CN108144349A - Duct type microfroc filter - Google Patents

Abstract

The invention discloses a kind of duct type microfroc filters to include lautertuns, filter assemblies, transmission mechanism and wiper mechanism, the transmission mechanism is turned round around lautertuns and linkage section is immersed in lautertuns, filter assemblies include the filter cloth for being attached at the transmission mechanism, and wiper mechanism is set to outside lautertuns and filter cloth is cleaned on the circuit of transmission mechanism.Duct type microfroc filter disclosed by the invention is good with filter-cloth filtering effect, and effluent quality is excellent, the advantages of can meeting tap water filter technique and efficiency requirements well and can effectively reduce equipment cost and human cost.

Description

Duct type microfroc filter

Technical field

The present invention relates to automation equipment field more particularly to a kind of duct type microfroc filters.

Background technology

Tap water is the surface water or underground water drawn from rivers and lakes, after water treatment plants are purified, sterilized The water for meeting corresponding standard and can living, produce and use for people produced.

Usually in the advanced treatment process of tap water, tap water will first pass through one of duct type before clear water reserviors are entered Microfroc filter is to intercept the microorganisms such as cyclops and other harmful close micro- impurity.But the duct type of setting Impurity blocking easily occurs after microfroc filter long-time use, filter efficiency reduces, and filter effect is bad, influences to be discharged water Matter, it is impossible to meet tap water filter technique and efficiency requirements well.

Invention content

For overcome the deficiencies in the prior art, the present invention provides a kind of duct type microfroc filter, to solve filtering dress Impurity blocking easily occurs after putting long-time use, filter efficiency reduces, and filter effect is bad, influences effluent quality, it is impossible to very The problem of meeting tap water filter technique and efficiency requirements well.

The present invention adopts the following technical scheme that realization：

A kind of duct type microfroc filter, the tap water in being produced for filter plant, the duct type microfroc filter packet Lautertuns, filter assemblies, transmission mechanism and wiper mechanism are included, the transmission mechanism is in the vertical direction around the lautertuns It turns round and the linkage section is immersed in the lautertuns, the filter assemblies include being attached at the transmission mechanism Filter cloth, the wiper mechanism be set to outside the lautertuns and on the circuit of the transmission mechanism with to the filter cloth into Row cleaning.

Further, the wiper mechanism includes the first wiper mechanism and the second wiper mechanism, and the filter cloth is in the mistake One section outside filter pocket is passed through first wiper mechanism and second wiper mechanism, the first wiper mechanism setting successively Being sticked in the transmission mechanism has the one side of the filter cloth, and second wiper mechanism is set to the transmission mechanism and is sticked State the back of filter cloth one side.

Further, first wiper mechanism includes the first protective cover, is set to inside first protective cover extremely Few two first jets and the first hairbrush being installed on first protective cover, at least two first jets are vertical It is set in a row on the direction of the filter cloth traffic direction, first hairbrush contacts the filter cloth；And/or

Second wiper mechanism includes the second protective cover, at least two second be set to inside second protective cover Nozzle and the second hairbrush being installed on second protective cover, at least two second nozzles are perpendicular to the filter cloth It is set in a row on the direction of traffic direction, second hairbrush contacts the filter cloth.

Further, the transmission mechanism includes motor, at least four transmission shafts and at least two synchronous belt mechanisms, institute The output shaft for stating motor is connected with one end of the one of the transmission shaft, and the synchronous belt mechanism includes synchronous belt and synchronization Wheel, the synchronizing wheel are fixed on the transmission shaft, and the synchronous belt and synchronizing wheel engagement, the filter cloth fitting are fixed on On the conveyer belt.

Further, the duct type microfroc filter further comprises strainer, the strainer and the mistake Filter pocket is fixedly connected, and the one floating mount of the transmission shaft is on the strainer.

