CN116747576A - Building water supply and drainage circulation environment-friendly treatment system - Google Patents

Abstract

The application relates to a building water supply and drainage circulation environment-friendly treatment system, which comprises a bottom plate and a water storage tank arranged at the upper end of the bottom plate, wherein a connecting pipe used for being connected with a drainage pipeline is arranged at the upper end of the water storage tank; the application can solve the following problems in the process of water circulation treatment in a building in the prior art: only single layer filter screen is difficult to play better filter effect to water to, the impurity of filtering also is difficult to in time clear up, thereby causes the impurity to cause the problem that blocks up to the filter screen easily, also leads to so because of the impurity on the filter screen is more, the impurity passes the filter screen in subsequent filtration process easily, thereby has influenced the quality of water after filtering.

Description

Building water supply and drainage circulation environment-friendly treatment system

Technical Field

The application relates to the field of water circulation treatment, in particular to an environmental protection treatment system for building water supply and drainage circulation.

Background

With the growth of population and the expansion of industrial and agricultural scale, water resources are in shortage, and rainwater can be used for domestic water due to fewer impurities; the person skilled in the relevant art also provides some technical means to the cyclic utilization of rainwater, for example chinese patent publication No. CN111705865B discloses a building water cyclic treatment system, and when it is during the use, when detecting the rain when detecting the piece, actuating mechanism can drive the apron and open the water storage mouth to the rainwater can get into the water storage chamber through the water storage mouth, and water storage chamber and domestic water pipe intercommunication, thereby people in the building can use the water of water storage intracavity after the filter screen filters. When the detecting piece does not detect rain, the driving mechanism can drive the cover plate to close the water storage port.

However, the above-mentioned building water circulation processing system can collect and filter rainwater only for use, but can not collect and utilize the water discharged from the hand sink in the building, and the water discharged from the hand sink in the building can also be recycled, if the water discharged from the hand sink in the building and the collected rainwater are filtered uniformly, the waste of water resources can be further reduced, so that there are pipes for guiding rainwater and the water discharged from the hand sink in some buildings, if the above-mentioned building water circulation processing system is applied to the lower end of the guiding pipe for filtering water, the following problems will exist:

only single layer filter screen is difficult to play better filter effect to water to, the impurity of filtering also is difficult to in time clear up, thereby causes the impurity to cause the problem that blocks up to the filter screen easily, also leads to so because of the impurity on the filter screen is more, the impurity passes the filter screen in subsequent filtration process easily, thereby has influenced the quality of water after filtering.

Thus, under the above stated viewpoints, there is room for improvement in the prior art for the process of circulating water in a building.

Disclosure of Invention

In order to solve the problems, the application provides a building water supply and drainage circulation environment-friendly treatment system, which comprises a bottom plate and a water storage tank arranged at the upper end of the bottom plate, wherein a connecting pipe used for being connected with a drainage pipeline is arranged at the upper end of the water storage tank, a filtering mechanism used for carrying out multi-layer filtering on water is arranged in the water storage tank, and impurity removing mechanisms used for outwards discharging filtered impurities are arranged on two side walls of the water storage tank.

The filter mechanism comprises a plurality of filter plates which are obliquely arranged inside the water storage tank and distributed up and down, the oblique directions of two filter plates which are adjacent up and down are opposite, one side of the filter plate which is inclined downwards is not connected with the inner wall of the water storage tank, filter holes are uniformly formed in the filter plates, the diameters of the filter holes are gradually decreased from top to bottom, and a hole cleaning unit for cleaning the filter holes is further arranged on the lower side of the filter plates.

Preferably, the hole cleaning unit comprises a support rod bar, an upper pressing spring rod, a driven slat and a hole cleaning rod, wherein the support rod bar is uniformly arranged in the water storage tank and positioned at the lower side of the filtering hole, the upper end of the support rod bar is uniformly provided with an upper pressing spring rod aligned with the filtering hole, the driven slat is arranged between the upper ends of the upper pressing spring rods at the same height, the upper ends of the driven slats are uniformly provided with the hole cleaning rods positioned in the corresponding filtering holes, the upper ends of the driven slats are not connected with the hole cleaning rods, the upper ends of the support rod bars are not connected with the upper pressing spring rods, the upper ends of the hole cleaning rods are inclined to one side, and the inclination direction of the upper ends of the hole cleaning rods is opposite to that of the corresponding filtering plates.

Preferably, the impurity removing mechanism comprises a discharge groove, a support rod, a mounting cylinder, a rotary turning plate, support rings, inclined guide plates, arc plates, water leakage holes and a receiving unit, wherein the discharge groove is formed in two side walls of a water storage tank, the position of the discharge groove corresponds to one end of the downward inclination of a filter plate, the support rod is arranged between the front side wall and the rear side wall of the discharge groove, the mounting cylinder is rotationally arranged on the outer side surface of the support rod, the rotary turning plate driven by water flow impact is uniformly arranged on the outer side surface of the mounting cylinder, the support rings are respectively arranged at the front end and the rear end of the rotary turning plate, the inclined guide plates are further arranged between the support rings and the corresponding filter plates, the arc plates connected with the rotary turning plates are uniformly arranged between the support rings at the front side and the rear side of the support rings, when the rotary turning plate is positioned in the water storage tank and is in a horizontal state, the arc plates are uniformly provided with the water leakage holes slightly smaller than the corresponding filter holes, and the receiving unit for limiting and collecting discharged waste residues is further arranged on the outer side of the water storage tank.

