CN112191631B

CN112191631B - Automatic cleaning system of water storage facility

Info

Publication number: CN112191631B
Application number: CN202011029212.4A
Authority: CN
Inventors: 许圣传; 王满川; 王慧君; 王景兵
Original assignee: Tianjin Chentian Automation Equipment Engineering Co ltd
Current assignee: Tianjin Chentian Automation Equipment Engineering Co ltd
Priority date: 2020-09-27
Filing date: 2020-09-27
Publication date: 2021-06-01
Anticipated expiration: 2040-09-27
Also published as: CN112191631A

Abstract

The invention discloses an automatic cleaning system of a water storage facility, which comprises a bottom wall cleaning unit and a sewage pumping unit, wherein the bottom wall cleaning unit comprises a bottom wall cleaning tank and a sewage pumping unit; the bottom wall cleaning unit comprises a mounting base, a motor and a rotary cleaning assembly connected with a power output end of the motor, and the motor is mounted on the mounting base; the sewage extraction unit comprises a water pump and a water pumping pipe. By adopting the technical scheme, the bottom wall cleaning unit and the sewage extraction unit are arranged, the rotating cleaning assembly of the bottom wall cleaning unit can stir accumulated sand or sludge on the bottom wall, and meanwhile, sewage can be extracted and discharged through the sewage extraction unit, so that the cleaning efficiency of the water storage facility can be greatly improved; through setting up the filter unit, make the sewage taken out in the water storage facility can be filtered, then wash the unit and wash the lateral wall through water pump connection to the lateral wall, realize the cyclic utilization of clearance water, still effectively filter energy-concerving and environment-protective sewage simultaneously.

Description

Automatic cleaning system of water storage facility

Technical Field

The invention relates to an automatic cleaning system of a water storage facility, and belongs to the technical field of intelligent water affairs.

Background

The intelligent water affair senses the running state of the urban water supply and drainage system in real time through an on-line monitoring device such as a data acquisition instrument, a wireless network and a water quality and pressure meter, organically integrates a water affair management department and water supply and drainage facilities in a visual mode to form an urban water affair Internet of things, can analyze and process massive water affair information in time, makes a corresponding processing result auxiliary decision suggestion, and manages the whole production, management and service process of the water affair system in a more detailed and dynamic mode, so that the intelligent state is achieved.

An important task of intelligent water supply is the control and management of water supply facilities, which mainly comprise a water pump unit, electrical equipment, a water supply pipe network and accessory facilities thereof, water taking, water delivery, water purification, water distribution adjusting structures and various mechanical equipment, observation and inspection instruments, automatic control equipment, communication equipment and other special equipment, such as analysis, chemical examination and auxiliary equipment, a chlorine adding machine, a chlorine absorbing device, an ammonia adding machine, a chemical dosing metering pump, leakage detection equipment, fire fighting equipment and the like. The maintenance of good operation of the water supply facility is an important guarantee of water safety, so that the water supply facility needs to be maintained frequently, and the water supply facility should be repaired as soon as possible after a fault occurs.

In addition, another important basis of the intelligent water affair is the internet of things + big data, and since the data of water use is mobile, and the data of water use in different regions in different time periods are different, the data information such as flow, pressure, liquid level, water quality and the like of each monitoring node is obtained through the internet of things technology, and then the big data analysis is performed on each obtained data, the water use data of a specific region in a certain time period in the future can be predicted, and when the difference between actually generated data and predicted data is large, it is indicated that the water use facilities in the region in the time period are possibly abnormal, so that the water use facilities in the region can be further monitored.

The water storage facility is a facility for storing water in the field of intelligent water services, such as a water tank for storing residential water, a water storage tank in a secondary pump room, a sponge urban rainwater collection pool, etc., and the water storage facility for the residential water needs to monitor the water quality, for example, an intelligent self-cleaning box type water supply device disclosed in chinese patent document CN 111408591A. And for non-residential water such as a rainwater collection pool, the water can be used for green land irrigation, and accumulated sand or sludge in the rainwater collection pool and attachments on a wall need to be cleaned regularly by establishing an outdoor pressurizing pump room to pump water stored in the rainwater collection pool.

