CN115726433A - Intelligent building water supply equipment - Google Patents

Abstract

The application discloses intelligent building water supply equipment belongs to pipeline filtration technical field. The water-saving device mainly comprises a flow dividing pipe, wherein water is conveyed in the forward direction and the reverse direction in the flow dividing pipe and is continuously switched, and a filter screen is arranged in the flow dividing pipe; the equal pipe connection in both ends of shunt tubes has the reposition of redundant personnel case, and the reposition of redundant personnel case is connected with flow tube and outlet pipe in advance, and the flow tube mouth of pipe is less than the mouth of pipe of outlet pipe in advance, and the flow tube connection has fixed case in advance, and fixed bottom of the case portion is provided with wash port and stores up dirty pipe, stores up dirty pipe connection and has a dirty section of thick bamboo of storage, installs the sealing plug on the wash port. In the normal use process, the filter screen filters out impurities, the filter screen is backflushed due to the change of water flow after the water supply direction is switched, and the water flow carries the impurities on the filter screen to enter the flow dividing box and then flows into the flow dividing box firstly, so that the impurities flow into the flow dividing box and are deposited in the dirt storage cylinder; after the filter screen clearance is accomplished, water can be filled up with reposition of redundant personnel case and storage dirt section of thick bamboo, makes follow-up clean water flow out from the outlet pipe. The utility model provides an intelligent building water supply equipment reaches clearance filter screen effect.

Description

Intelligent building water supply equipment

Technical Field

The application relates to the technical field of pipeline filtration, in particular to intelligent building water supply equipment.

Background

Water supply refers to the supply of water by public facilities, commercial organizations, community endeavors, or individuals, and the delivery of water is typically by water pumps and pipes. In order to ensure normal water use of high-rise residents in a building, water is firstly conveyed into a water storage container on the top of the building. However, since the water generally contains impurities, the water supplied into the water storage container is precipitated in the water storage container, which causes the impurities to be accumulated continuously, thereby affecting the drinking water safety.

For example, in chinese utility model publication No. CN211665854U, a building water supply and drainage integrated system is provided, which filters out impurities through a filter screen. However, with continuous use, impurities are continuously accumulated on the filter screen, which easily causes the resistance of the filter screen to water to increase and the water replenishing speed of the water storage container to decrease; on the other hand, the filter screen is easy to breed bacteria, and the water safety is influenced.

There is a need to provide an intelligent building water supply apparatus to solve the above problems.

It is noted that the above information disclosed in this background section is only for background purposes in understanding the inventive concept and, therefore, it may contain information that does not constitute prior art.

Disclosure of Invention

Based on the above problems in the prior art, the embodiments of the present application aim to: the utility model provides an intelligent building water supply equipment reaches the clearance filter screen effect.

The technical scheme adopted by the application for solving the technical problem is as follows: an intelligent building water supply device comprises a shell supporting the whole body and a shunt pipe fixed on the shell, wherein the shunt pipe is connected with a water supply device, the water supply device is used for driving water to be circularly switched into a forward conveying state and a reverse conveying state in the shunt pipe, and a filter screen for filtering is arranged in the shunt pipe;

the utility model discloses a sewage treatment device, including shunt tubes, the flow tube, wash port, sewage storage tube, seal plug, wash port, water storage container, shunt tubes's both ends equal pipe connection has the shunt box, shunt box pipe connection has preflow tube and outlet pipe, the shunt box is intraductal in the shunt box the orificial mouth of pipe of preflow tube highly is less than the mouth of pipe of outlet pipe, preflow tube pipe connection has fixed case, fixed bottom of the case portion is provided with the wash port and stores up dirty pipe, it has the dirty section of thick bamboo of storing up to store up dirty pipe connection, install the seal plug on the wash port, the seal plug is suitable for to open or close the wash port, the outlet pipe connection has water storage container.

In the normal use process, impurities in water are filtered out through the filter screen, after the water supply direction is switched, the filter screen is backflushed by changing water flow, the impurities on the filter screen are removed, after the water flow carries the impurities to enter the diversion box, the water flow carrying the impurities firstly flows into the diversion box because the height of the pipe orifice of the preflow pipe is lower than that of the pipe orifice of the water outlet pipe, so that the impurities flow into the diversion box and precipitate to fall into the dirt storage cylinder; after the filter screen clearance is accomplished, water can be filled up reposition of redundant personnel case and storage dirt section of thick bamboo, then makes follow-up clean water flow out from the outlet pipe, carries out the water storage container and supplies water, after the next time water supply direction switches, removes the sealing plug, will reposition of redundant personnel incasement water discharge, the recoil of being convenient for next time.