Further, the strainer includes guide rail supporting frame, slipper bearing, spring, screw, baffle and nut, The guide rail supporting frame is fixed on the lautertuns, and the baffle is fixed on one end of the guide rail supporting frame, the sliding block Bearing is set to inside the guide rail supporting frame and is slidably matched with the guide rail supporting frame, one end of the screw and the cunning Block bearing is fixedly connected, and the other end of the screw passes through the baffle, and the spring is located at the slipper bearing and the gear Between plate and the spring is set on the screw, and the nut, which is located at the baffle plate setting, the opposite of the spring one side Face, the nut and wire rod thread cooperation, the slipper bearing are provided with a matching hole, and the one of the transmission shaft is worn In the matching hole.

Further, the filter assemblies further include the filter plate being fixed in the lautertuns, and the filter plate includes The first filter plate and the second filter plate set into angle, the part that the filter cloth is located at the lautertuns fits in described first Filter plate and second filter plate.

Further, the direction of transfer of the first filter plate along the synchronous belt offers the first groove, and described first The number and position of groove and the synchronous belt are corresponding, and part of the synchronous belt in the lautertuns is located at described the In one groove；And/or

The direction of transfer of second filter plate along the synchronous belt offers the second groove, second groove and described The number of synchronous belt and position are corresponding, and part of the synchronous belt in the lautertuns is located in second groove.

Further, the shape on first filter plate between two neighboring first groove is V-arrangement or wave Shape or zigzag, it is first logical that the region on first filter plate between two neighboring first groove is provided with several Hole；And/or

Shape on second filter plate between two neighboring second groove is V-arrangement either waveform or sawtooth Shape, the region on second filter plate between two neighboring second groove are provided with several the second through-holes.

Further, the lautertuns includes the cushion chamber, filter chamber and the spill cavity that set gradually, and the filter plate is set It is placed in the filter chamber, the cushion chamber bottom offers a water inlet and a water outlet, and the water inlet connects the mistake The side separated in filter chamber by the filter plate, the water outlet connection filter chamber are separated another by the filter plate Side, the spill cavity are connected with the cushion chamber and the filter chamber.

Compared with prior art, the beneficial effects of the present invention are：

The duct type microfroc filter of offer includes lautertuns, filter assemblies, transmission mechanism and wiper mechanism, the biography Motivation structure is around the swing mechanism of lautertuns revolution, and the linkage section is immersed in the lautertuns, described Filter assemblies include the filter cloth for being attached at the transmission mechanism, and the wiper mechanism is set to outside the lautertuns and positioned at institute It states on the circuit of transmission mechanism to clean the filter cloth.With the design method, by being provided with wiper mechanism to filter cloth On impurity cleaned so that filter cloth regains preferable filter effect, and filter-cloth filtering effect is good, and effluent quality is excellent, energy It is enough to meet tap water filter technique and efficiency requirements well.And filter cloth is cleaned due to being provided with wiper mechanism, filter cloth It can reuse, without often replacing filter cloth, can effectively reduce equipment cost and human cost.

Description of the drawings

Fig. 1 is the structure diagram of duct type microfroc filter provided in an embodiment of the present invention.

Fig. 2 is A direction schematic diagrams in Fig. 1.

Fig. 3 is enlarged diagram at B in Fig. 1.

Fig. 4 is enlarged diagram at C in Fig. 1.

Fig. 5 is the cooperation schematic diagram of strainer provided in an embodiment of the present invention and lautertuns.

Fig. 6 is the structure diagram of the first filter plate provided in an embodiment of the present invention.

Fig. 7 is the structure diagram of the second filter plate provided in an embodiment of the present invention.

Specific embodiment

In the following, with reference to attached drawing and specific embodiment, the present invention is described further, it should be noted that not Under the premise of conflicting, new implementation can be formed between various embodiments described below or between each technical characteristic in any combination Example.