Disclosure of Invention

Therefore, an object of the present invention is to provide an automatic cleaning system for a water storage facility, which can clean a bottom wall by a bottom wall cleaning unit, and can extract and discharge sewage generated by cleaning the bottom wall by a sewage extraction unit.

In order to achieve the above object, the automatic cleaning system for water storage facilities of the present invention comprises a bottom wall cleaning unit and a sewage pumping unit; the bottom wall cleaning unit comprises a mounting base, a motor and a rotary cleaning assembly connected with a power output end of the motor, and the motor is mounted on the mounting base; the sewage extraction unit comprises a water pump and a water pumping pipe; the rotary cleaning assembly is arranged on a driven shaft, a first driven gear is fixed on the driven shaft and meshed with a first driving gear, the first driving gear is fixed on a driving shaft, and the driving shaft is connected to a power output end of the motor; a driving lever device is further fixed on the driving shaft and can synchronously rotate with the first driving gear; the driven shaft is arranged in the shaft sleeve and can rotate relative to the shaft sleeve, a driving plate device is fixed on the shaft sleeve, and the driving plate device can be driven to rotate by the driving rod device; a second driving gear is further fixed on the shaft sleeve and meshed with an inner gear ring, and the inner gear ring is mounted on the mounting base and is coaxial with the driving shaft; the second driving gear is meshed with a second driven gear, and the second driven gear is mounted on the driving shaft through a bearing.

The deflector rod device comprises a plurality of first arm parts and second arm parts, and the first arm parts and the second arm parts are distributed at intervals; a first driving lever is arranged at the end part of the first arm part, and a second driving lever is arranged at the end part of the second arm part; the dial device comprises a disc body, a plurality of first grooves for a first dial rod to enter and a plurality of second grooves for a second dial rod to enter are formed in the disc body, and the first grooves and the second grooves are arranged at intervals; the first groove is a straight groove and extends outwards to the edge of the disc body along the radial direction of the disc body; the second groove is an arc-shaped groove, and two ends of the second groove extend to the edge of the tray body; when the first deflector rod is separated from the first groove, the second deflector rod enters the second groove, when the second deflector rod is separated from the second groove, the first deflector rod enters the first groove, and when the second deflector rod enters the second groove, the circle center of the second groove is positioned on the axis of the driving shaft.

The second driving gear is fixed with the disc body through a bolt.

The deflector rod device is fixed with the first driving gear through a bolt.

The mounting base comprises a circular ring part positioned above the second driving gear and the first driving gear and a circular plate part positioned on the inner side of the circular ring part, a gap is formed between the circular ring part and the circular plate part, and after the driven shaft penetrates through the gap, the top end of the driven shaft is mounted on a hanging block through a bearing; an outer annular groove is formed in the edge position, close to the gap, of the circular ring part, an inner annular groove is formed in the edge position, close to the gap, of the circular plate part, and a plurality of balls are mounted at the lower end of the hanging block and protrude out of the lower end face of the hanging block; of the plurality of balls, a part of the balls enters the outer annular groove, and a part of the balls enters the inner annular groove.

An upper cover portion is arranged above the circular ring portion, the upper cover portion is fastened and fixed with the circular ring portion, and the circular plate portion and the upper cover portion are mutually fixed through a connecting block.

The automatic cleaning system of the water storage facility further comprises a side wall flushing unit.

The automatic cleaning system of the water storage facility further comprises a filtering unit, the water pumping pipe is connected to the water inlet end of the water pump through the filtering unit, and the water outlet end of the water pump is connected to the side plate washing unit.

The rotary cleaning assembly includes at least one squeegee.

