (62), the upper spherical surface coaming (61) and the lower spherical surface coaming (62) cover the filter plate (4) in the two, the inner radius of the upper spherical surface coaming (61), the inner radius of the lower spherical surface coaming (62) and the radius of the filter plate (4) are all the same, an annular slot (63) is formed in the bottom edge of the upper spherical surface coaming (61), an annular bulge (64) is formed in the top edge of the lower spherical surface coaming (62), the annular bulge (64) is inserted in the slot (63), the spherical centers of the upper spherical surface coaming (61) and the lower spherical surface coaming (62) are located in the geometric center of the filter plate (4), the outer sides of the upper spherical surface coaming (61) and the lower spherical surface coaming (62) are attached to the spherical inner wall of the filter section of the water inlet port (2), the top opening size of the upper spherical surface coaming (61) and the bottom opening size of the lower spherical surface coaming (62) are matched with the opening size of the water inlet port (2), the spherical surface coaming (62) is provided with one side of the opposite to the lower spherical surface coaming (62) which is provided with a notch (7) and the length of the lower coaming (62) is equal to one side of the notch (7), and locating pins (65) are symmetrically and fixedly connected in bayonets of the upper spherical coaming (61) and the lower spherical coaming (62), locating holes (66) matched with the locating pins (65) are formed in the opposite positions of the adjusting rod (7) and the two locating pins (65) in a penetrating mode, and the two locating pins (65) are inserted into the locating holes (66) from two ends of the locating holes (66) respectively.

4. The internet of things water controller body based on two-dimensional codes according to claim 3, wherein: the part of the adjusting rod (7) positioned outside the water inlet interface (2) is rotatably sleeved with a sealing ring (10), and the sealing ring (10) is fixedly connected with the outer wall of the filtering section of the water inlet interface (2).

5. The two-dimensional code-based internet of things water controller body according to claim 4, wherein: the position of the deflector rod (54) close to the free end of the deflector rod is fixedly connected with a strip-shaped deflector plate (11), the strip-shaped deflector plate (11) is positioned on the back side of the deflector rod (54) in the rotating direction, the top end of the strip-shaped deflector plate (11) is inclined in the direction away from the deflector rod (54), and a gap is reserved between one side of the strip-shaped deflector plate (11) close to the upper spherical coaming (61) and the inner wall of the upper spherical coaming (61).

6. The two-dimensional code-based internet of things water controller body according to claim 5, wherein: one side of the strip-shaped poking piece (11) close to the upper spherical coaming (61) is fixedly connected with a soft adhesive tape (12), the soft adhesive tape (12) is made of food-grade high-temperature-resistant silica gel materials, and the soft adhesive tape (12) is close to the inner wall of the upper spherical coaming (61).

7. The two-dimensional code-based internet of things water controller body according to claim 5, wherein: one side of the deflector rod (54) far away from the strip-shaped deflector plate (11) is uniformly and fixedly connected with a plurality of elastic deflector plates (13), the bottom of the elastic deflector plates (13) inclines towards the direction close to the deflector rod (54), and the bottom of the elastic deflector plates (13) is close to the top surface of the filter plate (4).

8. The two-dimensional code-based internet of things water controller body according to claim 7, wherein: the water controller is characterized in that a display screen (14) is arranged at the position, close to the top, of the front side of the water controller body (1), and a two-dimensional code (15) is arranged at the position, close to the bottom, of the front side of the water controller body (1).

9. The use method of the two-dimensional code-based Internet of things water controller body is characterized by comprising the following steps of: the method comprises the following steps:

step one: a water inlet interface (2) at the top of the water controller body (1) and a water outlet interface (3) at the bottom of the water controller body (1) are respectively connected with a water source water outlet pipe and water using equipment;

step two: when in use, the two-dimensional code (15) at the front side of the water controller body (1) is scanned for consumption;

step three: after the water controller body (1) is used for a period of time, the adjusting rod (7) can be rotated so as to drive the filter plate (4) to rotate ninety degrees;

step four: when the adjusting rod (7) rotates ninety degrees, the blow-down valve (9) is opened, so that impurities and scale accumulated in the water inlet interface (2) are discharged;

step five: after impurities and scale in the water inlet interface (2) are discharged, the blow-down valve (9) is closed, and the adjusting rod (7) is rotated, so that the filter plate (4) is driven to recover to the original position.