Please refer to Fig.1 and Fig. 2, a kind of duct type microfroc filter 100 provided in an embodiment of the present invention include lautertuns 10, Filter assemblies 20, transmission mechanism 30 and wiper mechanism 40, what transmission mechanism 30 turned round in the vertical direction around lautertuns 10 Swing mechanism and 30 part of transmission mechanism is immersed in lautertuns 10, filter assemblies 20 include the filter cloth for being attached at transmission mechanism 21, wiper mechanism 40 is set to 10 outside of lautertuns and is located on the circuit of transmission mechanism 30 to clean filter cloth 21.With The design method cleans filter cloth 21 by being provided with wiper mechanism 40, can remove the impurity on filter cloth 21 so that filter Cloth 21 can be with the preferable filter effect of permanent retention.Further, relative to it is existing using manually being cleaned to filter cloth or For person regularly replaces filter cloth, which can effectively reduce cost of labor and equipment cost.

Preferably, filter assemblies 20 further include the filter plate 22 being fixed in lautertuns 10, and filter plate 22 is included in angle The first filter plate 221 and the second filter plate 222 of setting, the part that filter cloth 21 is located at lautertuns 10 fits in the first filter plate 221 and second filter plate 222.It, can be in the first filter plate 221 of angle setting and the second filter plate 222 with the design method Increase filter area, speed filtering rate.Preferably, the angle of the first filter plate and the second filter plate is 90 degree.

Preferably, transmission mechanism 30 includes motor 31, at least four transmission shafts 32 and at least two synchronous belt mechanisms 33, The output shaft of motor 31 is connected with one end of the one of transmission shaft 32, and synchronous belt mechanism 33 includes synchronous belt 331 and synchronizing wheel 332, synchronizing wheel 332 is fixed on the transmission shaft 32, and synchronous belt 331 and synchronizing wheel 332 engage, and filter cloth 21 is fixed on described same It walks on band 331.Preferably, at least two synchronous belts are set in parallel.

It is appreciated that the number of transmission shaft 32 can just realize the ring in the vertical direction of transmission mechanism 30 at four or more It is turned round around lautertuns 10 and 30 part of transmission mechanism is immersed in lautertuns 10.The number of transmission shaft 32 is preferably in the present embodiment 5.

It is appreciated that the number of synchronous belt mechanism 33 can cause filter cloth 21 to can be good at being sticked in two or more On synchronous belt 331.The number of synchronous belt mechanism 33 is preferably 3 in the present embodiment.

Further, duct type microfroc filter 100 further includes waste water collection tank 80, and wiper mechanism 40 carries out filter cloth 21 The waste water of cleaning generation is discharged by waste water collection tank 80.

Referring to Fig. 2, lautertuns 10 includes the cushion chamber 11, filter chamber 12 and the spill cavity 13 that set gradually, filter plate 22 are set in the filter chamber 12, and 11 bottom of cushion chamber offers a water inlet 1111 and a water outlet 1121, water inlet The side separated in 1111 connection filter chambers 12 by filter plate 22, water outlet 1121 connect what filter chamber 12 was separated by filter plate 22 Opposite side, spill cavity 13 are connected with cushion chamber 11 and filter chamber 12.With the design method, water inlet 1111 and water outlet 1121 design in the bottom of cushion chamber 11, improve the design space of inflow and outflow, can effectively reduce duct type precision mistake The floor space of filter.The spill cavity 13 overhauled for duct type microfroc filter 100 or other in special circumstances, tap water Spill cavity 11 can be overflowed to from filter chamber 12, then flow back into cushion chamber 11 and discharge.