Furthermore, protruding rings are fixed on the upper side and the lower side of the interior of the preflow pipe, a floating ball is placed between the two protruding rings, a floating space of the floating ball is limited, and the protruding ring on the upper side of the preflow pipe is used for being matched with the floating ball when the floating ball rises to be attached to the preflow pipe so as to block a water flow passage between the preflow pipe and the corresponding flow dividing box.

Further, the sealing plug upside is fixed with the baffle, and one side and the inside rotation of flow distribution box of baffle are connected, the baffle opposite side is fixed with the receipts bunch, it is equipped with the swivel pipe to rotate the cover on the flow distribution box in advance, the one end of receiving the bunch passes the flow distribution box inner wall in advance, and is fixed with the swivel pipe inner wall, and the action of bunch is received in order to drive to the swivel pipe to drive the baffle at the flow distribution box internal rotation so that the sealing plug is opened or is closed the wash port.

Further, it is provided with the cock board to slide in the dirty section of thick bamboo of storage, store up dirty pipe and cock board fixed connection, store up dirty section of thick bamboo bottom and be provided with the strutting arrangement who is used for changing the dirty section of thick bamboo height of storage, change through strutting arrangement and store up dirty section of thick bamboo height to the messenger drives the cock board and is storing up the inside slip of dirty section of thick bamboo, changes the volume that stores up dirty section of thick bamboo.

Further, strutting arrangement includes thread bush and threaded rod, the thread bush rotates to be connected in the shell, the thread bush with threaded rod threaded connection, the threaded rod upper end is fixed with a dirt storage cylinder.

Furthermore, a limiting groove is formed in one side of the threaded rod, a limiting block is arranged in the limiting groove, and the limiting block is fixed to the shell and used for preventing the threaded rod from rotating.

Furthermore, the shell internal rotation is provided with the pivot, both sides are provided with first driving gear and second driving gear respectively about the pivot, first driving gear with the rotatory pipe meshing, the second driving gear with the thread bush meshing, the pivot transmission is connected with the driver.

Furthermore, the second driving gear is sleeved on the rotating shaft, one of the rotating shaft and the inner wall of the second driving gear is provided with a clamping block, the other one of the rotating shaft and the inner wall of the second driving gear is provided with a clamping groove corresponding to the clamping block, and the length of the clamping groove in the circumferential direction of the second driving gear is larger than that of the clamping block in the circumferential direction of the second driving gear.

The beneficial effect of this application is: according to the intelligent building water supply equipment, through switching of the water supply direction, the filter screen is cleaned while water is supplied, so that impurities are prevented from being accumulated; the impurity of rushing out brings into along with rivers and stores up dirty section of thick bamboo, and on the one hand, avoid impurity to flow into water storage container, guarantees water safety, and on the other hand collects impurity and stores, and the staff of being convenient for judges the impurity in a period.

In addition to the objects, features and advantages described above, other objects, features and advantages of the present invention are also provided. The present invention will be described in further detail below with reference to the drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, are included to provide a further understanding of the invention, and are included to illustrate an exemplary embodiment of the invention and not to limit the invention. In the drawings:

FIG. 1 is an overall schematic view of an intelligent building water supply apparatus according to the present application;

FIG. 2 is a schematic view of the internal structure of the housing of FIG. 1;

FIG. 3 is an enlarged schematic view at A in FIG. 2;

FIG. 4 is an enlarged schematic view at B of FIG. 2;

FIG. 5 is an enlarged schematic view at C of FIG. 2;

FIG. 6 is an enlarged schematic view at D of FIG. 2;

FIG. 7 is an enlarged schematic view at E in FIG. 2;

FIG. 8 is an enlarged schematic view at F of FIG. 2;

FIG. 9 is a schematic backside view of the structure of FIG. 2;

wherein, in the figures, the respective reference numerals:

1. a housing;

2. a shunt tube; 21. a shunt box; 22. an electrically controlled valve; 23. filtering with a screen; 24. a preflow tube; 241. a convex ring; 242. a floating ball; 243. a wire hole; 25. a water outlet pipe;

