CN111576557B

CN111576557B - Water quality lifting device for secondary pressurizing water supply equipment

Info

Publication number: CN111576557B
Application number: CN202010515816.3A
Authority: CN
Inventors: 郭建斌; 郭照锋; 李智; 唐爱国
Original assignee: Zhengzhou High Tech Water Supply Co ltd
Current assignee: ZHENGZHOU HIGH-TECH WATER SUPPLY Co.,Ltd.
Priority date: 2020-06-09
Filing date: 2020-06-09
Publication date: 2021-05-25
Anticipated expiration: 2040-06-09
Also published as: CN111576557A

Abstract

The invention relates to the field of water supply equipment, in particular to a water quality lifting device for secondary pressurization water supply equipment, which comprises a connecting pipeline, a sealing shell, a driving mechanism, a driven mechanism, a cleaning mechanism, a closing mechanism and an alternative filtering mechanism, wherein the sealing shell is fixedly arranged on the connecting pipeline; this device can be at the continuous water to in the pipeline of the in-process that supplies water and filter, realizes improving the purpose of quality of water, can carry out timely clearance and discharge with the impurity after filtering simultaneously, reaches and lasts filterable purpose.

Description

Water quality lifting device for secondary pressurizing water supply equipment

Technical Field

The invention relates to the field of water supply equipment, in particular to a water quality lifting device for secondary pressurization water supply equipment.

Background

Because the pressure of each water plant (or pipe network booster station) in the existing city for the water supply pipe network can not meet the requirement of high-rise water supply, the high-rise water supply belongs to secondary water supply at present. The secondary water supply is a form that tap water of a city water supply system is stored through equipment, pressurized and supplied to users. Secondary water supply is the only water supply for high-rise residents.

Municipal water supply is pressurized to water storage equipment such as a water tank, a water pool, a pressure tank and the like, secondary pressurization is carried out in the water storage equipment, and then water is supplied to high-rise residents.

This approach is now used by a vast majority of cells. The method has the advantages of low cost and relatively low water cost added to each household. This method of supplying water is regulated to clean the water tank at least twice a year.

Although the water storage facility is cleaned regularly, the water stored in the water storage facility is also subjected to secondary pollution, impurities or flocculates often exist, potential safety hazards exist in the using process of users, and pipelines are easily blocked.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a water quality improving device for secondary pressurized water supply equipment.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a secondary pressure boost is water quality hoisting device for water supply equipment, includes connecting tube, seal shell, driving mechanism, follower, cleans mechanism, closing mechanism and alternative filtering mechanism, seal shell fixed mounting is on the connecting tube, driving mechanism and closing mechanism mesh mutually, driving mechanism fixed mounting is on seal shell, alternative filtering mechanism fixed mounting is on seal shell, follower meshes with closing mechanism mutually, cleans mechanism fixed mounting on seal shell, driving mechanism slidable sets up on the recess that sets up on the connecting tube, alternative filtering mechanism meshes with driving mechanism mutually, closing mechanism fixed mounting is on seal shell.

Specifically, the connecting pipeline comprises a square pipe and two pipe connectors, and the two pipe connectors are fixedly arranged at two ends of the square pipe respectively;

the square pipe is provided with a square through hole and a strip-shaped slot.

Specifically, the sealing shell comprises a sealing main shell, an M-shaped connecting frame, a U-shaped connecting frame, a track limiting plate and a sealing plug, wherein the M-shaped connecting frame is fixedly arranged on the sealing main shell, the U-shaped connecting frame is fixedly arranged on the sealing main shell, the track limiting plate is fixedly arranged on the sealing main shell, the sealing plug is in threaded connection with the sealing main shell, and the sealing main shell is fixedly connected with the square pipe.

The driving mechanism comprises a first L-shaped filter plate, a first sealing pressure column, a first threaded short column, a first main transmission gear, a first chain wheel and a first motor, wherein the first L-shaped filter plate is fixedly arranged on the first sealing pressure column, the first sealing pressure column is in threaded connection with the first threaded short column, the first threaded short column is fixedly arranged on the first main transmission gear, the first main transmission gear is fixedly arranged on the first chain wheel, the first chain wheel is fixedly arranged at the output end of the first motor, the first motor is fixedly arranged on an M-shaped connecting frame, the M-shaped connecting frame is slidably arranged on a through hole formed in the track limiting plate, and the first L-shaped filter plate and the first sealing pressure column can be slidably arranged on a square through hole corresponding to the first.

Concretely, driven mechanism include driven gear two, screw thread post two, track frid two, remove slide two, sealed picture peg two, two fixed mounting of driven gear are on screw thread post two, two rotatory installations of screw thread post are in the recess that sets up on track frid two, remove slide two and two threaded connection of screw thread post, two slidable mounting of removal slide are in the recess that sets up on track frid two, remove slide two and two fixed connection of sealed picture peg, the one end fixed mounting of track frid two is on square pipe, the other end fixed mounting of track frid two is on sealed main casing, two slidable settings of sealed picture peg are in the bar slot rather than corresponding.

