Self-cleaning filtering equipment without consumable
Technical Field
The invention relates to the technical field of cleaning and filtering devices, in particular to a consumable-free self-cleaning filtering device.
Background
Along with manufacturing and automatic high-speed development, traditional filtration equipment need the manual work to go to maintain, the clearance when filtering the use, perhaps filtration equipment mostly need be accomplished to be equipped with one and be one, and can produce the consumptive material, filtration equipment passes through paper tape, sack, probably in use damage such as non-woven fabrics even a bit, the dismouting is not in place, be the precision that influences the filtrate, and often maintain the washing again with metal filters, if can not in time clear up, can influence the machining precision, influence product property ability.
The material-free self-cleaning filtering equipment not only solves the problems that a transmission paper tape, a cloth bag, non-woven fabrics and the like are not needed for filtering, a specially-made metal filter screen is adopted for filtering, a self-contained back washing function is realized, manual maintenance and cleaning are not needed in the filtering equipment, and one filter is not needed for ensuring the processing all the time.
Disclosure of Invention
The invention mainly solves the defects of consumable materials, labor, poor filtering effect and poor efficiency in the prior art, and provides the consumable-free self-cleaning filtering equipment which has the advantages of simple structure, small occupied space, good working stability and high filtering efficiency. The performance of the filtering equipment is improved, the filtering material-free material also has good protection to the environment, and the market competitive advantage and the economic added value are improved.
The technical problem of the invention is mainly solved by the following technical scheme:
a consumable-free self-cleaning filtering device comprises a filtering tank body, wherein a tank body upper cover flange sealing plate fixed with a filtering tank body sealing ring type bolt is arranged at the upper end of the filtering tank body, an air inlet pipe extending into the filtering tank body is arranged on the tank body upper cover flange sealing plate, a plurality of pneumatic nozzles which are distributed at equal intervals and communicated with the air inlet pipe are arranged on the air inlet pipe, a filtering cylinder body is arranged in the filtering tank body, a tank body bottom sealing plate welded and fixed with the inner wall of the filtering tank body in an annular shape is arranged below the filtering cylinder body, a blow-down valve communicated with the filtering tank body is arranged between the tank body bottom sealing plate and the filtering cylinder body, a liquid inlet pipe welded and nested with the filtering tank body is arranged on the side edge of the filtering cylinder body, a liquid outlet pipe welded and nested with the filtering tank body is arranged above the liquid inlet pipe, and a partition plate welded and fixed with the inner wall, the filter cartridge in be equipped with the washing brush, washing brush upper end be equipped with the baffle run through mutually and extend jar body upper cover flange shrouding's rotation axis.
Preferably, the side edge of the air inlet pipe is provided with a pressure gauge which is in threaded penetrating and sleeved connection with a tank body upper cover flange sealing plate, an overflow pipe is arranged between the pressure gauge and a drain valve, an overflow valve is arranged between the overflow pipe and the drain valve, a three-way valve is arranged between the overflow valve and the drain valve, a rotating motor which is fixedly connected with the tank body upper cover flange sealing plate through a bearing type flange is arranged between the pressure gauge and the air inlet pipe, and the rotating motor and a rotating shaft clamping ring flat key are in limit type inserting and embedding connection and fixation.
Preferably, the upper end of the air inlet pipe is provided with an air inlet valve, an air inlet electromagnetic valve is arranged between the air inlet valve and the air inlet pipe, and the side edge of the filtering tank body is provided with a pressure signal sensor which is communicated with the filtering tank body and is communicated with an air inlet electromagnetic valve phase circuit through signals.
Preferably, the liquid inlet pipe is provided with a liquid inlet check valve in threaded sleeve connection with the liquid inlet pipe, and a liquid inlet electromagnetic valve is arranged between the liquid inlet check valve and the liquid inlet pipe.
Preferably, the liquid outlet pipe is provided with a liquid outlet electromagnetic valve in threaded sleeve connection with the liquid outlet pipe, and a liquid outlet bent pipe is arranged between the liquid outlet electromagnetic valve and the liquid outlet pipe.
Preferably, the flange sealing plate of the upper cover of the tank body is provided with a plurality of lifting lugs which are in threaded sleeve joint with the flange sealing plate of the upper cover of the tank body.
Preferably, the side edge of the filtering tank body is provided with a filter side fixing support welded and fixed with the filtering tank body, and the lower end of the filtering tank body is provided with a tank body bottom mounting flange welded and fixed with the filtering tank body in a sleeved mode.
The invention can achieve the following effects:
compared with the prior art, the consumable-free self-cleaning filtering equipment provided by the invention has the advantages of simple structure, small occupied space, good working stability and high filtering efficiency. The performance of the filtering equipment is improved, the filtering material-free material also has good protection to the environment, and the market competitive advantage and the economic added value are improved.
Drawings
Fig. 1 is a schematic structural view of the present invention.
Fig. 2 is a side view of the present invention.
Fig. 3 is a structural sectional view of the present invention.
In the figure: the air inlet valve 1, the air inlet electromagnetic valve 2, the rotating electrical machine 3, the pressure gauge 4, the tank body upper cover flange seal plate 5, the lifting lug 6, the overflow pipe 7, the filter side fixing support 8, the filtering tank body 9, the overflow valve 10, the three-way valve 11, the blow-down valve 12, the liquid inlet one-way valve 13, the liquid inlet electromagnetic valve 14, the liquid outlet electromagnetic valve 15, the liquid outlet bent pipe 16, the pressure signal inductor 17, the rotating shaft 18, the air inlet pipe 19, the pneumatic nozzle 20, the filtering cylinder body 21, the tank body bottom mounting flange 22, the cleaning brush 23, the tank body bottom seal plate 24, the partition plate 25, the.