3. a water supply device; 31. a water inlet pipe; 311. a partition plate; 312. a chamber; 313. a water inlet hole; 314. a one-way valve; 32. a water inlet pipe; 321. a water pump; 33. a linkage pipe; 331. a sealing plate; 332. a water inlet hole; 333. a first drive gear; 334. a clamping block;

4. a dirt storage device; 41. rotating the tube; 411. collecting the wire; 412. a first driven gear; 42. a fixed box; 421. a drain hole; 422. a sewage storage pipe; 423. a baffle plate; 424. a sealing plug; 43. a dirt storage cylinder; 431. a plug plate; 432. a seal ring; 433. a sewage discharge pipe; 434. a blowdown valve;

5. a drive device; 51. a driver; 511. a drive gear; 52. a second driving gear; 521. a tube hole; 522. a card slot;

6. a support device; 61. a threaded rod; 611. a limiting groove; 62. a support plate; 621. a through hole; 622. a limiting block; 63. a threaded sleeve; 631. a second driven gear.

Detailed Description

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in 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. 1-9, the present application provides an intelligent building water supply equipment, including the shell 1 that is used for supporting overall structure, be fixed in the shunt tubes 2 of shell 1 upside, be located the inboard water supply installation 3 of shell 1, the equal pipe connection in both ends of shunt tubes 2 has shunt box 21, and the downside of shunt box 21 is provided with stores up dirty device 4 to and set up drive arrangement 5 and strutting arrangement 6 in shell 1.

The both sides in the shunt tubes 2 all are provided with electrical control valve 22, and shunt tubes 2 between two electrical control valve 22 is inside to be fixed with filter screen 23, and the inside pipe connection of flow box 21 has in advance flow tube 24 and outlet pipe 25, and in the flow box 21, the orificial mouth of pipe of flow tube 24 is less than the mouth of pipe of outlet pipe 25 in advance.

Convex rings 241 are fixed on the upper side and the lower side in the preflow pipe 24, and a floating ball 242 is placed between the two convex rings 241.

The water supply device 3 comprises a water inlet pipe 31 fixed on the upper side of the shell 1 and a water inlet pipe 32 fixed on the lower side of the shell 1 on the upper side of the shell 1, a linkage pipe 33 is connected between the lower end of the water inlet pipe 31 and the upper end of the water inlet pipe 32, the axes of the water inlet pipe 31, the water inlet pipe 32 and the linkage pipe 33 are collinear, and the linkage pipe 33 is respectively connected with the water inlet pipe 31 and the water inlet pipe 32 in a rotating mode.

The lower end of the water inlet pipe 32 is connected with a water pump 321.

It will be appreciated that the water pump 321 is used to pump an external source of water into the inlet pipe 32; two groups of water storage tanks are arranged at the top of the building, and two water outlet pipes 25 are respectively communicated with the insides of the water storage tanks, so that water flowing out of the water outlet pipes 25 flows into the water storage tanks to be stored.

The linkage pipe 33 is connected with the water inlet pipe 31 and the water inlet pipe 32 in a dynamic sealing mode. The dynamic seal connection can seal between two pipelines which can rotate relatively, and is the prior art.

The inside upside of linkage pipe 33 is fixed with sealing plate 331, and sealing plate 331 and the laminating of oral siphon 31 lower extreme are provided with the inlet opening 332 that runs through on the sealing plate 331, and the upside of linkage pipe 33 outer wall is fixed with first driving gear 333, and the downside of linkage pipe 33 outer wall is fixed with at least one fixture block 334, and in this embodiment, fixture block 334 is provided with two.

A sealing wall is arranged at the lower end of the water inlet pipe 31, a partition plate 311 is fixed in the water inlet pipe 31, the partition plate 311 divides the interior of the water inlet pipe 31 into symmetrical chambers 312, a water inlet hole 313 communicated with the corresponding chamber 312 is arranged on the sealing wall, the water inlet hole 313 is matched with the water inlet hole 332, and after the linkage pipe 33 rotates in place, the water inlet hole 332 is aligned with the corresponding water inlet hole 313; the top ends of the chambers 312 are respectively communicated with the insides of the shunt pipes 2 between the filter screens 23 and the side electric control valves 22, and one-way valves 314 are arranged in the pipes.