The rotary cleaning assembly comprises at least one water spraying device, and the water spraying device comprises a block body which can be driven by the driven shaft to rotate; a concave cavity is formed in one side of the block body, and a through groove is formed in the bottom plate portion of the concave cavity and located at one end far away from the opening of the concave cavity.

By adopting the technical scheme, compared with the prior art, the automatic cleaning system for the water supply facility has the following beneficial effects:

1. the bottom wall cleaning unit and the sewage pumping unit are arranged, accumulated sand or sludge on the bottom wall can be stirred through the rotary cleaning assembly of the bottom wall cleaning unit, and meanwhile, sewage can be pumped and discharged through the sewage pumping unit, so that the cleaning efficiency of the water storage facility can be greatly improved; the driving shaft, the first driving gear, the second driving gear and the rotary cleaning assembly can be driven to rotate through the motor, and meanwhile, the driving plate device can be stirred to rotate through the driving lever device, so that the driven shaft is driven to shift, and different parts of the bottom wall are cleaned;

2. through the matching of the deflector rod device and the drive plate device, when the first deflector rod enters the first groove, the first deflector rod starts to move relatively to the center direction of the disc body along the first groove, and then the first deflector rod moves outwards along the first groove along with the continuous rotation, the whole process finishes the stirring of the multiple disc bodies, so that the second driving gear which is relatively fixed with the disc bodies moves along the inner gear ring, and the position of the driven shaft is adjusted; when the first deflector rod is separated from the first groove, the second deflector rod enters the second groove, and when the second deflector rod enters the second groove, the circle center of the second groove is positioned on the axis of the driving shaft, so that the second deflector rod can limit the position of the disc body, the disc body is kept in a static state, the driven shaft is kept at the position, and the area where the driven shaft is located is cleaned through the rotary cleaning assembly; when the second deflector rod is separated from the second groove, the first deflector rod enters the first groove, and the disc body is stirred again so that the driven shaft moves;

3. the top end of the driven shaft is arranged on the hanging block through a bearing, the hanging block can support the driven shaft, and the movement of the driven shaft can drive the hanging block to move; meanwhile, a plurality of balls are arranged on the hanging block and can respectively enter the inner annular groove and the outer annular groove so as to be limited in the inner annular groove or the outer annular groove, so that the moving track of the hanging block is also circular;

4. a side wall flushing unit, such as a high-pressure spray head, is arranged, so that the side wall of the water storage facility can be flushed, and attachments on the side wall can be flushed;

5. by arranging the filtering unit, sewage pumped out of the water storage facility can be filtered, and then the filtering unit is connected to the side wall washing unit through the water pump to wash the side wall, so that the recycling of cleaning water is realized, and meanwhile, the sewage is effectively filtered, so that the energy is saved and the environment is protected;

6. the rotary cleaning assembly comprises at least one scraper blade, dirt attached to the bottom wall can be scraped through the scraper blade, accumulated water at the bottom can be stirred along with the rotation of the scraper blade, and accumulated sand or sludge can be extracted outwards more easily by the sewage extraction unit;

7. rotatory clean subassembly includes at least one water jet equipment, because water jet equipment is provided with the cavity, can get into the cavity relatively at a high speed along with rotating the rivers to receive the extrusion in the cavity, thereby it sprays downwards to lead to the position formation high pressure rivers at groove, reaches the purpose of washing the diapire.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the bottom wall cleaning unit.

FIG. 3 is an exploded view of the bottom wall cleaning unit.

FIG. 4 is another exploded view of the bottom wall cleaning unit.

Fig. 5 is an assembly structure diagram of the first driving gear, the first driven gear, the second driving gear and the second driven gear.

Fig. 6 is an exploded view of fig. 5.

FIG. 7 is a schematic view of the state of the lever device and the shifting block device.

FIG. 8 is a second schematic view of the lever device and the shifting block device in a state of being engaged with each other.

Fig. 9 is a schematic structural view of the rotary cleaning assembly.

Detailed Description

The invention is described in further detail below with reference to the figures and the detailed description.