It please refers to Fig.1, Fig. 3 and Fig. 4, it is preferred that wiper mechanism 40 includes the first wiper mechanism 41 and the second wiper mechanism 42, filter cloth 21 one section outside lautertuns 10 is successively by the first wiper mechanism 41 and the second wiper mechanism 42, the first cleaning Mechanism 41, which is set to transmission mechanism 30 and is sticked, the one side of filter cloth 21, and the second wiper mechanism 42, which is set to transmission mechanism 30 and is sticked, to be had The back of 21 one side of filter cloth.With the design method, the impurity on filter cloth 21 is rinsed by low pressure purge mechanism 41 and is loosened, then The impurity on filter cloth 21 is rinsed by the second wiper mechanism 42, extraordinary flushing effect can be obtained, maximumlly Remove the impurity on filter cloth 21 so that filter cloth 21 obtains preferable filter effect.Preferably, the first wiper mechanism 41 is clear for low pressure Washing machine structure, the water of the first wiper mechanism 41 access is the tap water of common hydraulic pressure.Second wiper mechanism 42 is high-pressure wash mechanism, The water of second wiper mechanism 42 access is the high pressure water after plunger pump is adjusted, due to being connected with plunger pump, the second cleaning machine The output hydraulic pressure of structure 42 can be adjusted.

Preferably, the first wiper mechanism 41 includes the first protective cover 411, at least two be set to inside the first protective cover First jet 412 and the first hairbrush 413 being installed on the first protective cover 411, at least two first jets 412 perpendicular to It is set in a row on the direction of 21 traffic direction of filter cloth, the first hairbrush 413 contact filter cloth 21.With the design method, by being provided with First hairbrush 413, the impurity that the first hairbrush 413 can develop first jet 412 are cleaned to obtain preferable punching Effect is washed, further, the first hairbrush 413 is also prevented from the flushing water splashes of the ejection of first jet 412, and to go out first anti- Shield 411.Preferably, first jet 412 is set in two rows of, and two rows of first jets 412 are set in angle, the direction of nozzle and filter Cloth 21 is in angle.

Preferably, the second wiper mechanism 42 includes the second protective cover 421, at least two be set to inside the second protective cover Second nozzle 422 and the second hairbrush 423 being installed on the second protective cover, at least two second nozzles 422 are perpendicular to filter It is set in a row on the direction of 21 traffic direction of cloth, the second hairbrush 423 contact filter cloth.With the design method, by being provided with second Hairbrush 423, the impurity that the second hairbrush 423 can develop second nozzle 422 is cleaned is imitated with obtaining preferable rinse Fruit, further, the flushing water splashes that the second hairbrush 423 is also prevented from the ejection of second nozzle 422 go out the second protective cover 421。

It please join Fig. 5, duct type microfroc filter 100 further comprises strainer 50, and strainer 50 is fixed on filtering On slot 10, the one floating mount of transmission shaft 32 is on strainer 50.It, can by adjusting strainer 50 with the design method To change the tensioning degree of synchronous belt 331 so that transmission mechanism 30 operates steadily.

Specifically, strainer 50 include guide rail supporting frame 51, slipper bearing 52, spring 53, screw 54, baffle 55 and Nut 56, guide rail supporting frame 51 are fixed on lautertuns 10, and baffle 55 is fixed on one end of guide rail supporting frame 51, slipper bearing 52 It is set to 51 inside of guide rail supporting frame and is slidably matched with guide rail supporting frame 51, one end of screw 54 and slipper bearing 52 are fixed and connected It connects, the other end of screw 54 passes through baffle 55, and spring 53 is between slipper bearing 52 and baffle 55 and spring 53 is set in silk On bar 54, nut 56 is located at the back that baffle 55 is provided with 53 one side of spring, 54 thread fitting of nut 56 and screw, sliding block axis It holds 52 and is provided with a matching hole 521, the one of transmission shaft 32 is threaded through in matching hole 521.It is then i.e. adjustable by turning nut 56 Position of the slipper bearing 52 inside guide rail supporting frame 51 is saved, so as to adjust the position of transmission shaft 32, and then adjusts and synchronizes With 331 tensioning degree so that transmission mechanism operates steadily.

In other embodiments, the strainer 50 can be hydraulic push rod either electric pushrod hydraulic push rod or The telescopic shaft of electric pushrod is connected with the one of transmission shaft 32, the position of the flexible i.e. adjustable transmission shaft 32 by adjusting telescopic shaft It puts, so as to adjust the tensioning degree of synchronous belt 331.