Specifically, the cleaning mechanism comprises a T-shaped track frame, a motor II, a main helical gear, a displacement gear I, a side bevel gear I, a special-shaped lath I, a cleaning motor I, an axle post I, a brush head II, an axle post II, a cleaning motor II, a special-shaped lath II, a displacement gear II and a side bevel gear II, wherein the motor II is fixedly arranged on the T-shaped track frame, the main helical gear is fixedly arranged at the output end of the motor II, the main helical gear is simultaneously meshed with the side bevel gear I and the side bevel gear II, the side bevel gear II is fixedly arranged on the displacement gear II, the side bevel gear I is fixedly arranged on the displacement gear I, the displacement gear I is meshed with the special-shaped lath I, the displacement gear II is meshed with the special-shaped lath II, the special-shaped lath II is slidably arranged in a sliding through groove I arranged on the T-shaped track frame, the special-shaped lath, the first cleaning motor is fixedly mounted on the first special-shaped plate strip, the first shaft column is fixedly mounted at the output end of the first cleaning motor, the first shaft column is fixedly connected with the first brush head, the second brush head is fixedly mounted on the second shaft column, the second shaft column is fixedly mounted at the output end of the second cleaning motor, the second cleaning motor is fixedly mounted on the second special-shaped plate strip, the first displacement gear is rotatably mounted on a groove formed in the T-shaped track frame, the second displacement gear is rotatably mounted on a groove formed in the T-shaped track frame, the first shaft column penetrates through a through hole formed in the sealed main shell, the second shaft column penetrates through a through hole formed in the sealed main shell, and the T-shaped track frame is fixedly mounted on the sealed main shell.

Specifically, the closing mechanism comprises a chain, a second chain wheel, a first stabilizing plate, a connecting rod, a first helical gear, a second main transmission gear, a first movable sliding plate, a first sealing insertion plate, a first track groove plate and a first threaded column, wherein the chain is meshed with the first chain wheel and the second chain wheel, the second chain wheel is fixedly arranged at one end of the connecting rod, the connecting rod is rotatably arranged on a groove formed in the stabilizing plate, the stabilizing plate is fixedly arranged on a sealing main shell, the first helical gear is fixedly arranged at the other end of the connecting rod, the first helical gear is rotatably arranged on a groove formed in a U-shaped connecting frame, the first helical gear is meshed with the second helical gear, the second helical gear is rotatably arranged on a groove formed in the U-shaped connecting frame, the second helical gear is fixedly connected with the second main transmission gear, the second main transmission gear is fixedly connected with the first threaded column, the first threaded column, the first movable sliding plate is meshed with the first movable sliding plate, the first movable sliding plate is fixedly connected with the first sealing inserting plate, one end of the first track groove plate is fixedly installed on the square pipe, the other end of the first track groove plate is fixedly installed on the sealing main shell, the chain is meshed with the first chain wheel, the second main transmission gear is meshed with the second driven gear, and the first sealing inserting plate is slidably arranged in the corresponding strip-shaped inserting groove.

Specifically, alternate filter mechanism include L shape filter two, sealed compression leg two, driven gear one, screw thread short column two, L shape filter two and sealed compression leg two fixed connection, sealed compression leg two and screw thread short column two threaded connection, screw thread short column two and driven gear one fixed connection, driven gear one is rotatory to be installed on the recess that sets up on the M shape link, driven gear one meshes with main drive gear one mutually, L shape filter two and sealed compression leg two all can slide and set up in rather than corresponding square through-hole.

The invention has the beneficial effects that:

(1) in the prior art, the water quality of secondary pressurized water supply equipment is filtered by generally arranging a filter element at a joint, the filter element needs to be replaced periodically or water in a water storage facility needs to be filtered and purified periodically, but all the filtering modes need to be treated periodically and cannot ensure that water used by a user is filtered and treated in real time, an L-shaped filter plate I in a driving mechanism is positioned in a square pipe to filter the water quality, a sealing pressing column I and a sealing inserting plate II ensure the tightness of the square pipe, three mechanisms of a driven mechanism, a closing mechanism and an alternative filtering mechanism are driven to work simultaneously by starting a motor I to realize the ascending of the L-shaped filter plate I and the descending of the L-shaped filter plate II, and when the L-shaped filter plate I ascends to the position above a square through hole corresponding to the L-shaped filter plate I, the sealing inserting plate I is inserted into a strip-shaped inserting groove corresponding to the L-shaped filter plate II, and when the second L-shaped filter plate descends to the position above the corresponding square through hole, the second sealing inserting plate just breaks away from the corresponding strip-shaped slot until the second L-shaped filter plate descends completely, the second sealing pressing column descends synchronously to seal the corresponding square through hole, so that the exchange of the first L-shaped filter plate and the second L-shaped filter plate is completed, namely the first L-shaped filter plate finishes filtering, the second sealing inserting plate replaces the filtering of water quality, thereby realizing uninterrupted filtering of water quality in the application and ensuring that water used by a user is always in a filtered state.

Aiming at the problems that the first L-shaped filter plate and the second L-shaped filter plate are different in position and working time and cannot be effectively cleaned by the same cleaning device, the cleaning mechanism is designed, the first displacement gear and the second displacement gear on two sides are driven to rotate simultaneously by starting the second motor, the opposite movement tracks of the first brush head and the second brush head are finally realized, when the first L-shaped filter plate finishes filtering, the second brush head moves to the first L-shaped filter plate, the second cleaning motor drives the second brush head to rotate, so that cleaning work on the first L-shaped filter plate is realized, the first brush head is contracted to a position close to the T-shaped track frame, otherwise, when the second L-shaped filter plate finishes filtering, the first L-shaped filter plate finishes cleaning, the second brush head is contracted to a position close to the T-shaped track frame, the first brush head moves to the second L-shaped filter plate, the second L-shaped filter plate is cleaned, and the cleaning mechanism is matched with the working states of the first L-shaped filter plate and the second L-shaped filter plate to perform specific one-by-one cleaning work.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic perspective view of a water quality improving apparatus for a secondary pressurized water supply device according to the present invention.