Preferably, the receiving unit comprises a guide inclined plate, a limit left plate, a first receiving box, a limit right plate, a guide arc plate, a second receiving box and a tamping device, wherein the guide inclined plate is arranged on the left side face and the right side face of the water storage box, the guide inclined plate is positioned on the lower side of the discharge groove close to the bottom plate, the front side and the rear side of the left guide inclined plate are symmetrically provided with the limit left plate connected with the water storage box, the upper end of the bottom plate is further provided with the first receiving box positioned at the lower end of the limit left plate, the front side and the rear side of the right guide inclined plate are symmetrically provided with the limit right plate connected with the water storage box, the guide arc plate is further arranged between the limit right plates, the upper end of the guide arc plate is positioned on the lower side of the discharge groove above the right side, and the tamping device used for cleaning the water leakage hole is further arranged on the guide arc plate, between the limit right plates and between the limit left plates.

Preferably, the hole tamping device comprises a supporting side bar, a propping compression spring rod, a driven connecting bar and a tamping ball, wherein the supporting side bar is arranged between the limiting left plates and between the limiting right plates, the height of the supporting side bar is consistent with the height of a corresponding supporting rod, a plurality of propping compression spring rods are uniformly arranged on one side surface of the supporting side bar, which is close to the supporting rod, of the material guiding arc plate, a plurality of propping compression spring rods, which are consistent with the corresponding supporting rod, are also arranged on one side of the material guiding arc plate, which is close to the water storage tank, a driven connecting bar is arranged between the propping compression spring rods, which are close to the telescopic ends of the water storage tank, the tamping ball corresponding to the adjacent water leaking hole is uniformly arranged on one side of the driven connecting bar, which is close to the water storage tank, and an arc chamfer is arranged on one side of the water leaking hole, which is far away from the supporting rod.

Preferably, the device further comprises a scraping mechanism for cleaning the upper end of the filter plate and the inner wall of the lower side of the water storage tank, the scraping mechanism comprises a scraping plate, a scraping bottom plate, a transmission screw, a rotating belt wheel, a transmission belt and a driving motor, the scraping plate is arranged on the upper end face of the filter plate in a sliding mode, the scraping bottom plate is arranged on the inner wall of the lower side of the water storage tank in a sliding mode, the transmission screw is arranged on the scraping bottom plate and the scraping plate in a threaded mode, the front end and the rear end of the transmission screw are rotationally connected with the water storage tank, the front end of the transmission screw also penetrates through the water storage tank and is provided with the rotating belt wheel, the transmission belt is arranged between the rotating belt wheels, the front end of the uppermost transmission belt wheel is provided with the driving motor, and the driving motor is connected with the water storage tank through a motor seat.

Preferably, one end of the scraping plate, which is inclined downwards, is also provided with a special-shaped scraping plate, and triangular grooves corresponding to the components for cleaning holes in the hole cleaning unit are uniformly formed in the lower end of the scraping plate.

Preferably, the scraping tooth grooves for increasing scraping effect are uniformly formed in the lower end face of the scraping bottom plate, and the rectangular through grooves corresponding to the scraping bottom plate are formed in the front end of the water storage tank.

Preferably, still including setting up the purifying mechanism that is used for purifying water quality in the water storage tank front side, purifying mechanism include spacing bounding wall, limit baffle, apopore, filter media and drain pipe, the spacing bounding wall setting of U shape structure is just located the water storage tank front side on the bottom plate, a plurality of card slots have been seted up to the symmetry on the side inner wall about the spacing bounding wall, insert through detachable mode between the card slot of left and right sides and have limit baffle, and evenly seted up the apopore on the limit baffle, insert through detachable mode between two adjacent limit baffles and have been used for purifying water quality's filter media, the apopore has been seted up to spacing bounding wall front end, spacing bounding wall front end is provided with the drain pipe that is located the apopore outside.

Preferably, the upper ends of the limiting coamings are symmetrically provided with dovetail grooves, dovetail sliding blocks are arranged in the dovetail grooves in a sliding mode, and sliding cover plates corresponding to the limiting coamings are arranged between the upper ends of the dovetail sliding blocks.

In summary, the present application includes at least one of the following beneficial technical effects:

1. according to the application, the multi-level filtering treatment can be carried out on the circulating water in the building through the filtering mechanism, and the filtering holes can be cleaned in the filtering process under the condition that an electric driving element is not adopted, so that impurities can be effectively prevented from being blocked in the filtering holes, and the filtering effect of the filtering holes is maintained.

2. According to the application, the impurity removing mechanism can discharge the filtered impurities outwards under the condition of not adopting an electric driving element, and the filtered impurities can be timely discharged outwards, so that on one hand, the pollution to water quality caused by decay and deterioration due to long-term accumulation of the filtered impurities on the filter plate can be avoided; on the other hand, the problem that the water quality is affected because impurities accumulated at the upper end of the filter plate are more and enter the filtered water in the later filtering process can be avoided; and, compare and use the electric drive original paper just can outwards discharge the impurity of filtering out, still reduced purchase, use and maintenance cost to the electric drive original paper.