Please refer to Fig.1, Fig. 6 and Fig. 7, the direction of transfer of the first filter plate 221 along synchronous belt offer the first groove 2211, The number and position of first groove 2211 and synchronous belt 331 are corresponding, and part of the synchronous belt 331 in lautertuns 10 is located at the In one groove 2211；And/or second the direction of transfer of filter plate 222 along synchronous belt offer the second groove 2221, the second groove 2221 and synchronous belt 331 number and position it is corresponding, part of the synchronous belt 331 in lautertuns 10 is located at the second groove In 2221.With the design method, pass through the first groove 2211 and/or the second filter plate 222 opened up on the first filter plate 221 On the second groove 2221 for opening up to accommodate synchronous belt 331, then synchronous belt 331 is limited in what is opened up on the first filter plate 22 It advances in the second groove 2221 opened up on first groove 2211 and/or the second filter plate 222, it can be to synchronous belt 331 then The effect of physics correction is played to filter cloth 12, preventing filter cloth 12 from deflecting causes filter effect bad.

Preferably, shape of first filter plate 221 between two neighboring first groove 2211 for V-arrangement or waveform or Person's zigzag, the region on the first filter plate 221 between two neighboring first groove 2211 are provided with several first through hole 2212；And/or second shape of the filter plate 222 between two neighboring second groove 2221 for V-type either ripple glaze type or Zigzag, the region on the first filter plate 222 between two neighboring second groove 2222 are provided with several the second through-holes 2222.With the design method, the first filter plate 221 and the second filter plate 222 by designed between adjacent groove forming V-shape or Person's waveform or zigzag can further increase filter area, improve filter efficiency.

The filtering equipment method of operation is as follows：

Tap water to be filtered enters the intake chamber 111 of cushion chamber 11 from the water inlet 1111 of cushion chamber 11, then from buffering The intake chamber 111 of chamber 11 flows to the first filter plate 221 of filter chamber 12 and the side of the second filter plate 222, it is to be filtered originally Water penetrates into the another of the first filter plate 221 and the second filter plate 222 from the side of the first filter plate 221 and the second filter plate 222 Side, the impurity in tap water are kept out the filter cloth 21 on the first filter plate 221 and the second filter plate 221 is fitted in, and are filtered The water outlet 1121 of tap water afterwards from the water-supplying chamber 112 of cushion chamber 11 flows out, and fits in the first filter plate 221 and the second filtering The filter cloth 21 of plate 222 is brought to transmission mechanism 30 outside lautertuns 10, and the first wiper mechanism 41 set outside lautertuns 10 is first right Filter cloth 21 carries out once flushing, and then the second wiper mechanism 42 carries out secondary flushing to filter cloth 21 again, and filter is attached to so as to remove Impurity on cloth 21 so that filter cloth 21 regains preferable filter effect, and the filter cloth 21 after flushing is again with transmission mechanism 30 It is brought in lautertuns 10 and tap water is filtered, move in circles.

The above embodiment is only the preferred embodiment of the present invention, it is impossible to the scope of protection of the invention is limited with this, The variation and replacement for any unsubstantiality that those skilled in the art is done on the basis of the present invention belong to institute of the present invention Claimed range.

Claims (10)

1. a kind of duct type microfroc filter, the tap water in being produced for filter plant, it is characterised in that：Including lautertuns, Filter assemblies, transmission mechanism and wiper mechanism, the transmission mechanism is in the vertical direction around lautertuns revolution and institute It states linkage section to be immersed in the lautertuns, the filter assemblies include the filter cloth for being attached at the transmission mechanism, institute Wiper mechanism is stated to be set to outside the lautertuns and clean the filter cloth on the circuit of the transmission mechanism.

2. duct type microfroc filter as described in claim 1, it is characterised in that：The wiper mechanism includes the first cleaning machine Structure and the second wiper mechanism, the filter cloth one section outside the lautertuns is successively by first wiper mechanism and described Second wiper mechanism, first wiper mechanism, which is set to the transmission mechanism and is sticked, the one side of the filter cloth, and described second Wiper mechanism, which is set to the transmission mechanism and is sticked, the back of the filter cloth one side.