Detailed Description
The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings.
Example (b): as shown in fig. 1, fig. 2 and fig. 3, the consumable-free self-cleaning filtering device comprises a filtering tank 9, wherein a filter side fixing support 8 welded and fixed with the filtering tank 9 is arranged on the side edge of the filtering tank 9, and a tank bottom mounting flange 22 welded and fixed with the filtering tank 9 in a sleeved manner is arranged at the lower end of the filtering tank 9. The upper end of the filtering tank body 9 is provided with a tank body upper cover flange seal plate 5 fixed with the filtering tank body 9 by a seal ring type bolt, and the tank body upper cover flange seal plate 5 is provided with 2 lugs 6 which are symmetrically distributed and are in threaded sleeve connection with the tank body upper cover flange seal plate 5. Be equipped with the intake pipe 19 that extends to in filtering jar body 9 on jar body upper cover flange shrouding 5, 19 sides in the intake pipe are equipped with and run through the manometer 4 that cup joints with jar body upper cover flange shrouding 5 looks screw thread formula, be equipped with overflow pipe 7 between manometer 4 and blowoff valve 12, be equipped with overflow valve 10 between overflow pipe 7 and blowoff valve 12, be equipped with three-way valve 11 between overflow valve 10 and blowoff valve 12, be equipped with between manometer 4 and intake pipe 19 with jar body upper cover flange shrouding 5 looks bearing type flange joint fixed rotating electrical machines 3, rotating electrical machines 3 is inserted to inlay with the spacing formula of 18 looks snap ring parallel key of rotation axis and is connected. An air inlet valve 1 is arranged at the upper end of the air inlet pipe 19, an air inlet electromagnetic valve 2 is arranged between the air inlet valve 1 and the air inlet pipe 19, and a pressure signal sensor 17 which is communicated with the filtering tank 9 and is in signal communication with the phase circuit of the air inlet electromagnetic valve 2 is arranged on the side edge of the filtering tank 9. The air inlet pipe 19 is provided with 23 pneumatic nozzles 20 which are distributed at equal intervals and are communicated with the air inlet pipe 19, a filtering cylinder 21 is arranged in the filtering tank body 9, a tank body bottom sealing plate 24 which is welded and fixed with the inner wall of the filtering tank body 9 in an annular shape is arranged below the filtering cylinder 21, a blow-down valve 12 communicated with the filtering tank body 9 is arranged between the tank body bottom sealing plate 24 and the filtering cylinder 21, a liquid inlet pipe 26 which is welded and embedded with the filtering tank body 9 is arranged on the side edge of the filtering cylinder 21, a liquid inlet check valve 13 which is in threaded sleeve joint with the liquid inlet pipe 26 is arranged on the liquid inlet pipe 26, and a liquid inlet electromagnetic valve 14 is arranged. A liquid outlet pipe 27 which is embedded with the filtering tank body 9 in a welding manner is arranged above the liquid inlet pipe 26, a liquid outlet electromagnetic valve 15 which is in threaded sleeve connection with the liquid outlet pipe 27 is arranged on the liquid outlet pipe 27, and a liquid outlet bent pipe 16 is arranged between the liquid outlet electromagnetic valve 15 and the liquid outlet pipe 27. A partition plate 25 welded and fixed with the inner wall of the filtering tank body 9 in an annular shape is arranged between the liquid outlet pipe 27 and the liquid inlet pipe 26, a cleaning brush 23 is arranged in the filtering cylinder body 21, and a rotating shaft 18 which penetrates through the partition plate 25 and extends out of the flange sealing plate 5 of the upper cover of the tank body is arranged at the upper end of the cleaning brush 23.
The cooling liquid, the cutting liquid, the filtering liquid and the like enter the filtering tank body 9 through the liquid inlet one-way valve 13 and the liquid inlet electromagnetic valve 14, the filtering liquid can firstly carry out centrifugation along the cylinder wall of the filtering cylinder body 21, impurities with the same weight as particles are separated to the bottom of the filtering cylinder body 21, the clean liquid can rotate to the upper part, a certain pressure difference exists between the filtering tank body 9 and the filtering cylinder body 21 at the moment, the clean liquid can be pressed into the filtering cylinder body 21 to be filtered, and the filtering tank body 9 is discharged from the liquid outlet pipe 27 through the liquid outlet electromagnetic valve 15 and the liquid outlet bent pipe 16.
When the circulation reaches a certain period, the filtering cylinder 21 is slowly blocked, the pressure signal sensor 17 sends a signal after the blockage, the signal is sent to the air inlet electromagnetic valve 2 to be opened, meanwhile, the rotating motor 3 also receives the signal to start working, the rotating motor 3 drives the rotating shaft 18 to transmit the signal to the cleaning brush 23 to wash the filtering cylinder 21, meanwhile, the air inlet valve 1 is filled with air, the air pressure is 0.6-0.8 MPa, the dirty liquid is pressed out, and the dirty liquid is discharged through the drain valve 12. When the pressure gauge 4 controls the pressure of the liquid discharged by the liquid outlet pipe 27, and when the numerical value of the pressure gauge 4 is too large, the overflow valve 10 is opened, and the excess liquid is communicated with the drain valve 12 through the overflow pipe 7 and is discharged.
To sum up, this no consumptive material automatically cleaning filtration equipment has simple structure, takes up an area of the space little, job stabilization nature is good and filtration efficiency is high advantage. The performance of the filtering equipment is improved, the filtering material-free material also has good protection to the environment, and the market competitive advantage and the economic added value are improved.
The above description is only an embodiment of the present invention, but the structural features of the present invention are not limited thereto, and any changes or modifications within the scope of the present invention by those skilled in the art are covered by the present invention.