Fig. 2 is a schematic supplementary three-dimensional structure diagram of a water quality improving device for secondary pressurized water supply equipment according to the present invention.

Fig. 3 is a schematic partial perspective view of a water quality improving apparatus for a secondary pressurized water supply device according to the present invention.

Fig. 4 is a schematic partial perspective view of a water quality improving apparatus for a secondary pressurized water supply device according to the present invention.

Fig. 5 is a schematic view of a supplementary structure of the water quality improving apparatus for secondary pressurized water supply equipment according to the present invention.

Fig. 6 is a schematic view of a supplementary structure of the water quality improving apparatus for secondary pressurized water supply equipment according to the present invention.

Fig. 7 is a schematic view of a supplementary structure of the water quality improving apparatus for secondary pressurized water supply equipment according to the present invention.

Fig. 8 is a schematic perspective view of a connection pipe 1 of a water quality improving apparatus for a secondary pressurized water supply device according to the present invention.

Fig. 9 is a schematic perspective view of the sealed housing 2 of the water quality improving apparatus for secondary pressurized water supply equipment according to the present invention.

Fig. 10 is a schematic perspective view of a sealed housing 2 of a water quality improving apparatus for a secondary pressurized water supply device according to the present invention.

Fig. 11 is a supplementary perspective view of the sealed housing 2 of the water quality improving apparatus for secondary pressurized water supply equipment according to the present invention.

Fig. 12 is a schematic perspective view of the driving mechanism 3 and the closing mechanism 6 of the water quality improving apparatus for secondary pressurized water supply equipment according to the present invention.

Fig. 13 is a schematic structural diagram of the driving mechanism 3 and the closing mechanism 6 of the water quality improving device for the secondary pressurized water supply equipment.

Fig. 14 is a schematic perspective view of the driven mechanism 4 and the alternate filtering mechanism 7 of the water quality improving apparatus for secondary pressurized water supply equipment according to the present invention.

Fig. 15 is a schematic structural diagram of the alternative filtering mechanism 7 of the water quality improving device for the secondary pressurized water supply equipment according to the present invention.

Fig. 16 is a schematic perspective view of a cleaning mechanism 5 of a water quality raising device for secondary pressurized water supply equipment according to the present invention.

Fig. 17 is a supplementary perspective view of the cleaning mechanism 5 of the water quality raising device for secondary pressurized water supply equipment according to the present invention.

Fig. 18 is a partial structural schematic view of the cleaning mechanism 5 of the water quality lifting device for secondary pressurized water supply equipment according to the present invention.

In the figure: a connecting pipe 1; 1-1 of a square pipe; a square through hole 1-1-1; a strip-shaped slot 1-1-2; a pipe connector 1-2; a sealed housing 2; sealing the main shell 2-1; an M-shaped connecting frame 2-2; 2-3 of a U-shaped connecting frame; a track defining plate 2-4; 2-5 of a sealing plug; an active mechanism 3; 3-1 of an L-shaped filter plate; 3-2 of a sealed compression column; 3-3 of a threaded stud I; 3-4 parts of a primary transmission gear; 3-5 parts of a first chain wheel; 3-6 of a first motor; a driven mechanism 4; a driven gear II 4-1; 4-2 of a threaded column II; 4-3 of a track groove plate II; 4-4 parts of a movable sliding plate II; 4-5 of a second sealing inserting plate; a cleaning mechanism 5; a T-shaped track frame 5-1; 5-2 of a second motor; 5-3 of a main bevel gear; 5-4 parts of a first displacement gear; 5-5 parts of a side bevel gear I; 5-6 parts of a special-shaped lath; 5-7 of a first motor for cleaning; 5-8 of a first shaft column; 5-9 parts of a first brush head; 5-10 parts of a second brush head; 5-11 parts of a second shaft column; 5-12 parts of a second motor for cleaning; 5-13 parts of a second special-shaped lath; 5-14 parts of a second displacement gear; 5-15 parts of a second side bevel gear; a closing mechanism 6; 6-1 of a chain; a second chain wheel 6-2; 6-3 parts of a stabilizing plate; 6-4 of a connecting rod; 6-5 parts of a first bevel gear; 6-6 parts of a second bevel gear; 6-7 parts of a second main transmission gear; 6-8 parts of a movable sliding plate; 6-9 parts of a first sealing inserting plate; 6-10 of a first track groove plate; 6-11 of a first threaded column; an alternating filtering mechanism 7; 7-1 of an L-shaped filter plate II; 7-2 of a sealed pressure column II; 7-3 parts of a first driven gear; and a second threaded stud 7-4.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-18, the water quality lifting device for secondary pressurized water supply equipment according to the present invention comprises a connecting pipe 1, a sealing housing 2, a driving mechanism 3, a driven mechanism 4, a cleaning mechanism 5, a closing mechanism 6 and an alternative filtering mechanism 7, wherein the sealing housing 2 is fixedly installed on the connecting pipe 1, the driving mechanism 3 and the closing mechanism 6 are meshed with each other, the driving mechanism 3 is fixedly installed on the sealing shell 2, the alternative filtering mechanism 7 is fixedly installed on the sealing shell 2, the driven mechanism 4 and the closing mechanism 6 are meshed with each other, the cleaning mechanism 5 is fixedly installed on the sealing shell 2, the driving mechanism 3 can be slidably arranged on a groove formed in the connecting pipeline 1, the alternative filtering mechanism 7 and the driving mechanism 3 are meshed with each other, and the closing mechanism 6 is fixedly installed on the sealing shell 2.