One-way valves, also known as check valves or check valves, are used in hydraulic systems to prevent reverse flow of oil or in pneumatic systems to prevent reverse flow of compressed air, which is common prior art. The one-way valve 314 allows water in the chamber 312 to flow into the shunt tube 2, but prevents water in the shunt tube 2 from flowing into the chamber 312.

The sewage storage device 4 includes a rotary pipe 41 sleeved on the pre-flow pipe 24, a fixed tank 42 fixed in the housing 1, and a sewage storage tank 43 located at the lower side of the fixed tank 42.

The preflow pipe 24 is communicated with the top of the fixed box 42, a drain hole 421, a dirt storage pipe 422 and a baffle plate 423 are arranged at the bottom in the fixed box 42, one side of the baffle plate 423 is rotatably connected with the inside of the fixed box 42, a sealing plug 424 matched with the drain hole 421 is fixed on the baffle plate 423, in this embodiment, the sealing plug 424 can be made of elastic material, specifically, rubber, and the baffle plate 423 can rotate under the action of gravity until the sealing plug 424 plugs the drain hole 421 or is pulled to be separated from the drain hole 421.

It will be appreciated that the drain hole 421 is connected to an external drain pipe, so that water flowing out of the drain hole 421 is directly drained into the drain pipe.

The inner wall of the lower part of the convex ring 241 of the lower side of the preflow pipe 24 is provided with a wire hole 243, the wire hole 243 communicates the inside and the outside of the preflow pipe 24, the inside of the rotating pipe 41 is provided with a wire collecting wire 411, one end of the wire collecting wire 411 is fixed with the inner wall of the rotating pipe 41, the other end of the wire collecting wire 411 passes through the wire hole 243 and the lower end of the preflow pipe 24 and then is connected with a baffle 423, the outer wall of the rotating pipe 41 is fixed with a first driven gear 412, and the first driven gear 412 is meshed with a first driving gear 333; in this embodiment, when the rotary pipe 41 rotates, the baffle 423 rotatably connected to the inside of the fixed box 42 is rotated by the wire 411, so that the sealing plug 424 is separated from the drainage hole 421.

Store up dirty section of thick bamboo 43 and be upwards opening form, store up inside dirty section of thick bamboo 43 of stretching into of the lower tip of dirty pipe 422 to be fixed with cock 431, store up dirty pipe 422 with fixed box 42 bottom and cock 431 downside intercommunication, cock 431 edge fastening has sealing ring 432, sealing ring 432 is made by elastic material, in this embodiment, sealing ring 432 is made by rubber, store up dirty section of thick bamboo 43 outer wall and be provided with blow off pipe 433, blow off pipe 433 and the bottom intercommunication in storing dirty section of thick bamboo 43, be provided with blowdown valve 434 in the blow off pipe 433.

The supporting device 6 comprises a threaded rod 61 at the lower side of the dirt storage cylinder 43, a supporting plate 62 fixed in the shell 1 and a threaded sleeve 63 rotatably connected to the bottom in the shell 1.

The supporting plate 62 is provided with a through hole 621 corresponding to the position of the threaded rod 61, the through hole 621 penetrates through the width direction of the supporting plate 62, and a limiting block 622 extends inwards from the inner wall of the through hole 621.

The threaded rod 61 penetrates through the through hole 621 to be in threaded connection with the threaded sleeve 63, a limiting groove 611 corresponding to the limiting block 622 is formed in the threaded rod 61, and the limiting groove 611 and the limiting block 622 are matched to limit rotation of the threaded rod 61.

A second driven gear 631 is fixed to the bottom of the threaded sleeve 63.

The driving device 5 includes a driver 51 fixed in the housing 1 and a second driving gear 52 rotatably connected to the bottom of the housing 1.

In the present embodiment, the driver 51 may be a motor, the driving gear 511 is fixed to an output shaft of the driver 51, and the driving gear 511 is engaged with the first driving gear 333.

A hole 521 is formed in the middle of the second driving gear 52, the hole 521 is sleeved on the lower end of the linkage pipe 33, a locking groove 522 corresponding to the locking block 334 is formed in the inner wall of the hole 521, and the length of the locking groove 522 in the circumferential direction of the second driving gear 52 is greater than the length of the locking block 334 in the circumferential direction of the second driving gear 52.