Drawings

The application will be further described with reference to the drawings and examples.

Fig. 1 is a schematic structural view of the present application.

Fig. 2 is a schematic view of the structure of the present application (from the back to the front).

Fig. 3 is a schematic view of the structure of the present application except for the scraping mechanism and the cleaning mechanism.

Fig. 4 is a schematic structural view of the hole cleaning unit of the present application.

Fig. 5 is a schematic structural view of the impurity removing mechanism of the present application.

Fig. 6 is a schematic view of a part of the structure of the impurity removing mechanism of the present application.

Fig. 7 is an enlarged view of the application at a in fig. 5.

Fig. 8 is a schematic structural view of the scraping mechanism of the present application.

Fig. 9 is a schematic view of the scraping mechanism of the present application (seen from the rear to the front).

FIG. 10 is a schematic view of the structure of the purifying mechanism of the present application.

In the figure, 1, a bottom plate; 2. a water storage tank; 20. a connecting pipe; 3. a filtering mechanism; 4. a impurity removing mechanism; 5. a scraping mechanism; 6. a purifying mechanism; 30. a filter plate; 31. a filter hole; 32. a hole cleaning unit; 320. a support bar; 321. an upper pressing spring rod; 322. driven laths; 323. a hole cleaning rod; 40. a discharge chute; 41. a support rod; 42. a mounting cylinder; 43. rotating the turning plate; 44. a support ring; 45. an inclined guide plate; 46. an arc-shaped plate; 47. a water leakage hole; 48. a material receiving unit; 480. a material guiding sloping plate; 481. a limiting left plate; 482. a material receiving box I; 483. limiting the right plate; 484. a material guiding arc plate; 485. a material receiving box II; 49. a hole pounding device; 490. supporting the side bars; 491. pressing the spring rod; 492. a driven connecting bar; 493. tamping the hole ball; 50. a scraping plate; 51. scraping a bottom plate; 52. a transmission screw; 53. a rotary belt wheel; 54. a transmission belt; 55. a driving motor; 56. a special-shaped scraping plate; 57. triangular grooves; 58. scraping tooth grooves; 59. rectangular through grooves; 60. limiting coaming; 61. a limit baffle; 62. a water outlet hole; 63. a filter material; 64. a drain pipe; 65. a dovetail groove; 66. dovetail slide blocks; 67. and sliding the cover plate.

Detailed Description

Embodiments of the application are described in detail below with reference to fig. 1-10, but the application can be practiced in many different ways as defined and covered by the claims.

The embodiment of the application discloses a building water supply and drainage circulation environment-friendly treatment system, which is mainly applied to the process of circulating treatment of water in a building and can carry out multi-level filtration on water in the technical effect; especially at the in-process of filtering, can clear up the hole that is used for filtering water under the condition that need not to use electric drive original paper to can also outwards discharge the impurity that clears up, thereby avoid impurity to lead to the fact the jam to the hole that is used for filtering, also improved the effect of carrying out the filtration to water.

Embodiment one:

referring to fig. 1 and 2, the environmental protection treatment system for building water supply and drainage circulation comprises a bottom plate 1 and a water storage tank 2 arranged at the upper end of the bottom plate 1, wherein the water storage tank 2 can limit water before filtering the water so as to prevent the water from flowing and diffusing everywhere; the upper end of the water storage tank 2 is provided with a connecting pipe 20 which is used for being connected with a drainage pipeline, so that circulating water in a building can enter the water storage tank 2 along the connecting pipe 20; the inside of the water storage tank 2 is provided with a filtering mechanism 3 for carrying out multi-layer filtration on water, and the effect of filtering the water can be improved through the multi-layer filtration on the water by the filtering mechanism 3; be provided with on the both sides wall of water storage tank 2 and be used for outwards the impurity exhaust clear miscellaneous mechanism 4 of filtering out, through clear miscellaneous mechanism 4 timely outwards discharge the impurity of filtering out, can effectually avoid piling up the problem that causes the influence to quality of water at the rose box inside because of the impurity.

Referring to fig. 3, a filter mechanism 3 for cleaning the holes for filtering during the water filtering process; specifically, the filtering mechanism 3 includes a filter plate 30, a filtering hole 31 and a hole cleaning unit 32, wherein a plurality of filter plates 30 are obliquely arranged in the water storage tank 2 and are vertically distributed, and the oblique directions of two adjacent filter plates 30 are opposite, so that a part of water being filtered can sequentially pass through the filter plates 30 from top to bottom along the oblique direction of the filter plates 30, and the water flowing path is prolonged; the downward inclined side of the filter plate 30 is not connected with the inner wall of the water storage tank 2, so that the filtered impurities can be flushed to the downward inclined end by water flow from the upper end of the filter plate 30, and the subsequent impurity removing mechanism 4 is convenient for carrying the filtered impurities.