Specifically, the connecting pipeline 1 comprises a square pipe 1-1 and two pipe connectors 1-2, and the two pipe connectors 1-2 are fixedly arranged at two ends of the square pipe 1-1 respectively;

the square pipe 1-1 is provided with a square through hole 1-1-1 and a strip-shaped slot 1-1-2, and the pipe connector 1-2 is used for connecting a pipeline of a water storage facility and a pipeline of water supply equipment.

Specifically, the sealing shell 2 comprises a main sealing shell 2-1, an M-shaped connecting frame 2-2, a U-shaped connecting frame 2-3, a track limiting plate 2-4 and a sealing plug 2-5, the M-shaped connecting frame 2-2 is fixedly installed on the main sealing shell 2-1, the U-shaped connecting frame 2-3 is fixedly installed on the main sealing shell 2-1, the track limiting plate 2-4 is fixedly installed on the main sealing shell 2-1, the sealing plug 2-5 is in threaded connection with the main sealing shell 2-1, the main sealing shell 2-1 is fixedly connected with a square pipe 1-1, the sealing shell 2 provides an installation platform for the driving mechanism 3, the driven mechanism 4, the cleaning mechanism 5, the closing mechanism 6 and the alternating filtering mechanism 7, and ordered operation among all the mechanisms is guaranteed.

Specifically, the driving mechanism 3 comprises an L-shaped filter plate I3-1, a sealing pressure column I3-2, a threaded stud I3-3, a main transmission gear I3-4, a chain wheel I3-5 and a motor I3-6, wherein the L-shaped filter plate I3-1 is fixedly arranged on the sealing pressure column I3-2, the sealing pressure column I3-2 is in threaded connection with the threaded stud I3-3, the threaded stud I3-3 is fixedly arranged on the main transmission gear I3-4, the main transmission gear I3-4 is fixedly arranged on the chain wheel I3-5, the chain wheel I3-5 is fixedly arranged at the output end of the motor I3-6, the motor I3-6 is fixedly arranged on the M-shaped connecting frame 2-2, the M-shaped connecting frame 2-2 is slidably arranged on a through hole arranged on the track limiting plate 2-4, the L-shaped filter plate I3-1 and the sealing pressure column I3-2 are slidably arranged on the square through hole 1-1-1 corresponding to the L-shaped filter plate I3-1 and used for filtering water in the pipeline, the sealing pressure column I3-2 is used for sealing the square through hole 1-1-1 corresponding to the L-shaped filter plate I, the chain wheel I3-5 is used for driving the closing mechanism 6, the main transmission gear I3-4 is used for driving the alternative filtering mechanism 7, and the motor I3-6 drives the threaded short column I3-3 to rotate so that the sealing pressure column I3-2 drives the L-shaped filter plate I3-1 to ascend or descend.

Specifically, the driven mechanism 4 comprises a driven gear II 4-1, a threaded column II 4-2, a track groove plate II 4-3, a movable sliding plate II 4-4 and a sealing insertion plate II 4-5, the driven gear II 4-1 is fixedly arranged on the threaded column II 4-2, the threaded column II 4-2 is rotatably arranged in a groove arranged on the track groove plate II 4-3, the movable sliding plate II 4-4 is in threaded connection with the threaded column II 4-2, the movable sliding plate II 4-4 is slidably arranged in a groove arranged on the track groove plate II 4-3, the movable sliding plate II 4-4 is fixedly connected with the sealing insertion plate II 4-5, one end of the track groove plate II 4-3 is fixedly arranged on the square pipe 1-1, the other end of the track groove plate II 4-3 is fixedly arranged on the sealing main shell 2-1, the second sealing inserting plate 4-5 can be arranged in the strip-shaped slot 1-1-2 corresponding to the second sealing inserting plate in a sliding way, the second driven gear 4-1 drives the second threaded column 4-2 to rotate, the second threaded column 4-2 and the second movable sliding plate 4-4 are in threaded connection, so that the second movable sliding plate 4-4 drives the second sealing inserting plate 4-5 to move, the second sealing inserting plate 4-5 has two working states, one is that when the second L-shaped filter plate 7-1 descends, the second sealing inserting plate 4-5 is drawn out from the strip-shaped slot 1-1-2 to provide a passage for descending of the second L-shaped filter plate 7-1, and the other is that when the second L-shaped filter plate 7-1 ascends, the second sealing inserting plate 4-5 is inserted into the strip-shaped slot 1-1-2 corresponding to seal the second sealing inserting plate, the tightness of the square pipe 1-1 is ensured.