It will be appreciated that the water pump 321, the electrically controlled valve 22 and the driver 51 are controlled by an external system.

In the present embodiment, as shown in fig. 2, the filter screen 23 is taken as a central line to divide the equipment into a left side and a right side, in an initial state, the water inlet hole 332 is aligned with the water inlet hole 313 on the right side, the electric control valve 22 on the right side is in a closed state, the electric control valve 22 on the left side is in an open state, the wire collecting wire 411 on the left side is in a relaxed state, the sealing plug 424 of the baffle 423 on the left side blocks and seals the water discharge hole 421 on the left side due to gravity, the dirt storage cylinder 43 on the left side is in a lowest state, the wire collecting wire 411 on the right side is in a coiled state, the baffle 423 on the right side is pulled, the sealing plug 424 on the right side leaves the water discharge hole 421 on the right side, and the dirt storage cylinder 43 on the right side is in a highest state; the water pump 321 starts pumping water, the water pumped by the water pump 321 sequentially enters the water inlet pipe 32 and the linkage pipe 33, then passes through the water inlet hole 332 and the water inlet hole 313 which are aligned, passes through the chamber 312 on the right side and the check valve 314, and flows into the shunt pipe 2 on the right side of the filter screen 23, because the electric control valve 22 on the right side is in a closed state, after the water is pumped into the shunt pipe 2, the water can pass through the filter screen 23 and flow into the shunt box 21 on the left side, then the water can continuously flow into the dirt storage cylinder 43 on the left side and be continuously accumulated until the dirt storage cylinder 43, the fixed box 42 and the preflow pipe 24 on the left side are filled up, in the process that the preflow pipe 24 on the left side is filled up with the water, the floating ball 242 on the left side continuously rises along with the water surface until the convex ring 241 on the upper side is met, at the moment, the floating ball 242 can pass through the convex ring 241 on the upper layer by the buoyancy thereof, so that the preflow pipe 24 on the left side is blocked, the water can be accumulated in the shunt box 21 on the left side, and then flow into a group of water storage tanks on the top of the left side from the water outlet pipe 25, in the process, and impurities in the water can be filtered out through the filter out by the filter screen 23. The effect of filtering out impurities in water in the process of supplying water to the water storage tank at the top layer of the building is achieved, the health of water for high-rise buildings is guaranteed, and the filtered impurities can be temporarily left on the right side of the filter screen 23.

When the water supply tank is full, the system controls the water pump 321 to stop. When the other group of water storage tanks need water supplement, the system firstly controls the driver 51 to start and rotate in the forward direction, so that the driving gear 511 drives the linkage pipe 33 to rotate for at least half a circle through the first driving gear 333 and then stops, the water inlet 332 is aligned with the water inlet hole 313 of the left shunt pipe 2, and simultaneously the two electric control valves 22 are switched, namely the left electric control valve 22 is in a closed state, the right electric control valve 22 is in an open state, so that pumped water flows into the left side of the shunt pipe 2, passes through the filter screen 23 and flows into the right shunt box 21, and the right side enters a water supplement working state.

In the rotating process, the latch 334 slides in the slot 522 until the latch 334 abuts against one end of the slot 522, and therefore the linking tube 33 drives the first driven gears 412 on both sides to rotate for a period of time, and then drives the second driving gear 52 to rotate.

In the above process, due to the rotation of the first driven gears 412 on both sides, the closing wire 411 on the right side is loosened, the closing wire 411 in the loosened state has no action force on the baffle 423 on the right side, the baffle 423 on the right side blocks and seals the drainage hole 421 on the right side due to gravity, and the baffle 423 on the right side is further pressed by the effect of the water pressure in the fixed box 42, so that the sealed state of the fixed box 42 on the right side is maintained. In contrast, the left wire collecting cord 411 is tightened to open the left drainage hole 421 by the left sealing plug 424.

After fixture block 334 pushes up the one end of draw-in groove 522, linkage pipe 33 just can promote the one end of draw-in groove 522 through fixture block 334, it is rotatory to drive second driving gear 52, second driving gear 52 rethread second driven gear 631 of both sides takes the thread bush 63 of both sides to rotate, because shell 1 blocks spacing groove 611 through stopper 622, let threaded rod 61 unable rotatory, thread bush 63 just can drive threaded rod 61 and stretch out and draw back from thread bush 63, drive the dirt storage cylinder 43 on right side and reduce, and left dirt storage cylinder 43 risees. When the water inlet hole 332 is aligned with the water inlet hole 313 of the left branch pipe 2, the right soil storage tub 43 is in the lowermost state, and the left soil storage tub 43 is in the uppermost state.