As shown in fig. 1, the automatic cleaning system for a water storage facility of the present embodiment includes a bottom wall cleaning unit 1, a side wall flushing unit, a filtering unit, and a sewage pumping unit. The water storage facility is provided with a gantry frame body 2, and the bottom wall cleaning unit 1 is arranged on the gantry frame body 2 and can be driven by a driving pulley 21 on the gantry frame body 2. The sewage extraction unit includes water pump 31 and drinking-water pipe 32, the filter unit is including filtering jar 4, lateral wall flushing unit includes high-pressure squirt 5, the drinking-water pipe 32 is connected in filtering jar 4, filtering jar 4 is connected in water pump 31's the end of intaking, water pump 31's play water end connect in high-pressure squirt 5. Can extract the sewage in the water storage facility and through the filtration of lauter tank 4 through water pump 31, wash the lateral wall of water storage facility through high-pressure squirt 5 with the clear water after filtering again, realize the cyclic utilization of washing water.

As shown in fig. 2 to 4, the bottom wall washing unit 1 includes a mounting base 11, a motor 12, and a rotary cleaning assembly 13 connected to a power output of the motor 12. The mounting base 11 includes an upper cover portion including a top plate portion 111 and an upper cylinder portion 112, a circular ring portion 113, a circular plate portion 114, a lower cylinder portion 115, and a lower ring plate portion 116, and the motor 12 is mounted on the top plate portion 111. The rotary cleaning assembly 13 is mounted on the driven shaft 14, a first driven gear 141 is fixed on the driven shaft 14, the first driven gear 141 is engaged with a first driving gear 151, the first driving gear 151 is fixed on the driving shaft 15, and the driving shaft 15 passes through the circular plate portion 114 and the top plate portion 111 and then is connected to a power output end of the motor 12. The circular plate portion 114 and the top plate portion 111 are provided with bearings for the driving shaft 15 to pass through.

A shift lever device 16 is further fixed to the driving shaft 15, and the shift lever device 16 can rotate synchronously with the first driving gear 151. The driven shaft 14 is installed in the shaft sleeve 142 and can rotate relative to the shaft sleeve 142, a dial plate device 17 is fixed on the shaft sleeve 142, and the dial plate device 17 can be turned by the dial plate device 16. A second driving gear 143 is further fixed on the shaft sleeve 142, the second driving gear 143 is meshed with an inner gear ring 144, and the inner gear ring 144 is installed on the installation base 11 and is coaxially arranged with the driving shaft 15; the second driving gear 143 is engaged with a second driven gear 152, and the second driven gear 152 is mounted on the driving shaft 15 through a bearing.

As shown in fig. 5 to 8, the lever device 16 includes a plurality of first arms 161 and second arms 162, and the first arms 161 and the second arms 162 are spaced apart from each other; a first lever 163 is provided at an end of the first arm 161, and a second lever 164 is provided at an end of the second arm 162. The dial device 17 includes a disc 171, a plurality of first grooves 172 for the first shift lever 163 to enter and a plurality of second grooves 173 for the second shift lever 164 to enter are provided on the disc 171, and the first grooves 172 and the second grooves 173 are provided at intervals. The first groove 172 is a straight groove and extends outward along the radial direction of the disc body 171 to the edge of the disc body 171; the second groove 173 is an arc-shaped groove, and both ends of the second groove extend to the edge of the tray body 171. The second shift lever 164 enters the second groove 173 when the first shift lever 163 is separated from the first groove 172, the first shift lever 163 enters the first groove 172 when the second shift lever 164 is separated from the second groove 173, and the center of the second groove 173 is located on the axis of the driving shaft 15 when the second shift lever 164 enters the second groove 173.