Specifically, the cleaning mechanism 5 comprises a T-shaped track frame 5-1, a motor II 5-2, a main bevel gear 5-3, a displacement gear I5-4, a side bevel gear I5-5, a special-shaped lath I5-6, a cleaning motor I5-7, a shaft column I5-8, a brush head I5-9, a brush head II 5-10, a shaft column II 5-11, a cleaning motor II 5-12, a special-shaped lath II 5-13, a displacement gear II 5-14 and a side bevel gear II 5-15, wherein the motor II 5-2 is fixedly arranged on the T-shaped track frame 5-1, the main bevel gear 5-3 is fixedly arranged at the output end of the motor II 5-2, the main bevel gear 5-3 is simultaneously meshed with the side bevel gear I5-5 and the side bevel gear II 5-15, a second side bevel gear 5-15 is fixedly arranged on a second displacement gear 5-14, a first side bevel gear 5-5 is fixedly arranged on a first displacement gear 5-4, the first displacement gear 5-4 is meshed with a first special-shaped lath 5-6, the second displacement gear 5-14 is meshed with a second special-shaped lath 5-13, the second special-shaped lath 5-13 is slidably arranged in a first sliding through groove 5-1-2 arranged on a T-shaped track frame 5-1, the first special-shaped lath 5-6 is slidably arranged in a second sliding through groove 5-1-1 arranged on the T-shaped track frame 5-1, a first cleaning motor 5-7 is fixedly arranged on the first special-shaped lath 5-6, a first shaft column 5-8 is fixedly arranged at the output end of the first cleaning motor 5-7, and the first shaft column 5-8 is fixedly connected with a first brush head 5-9, a second brush head 5-10 is fixedly arranged on a second shaft column 5-11, the second shaft column 5-11 is fixedly arranged at the output end of a second cleaning motor 5-12, the second cleaning motor 5-12 is fixedly arranged on a second special-shaped lath 5-13, a first displacement gear 5-4 is rotatably arranged on a groove arranged on a T-shaped track frame 5-1, a second displacement gear 5-14 is rotatably arranged on a groove arranged on the T-shaped track frame 5-1, a first shaft column 5-8 penetrates through a through hole arranged on a main sealing shell 2-1, a second shaft column 5-11 penetrates through a through hole arranged on the main sealing shell 2-1, the T-shaped track frame 5-1 is fixedly arranged on the main sealing shell 2-1, a second motor 5-2 is started, and a first side bevel gear 5-5 and a second side bevel gear 5-15 on two sides are driven by a second main bevel gear 5-3, the first 5-4 and the second 5-14 of the displacement gear respectively drive the first 5-6 and the second 5-13 of the special-shaped strip to move in opposite directions, when the first 3-1 of the L-shaped filter plate finishes filtering, the brush head second 5-10 moves to the first 3-1 of the L-shaped filter plate, and the first 3-1 of the L-shaped filter plate is cleaned; meanwhile, when the L-shaped filter plate II 7-1 finishes filtering and rising, the brush head I5-9 moves to the position of the L-shaped filter plate II 7-1, and the brush head I5-9 is driven by the cleaning motor I5-7 to rotate to clean the L-shaped filter plate II 7-1, so that the aim of cleaning in a targeted manner by matching with different working states of the L-shaped filter plate I3-1 and the L-shaped filter plate II 7-1 is realized, and the application can be ensured to carry out uninterrupted water filtering.

Specifically, the closing mechanism 6 comprises a chain 6-1, a second chain wheel 6-2, a stabilizing plate 6-3, a connecting rod 6-4, a first helical gear 6-5, a second helical gear 6-6, a second main transmission gear 6-7, a first movable sliding plate 6-8, a first sealing insertion plate 6-9, a first track groove plate 6-10 and a first threaded column 6-11, wherein the chain 6-1 is meshed with the second chain wheel 6-2, the second chain wheel 6-2 is fixedly arranged at one end of the connecting rod 6-4, the connecting rod 6-4 is rotatably arranged on a groove arranged on the stabilizing plate 6-3, the stabilizing plate 6-3 is fixedly arranged on the sealing main shell 2-1, the other end of the connecting rod 6-4 is fixedly provided with the first helical gear 6-5, the first helical gear 6-5 is rotatably arranged on a groove arranged on the U-shaped connecting frame 2-3, the first helical gear 6-5 is meshed with the second helical gear 6-6, the second helical gear 6-6 is rotatably arranged on a groove arranged on a U-shaped connecting frame 2-3, the second helical gear 6-6 is fixedly connected with a main transmission gear 6-7, the main transmission gear 6-7 is fixedly connected with a threaded column 6-11, the threaded column 6-11 is rotatably arranged on a groove arranged on a track groove plate I6-10, a movable sliding plate I6-8 is slidably arranged on the track groove plate I6-10, the movable sliding plate I6-8 is meshed with the movable sliding plate I6-8, the movable sliding plate I6-8 is fixedly connected with a sealing inserting plate I6-9, one end of the track groove plate I6-10 is fixedly arranged on a square pipe 1-1, the other end of the track groove plate I6-10 is fixedly arranged on a sealing main shell 2-1, the chain 6-1 is meshed with the chain wheel I3-5, the main drive gear II 6-7 is meshed with the driven gear II 4-1, the sealing plug board I6-9 can be arranged in the strip slot 1-1-2 corresponding to the sealing plug board I in a sliding mode, the main drive gear II 6-7 plays a role of synchronously driving the driven mechanism 4, the main drive gear II 6-7 rotates to drive the threaded column I6-11 to realize that the movable sliding plate I6-8 pushes the sealing plug board I6-9 to move, the sealing plug board I6-9 has two working states, one is that when the L-shaped filter board I3-1 rises to clean, the sealing plug board I6-9 is inserted into the strip slot 1-1-2 corresponding to the sealing plug board I to ensure the sealing performance of the square pipe 1-1, and the other is that when the L-shaped filter board I3-1 descends to filter, the first sealing inserting plate 6-9 is separated from the strip-shaped slot 1-1-2.