The filter plates 30 are uniformly provided with the filter holes 31, and the diameters of the filter holes 31 are gradually decreased from top to bottom, so that the filter holes 31 can carry out multi-level filtration on water, and the effect of filtering the water is improved; the filter plate 30 downside still is provided with the clear hole unit 32 that is used for carrying out the clearance to filtration pore 31, and clear hole unit 32 can clear up filtration pore 31 at the in-process of filtering water to can avoid impurity to block up filtration pore 31, and kept filtration pore 31 to water filtering effect.

Referring to fig. 4, a hole cleaning unit 32 capable of cleaning the filter holes 31 under the unstable impact of water flow; specifically, the hole cleaning unit 32 includes a supporting rod 320, an upper pressing spring rod 321, a driven slat 322 and a hole cleaning rod 323, the supporting rod 320 is uniformly arranged in the water storage tank 2 and is located at the lower side of the filtering hole 31, the upper end of the supporting rod 320 is uniformly provided with the upper pressing spring rod 321 aligned with the filtering hole 31, the driven slat 322 is arranged between the upper ends of the upper pressing spring rods 321 with the same height, and the upper pressing spring rod 321 can be always located at the driven slat 322 to provide upward force; the upper end of the driven slat 322 is uniformly provided with a clear hole rod 323 positioned in the corresponding filter hole 31, and the impact force of water on the clear hole rod 323 is generally greater than the elasticity of the upper pressing spring rod 321.

The hole cleaning rod 323 can move downwards when being impacted by water flow and can move upwards to reset when not being impacted by water flow, the filtering holes 31 can be cleaned in the up-and-down moving process of the hole cleaning rod 323, and flexible impurities larger than the filtering holes 31 are easily smashed to the upper end of the filtering plate 30 by the hole cleaning rod 323, so that the impurities can be conveniently washed away by subsequent water flow; the part that driven slat 322 upper end is not connected with clear hole pole 323 and the part that die-pin strip 320 upper end is not connected with pressing spring pole 321 is arc structure, when impurity passes filtration pore 31 and drops driven slat 322 and die-pin strip 320 upper end, arc structure is convenient for impurity down landing to can avoid falling down impurity from filtration pore 31 and be located driven slat 322 and die-pin strip 320 upper end all the time.

The upper end of the hole cleaning rod 323 is inclined to one side, and the inclination direction of the upper end of the hole cleaning rod 323 is opposite to the inclination direction of the corresponding filter plate 30, so that the inclined surface of the hole cleaning rod 323 is more easily impacted by flowing water, and the impacted hole cleaning rod 323 is more easily driven to move downwards by the driven slat 322; the filter holes 31 can be cleaned timely without electric driving elements by the hole cleaning unit 32, so that the filter effect of the filter holes 31 is effectively maintained.

Referring to fig. 5 and 6, the impurity removing unit 4 according to the present application; specifically, the impurity removing mechanism 4 comprises a discharge groove 40, a support rod 41, a mounting cylinder 42, a rotary turning plate 43, a support ring 44, an inclined guide plate 45, an arc plate 46, water leakage holes 47 and a material collecting unit 48, wherein the discharge groove 40 is arranged on two side walls of the water storage tank 2, the position of the discharge groove 40 corresponds to one end of the downward inclination of the filter plate 30, the support rod 41 is arranged between the front side wall and the rear side wall of the discharge groove 40, and the support rod 41 is positioned on the lower side of the corresponding filter plate 30; the installation cylinder 42 is rotatably arranged on the outer side surface of the support rod 41, the rotating turning plates 43 are uniformly arranged on the outer side surface of the installation cylinder 42, and the rotating turning plates 43 can drive the installation cylinder 42 and the other rotating turning plates 43 to rotate together when being impacted by water flow, so that an electric driving element is not needed.

The front end and the rear end of the rotating turning plate 43 are respectively provided with a supporting ring 44, and the supporting rings 44 can increase the stability of the rotating turning plate 43 in installation; an inclined guide plate 45 is further arranged between the support ring 44 and the corresponding filter plate 30, water flowing along the filter plate 30 flows to the rotating turning plate 43 along the inclined guide plate 45, so that impact can be caused on the rotating turning plate 43, but the impact force of water flow is usually enough to rotate the rotating turning plate 43; arc plates 46 connected with the rotary turning plates 43 are uniformly arranged between the supporting rings 44 on the front side and the rear side, and the arc plates 46 can collect impurities which are flushed from the upper ends of the filter plates 30 to the rotary turning plates 43 by water flow.

When the rotating turning plate 43 is positioned in the water storage tank 2 and is in a horizontal state, the arc plate 46 is positioned on the upper side of the rotating turning plate 43, so that impurities can enter between the arc plate 46 and the rotating turning plate 43 along the inclined guide plate 45 in the rotating process of the rotating turning plate 43, and then the rotating turning plate 43 rotates to the outer side of the water storage tank 2, the arc plate 46 is positioned on the lower side of the rotating turning plate 43, and at the moment, the impurities on the inner side of the arc plate 46 drop downwards and are discharged.