Through the cooperation of the shift lever device 16 and the dial device 17, as shown in fig. 7, when the first shift lever 163 enters the first groove 172, the first shift lever 163 starts to move relatively along the first groove 172 toward the center of the disc 171, and then the first shift lever 163 moves outward along the first groove 172 as the rotation continues, the whole process completes the shifting of the multiple disc 171, so that the second driving gear 143 fixed relatively to the disc 171 moves along the inner gear ring 144, and the position of the driven shaft 14 is adjusted. As shown in fig. 8, when the first shift lever 163 is separated from the first groove 172, the second shift lever 164 enters the second groove 173, and when the second shift lever 164 enters the second groove 173, the center of the second groove 173 is located on the axis of the driving shaft 15, so that the second shift lever 164 can define the position of the disc 171, and the disc 171 is kept in a static state, so that the driven shaft 14 is kept in the position, and the area where the driven shaft 14 is located is cleaned by rotating the cleaning assembly 13; when the second lever 164 is disengaged from the second groove 173, the first lever 163 enters the first groove 172, and again moves the disk 171 to move the driven shaft 14.

The second driving gear 143 is fixed to the disk 171 by a bolt. The lever device 16 is fixed to the first driving gear 151 by a bolt.

The circular portion 113 is located above the second driving gear 143 and the first driving gear 151, and the circular plate portion 114 is located inside the circular portion 113. A gap 110 is provided between the circular ring portion 113 and the circular plate portion 114, and after the driven shaft 14 passes through the gap 110, the top end thereof is mounted on a hanging block 119 through a bearing. An outer annular groove 113a is formed in an edge of the circular ring portion 113 near the gap 110, an inner annular groove 114a is formed in an edge of the circular plate portion 114 near the gap, a plurality of balls 118 are mounted on a lower end of the hanging block 119, and the balls 118 protrude from a lower end surface of the hanging block 119; of the plurality of balls, a part of the balls 118 enters the outer annular groove 113a, and a part of the balls 118 enters the inner annular groove 114a, and in this embodiment, there are two balls 118, one is located in the outer annular groove 113a, and the other is located in the inner annular groove 114 a. The hanging block 119 can support the driven shaft 14, and the movement of the driven shaft 14 can drive the hanging block 119 to move; meanwhile, the hanging piece 119 is provided with a plurality of balls 118, and the balls 118 can enter the inner annular groove 114a and the outer annular groove 113a to be limited in the inner annular groove 114a or the outer annular groove 113a, so that the moving track of the hanging piece 119 is also circular.

The upper cover part is arranged above the circular ring part 113, the upper cover part is fixedly buckled with the circular ring part 113, and the circular plate part 114 and the top plate part 111 are mutually fixed through a connecting block 117. The upper cylinder 112 is fixed to the annular portion 113, and the lower cylinder 115 is fixedly connected to the annular portion 113 and the lower annular plate 116.

As shown in fig. 9, the rotary cleaning assembly 13 includes a plurality of scrapers 131 and a water spraying device, the water spraying device includes a block 132, and the block 132 can be rotated by the driven shaft 14; a cavity 132a is formed at one side of the block 132, and a through groove 132b is formed at an end of the bottom plate portion of the cavity 132a, the end being away from the opening of the cavity 132 a. Can strike off adnexed spot on the diapire through scraper blade 131, simultaneously along with scraper blade 131's rotation, also can stir the ponding of bottom, make sewage extraction unit change outwards the extraction with long-pending sand or silt. In addition, since the water spraying device is provided with the cavity 132a, the water flow can enter the cavity 132a at a relatively high speed along with the rotation of the rotary cleaning assembly 13 and is extruded in the cavity 132a, so that the high-pressure water flow is formed at the through groove 132b and sprayed downwards, and the purpose of washing the bottom wall is achieved.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims

1. The utility model provides an automatic cleaning system of water storage facility which characterized in that: comprises a bottom wall cleaning unit and a sewage extraction unit; the bottom wall cleaning unit comprises a mounting base, a motor and a rotary cleaning assembly connected with a power output end of the motor, and the motor is mounted on the mounting base; the sewage extraction unit comprises a water pump and a water pumping pipe; the rotary cleaning assembly is arranged on a driven shaft, a first driven gear is fixed on the driven shaft and meshed with a first driving gear, the first driving gear is fixed on a driving shaft, and the driving shaft is connected to a power output end of the motor; a driving lever device is further fixed on the driving shaft and can synchronously rotate with the first driving gear; the driven shaft is arranged in the shaft sleeve and can rotate relative to the shaft sleeve, a driving plate device is fixed on the shaft sleeve, and the driving plate device can be driven to rotate by the driving rod device; a second driving gear is further fixed on the shaft sleeve and meshed with an inner gear ring, and the inner gear ring is mounted on the mounting base and is coaxial with the driving shaft; the second driving gear is meshed with a second driven gear, and the second driven gear is arranged on the driving shaft through a bearing; the deflector rod device comprises a plurality of first arm parts and second arm parts, and the first arm parts and the second arm parts are distributed at intervals; a first driving lever is arranged at the end part of the first arm part, and a second driving lever is arranged at the end part of the second arm part; the dial device comprises a disc body, a plurality of first grooves for a first dial rod to enter and a plurality of second grooves for a second dial rod to enter are formed in the disc body, and the first grooves and the second grooves are arranged at intervals; the first groove is a straight groove and extends outwards to the edge of the disc body along the radial direction of the disc body; the second groove is an arc-shaped groove, and two ends of the second groove extend to the edge of the tray body; when the first deflector rod is separated from the first groove, the second deflector rod enters the second groove, when the second deflector rod is separated from the second groove, the first deflector rod enters the first groove, and when the second deflector rod enters the second groove, the circle center of the second groove is positioned on the axis of the driving shaft.

2. The automatic cleaning system for water storage facilities according to claim 1, wherein: the second driving gear is fixed with the disc body through a bolt.

3. The automatic cleaning system for water storage facilities according to claim 1, wherein: the deflector rod device is fixed with the first driving gear through a bolt.

4. The automatic cleaning system for water storage facilities according to claim 1, wherein: the mounting base comprises a circular ring part positioned above the second driving gear and the first driving gear and a circular plate part positioned on the inner side of the circular ring part, a gap is formed between the circular ring part and the circular plate part, and after the driven shaft penetrates through the gap, the top end of the driven shaft is mounted on a hanging block through a bearing; an outer annular groove is formed in the edge position, close to the gap, of the circular ring part, an inner annular groove is formed in the edge position, close to the gap, of the circular plate part, and a plurality of balls are mounted at the lower end of the hanging block and protrude out of the lower end face of the hanging block; of the plurality of balls, a part of the balls enters the outer annular groove, and a part of the balls enters the inner annular groove.

5. The automatic cleaning system for water storage facilities according to claim 4, wherein: an upper cover portion is arranged above the circular ring portion, the upper cover portion is fastened and fixed with the circular ring portion, and the circular plate portion and the upper cover portion are mutually fixed through a connecting block.

6. An automatic cleaning system for a water storage facility as claimed in any one of claims 1 to 5, wherein: the automatic cleaning system of the water storage facility further comprises a side wall flushing unit.

7. An automatic cleaning system for a water storage facility as claimed in claim 6, wherein: the automatic cleaning system of the water storage facility further comprises a filtering unit, the water pumping pipe is connected to the water inlet end of the water pump through the filtering unit, and the water outlet end of the water pump is connected to the side wall washing unit.

8. An automatic cleaning system for a water storage facility as claimed in any one of claims 1 to 5, wherein: the rotary cleaning assembly includes at least one squeegee.

9. An automatic cleaning system for a water storage facility as claimed in any one of claims 1 to 5, wherein: the rotary cleaning assembly comprises at least one water spraying device, and the water spraying device comprises a block body which can be driven by the driven shaft to rotate; a concave cavity is formed in one side of the block body, and a through groove is formed in the bottom plate portion of the concave cavity and located at one end far away from the opening of the concave cavity.