To sum up, the device on the right side is in the moisturizing operating condition:

the water inlet hole 332 is aligned with the water inlet hole 313 on the left side, the electric control valve 22 on the left side is in a closed state, the electric control valve 22 on the right side is in an open state, the wire collecting wire 411 on the right side is in a loose state, the sealing plug 424 on the right side is enabled to block and seal the water outlet hole 421 on the right side, the dirt storage cylinder 43 on the right side is in a lowest state, the wire collecting wire 411 on the left side is in a rolling state, the sealing plug 424 on the left side is enabled to leave the water outlet hole 421 on the left side, and the dirt storage cylinder 43 on the left side is in a highest state;

the water which just starts to flow in firstly backflushs the filter screen 23, flushes the impurities which are originally filtered by the filter screen 23 out, flushes the impurities into the right shunt box 21, and the pipe orifice of the right preflow pipe 24 in the right shunt box 21 is lower than the pipe orifice of the water outlet pipe 25, and the right preflow pipe 24 is in a conduction state at the moment. Therefore, the water flows into the right pre-flow pipe 24 first, and the floating ball 242 floats in the water, so that the inflow water directly avoids the floating ball 242, carries impurities through the right pre-flow pipe 24, flows into the right fixed tank 42, and the right drain hole 421 is blocked, so that the inflow water carries impurities, passes through the right dirt storage pipe 422, and flows into the right dirt storage cylinder 43. The effect that after the water supply direction is switched and the water is put, impurities are firstly led into the sewage storage cylinder 43 by the water which just flows in, and the impurities are prevented from flowing into the water storage tank on the roof.

Because the dirt storage cylinder 43 on the right side is in a closed state, after impurities are flushed into the dirt storage cylinder 43 on the right side, water can continuously flow into the dirt storage cylinder 43 on the right side and continuously accumulate, until the dirt storage cylinder 43 on the right side is filled up, the fixed box 42 and the pre-flow pipe 24 on the right side are filled up by the water, the floating ball 242 continuously rises along with the water surface until the floating ball meets the convex ring 241 on the upper side, the floating ball 242 can be attached to the convex ring 241 on the upper layer through the buoyancy of the floating ball, the pre-flow pipe 24 on the right side is separated, impurities are prevented from returning to the shunting box 21 on the right side again, subsequent water is continuously accumulated in the shunting box 21, and finally, the water can flow into another group of water storage tanks. The effect of automatically isolating impurities is achieved, and the cleanliness of water after the water supply direction is switched is improved.

When the set of storage tanks is full, the system controls the water pump 321 to stop again. Until the water in the water storage tank is used up, when water needs to be replenished again, the system controls the driver 51 to start and rotate reversely to reset, and the electric control valve 22 is also reset in a switching state, namely, the electric control valve 22 on the right side is in a closed state, the electric control valve 22 on the left side is in an open state, at this moment, the device on the left side enters a water replenishing working state, and the device on the right side enters a dirt storage working state.

In the process of the driver 51 rotating in the reverse direction to reset, the latch 334 slides in the latch slot 522 again until the latch 334 abuts against the other end of the latch slot 522, so that the linkage tube 33 drives the first driven gears 412 on the two sides to rotate reversely for a certain time, and then drives the second driving gear 52 to rotate reversely.

When the first driven gears 412 on both sides are reversely rotated and reset, the wire 411 on the right side is pulled to pull one end of the right baffle 423, so that the baffle 423 pulls the right sealing plug 424 to open the right drainage hole 421. At this time, the water remained in the right diversion pipe 2, the right diversion box 21, the right pre-flow pipe 24 and the right fixing box 42 flows into the drainage pipeline through the right drainage hole 421, so that the effect of draining the remained water by opening the right drainage hole 421 is achieved.

On the other hand, the left wire collecting cord 411 is loosened, so that the left sealing plug 424 blocks the left drainage hole 421.