Specifically, the alternate filtering mechanism 7 comprises an L-shaped filter plate II 7-1, a sealing pressure column II 7-2, a driven gear I7-3 and a threaded stud II 7-4, the L-shaped filter plate II 7-1 is fixedly connected with the sealing pressure column II 7-2, the sealing pressure column II 7-2 is in threaded connection with the threaded stud II 7-4, the threaded stud II 7-4 is fixedly connected with the driven gear I7-3, the driven gear I7-3 is rotatably arranged on a groove arranged on the M-shaped connecting frame 2-2, the driven gear I7-3 is meshed with the main drive gear I3-4, the L-shaped filter plate II 7-1 and the sealing pressure column II 7-2 can be slidably arranged in a square through hole 1-1-1 corresponding to the L-shaped filter plate II 7-3, the driven gear I7-3 rotates to drive the threaded stud II 7-4 to rotate, therefore, the second sealing pressure column 7-2 drives the second L-shaped filter plate 7-1 to ascend and descend, the second L-shaped filter plate 7-1 ascends after filtration is completed, the second L-shaped filter plate 7-1 is cleaned, the second L-shaped filter plate 7-1 descends after being cleaned and enters the square pipe 1-1, and the second sealing pressure column 7-2 seals the corresponding square through hole 1-1-1 to ensure the sealing performance of the square pipe 1-1.

When the water storage device is used, the pipeline of the water storage facility and the pipeline of the water supply equipment are connected through the pipe connector 1-2, the L-shaped filter plate I3-1 is located in the square pipe 1-1 in the initial state, the sealing press column I3-2 seals the square through hole 1-1-1 corresponding to the L-shaped filter plate I3-2, the L-shaped filter plate II 7-1 is located above the square through hole 1-1-1 corresponding to the L-shaped filter plate I1-1, the sealing inserting plate II 4-5 seals the strip-shaped inserting groove 1-1-2 corresponding to the sealing inserting plate II 4-5, the square pipe 1-1 is sealed through the sealing inserting plate II 4-5 and the sealing press column I3-2, the L-shaped filter plate I3-1 is in a filtering working state, and the L-shaped filter plate II 7-1 is.

When water passes through the L-shaped filter plate I3-1, impurities and flocculates are intercepted, when the L-shaped filter plate I3-1 is saturated, the motor I3-6 is started, the motor I3-6 drives the main transmission gear I3-4 and the chain wheel I3-5 to rotate, the main transmission gear I3-4 drives the threaded short column I3-3 to rotate, so that the sealing press column I3-2 drives the L-shaped filter plate I3-1 to ascend, meanwhile, the chain wheel I3-5 drives the helical gear II 6-6 to rotate through the chain 6-1, the chain wheel II 6-2, the connecting rod 6-4 and the helical gear I6-5, the helical gear II 6-6 drives the main transmission gear II 6-7 and the threaded column I6-11 to rotate, and the purpose that the movable sliding plate I6-8 drives the sealing inserting plate I6-9 to move to the strip-shaped slot 1-1-2 corresponding to, when the L-shaped filter plate I3-1 rises above the square pipe 1-1, the sealing plugboard I6-9 is inserted into the strip-shaped slot 1-1-2 to seal the L-shaped filter plate I.

The synchronous first main transmission gear 3-4 drives the first driven gear 7-3 to rotate, the second main transmission gear 6-7 drives the second driven gear 4-1 to rotate, the second driven gear 4-1 drives the second threaded column 4-2 to rotate, so that the second movable sliding plate 4-4 drives the second sealing inserting plate 4-5 to be separated from the corresponding strip-shaped slot 1-1-2, meanwhile, the first driven gear 7-3 drives the second threaded short column 7-4 to rotate, the second sealing pressing column 7-2 drives the second L-shaped filtering plate 7-1 to descend into the square pipe 1-1, and at the moment, the second sealing pressing column 7-2 seals the corresponding square through hole 1-1-1.

The exchange of the positions of the first L-shaped filter plate 3-1 and the second L-shaped filter plate 7-1 is completed, and vice versa, so that the alternating work of the first L-shaped filter plate 3-1 and the second L-shaped filter plate 7-1 is finally realized, the water is ensured to be always in a filtered state, and in the process of exchanging the positions of the first L-shaped filter plate 3-1 and the second L-shaped filter plate 7-1, part of water enters the main sealing shell 2-1 through the square through hole 1-1-1 and the strip-shaped slot 1-1-2.