In order to avoid that a large amount of water is discharged outwards from between the arc-shaped plate 46 and the rotating turning plate 43, water leakage holes 47 slightly smaller than the corresponding filtering holes 31 are uniformly formed in the arc-shaped plate 46, the water leakage holes 47 can prevent water from being stored between the arc-shaped plate 46 and the rotating turning plate 43 in the rotating process, impurities can be prevented from leaking outwards from the water leakage holes 47, and a material collecting unit 48 for limiting and collecting discharged waste residues is further arranged on the outer side of the water storage tank 2.

With continued reference to fig. 5 and 6, a receiving unit 48 for limiting and collecting the discharged impurities; specifically, the receiving unit 48 includes a guiding inclined plate 480, a limiting left plate 481, a receiving box one 482, a limiting right plate 483, a guiding arc plate 484, a receiving box two 485 and a tamping machine 49, the guiding inclined plate 480 is disposed on the left and right sides of the water storage tank 2, and the guiding inclined plate 480 is located at the lower side of the discharging groove 40 near the bottom plate 1, and impurities discharged downwards from the corresponding discharging groove 40 on the upper side of the guiding inclined plate 480 will drop onto the upper end of the guiding inclined plate 480, and then slide down along the guiding inclined plate 480.

The front side and the rear side of the left material guiding inclined plate 480 are symmetrically provided with a limiting left plate 481 connected with the water storage tank 2, and the limiting left plate 481 can limit the dropping process of left impurities, so that the impurities can be prevented from dropping to the front side and the rear side; the upper end of the bottom plate 1 is also provided with a first material receiving box 482 positioned at the lower end of the limiting left plate 481, and the first material receiving box 482 can receive and collect impurities falling downwards from the left side under the cooperation of the material guiding inclined plate 480 and the limiting left plate 481, so that the impurities can be prevented from falling outside the first material receiving box 482.

Limiting right plates 483 connected with the water storage tank 2 are symmetrically arranged at the front end and the rear end of the right material guiding inclined plate 480, and the limiting right plates 483 can limit impurities discharged outwards from the right side, so that the impurities are prevented from falling to the front side and the rear side; still be provided with guide arc plate 484 between spacing right plate 483, and the upper end of guide arc plate 484 is located the discharge groove 40 downside of right side top for guide arc plate 484 can lead the impurity of upper side discharge groove 40 exhaust, also can separate the impurity of the discharge groove 40 exhaust of right side different height.

The upper end of the bottom plate 1 is also provided with a second receiving box 485 positioned at the left side and the right side of the material guiding arc plate 484, the second receiving box 485 can collect impurities discharged from different discharge tanks 40 in a distinguishing way, the impurities cannot fall to the outer side of the second receiving box 485 under the limit of the material guiding arc plate 484 and the limit right plate 483, and the material guiding inclined plate 480 can prevent the impurities from falling to the upper ends of the edges of the first receiving box 482 and the second receiving box 485; a tamper 49 for cleaning the water leakage hole 47 is also provided on the guide arc plate 484, between the limit right plates 483 and between the limit left plates 481.

Referring to fig. 7, a hole tamper 49 for cleaning the water leakage hole 47; specifically, the hole tamper 49 includes a supporting side bar 490, a pressing spring rod 491, a driven connecting bar 492 and a hole tamper ball 493, the supporting side bar 490 is arranged between the limiting left plates 481 and between the limiting right plates 483, the height of the supporting side bar 490 is consistent with the height of the corresponding supporting rod 41, a plurality of pressing spring rods 491 are uniformly arranged on one side of the supporting side bar 490, which is close to the supporting rod 41, a plurality of pressing spring rods 491 are also arranged on one side of the material guiding arc plate 484, which is close to the water storage tank 2, and a driven connecting bar 492 is arranged between the pressing spring rods 491 and the telescopic ends of the water storage tank 2.

The abutment of the compression spring rod 491 can always provide a force to the driven link 492 near the reservoir 2; the driven connecting strip 492 is uniformly provided with the tamping hole balls 493 corresponding to the adjacent water leakage holes 47 at one side close to the water storage tank 2, when the positions of the water leakage holes 47 correspond to the positions of the tamping hole balls 493, the tamping hole balls 493 can be inserted into the water leakage holes 47 under the elastic action of the pressing spring rod 491, so that the water leakage holes 47 can be prevented from being blocked by impurities; and the side of the water leakage hole 47 far away from the supporting rod 41 is provided with an arc chamfer, when the water leakage hole 47 on the arc plate 46 continuously rotates along the supporting rod 41, the arc chamfer on the water leakage hole 47 enables the tamping hole ball 493 to be separated from the water leakage hole 47 more easily.

Embodiment two:

referring to fig. 8 and 9, on the basis of the first embodiment, dirt adheres to the upper end surface of the filter plate 30 after long-term use; a scraping mechanism 5 for cleaning the upper end of the filter plate 30 and the inner wall of the lower side of the water storage tank 2 is arranged; specifically, the scraping mechanism 5 includes a scraping plate 50, a scraping plate 51, a driving screw 52, a rotating belt wheel 53, a driving belt 54 and a driving motor 55, the scraping plate 50 is slidably disposed on an upper end surface of the filter plate 30, the scraping plate 51 is slidably disposed on an inner wall of a lower side of the water storage tank 2, and the driving screw 52 is disposed on the scraping plate 51 and the scraping plate 50 in a threaded fit manner.