3. duct type microfroc filter as claimed in claim 2, it is characterised in that：It is anti-that first wiper mechanism includes first Shield, at least two first jets being set to inside first protective cover and be installed on first protective cover One hairbrush, at least two first jets are set in a row on the direction of the filter cloth traffic direction, and described first Hairbrush contacts the filter cloth；And/or

Second wiper mechanism includes the second protective cover, at least two second nozzles being set to inside second protective cover And the second hairbrush on second protective cover is installed on, at least two second nozzles are run perpendicular to the filter cloth It is set in a row on the direction in direction, second hairbrush contacts the filter cloth.

4. such as claim 1-3 any one of them duct type microfroc filters, it is characterised in that：The transmission mechanism includes electricity The one of machine, at least four transmission shafts and at least two synchronous belt mechanisms, the output shaft of the motor and the transmission shaft One end connects, and the synchronous belt mechanism includes synchronous belt and synchronizing wheel, and the synchronizing wheel is fixed on the transmission shaft, described Synchronous belt and synchronizing wheel engagement, the filter cloth fitting are fixed on the conveyer belt.

5. duct type microfroc filter as claimed in claim 4, it is characterised in that：The duct type microfroc filter is further Including strainer, the strainer is fixedly connected with the lautertuns, and the one floating mount of the transmission shaft is in described On strainer.

6. duct type microfroc filter as claimed in claim 5, it is characterised in that：The strainer includes guide supporting Frame, slipper bearing, spring, screw, baffle and nut, the guide rail supporting frame are fixed on the lautertuns, the baffle One end of the guide rail supporting frame is fixed on, the slipper bearing is set to inside the guide rail supporting frame and and the guide rail branch Support is slidably matched, and one end of the screw is fixedly connected with the slipper bearing, and the other end of the screw passes through the gear Plate, the spring is between the slipper bearing and the baffle and the spring is set on the screw, the nut There are the back of the spring one side, the nut and wire rod thread cooperation, the sliding block axis positioned at the baffle plate setting It holds and is provided with a matching hole, the one of the transmission shaft is threaded through in the matching hole.

7. duct type microfroc filter as claimed in claim 4, it is characterised in that：The filter assemblies, which further include, is fixed on institute The filter plate in lautertuns is stated, the filter plate includes the first filter plate and the second filter plate that are set into angle, the filter cloth First filter plate and second filter plate are fitted in positioned at the part of the lautertuns.

8. duct type microfroc filter as claimed in claim 7, it is characterised in that：First filter plate is along the synchronous belt Direction of transfer offer the first groove, the number and position of first groove and the synchronous belt are corresponding, described same Part of the band in the lautertuns is walked to be located in first groove；And/or

The direction of transfer of second filter plate along the synchronous belt offers the second groove, second groove with it is described synchronous The number of band and position are corresponding, and part of the synchronous belt in the lautertuns is located in second groove.

9. duct type microfroc filter as claimed in claim 8, it is characterised in that：Two neighboring institute on first filter plate Shape between the first groove is stated as V-arrangement either waveform or zigzag, two neighboring described the on first filter plate Region between one groove is provided with several first through hole；And/or

Shape on second filter plate between two neighboring second groove is V-arrangement either waveform or zigzag, Region on second filter plate between two neighboring second groove is provided with several the second through-holes.

10. duct type microfroc filter as claimed in claim 7, it is characterised in that：The lautertuns includes what is set gradually Cushion chamber, filter chamber and spill cavity, the filter plate are set in the filter chamber, the cushion chamber bottom offer one into The mouth of a river and a water outlet, the water inlet connect the side separated in the filter chamber by the filter plate, and the water outlet connects Lead to the opposite side that the filter chamber is separated by the filter plate, the spill cavity connects with the cushion chamber and the filter chamber It is logical.