Starting a second motor 5-2, driving a first side bevel gear 5-5 and a second side bevel gear 5-15 on two sides through a first main bevel gear 5-3, so that a first displacement gear 5-4 and a second displacement gear 5-14 respectively drive a first special-shaped plate strip 5-6 and a second special-shaped plate strip 5-13 to move in opposite directions, and when the first L-shaped filter plate 3-1 finishes filtering, lifting, moving a second brush head 5-10 to the first L-shaped filter plate 3-1, and cleaning the first L-shaped filter plate 3-1; similarly, when the L-shaped filter plate II 7-1 finishes filtering and rising, the brush head I5-9 moves to the position where the L-shaped filter plate II 7-1 is cleaned, the specific cleaning is realized by matching with different working states of the L-shaped filter plate I3-1 and the L-shaped filter plate II 7-1, and the uninterrupted water filtering can be ensured.

Finally, the sealing plug 2-5 is opened and the water in the sealed main shell 2-1 containing impurities and flocs is drained.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a secondary pressure boost water supply equipment water quality hoisting device which characterized in that: comprises a connecting pipeline (1), a sealing shell (2), a driving mechanism (3), a driven mechanism (4), a cleaning mechanism (5), a closing mechanism (6) and an alternative filtering mechanism (7), wherein the sealing shell (2) is fixedly arranged on the connecting pipeline (1), the driving mechanism (3) is meshed with the closing mechanism (6), the driving mechanism (3) is fixedly arranged on the sealing shell (2), the alternative filtering mechanism (7) is fixedly arranged on the sealing shell (2), the driven mechanism (4) is meshed with the closing mechanism (6), the cleaning mechanism (5) is fixedly arranged on the sealing shell (2), the driving mechanism (3) is slidably arranged on a groove arranged on the connecting pipeline (1), the alternative filtering mechanism (7) is meshed with the driving mechanism (3), the closing mechanism (6) is fixedly arranged on the sealed shell (2);

the closing mechanism (6) comprises a chain (6-1), a second chain wheel (6-2), a stabilizing plate (6-3), a connecting rod (6-4), a first helical gear (6-5), a second helical gear (6-6), a second main transmission gear (6-7), a first movable sliding plate (6-8), a first sealing inserting plate (6-9), a first track groove plate (6-10) and a first threaded column (6-11), wherein the chain (6-1) is meshed with the second chain wheel (6-2), the second chain wheel (6-2) is fixedly arranged at one end of the connecting rod (6-4), the connecting rod (6-4) is rotatably arranged on a groove arranged on the stabilizing plate (6-3), and the stabilizing plate (6-3) is fixedly arranged on a main sealing shell (2-1), the other end of the connecting rod (6-4) is fixedly provided with a first helical gear (6-5), the first helical gear (6-5) is rotatably arranged on a groove arranged on the U-shaped connecting frame (2-3), the first helical gear (6-5) is meshed with a second helical gear (6-6), the second helical gear (6-6) is rotatably arranged on a groove arranged on the U-shaped connecting frame (2-3), the second helical gear (6-6) is fixedly connected with a second main transmission gear (6-7), the second main transmission gear (6-7) is fixedly connected with a first threaded column (6-11), the first threaded column (6-11) is rotatably arranged on a groove arranged on a first track groove plate (6-10), and a first movable sliding plate (6-8) is slidably arranged on the first track groove plate (6-10), the first movable sliding plate (6-8) is meshed with the first movable sliding plate (6-8), the first movable sliding plate (6-8) is fixedly connected with the first sealing inserting plate (6-9), one end of the first track groove plate (6-10) is fixedly arranged on the square pipe (1-1), the other end of the first track groove plate (6-10) is fixedly arranged on the main sealing shell (2-1), the chain (6-1) is meshed with the first chain wheel (3-5), the second main transmission gear (6-7) is meshed with the second driven gear (4-1), and the first sealing inserting plate (6-9) is slidably arranged in the corresponding strip-shaped inserting groove (1-1-2).

2. The water quality improving device for the secondary pressurized water supply equipment according to claim 1, characterized in that: the connecting pipeline (1) comprises a square pipe (1-1) and two pipe fittings (1-2), wherein the two pipe fittings (1-2) are fixedly arranged at two ends of the square pipe (1-1) respectively; the square pipe (1-1) is provided with a square through hole (1-1-1) and a strip-shaped slot (1-1-2).

3. The water quality improving device for the secondary pressurized water supply equipment according to claim 2, characterized in that: the sealing shell (2) comprises a sealing main shell (2-1), an M-shaped connecting frame (2-2), a U-shaped connecting frame (2-3), a track limiting plate (2-4) and a sealing plug (2-5), wherein the M-shaped connecting frame (2-2) is fixedly installed on the sealing main shell (2-1), the U-shaped connecting frame (2-3) is fixedly installed on the sealing main shell (2-1), the track limiting plate (2-4) is fixedly installed on the sealing main shell (2-1), the sealing plug (2-5) is in threaded connection with the sealing main shell (2-1), and the sealing main shell (2-1) is fixedly connected with a square pipe (1-1).