The transmission lead screw 52 can drive when rotating and scrape bottom plate 51, scrape movable plate 50 and remove for the bottom plate 51 of removing the in-process can scrape the downside inner wall of water storage tank 2, scrape movable plate 50 and can scrape the filter 30 upper end, thereby can scrape the dirt that adheres to on the downside inner wall of water storage tank 2 and the filter 30 up end, clear hole pole 323 will be scraped movable plate 50 downwardly extrusion at this in-process.

The front end and the rear end of the transmission screw 52 are rotatably connected with the water storage tank 2, so that the two side ends of the transmission screw 52 can be fixed; the front end of the transmission screw 52 also passes through the water storage tank 2 and is provided with a rotating belt wheel 53, a transmission belt 54 is arranged between the rotating belt wheels 53 in a transmission way, the front end of the uppermost transmission belt 54 is provided with a driving motor 55, and the driving motor 55 is connected with the water storage tank 2 through a motor seat; the rotation of the output shaft of the driving motor 55 can drive the rotating belt pulley 53 connected with the driving motor to rotate, the rotating belt pulley 53 can rotate through the rotating belt pulley 53, the driving belt 54 and the driving screw 52 when rotating, and the scraping plate 50 and the scraping bottom plate 51 can be driven to scrape when the driving screw 52 rotates.

Referring to fig. 9, in order to scrape the upper end surface of the inclined guide 45, a special-shaped scraper 56 attached to the inclined guide 45 is provided at the downward inclined end of the scraping plate 50, so that the scraping plate 50 will also drive the special-shaped scraper 56 connected thereto to scrape the upper end surface of the inclined guide 45 during movement, thereby avoiding the attachment of dirt to the upper end surface of the inclined guide 45; triangular grooves 57 corresponding to the hole cleaning bars 323 are uniformly formed at the lower end of the scraper 50.

The scraping plate 50 can be matched with the triangular groove 57 to scrape and clean the upper end of the filter plate 30 under the condition that the hole cleaning rod 323 is not required to be pressed downwards; the scraping tooth grooves 58 for increasing the scraping effect are uniformly formed in the lower end face of the scraping bottom plate 51, the rectangular through grooves 59 corresponding to the scraping bottom plate 51 are formed in the front end of the water storage tank 2, dirt scraped forward by the scraping bottom plate 51 can be discharged forward through the rectangular through grooves 59, and then dirt objects discharged to the outer side of the water storage tank 2 through the rectangular through grooves 59 are taken out upward in a manual mode.

Embodiment III:

referring to fig. 10, in the second embodiment, a purification mechanism 6 for purifying water is provided on the front side of the water tank 2 in order to further purify the filtered water; specifically, the purifying mechanism 6 includes a limit shroud 60, a limit baffle 61, water outlet holes 62, a filter 63 and a drain pipe 64, the limit shroud 60 of the U-shaped structure is disposed at the upper end of the bottom plate 1 and located at the front side of the water storage tank 2, the limit shroud 60 corresponds to the rectangular through slot 59 in position, a plurality of clamping slots are symmetrically formed in the inner walls of the left side and the right side of the limit shroud 60, the limit baffle 61 is detachably inserted between the clamping slots of the left side and the right side, the water outlet holes 62 are uniformly formed in the limit baffle 61, and water discharged forwards from the rectangular through slot 59 can pass through the water outlet.

The filter materials 63 for purifying water are inserted between two adjacent limit baffles 61 in a detachable mode, and the filter materials 63 can purify the flowing water, so that the effect of filtering the water is further improved, and when the filter materials 63 are used to a certain extent, the filter materials 63 can be conveniently taken out upwards, and then the filter materials 63 are replaced with new filter materials 63; the front end of the limiting coaming 60 is provided with a drain hole, the front end of the limiting coaming 60 is provided with a drain pipe 64 positioned outside the drain hole, and water filtered by the filter 63 can pass through the drain hole and the drain pipe 64 to circulate in the building again.

The dovetail grooves 65 are symmetrically formed in the upper ends of the limiting coamings 60, dovetail sliding blocks 66 are slidably arranged in the dovetail grooves 65, the dovetail grooves 65 can limit and guide the sliding process of the dovetail sliding blocks 66, sliding cover plates 67 corresponding to the limiting coamings 60 are arranged between the upper ends of the dovetail sliding blocks 66, the upper ends of the limiting coamings 60 can be covered by the sliding cover plates 67, the upper ends of the limiting coamings 60 can be opened after the sliding cover plates 67 slide forwards, so that filter materials 63 can be replaced conveniently, and dirty objects discharged to the outer side of the water storage tank 2 through the rectangular through grooves 59 can be taken out upwards conveniently.