When the latch 334 pushes the other end of the slot 522, the linkage tube 33 pushes the second driving gear 52 to rotate reversely and return through the latch 334, and the second driving gear 52 rotates reversely through the second driven gears 631 on both sides with the threaded sleeves 63 on both sides, so as to drive the left dirt storage cylinder 43 to descend and the right dirt storage cylinder 43 to ascend. When the water inlet hole 332 is aligned with the water inlet hole 313 of the left bypass pipe 2, the left soil storage tub 43 is in the lowermost state, and the right soil storage tub 43 is in the uppermost state.

In the process of lifting the right-side dirt storage cylinder 43, because the right-side dirt storage pipe 422 is fixed, the lifting of the right-side dirt storage cylinder 43 forms a state that the right-side baffle 423 and the right-side sealing plug 424 press the inside of the right-side dirt storage cylinder 43, so that water in the right-side dirt storage cylinder 43 is pressed, flows into the right-side fixed tank 42 through the right-side dirt storage pipe 422, and then flows out from the right-side drainage hole 421. The effect of discharging the water inside the right soil storage cylinder 43 is achieved.

Meanwhile, due to the fixture block 334 and the clamping groove 522, the effect that the supporting device 6 runs later than the water discharging hole 421 is achieved. When the right drain hole 421 is not opened, the right float 242 blocks the right pre-flow pipe 24, so that the water in the right stationary box 42 and the right dirt storage tank 43 cannot flow out, and the right dirt storage tank 43 is in a sealed state, and if the right dirt storage tank 43 is lifted, the pressure in the right stationary box 42 and the right dirt storage tank 43 is too high, and the device is damaged. Through letting the wash port 421 of right side open earlier, when discharging the water in the fixed case 42 of right side and the dirty section of thick bamboo 43, the fixed case 42 on right side and the dirty section of thick bamboo 43 no longer are encapsulated situation, when the dirty section of thick bamboo 43 that stores up on follow-up right side rises, just can not lead to the too big problem of pressure in the fixed case 42 on right side and the dirty section of thick bamboo 43 of storing up, reach the effect of protection fixed case 42 and dirty section of thick bamboo 43.

In summary, when the right-hand device is in the dirt storage operation state:

the water inlet hole 332 is aligned with the water inlet hole 313 on the right, the electric control valve 22 on the right is in a closed state, the electric control valve 22 on the left is in an open state, the wire collecting wire 411 on the left is in a loose state, the sealing plug 424 on the left blocks and seals the water outlet hole 421 on the left, the wire collecting wire 43 on the left is in a lowest state, the wire collecting wire 411 on the right is in a rolling state, the sealing plug 424 on the right leaves the water outlet hole 421 on the right, and the wire collecting wire 43 on the right is in a highest state;

at this time, the water remaining in the right branch pipe 2, the right branch tank 21, the right pre-flow pipe 24, and the right fixed tank 42 flows into the drain pipe through the right drain hole 421, and the water in the right soil storage tank 43 is squeezed, so that the water in the right soil storage tank 43 flows into the right fixed tank 42 through the right soil storage pipe 422, and then flows out through the right drain hole 421.

Waiting for next time, when the device on right side switched to moisturizing operating condition from storing up dirty operating condition, stored dirty section of thick bamboo 43 through the right side and reduced, just produced in the dirty section of thick bamboo 43 of right side and can hold the water space, made the water after changing the water supply direction can carry impurity inflow and store dirty section of thick bamboo 43, reached and reserve the space and make things convenient for the effect of constantly storing impurity in the dirty section of thick bamboo 43 of storing up.

In conclusion, the working states of the two sides are switched while the water supply direction is switched, namely, when the left side enters the water replenishing work, the right side enters the dirt storage working state; when the right side enters water replenishing work, the left side enters a dirt storage working state, so that when one side replenishes water, the other side discharges redundant water, and the impurities on the next side are convenient to collect.

Through the above-mentioned process circulation moisturizing, just can in time clear up impurity when the moisturizing, guarantee the efficiency and the cleanliness factor of moisturizing.