4. The water quality improving device for the secondary pressurized water supply equipment according to claim 3, characterized in that: the driving mechanism (3) comprises an L-shaped filter plate I (3-1), a sealing pressure column I (3-2), a threaded short column I (3-3), a main transmission gear I (3-4), a chain wheel I (3-5) and a motor I (3-6), the L-shaped filter plate I (3-1) is fixedly arranged on the sealing pressure column I (3-2), the sealing pressure column I (3-2) is in threaded connection with the threaded short column I (3-3), the threaded short column I (3-3) is fixedly arranged on the main transmission gear I (3-4), the main transmission gear I (3-4) is fixedly arranged on the chain wheel I (3-5), the chain wheel I (3-5) is fixedly arranged at the output end of the motor I (3-6), the motor I (3-6) is fixedly arranged on the M-shaped connecting frame (2-2), the M-shaped connecting frame (2-2) is slidably arranged on a through hole arranged on the track limiting plate (2-4), and the L-shaped filter plate I (3-1) and the sealing compression column I (3-2) are slidably arranged on the square through hole (1-1-1) corresponding to the L-shaped filter plate I (3-1).

5. The water quality improving device for the secondary pressurized water supply equipment according to claim 3, characterized in that: the driven mechanism (4) comprises a driven gear II (4-1), a threaded column II (4-2), a track groove plate II (4-3), a movable sliding plate II (4-4) and a sealing insertion plate II (4-5), the driven gear II (4-1) is fixedly arranged on the threaded column II (4-2), the threaded column II (4-2) is rotatably arranged in a groove arranged on the track groove plate II (4-3), the movable sliding plate II (4-4) is in threaded connection with the threaded column II (4-2), the movable sliding plate II (4-4) is slidably arranged in a groove arranged on the track groove plate II (4-3), the movable sliding plate II (4-4) is fixedly connected with the sealing insertion plate II (4-5), one end of the track groove plate II (4-3) is fixedly arranged on the square pipe (1-1), the other end of the second track groove plate (4-3) is fixedly arranged on the main sealing shell (2-1), and the second sealing inserting plate (4-5) is slidably arranged in the corresponding strip-shaped inserting groove (1-1-2).

6. The water quality improving device for the secondary pressurized water supply equipment according to claim 3, characterized in that: the cleaning mechanism (5) comprises a T-shaped track frame (5-1), a motor II (5-2), a main helical gear (5-3), a displacement gear I (5-4), a side helical gear I (5-5), a special-shaped lath I (5-6), a cleaning motor I (5-7), a shaft column I (5-8), a brush head I (5-9), a brush head II (5-10), a shaft column II (5-11), a cleaning motor II (5-12), a special-shaped lath II (5-13), a displacement gear II (5-14) and a side helical gear II (5-15), wherein the motor II (5-2) is fixedly arranged on the T-shaped track frame (5-1), the main helical gear (5-3) is fixedly arranged at the output end of the motor II (5-2), the main helical gear (5-3) is simultaneously meshed with a first side helical gear (5-5) and a second side helical gear (5-15), the second side helical gear (5-15) is fixedly arranged on a second displacement gear (5-14), the first side helical gear (5-5) is fixedly arranged on the first displacement gear (5-4), the first displacement gear (5-4) is meshed with a first special-shaped lath (5-6), the second displacement gear (5-14) is meshed with a second special-shaped lath (5-13), the second special-shaped lath (5-13) is slidably arranged in a first sliding through groove (5-1-2) arranged on the T-shaped track frame (5-1), the first special-shaped lath (5-6) is slidably arranged in a second sliding through groove (5-1-1) arranged on the T-shaped track frame (5-1), a first cleaning motor (5-7) is fixedly arranged on a first special-shaped lath (5-6), a first shaft column (5-8) is fixedly arranged at the output end of the first cleaning motor (5-7), the first shaft column (5-8) is fixedly connected with a first brush head (5-9), a second brush head (5-10) is fixedly arranged on a second shaft column (5-11), the second shaft column (5-11) is fixedly arranged at the output end of a second cleaning motor (5-12), the second cleaning motor (5-12) is fixedly arranged on a second special-shaped lath (5-13), a first displacement gear (5-4) is rotatably arranged on a groove arranged on a T-shaped track frame (5-1), and a second displacement gear (5-14) is rotatably arranged on a groove arranged on the T-shaped track frame (5-1), the first shaft column (5-8) penetrates through a through hole formed in the main sealing shell (2-1), the second shaft column (5-11) penetrates through a through hole formed in the main sealing shell (2-1), and the T-shaped track frame (5-1) is fixedly installed on the main sealing shell (2-1).

7. The water quality improving device for the secondary pressurized water supply equipment according to claim 4, characterized in that: the alternating filtering mechanism (7) comprises a second L-shaped filtering plate (7-1), a second sealing pressure column (7-2), a first driven gear (7-3) and a second threaded short column (7-4), the L-shaped filter plate II (7-1) is fixedly connected with the sealing pressure column II (7-2), the sealing pressure column II (7-2) is in threaded connection with the threaded stud II (7-4), the threaded stud II (7-4) is fixedly connected with the driven gear I (7-3), the driven gear I (7-3) is rotatably installed on a groove formed in the M-shaped connecting frame (2-2), the driven gear I (7-3) is meshed with the main transmission gear I (3-4), and the L-shaped filter plate II (7-1) and the sealing pressure column II (7-2) can be slidably arranged in a square through hole (1-1-1) corresponding to the L-shaped filter plate II (7-1) and the sealing pressure column II (7-2).