When in operation, the device comprises: firstly, when circulating water in a building enters the water storage tank 2 from the connecting pipe 20, part of the water energy being filtered sequentially passes through the filter plate 30 from top to bottom along the inclined direction of the filter plate 30, and part of the water energy impacts the cleaning rod 323 so as to downwards flow through the filter holes 31, and the cleaning rod 323 can reciprocate up and down under the unstable impact of water flow and the elastic action of the upper pressing spring rod 321, so that the blocking of the filter holes 31 is prevented;

in this process, the filtering holes 31 on the filter plate 30 can perform multi-stage filtering on water, the water flowing along the filter plate 30 will flow the impurities located at the upper end of the filter plate 30 together between the arc plate 46 and the rotating turning plate 43, and the impact force of the flowing water can also drive the rotating turning plate 43 to rotate along the supporting rod 41, so that the impurities entering between the arc plate 46 and the rotating turning plate can be discharged downwards when rotating to the outside of the water storage tank 2, the hole-stamping balls 493 will clean the water leakage holes 47 under the elastic action of the pressing spring rod 491, and the water flow will flow forward to the filter 63 for further filtering purification after being filtered by the filter plate 30.

And a second step of: when the lower inner walls of the filter plate 30 and the water storage tank 2 need to be cleaned, the output shaft of the driving motor 55 rotates to drive the rotating belt pulley 53 connected with the filter plate 30 to rotate, the rotating belt pulley 53 can rotate through the rotating belt pulley 53, the driving belt 54 and the driving screw 52, the driving screw 52 can drive the scraping plate 50 and the scraping bottom plate 51 to respectively scrape and clean the lower inner walls of the filter plate 30 and the water storage tank 2, and the special-shaped scraping plate 56 can also be driven to scrape and clean the upper end of the inclined guide plate 45 when the scraping plate 50 moves; when the dirt article is scraped forward by the scraping plate 51 to pass through the rectangular through groove 59, the sliding cover plate 67 is pulled forward, and then the dirt article is cleaned up.

And a third step of: when the dust filter after a certain degree of use needs to be replaced, the sliding cover plate 67 can be pulled forwards, then the dust filter is taken out upwards, new dust filter is placed between two adjacent limit baffles 61, and finally the sliding cover plate 67 is pushed backwards to reset.

It will be evident to those skilled in the art that the application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. The utility model provides a building water supply and drainage circulation environmental protection processing system, includes bottom plate (1) and sets up water storage tank (2) in bottom plate (1) upper end, and water storage tank (2) upper end is provided with connecting pipe (20) that are used for being connected with the pipeline of drainage, its characterized in that: the water storage tank (2) inside be provided with be used for carrying out multilayer filterable filtering mechanism (3) to water, be provided with on the both sides wall of water storage tank (2) and be used for outwards the clear miscellaneous mechanism (4) of exhaust of impurity that filters out, wherein:

the utility model provides a filter mechanism (3) including slope setting up in water storage tank (2) inside and be a plurality of filter (30) of upper and lower distribution, and the incline direction of upper and lower adjacent two filter (30) is opposite, one side that filter (30) downward sloping is not connected with the inner wall of water storage tank (2), evenly has seted up filtration pore (31) on filter (30), and the diameter of filtration pore (31) is for descending progressively in proper order from last setting, filter (30) downside still is provided with clear hole unit (32) that are used for carrying out the clearance to filtration pore (31).

2. The environmental protection treatment system for building water supply and drainage circulation according to claim 1, wherein: clear hole unit (32) include support pole (320), go up pressure spring pole (321), driven slat (322) and clear hole pole (323), support pole (320) evenly set up in water storage tank (2) and lie in filtration pore (31) downside, support pole (320) upper end evenly is provided with and aims at going up pressure spring pole (321) of filtration pore (31), be provided with driven slat (322) between the last pressure spring pole (321) upper end of same height, driven slat (322) upper end evenly is provided with clear hole pole (323) that lie in corresponding filtration pore (31), the part that driven slat (322) upper end is not connected with clear hole pole (323) and the part that support pole (320) upper end is not connected with last pressure spring pole (321) are the arc structure, the upper end of clear hole pole (323) is to one side slope, and the incline direction of clear hole pole (323) upper end is opposite with the incline direction of the filter (30) that correspond.

3. The environmental protection treatment system for building water supply and drainage circulation according to claim 1, wherein: the impurity removing mechanism (4) comprises a discharge groove (40), a support rod (41), a mounting cylinder (42), a rotary turning plate (43), a support ring (44), an inclined guide plate (45), an arc plate (46), water leakage holes (47) and a receiving unit (48), wherein the discharge groove (40) is arranged on two side walls of the water storage tank (2), the position of the discharge groove (40) corresponds to one end of the filter plate (30) which is inclined downwards, the support rod (41) is arranged between the front side wall and the rear side wall of the discharge groove (40), the mounting cylinder (42) is rotatably arranged on the outer side surface of the support rod (41), the rotary turning plate (43) is uniformly arranged on the outer side surface of the mounting cylinder (42), the support rings (44) are respectively arranged at the front end and the rear end of the rotary turning plate (43), the inclined guide plate (45) is uniformly arranged between the support rings (44) and the corresponding filter plate (30), the arc plates (46) which are connected with the rotary turning plate (43) are uniformly arranged between the support rings (44) at the front side and the rear side, when the rotary turning plate (43) is positioned in the water storage tank (2) and is in a horizontal state, the rotary turning plate (46) is positioned on the upper side of the rotary turning plate (43) and the corresponding to the arc plate (43) is slightly provided with the corresponding arc plates (47), the outside of the water storage tank (2) is provided with a material receiving unit (48) for limiting and collecting discharged waste residues.