The staff can open blow off pipe 433 through blowdown valve 434 at any time under the inoperative condition of water pump 321, make in the storage dirty section of thick bamboo 43 remaining water carry the impurity outflow of preserving in the storage dirty section of thick bamboo 43, reach the effect of conveniently clearing up storage dirty section of thick bamboo 43. And the staff can judge the water supply condition according to the state of the impurities.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. 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 (8)

1. The utility model provides an intelligent building water supply equipment, includes shell (1) and shunt tubes (2) of being fixed in on shell (1), shunt tubes (2) are connected with water supply installation (3), water supply installation (3) are used for driving water and switch into forward transport state and reverse transport state at shunt tubes (2) mesocycle, be provided with in shunt tubes (2) and be used for filterable filter screen (23), its characterized in that:

the equal pipe connection in both ends of shunt tubes (2) has shunt box (21), shunt box (21) pipe connection has preflow tube (24) and outlet pipe (25), in shunt box (21) the orificial mouth of pipe that highly is less than outlet pipe (25) of preflow tube (24), preflow tube (24) pipe connection has fixed case (42), fixed case (42) bottom is provided with wash port (421) and storage dirty pipe (422), storage dirty pipe (422) pipe connection has a storage dirty section of thick bamboo (43), install sealing plug (424) on wash port (421), sealing plug (424) are suitable for opening or closing wash port (421), outlet pipe (25) are the output mouth of pipe of water.

2. The intelligent building water supply equipment as claimed in claim 1, wherein: the upper side and the lower side of the inside of the pre-flow pipe (24) are respectively fixed with a convex ring (241), a floating ball (242) is placed between the two convex rings (241) and a floating space of the floating ball (242) is limited, and the convex ring (241) on the upper side of the pre-flow pipe (24) is used for being matched with the floating ball (242) when the floating ball (242) rises to be attached to the floating ball, so that a water flow passage between the pre-flow pipe (24) and the corresponding flow dividing box (21) is cut off.

3. The intelligent building water supply equipment as claimed in claim 1, wherein: sealing plug (424) upside is fixed with baffle (423), and one side and reposition of redundant personnel case (21) inside rotation of baffle (423) are connected, baffle (423) opposite side is fixed with receipts bunch (411), it is equipped with swivel mount (41) to rotate the cover on preflow pipe (24), the one end of receiving bunch (411) is passed preflow pipe (24) inner wall, and with swivel mount (41) inner wall fixed, rotatory swivel mount (41) are in order to drive receipts bunch (411) action to drive baffle (423) at reposition of redundant personnel case (21) internal rotation so that sealing plug (424) is opened or is closed wash port (421).

4. The intelligent building water supply equipment as claimed in claim 3, wherein: store up and slide in dirty section of thick bamboo (43) and be provided with cock board (431), store up dirty pipe (422) and cock board (431) fixed connection, store up dirty section of thick bamboo (43) bottom and be provided with and be used for changing strutting arrangement (6) that store up dirty section of thick bamboo (43) height, change through strutting arrangement (6) and store up dirty section of thick bamboo (43) height to make drive cock board (431) at the inside slip of dirty section of thick bamboo (43) of storing up, change the volume of storing up dirty section of thick bamboo (43).

5. The intelligent building water supply equipment of claim 4, wherein: strutting arrangement (6) are including thread bush (63) and threaded rod (61), thread bush (63) rotate to be connected in shell (1), thread bush (63) with threaded rod (61) threaded connection, threaded rod (61) upper end is fixed with storage dirt section of thick bamboo (43).

6. The intelligent building water supply equipment of claim 5, wherein: one side of the threaded rod (61) is provided with a limiting groove (611), a limiting block (622) is arranged in the limiting groove (611), and the limiting block (622) is fixed with the shell (1) and used for preventing the threaded rod (61) from rotating.

7. The intelligent building water supply equipment as claimed in claim 5, wherein: the rotary shaft is arranged in the shell (1) in a rotating mode, a first driving gear (333) and a second driving gear (52) are arranged on the upper side and the lower side of the rotary shaft respectively, the first driving gear (333) is meshed with the rotary pipe (41), the second driving gear (52) is meshed with the threaded sleeve (63), and a driver (51) is connected to the rotary shaft in a transmission mode.

8. The intelligent building water supply equipment as claimed in claim 7, wherein: the second driving gear (52) is sleeved on the rotating shaft, one of the rotating shaft and the inner wall of the second driving gear (52) is provided with a fixture block (334), the other one of the rotating shaft and the inner wall of the second driving gear (52) is provided with a clamping groove (522) corresponding to the fixture block (334), and the length of the clamping groove (522) in the circumferential direction of the second driving gear (52) is larger than that of the fixture block (334) in the circumferential direction of the second driving gear (52).

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