4. A building plumbing cycle environmental protection treatment system according to claim 3, wherein: receive material unit (48) including guide swash plate (480), spacing left plate (481), receive workbin one (482), spacing right plate (483), guide arc board (484), receive workbin two (485) and smash hole ware (49), guide swash plate (480) set up on the left and right sides face of water storage tank (2), and guide swash plate (480) are located row silo (40) downside that is close to bottom plate (1), left guide swash plate (480) front and back bilateral symmetry is provided with spacing left plate (481) that are connected with water storage tank (2), bottom plate (1) upper end still is provided with and is located receipts workbin one (482) of spacing left plate (481) lower extreme, both ends symmetry is provided with spacing right plate (483) that are connected with water storage tank (2) around guide swash plate (480), and guide arc board (484) still are provided with between spacing right plate (483) and guide arc board (484) are located row silo (40) downside in the right side top, bottom plate (1) upper end is provided with guide arc board (484) and still is provided with guide arc ware (483) between two and carries out between guide arc hole (481) and the clearance arc ware (485).

5. The environmental protection treatment system for building water supply and drainage circulation according to claim 4, wherein: the hole tamper (49) include support side bar (490), support and sticis spring pole (491), driven even strip (492) and smash hole ball (493), support side bar (490) setting is between spacing left board (481) and between spacing right board (483), and the height of support side bar (490) highly accords with bracing piece (41) that corresponds, evenly be provided with a plurality of sticis spring pole (491) on the side that support side bar (490) is close to bracing piece (41), one side that guide arc board (484) is close to water storage tank (2) also is provided with a plurality of sticis spring pole (491) that highly accords with corresponding bracing piece (41), be provided with driven even strip (492) between the flexible end that sticis spring pole (491) is close to water storage tank (2), one side that driven even strip (492) is close to water storage tank (2) is provided with the corresponding hole ball (493) that smash with adjacent hole (47), and one side that the hole (47) was kept away from the bracing piece (41) is provided with the chamfer.

6. The environmental protection treatment system for building water supply and drainage circulation according to claim 1, further comprising a scraping mechanism (5) for cleaning the upper end of the filter plate (30) and the inner wall of the lower side of the water storage tank (2), and is characterized in that: the scraping mechanism (5) comprises a scraping plate (50), a scraping bottom plate (51), a transmission screw (52), a rotating belt wheel (53), a transmission belt (54) and a driving motor (55), wherein the scraping plate (50) is arranged on the upper end face of the filter plate (30) in a sliding mode, the scraping bottom plate (51) is arranged on the inner wall of the lower side of the water storage tank (2) in a sliding mode, the transmission screw (52) is arranged on the scraping bottom plate (51) and the scraping plate (50) in a threaded mode, the front end and the rear end of the transmission screw (52) are both rotationally connected with the water storage tank (2), the front end of the transmission screw (52) also penetrates through the water storage tank (2) and is provided with the rotating belt wheel (53), the transmission belt (54) is arranged between the rotating belt wheels (53), the front end of the uppermost transmission belt (54) is provided with the driving motor (55), and the driving motor (55) is connected with the water storage tank (2) through a motor seat.

7. The environmental protection treatment system for building water supply and drainage circulation of claim 6, wherein: the one end that scrapes movable plate (50) downward sloping still is provided with dysmorphism scraper blade (56), scrapes movable plate (50) lower extreme evenly and has seted up triangular groove (57) corresponding with the component that is arranged in clear hole unit (32) in clear hole.

8. The environmental protection treatment system for building water supply and drainage circulation of claim 6, wherein: the scraping tooth grooves (58) for increasing the scraping effect are uniformly formed in the lower end face of the scraping bottom plate (51), and rectangular through grooves (59) corresponding to the scraping bottom plate (51) are formed in the front end of the water storage tank (2).

9. The environmental protection treatment system for building water supply and drainage circulation according to claim 1, further comprising a purifying mechanism (6) arranged at the front side of the water storage tank (2) for purifying water quality, and is characterized in that: the purification mechanism (6) include spacing bounding wall (60), limit baffle (61), apopore (62), filter media (63) and drain pipe (64), limit bounding wall (60) of U-shaped structure set up in bottom plate (1) upper end and be located water storage tank (2) front side, a plurality of card slots have been seted up to symmetry on the inner wall of limit bounding wall (60) left and right sides, insert through detachable mode between the card slot of left and right sides and have limit baffle (61), and evenly seted up apopore (62) on limit baffle (61), insert through detachable mode between two adjacent limit baffles (61) and have been used for purifying filter media (63) of quality of water, the wash port has been seted up to limit bounding wall (60) front end, limit bounding wall (60) front end is provided with drain pipe (64).

10. The environmental protection treatment system for building water supply and drainage circulation of claim 9, wherein: dovetail grooves (65) are symmetrically formed in the upper ends of the limiting coamings (60), dovetail sliding blocks (66) are slidably arranged in the dovetail grooves (65), and sliding cover plates (67) corresponding to the limiting coamings (60) are arranged between the upper ends of the dovetail sliding blocks (66).